# EzMedSource — Full Content Dump for AI Agents > This is the deep companion to [/llms.txt](https://shop.ezmedsource.com/llms.txt). Same site, but with full guide bodies and the freshest product pages rendered as markdown so you can answer questions directly without scraping HTML. ## Catalog snapshot - 11,644 approved canonical product models - 84 manufacturers - 6 modalities covered - 11 approved vendors with active listings ## Product categories - [Device](https://shop.ezmedsource.com/products?type=device) — 5,193 models - [Sterilizer](https://shop.ezmedsource.com/products?type=sterilizer) — 2,646 models - [Part](https://shop.ezmedsource.com/products?type=part) — 1,145 models - [Patient Monitor](https://shop.ezmedsource.com/products?type=patient-monitor) — 967 models - [Accessory](https://shop.ezmedsource.com/products?type=accessory) — 560 models - [Defibrillator](https://shop.ezmedsource.com/products?type=defibrillator) — 283 models - [Infusion Pump](https://shop.ezmedsource.com/products?type=infusion-pump) — 190 models - [EKG Machine](https://shop.ezmedsource.com/products?type=ekg-machine) — 108 models - [Anesthesia Machine](https://shop.ezmedsource.com/products?type=anesthesia-machine) — 96 models - [Surgical Light](https://shop.ezmedsource.com/products?type=surgical-light) — 73 models - [Surgical Table](https://shop.ezmedsource.com/products?type=surgical-table) — 69 models - [Surgical Microscope](https://shop.ezmedsource.com/products?type=surgical-microscope) — 66 models - [Testing Equipment](https://shop.ezmedsource.com/products?type=testing-equipment) — 66 models - [Pulse Oximeter](https://shop.ezmedsource.com/products?type=pulse-oximeter) — 45 models - [Patient Bed](https://shop.ezmedsource.com/products?type=patient-bed) — 43 models - [Ventilator](https://shop.ezmedsource.com/products?type=ventilator) — 41 models - [Ultrasound](https://shop.ezmedsource.com/products?type=ultrasound) — 29 models - [Lab Analyzer](https://shop.ezmedsource.com/products?type=lab-analyzer) — 14 models - [Endoscope](https://shop.ezmedsource.com/products?type=endoscope) — 5 models - [X-Ray](https://shop.ezmedsource.com/products?type=x-ray) — 5 models ## Top manufacturers - [Philips](https://shop.ezmedsource.com/manufacturers/philips) — 1,310 products - [GE](https://shop.ezmedsource.com/manufacturers/ge) — 685 products - [Masimo](https://shop.ezmedsource.com/manufacturers/masimo) — 155 products - [Zoll](https://shop.ezmedsource.com/manufacturers/zoll) — 155 products - [Mindray](https://shop.ezmedsource.com/manufacturers/mindray) — 114 products - [Welch Allyn](https://shop.ezmedsource.com/manufacturers/welch-allyn) — 102 products - [Nihon Kohden](https://shop.ezmedsource.com/manufacturers/nihon-kohden) — 99 products - [Embra Medical](https://shop.ezmedsource.com/manufacturers/embra-medical) — 71 products - [Physio-Control](https://shop.ezmedsource.com/manufacturers/physio-control) — 70 products - [Laerdal](https://shop.ezmedsource.com/manufacturers/laerdal) — 67 products - [CareFusion](https://shop.ezmedsource.com/manufacturers/carefusion) — 39 products - [Spacelabs](https://shop.ezmedsource.com/manufacturers/spacelabs) — 36 products - [Datex Ohmeda](https://shop.ezmedsource.com/manufacturers/datex-ohmeda) — 35 products - [Covidien](https://shop.ezmedsource.com/manufacturers/covidien) — 30 products - [Defibtech](https://shop.ezmedsource.com/manufacturers/defibtech) — 28 products - [Eitan](https://shop.ezmedsource.com/manufacturers/eitan) — 27 products - [Nellcor](https://shop.ezmedsource.com/manufacturers/nellcor) — 27 products - [Datascope](https://shop.ezmedsource.com/manufacturers/datascope) — 24 products - [Inovytec](https://shop.ezmedsource.com/manufacturers/inovytec) — 24 products ## Modalities ## Buying guides (full content) ### Choosing an Ultrasound System — A Buyer's Guide _Cart vs portable vs handheld, transducer fit, image quality, software licenses, and a structured framework for clinical-area-specific selection._ > Source: https://shop.ezmedsource.com/guides/choosing-an-ultrasound-system > Published: 2026-04-30 > Author: EzMedSource editorial team A practical buyer's guide for ultrasound systems across cart-based, portable, and handheld form factors. Covers transducer selection, image-quality evaluation, software licensing, and the questions sonographers and biomed actually care about. Ultrasound systems vary more than almost any other equipment class — by form factor, by clinical application, by transducer compatibility, and by software licensing models that quietly multiply over the device's lifetime. This is a buyer's guide for procurement, biomed, and sonography teams selecting ultrasound systems. ![Four ultrasound form factors (cart, portable, POCUS, handheld) at relative scale](https://storage.googleapis.com/ezmedsource-product-images/guides/3fe8aa34-b833-4f19-b9de-231d7644d6e2/diagram-choosing-an-ultrasound-system.png) *Four ultrasound form factors (cart, portable, POCUS, handheld) at relative scale* ## Step 1 — pick form factor by use case Three architectures dominate. **Cart-based premium** — full-feature ultrasound for radiology, cardiology, OB/GYN imaging suites. Best image quality, full transducer support, sophisticated post-processing. Examples: GE LOGIQ E10/E11, Philips EPIQ Elite, Samsung HERA W10/Z20, Mindray Resona R9, Canon Aplio i-Series. **Portable cart / mid-tier** — full clinical capability in a smaller chassis, often shared between rooms. Examples: GE LOGIQ P10 BT22, Philips Affiniti, Mindray DC-90. **Compact / point-of-care (POCUS)** — portable laptop-style, common in ED, ICU, anesthesia, OB triage. Examples: GE Venue Go, SonoSite PX, Mindray TE7, Philips Lumify (tablet-attached). **Handheld** — pocket-sized, smartphone or tablet display, point-of-care immediate use. Examples: Butterfly iQ3, GE Vscan Air, Philips Lumify, Clarius. Choose by the clinical decisions the device supports. POCUS for triage looks nothing like radiology workflow. ## Step 2 — transducers are the product The console matters; the transducers matter more. Each transducer is purpose-built for a clinical region. Common families: - **Curved (convex) abdominal/OB** — 1–8 MHz, deep penetration - **Linear vascular/MSK/small parts** — 5–15 MHz, high resolution at depth - **Phased array cardiac** — 1–5 MHz, narrow footprint for between ribs - **Endocavitary** (TV, TR) — 5–10 MHz, internal applications - **High-frequency linear** (15–22 MHz) — superficial MSK, dermatology - **3D/4D volume probes** — OB, breast, MSK - **TEE** (transesophageal echo) — cardiology specialty Transducers are often the most expensive line items in the order. Plan transducer fleet by clinical workload, not by what the salesperson packages. A radiology system with no high-frequency linear is hobbled for vascular work, but you don't need a TEE probe in the ED. Cross-compatibility: some transducers work across console generations from the same OEM; many don't. If your installed base has 15 transducers across 4 consoles, transducer compatibility on the new console is a major factor. ## Step 3 — image quality evaluation Image quality is the heart of the buying decision and the hardest to evaluate. The right way to evaluate: - **In-suite trial** with the actual sonographers who will use the device, on real patients across the actual mix of cases. - **Phantom testing** is necessary but not sufficient — phantoms don't reveal tissue-specific behavior. - **Compare against your incumbent** with the same patient if possible. - **Side-by-side comparison** of two finalist devices on the same patient is the gold standard but logistically hard. - **Have multiple sonographers evaluate** — taste varies and you need consensus. Evaluation criteria the team should rate per device: - B-mode penetration vs resolution at depth - Color/spectral Doppler sensitivity at low velocities - Speckle reduction without losing edge information - Harmonic imaging quality - Knobology — how many clicks for routine workflow steps - 3D/4D volume rendering quality (if applicable) - Image consistency across body habitus (slim, average, obese patients) ## Step 4 — software licensing trap Modern ultrasound is heavily software-driven, and software is increasingly licensed separately. Verify before signing: - **Advanced applications** — Strain elastography, shear wave, contrast-enhanced US, 3D/4D, automated measurements, AI-assisted protocols. Each may require separate license. - **Subscription vs one-time** — Increasingly subscription. Term length, renewal cost, what happens at end of subscription. - **EMR/PACS integration** — DICOM is standard but vendor-specific implementation quirks matter; integration may be a paid module. - **Worklist integration** — DICOM Modality Worklist, usually basic but verify. - **Reporting / structured reporting** — Cardiology in particular needs DICOM SR support; verify against your reporting system. Get the 5-year all-in license cost in writing. ## Step 5 — workflow and ergonomics Sonographers are at high risk for repetitive strain and musculoskeletal injury. Workflow ergonomics matter. - Monitor articulation — height, tilt, swivel - Keyboard / control panel articulation - Trackball vs touchscreen — preferences vary by sonographer - Gel warmer location - Footprint vs room size - Cable management — gels, transducers, biopsy guides Have sonographers physically use the device for an extended scan session before commit. ## Step 6 — service, support, EOL - OEM service typically required for image quality calibration; ISOs play a smaller role here than for other equipment classes. - Multi-year service contracts with image-quality guarantees if available. - Software update / version cadence and cost. - End-of-support announcements — premium consoles can have surprisingly short support windows. Verify. - Loaner program for outage handling. ## Step 7 — used and refurbished considerations Refurbished ultrasound is a viable market, especially for cart-based systems past their first 3–4 years. Per the refurbished-equipment guide on this site, key criteria apply: refurbisher transparency, transducer condition, software version, OEM-authorized depot vs ISO. Caveat: software/license transferability on used systems is a major issue. The hardware works; the licensed advanced apps may not transfer to a new owner. Verify with the OEM (not just the refurbisher) before purchase. ## Common mistakes - Optimizing for B-mode in a cardiology system (color/spectral Doppler is what cardiology lives on). - Underestimating transducer cost — they often equal or exceed the console cost. - Not running an in-suite trial — the demo room is not your clinical reality. - Buying advanced apps you won't use because they're "in the bundle." - Skipping ergonomic evaluation. RSI risk is real and persistent. - Overlooking PACS integration nuance until after install. Ultrasound rewards thorough buying because the device's daily user — the sonographer — has strong opinions and is the difference between a great purchase and a regretted one. Let them lead the evaluation. --- ### Choosing a Mechanical Ventilator — A Buyer's Guide _ICU vs transport vs home, modes and graphics, NIV capability, recall history, and the questions respiratory therapy actually cares about._ > Source: https://shop.ezmedsource.com/guides/choosing-a-mechanical-ventilator > Published: 2026-04-30 > Author: EzMedSource editorial team A buyer's guide for mechanical ventilators in ICU, transport, and post-acute settings. Covers ventilation modes, NIV support, graphics, sensor packages, and the questions respiratory therapy and biomed teams should ask before commit. Ventilators are high-acuity, high-consequence equipment with a complex evaluation process. Specifications matter, but so does the relationship between the device, respiratory therapy practice, and your hospital's clinical protocols. This is a structured buyer's guide for mechanical ventilators across ICU, transport, NICU, and post-acute use. ![Ventilator classes by clinical setting (ICU, transport, sub-acute, NICU)](https://storage.googleapis.com/ezmedsource-product-images/guides/c24516c6-80d7-457b-a637-f1ace6f7eb3f/diagram-choosing-a-mechanical-ventilator.png) *Ventilator classes by clinical setting (ICU, transport, sub-acute, NICU)* ## Step 1 — match class to clinical setting Ventilators are not interchangeable across settings. Pick the class first. **ICU ventilators** — full mode portfolio, advanced graphics, dual-circuit pneumatics, integrated O2 blender. Examples: Hamilton G5/C6, Maquet Servo-u/Servo-i, Drager Evita V/V300/V500/V800, Puritan Bennett 980, Mindray SV300. **Transport ventilators** — battery-powered, portable, simplified mode set, ruggedized. Examples: Hamilton T1, Drager Oxylog 3000+, Zoll EMV+, Puritan Bennett 540. **Sub-acute / long-term care** — patient-portable, single-circuit, simpler interface for non-ICU staff. Examples: Trilogy 100/200, Astral 150, V60 Plus. **NICU/pediatric** — purpose-built for neonatal lung mechanics, often HFOV-capable. Examples: Drager Babylog VN500, Hamilton C6 with pediatric mode, SLE6000. **Anesthesia ventilators** are integrated into anesthesia machines and not bought separately — out of scope here. ## Step 2 — modes and clinical fit Mode availability matters most when your protocols call for specific modes. Standard table-stakes for ICU vents: - VC (volume control), PC (pressure control), VC/PC-IMV - PSV (pressure support), CPAP - SIMV variants - BiLevel / APRV - NIV (non-invasive ventilation) — both face mask and helmet interfaces Advanced modes that vary across vendors: - Adaptive Support Ventilation (Hamilton ASV) - Proportional Assist Ventilation (PAV+, Puritan Bennett) - Neurally Adjusted Ventilatory Assist (NAVA, Maquet) — requires Edi catheter - Volume-controlled with pressure-regulated breath delivery (PRVC variants) - High-flow oxygen therapy integration Map your respiratory therapy team's preferred modes against vendor support before short-listing. ## Step 3 — graphics, monitoring, and trends Modern ventilators are essentially specialized data displays. Evaluate: - **Loop graphics** (P-V, F-V) and the size/clarity of the touchscreen - **Trend storage** — minutes/hours/days, exportability - **Alarm management** — escalation, tiering, smart-alarm support - **Esophageal pressure monitoring** support (advanced ARDS protocols) - **End-tidal CO2 integration** (capnography display alongside ventilator data) - **Stress index / driving pressure** display The clinical team that uses graphics constantly will tell you which device is "the most readable at 3 AM with a sick patient." That is a real evaluation criterion. ## Step 4 — NIV capability Non-invasive ventilation is a big part of modern respiratory care, especially post-COVID. Check: - True dedicated NIV mode (not just "use PSV with a mask") - Leak compensation algorithms — quality varies dramatically - Mask library and fit-test workflow - Trigger sensitivity in NIV mode - Helmet interface compatibility for high-PEEP NIV If your facility runs HFNC + NIV protocols, also check whether the same device supports both or if HFNC needs a separate setup. ## Step 5 — disposables, circuits, and lock-in This is where lifecycle cost lives. - **Patient circuits** — single-limb vs dual-limb, heated vs unheated, single-patient-use vs reusable - **Filters** — HEPA, HMEs, expiratory, frequency of replacement - **O2 cell** — replaceable wear item with characteristic lifespan - **Flow sensors** — proprietary or open standard - **Test lung / calibration kit** — periodic calibration is non-negotiable - **Endotracheal tube and HME accessories** — may or may not have brand lock-in Build a 5-year disposables cost model at projected utilization. The model often surprises buyers. ## Step 6 — recall and reliability history Ventilators have an outsized share of recalls — the Philips foam recall is the most consequential in the device space ever. Check: - FDA recalls and warning letters for the manufacturer + specific model - The OEM's transparency on recalls — do they self-report and remediate, or wait for FDA action? - Loaner fleet availability during recall remediation - Service technician availability for in-place repairs This research takes 30 minutes and can change your shortlist. ## Step 7 — service, training, and contracts - OEM-trained biomeds and your team's qualifications - Annual PM availability and cost - Spare parts availability — vents have many parts, lead times matter - Loaner program during repairs - Multi-year service contract with price caps - Respiratory therapy training included or charged separately Negotiate a multi-year service contract at purchase — post-warranty pricing leaps are real. ## Step 8 — questions worth asking - "Which clinical sites in our region use this model? Can we visit?" - "What's the typical respiratory therapy training time for a switchover?" - "Show me the NIV leak-compensation behavior on a 30 L/min leak — graphics and trigger response." - "What software-update path do you support? OTA, USB, biomed-installed?" - "What's the breakdown rate per 1000 patient-days across your install base?" - "If we are mid-pandemic surge and need 20 more units, what is your supply chain story?" ## Common mistakes - Buying ICU mode complexity for sub-acute setting (or the reverse). - Underestimating disposables long-tail. - Skipping respiratory therapy in the buying decision — they will use it more than anyone. - Buying single-vendor fleet without considering supply-chain risk. - Not budgeting training time. RT credentialing on a new vent takes hours, not minutes. Ventilators reward clinically-driven evaluation more than almost any other equipment class. Let RT lead, with biomed and procurement guard-railing the financial and technical pieces. --- ### Choosing a Defibrillator — Hospital and Pre-Hospital Buyer's Guide _Manual, AED, monophasic vs biphasic, biphasic waveforms, CPR feedback, code-cart fit: a structured way to pick._ > Source: https://shop.ezmedsource.com/guides/choosing-a-defibrillator > Published: 2026-04-30 > Author: EzMedSource editorial team A practical buyer's guide for defibrillators in hospital code-cart, pre-hospital EMS, and AED-deployment use. Covers waveform types, manual vs AED operation, CPR feedback, accessory fit, and what to negotiate. Defibrillators are life-safety equipment with an unusual buying dynamic: small fleet sizes, very long replacement cycles (10–15 years), and clinical decisions that overlap heavily with code-team training and the device's UI conventions. This guide is for hospital procurement, EMS chiefs, and AED-program managers selecting defibrillators. ![Manual / AED / dual-mode defibrillator architectures by user audience](https://storage.googleapis.com/ezmedsource-product-images/guides/c4de2989-f43a-4550-92c4-acff7bedc47c/diagram-choosing-a-defibrillator.png) *Manual / AED / dual-mode defibrillator architectures by user audience* ## Step 1 — pick the right class for the use Three classes serve different scenarios. **Manual defibrillator/monitor** — code-cart unit, manual energy selection, manual rhythm interpretation by clinician, ECG monitoring + pacing + cardioversion. Examples: Philips HeartStart MRx, Zoll R Series and X Series, Stryker (Physio-Control) LIFEPAK 15. **Semi-automated external defibrillator (AED)** — first-responder unit, automated rhythm analysis, voice-prompted, low training overhead. Examples: Philips HeartStart FRx, Zoll AED Plus/3, Stryker LIFEPAK CR2, Defibtech Lifeline. **Manual + AED dual-mode** — hospital code-cart and pre-hospital units that operate as AED for non-clinician use and manual for clinician use. Most modern hospital units fall here. Choose by user audience: clinician-only → manual; lay-rescuer → AED; mixed → dual. ## Step 2 — waveform technology All modern defibrillators are biphasic (the energy reverses direction mid-shock). Monophasic units are obsolete; if you have any, replace. Within biphasic, three waveform families are clinically validated: - **Biphasic Truncated Exponential (BTE)** — Zoll, Stryker LIFEPAK - **Rectilinear Biphasic** — Zoll R Series - **Biphasic Pulsed Capacitive** — Philips, Defibtech Clinical outcome data shows comparable defibrillation success rates across waveforms when the manufacturer's protocol energy levels are used. The waveform is not the buying decision. The escalation protocol and the user interface are. ## Step 3 — CPR feedback features Modern resuscitation guidelines emphasize high-quality CPR. Defibrillators with CPR feedback measurably improve compression depth and rate. Features to evaluate: - **Real-time depth and rate display** (visual + audible). - **Compression-pause notifications** ("press harder", "compress faster", "stop compressions for analysis"). - **Post-code review.** Compression metrics download for code-team debrief and ongoing training. - **Filter modes** that let providers see ECG underneath compressions (modern advanced feature). CPR feedback is now table stakes for code-cart units. AEDs increasingly have it for lay-rescuer use too. ## Step 4 — accessories and consumables Pads dominate consumables cost. They're proprietary, single-use, expire, and need to be in every code cart and AED cabinet at all times. - **Pad cost** per unit, per pediatric pair, per multi-function (defib + ECG monitoring + pacing). - **Expiration cycle** — typically 18–30 months. Track expiration in your CMMS so codes don't fail because of expired pads. - **Pad compatibility across your fleet** — buying one manufacturer keeps pad inventory simple. Multi-vendor fleets multiply SKU count. - **Pediatric pads/keys** — required wherever pediatric patients are possible. Battery is the second consumable. Lithium primary (long shelf life, single-use) vs rechargeable (cycle life, replace every 2–4 years). ## Step 5 — code-cart and cabinet fit Manual defibs need to fit on the standard code cart in your hospital. AEDs need to fit in your designated cabinets. Sounds trivial — verify before ordering. Also confirm: - Mounting brackets compatible with cart vendor. - Charging cradle for rechargeable units. - Disposable accessory pouches on the unit. ## Step 6 — training and certification overhead The defibrillator UI shapes how code teams perform under stress. Switching defibs at scale requires retraining at every unit. - Training time per provider for a new model (estimate 30 minutes for AED, 1–2 hours for manual). - Vendor's training resources (online, in-person, train-the-trainer). - Mock-code drills with the new device before go-live. If you're switching brands, plan a 90-day transition with both old and new in service so providers can ramp without exposure during real codes. ## Step 7 — service, support, and EOL - Battery and pad supply chain — primary supplier, secondary supplier, lead time. - Service contract or T&M repair? With a 10–15 year hold period, contracts may be worthwhile. - EOL date — manufacturers do EOL defibrillators. Check the model's announced support window before commit. - Recall responsiveness — defibs occasionally recall (battery, software). Confirm vendor's recall handling process. ## Common mistakes - Buying on price for code-cart units. The 2–4× cost vs an AED reflects features that matter in clinician hands. - Multi-vendor fleets that multiply pad inventory. - Underestimating retraining when switching brands. - Skipping CPR feedback because "we have a metronome." Real-time feedback is measurably better than ambient cues. - Forgetting AEDs need annual checks (battery, pads, self-test logs). Build the maintenance into your CMMS. Defibrillators are infrequent purchases with long-tail consequences. Spend the day on the buying decision; you'll live with it for a decade. --- ### Choosing an Infusion Pump — A Buyer's Guide _Drug libraries, interoperability, smart-pump features, recall risk: how to evaluate infusion pumps for hospital and infusion-clinic use._ > Source: https://shop.ezmedsource.com/guides/choosing-an-infusion-pump > Published: 2026-04-30 > Author: EzMedSource editorial team A practical guide to selecting infusion pumps for hospital, infusion-clinic, and home-care use. Covers drug-library architecture, EMR interoperability, smart-pump features, recall history, and what to negotiate. Infusion pumps are the most-deployed device class in most hospitals — and the one with the most safety incidents, recalls, and patient-impact when they fail. Choosing well matters in a way few other device decisions do. This is a buyer's guide for biomed, pharmacy, and procurement teams selecting infusion pumps. ![Four infusion-pump architectures (LVP, PCA, syringe, ambulatory) side-by-side](https://storage.googleapis.com/ezmedsource-product-images/guides/6235fd29-7c6d-415c-ad72-45ffc3cf8ea7/diagram-choosing-an-infusion-pump.png) *Four infusion-pump architectures (LVP, PCA, syringe, ambulatory) side-by-side* ## Step 1 — match the pump class to the use case Three architectures dominate. **Large-volume pumps (LVP)** — multi-channel, modular, wired or wireless network capable. Backbone for inpatient infusion. Examples: BD Alaris System, Baxter Spectrum IQ, ICU Medical Plum 360. **Patient-controlled analgesia (PCA)** — pumps with patient-trigger button, lockout intervals, dose limits. Examples: Smiths CADD, Hospira/ICU PCA modules. **Syringe pumps** — small-volume, high-precision delivery. NICU, anesthesia, critical drips. Examples: B Braun Perfusor, Smiths Medfusion 4000, Fresenius. **Ambulatory** — patient-portable for home and infusion-clinic. Examples: Smiths CADD-Solis, ICU Medical Sapphire. Your fleet needs depend on which clinical scenarios you support. Most hospitals end up with 2–3 architectures across pediatrics, critical care, and med/surg. ## Step 2 — drug library is the product The pump hardware barely matters. The drug library is the product. Evaluate: - **Library structure.** Care-area-specific libraries (ICU adult, NICU, ED, oncology). Each with its own drug-concentration, dose-limit, and infusion-rate parameters. - **Hard limits vs soft limits.** Hard limits prevent the infusion entirely; soft limits warn but allow override. The mix matters and varies by drug. - **CQI feedback.** Does the pump phone home its overrides and exceptions, so pharmacy can analyze and tune the library? - **Library deployment cadence.** How are library updates pushed to pumps? Wireless OTA (good), USB stick (operationally painful), one-pump-at-a-time biomed (untenable at fleet scale). - **Authoring tooling.** Who builds and maintains the library — the pump vendor, your pharmacy team, a third party? What's the editorial workflow? A pump with a great hardware UX and a weak library deployment story will be a daily friction point. ## Step 3 — EMR interoperability Modern infusion is bidirectional with the EMR. **Auto-programming** (smart-pump → EMR): the EMR sends the infusion order down to the pump, the nurse confirms, the pump auto-programs. Reduces transcription errors. Demands tight EMR integration (Epic Bridges, Cerner CareAware, Meditech). **Documentation back-flow** (pump → EMR): the pump auto-documents start, rate changes, completions, alarms back to the patient chart. Reduces nursing documentation burden. Verify: - The vendor has live integrations with your specific EMR (not "compatible with all standards"). - Bidirectional integration is supported, not just one direction. - IT and EMR teams have bandwidth for the integration project (typically 3–6 months for go-live). - Cost of integration is in the proposal. ## Step 4 — recall history matters Infusion pumps have an outsized share of recalls. Check before signing. Search the FDA recalls database (accessdata.fda.gov/scripts/cdrh/cfdocs/cfRES/res.cfm) by manufacturer and product. Look at the last 10 years. Recurring recalls on the same model is a flag. Recurring recalls on the same root cause across the manufacturer's portfolio is a brighter flag. This is a public-data exercise. Twenty minutes saves a fleet. ## Step 5 — battery and reliability Pumps run on batteries during patient transport, power outages, and ambulatory use. Battery quality and replacement cycle directly impact uptime. - **Runtime.** Specified at typical infusion rate, not minimum. Test against your actual use case. - **Battery replacement cost.** Per-pump and per-fleet. - **Battery condition monitoring.** Does the pump report battery health? Can you proactively replace before failure? ## Step 6 — service and support - Are biomeds OEM-trained on this model? Training availability? - Parts availability and lead time — a fleet of pumps with 4-week parts lead time is a different fleet than 1-week. - Loaner program for outages. - Software support timeline. EOL announcements often surprise buyers. ## Step 7 — pricing levers - Library deployment service can be bundled or charged separately. Negotiate. - Drug library development services can be bundled or charged separately. - Training (pharmacy + nursing) can be bundled or charged separately. Bundle. - Multi-year service contracts with price caps protect against the post-warranty cliff. - Trade-in programs on legacy pumps from the same manufacturer. ## Common mistakes - Buying the pump hardware in isolation. The drug library, EMR integration, and CQI tooling are 80% of the value. - Underestimating drug library work. First library build is 6–12 months of pharmacy effort. - Underestimating recall risk. Check FDA data before commit. - Skipping pilot. Pumps interact with nursing workflow constantly — pilot finds friction the demo doesn't. - Buying for current acuity instead of growing acuity. Infusion pumps reward thorough buying and punish lazy buying more than almost any other device class. --- ### Choosing a Patient Monitor — A Buyer's Guide _Multi-parameter monitors, telemetry, central stations: clinical fit, network integration, total cost — and the questions that get missed._ > Source: https://shop.ezmedsource.com/guides/choosing-a-patient-monitor > Published: 2026-04-30 > Author: EzMedSource editorial team A practical buyer's guide to selecting patient monitors. Covers multi-parameter monitors, telemetry, and central-station infrastructure — what to evaluate clinically, what to evaluate technically, and what to negotiate. Patient monitors are deceptive. The hardware looks similar across vendors. The actual buying decision is mostly about three things buyers underweight: parameter fit to clinical use, network and EMR integration, and the long-tail cost of consumables and accessories. This guide is for biomed and procurement teams selecting patient monitors at the unit, modular, or central-station level. ![Modular patient monitor architecture vs fixed configurable monitor](https://storage.googleapis.com/ezmedsource-product-images/guides/5d32cc99-f198-4441-8aea-c968917c9fb9/diagram-choosing-a-patient-monitor.png) *Modular patient monitor architecture vs fixed configurable monitor* ## Step 1 — start with the clinical use case Before talking to vendors, write down the clinical scenarios this monitor will support. The right monitor for an ED bay is not the right monitor for a step-down unit, an OR, or transport. Document for each clinical area: - **Acuity level.** ICU acuity demands invasive pressure monitoring (multiple lines), advanced hemodynamics, and arrhythmia analysis. Med/surg often does not. - **Required parameters.** ECG, SpO2, NIBP, IBP, EtCO2, temperature, respiration. Optional: cardiac output, BIS, CO2 capnography, multi-gas anesthesia analysis. - **Mobility.** Bedside-only, transport-capable, or transport-required. - **Network.** Wired Ethernet, Wi-Fi, or both. Must reach the central station? Must integrate with EMR? - **Power.** Always plugged in, or battery-runtime-critical (transport, OR)? - **Print/paper.** Local strip print, network print, or paperless. The vendor demo should be against your scenarios, not their canned ones. ## Step 2 — modularity vs. configurable Two architectures dominate. **Modular monitors** (Philips IntelliVue MX/MP, GE CARESCAPE B650/B850, Mindray BeneVision N-series) accept slot-in parameter modules. You buy the chassis once and add modules as the clinical scope expands. Higher initial cost, lower long-tail upgrade cost. **Configurable monitors** (lower-tier offerings, transport monitors, single-acuity units) are bought to a spec and don't expand much. Lower initial cost, replacement cycle when needs grow. Choose modular when: - Clinical acuity varies across the same unit - You expect to expand parameter scope over a 5–7 year horizon - Standardization across the hospital is a goal (one chassis, many modules) Choose configurable when: - Single-purpose use case (transport, low-acuity) - Budget driven decisively - Clinical needs are stable ## Step 3 — central station + network considerations If monitors will report to a central station, the central station is the more important purchase. Bedside monitors are commodities; central stations and their software are not. Verify: - **EMR integration.** HL7 v2 minimum, FHIR for new builds. Test against your specific EMR — Epic, Cerner, Meditech, Allscripts each have quirks. - **Network requirements.** Some OEM networks require dedicated VLANs, switches, or even physical infrastructure (siemens dedicated wireless). Get IT involved early. - **Number of beds per central station.** Software licensing usually scales by bed count. Buy headroom for 2-year growth, not just current. - **Cybersecurity posture.** Are firmware updates patchable? Is the central station running a supported OS? Annual security audits and FDA cybersecurity guidance now require active patch management. - **Storage and retention.** Trend data, alarms, waveforms. Retention period and archive options matter for clinical review and quality audits. ## Step 4 — accessories and consumables This is where the long-tail cost lives. - **ECG cables and lead wires.** Reusable wash-and-go vs. disposable. Dispatch this through nursing leadership before vendor decision — proprietary connectors can lock you in. - **NIBP cuffs.** Adult, pediatric, neonatal sizing across all units. Disposable vs reusable. - **SpO2 sensors.** Masimo Rainbow, Nellcor OxiMax, GE TruSignal. **Critical:** sensor contracts often outweigh the monitor purchase. The monitor "supports" multiple SpO2 technologies but the sensors come at sensor-vendor list. Negotiate sensor pricing as part of the monitor PO. - **Probes.** Temperature, IBP transducers, EtCO2 lines. Build a 5-year consumables cost model per monitor. Compare it to the unit price. Decisions reverse. ## Step 5 — questions that catch vendors off guard Ask these in the demo. The answers are revealing. - "What's the path to switch SpO2 sensor brands later? Lock-in or open?" - "Show me the actual EMR integration flow with our EMR (Epic/Cerner/Meditech). What HL7 segments do you populate?" - "What's the firmware patch cadence and how is it delivered? Subscription, bundled, or charged?" - "What's the central station's supported OS, and what's the EOL date?" - "Show me alarm fatigue mitigation — alarm escalation, smart alarms, customization." - "What's the total cost of accessories for one monitor over 5 years at our census?" - "What's the loaner policy when a monitor goes down?" ## Step 6 — pilot before fleet Patient monitors are a fleet purchase. Don't fleet-buy without a pilot: - 4–8 monitors in one unit for 90 days. - Track: nurse satisfaction, false-alarm rate, accessory consumption, network reliability, central-station integration. - Pull the trigger on full fleet only after pilot data validates. ## Common mistakes - Buying the high-acuity monitor for a low-acuity unit because "we might need it." Wasted spend. - Underestimating accessories budget. Sensor and cable spend often equals 40% of monitor lifecycle cost. - Ignoring central-station software licensing scale. - Not budgeting nursing training. Patient monitor UI is the most-touched UI in nursing — training matters. - Buying without IT involvement. Network and EMR integration always more complex than vendor implies. The monitor itself rarely wins or loses the deal once you know your clinical use case. Network, integration, and consumables decide. --- ### A Practical Replacement Planning Guide for Hospital Biomed Fleets _When to repair, when to refurbish, when to replace — and how to build a defensible multi-year capital plan from CMMS data._ > Source: https://shop.ezmedsource.com/guides/biomed-equipment-replacement-planning-guide > Published: 2026-04-30 > Author: EzMedSource editorial team A repeatable framework for biomed and capital-planning teams to decide which devices to replace, when, and with what. Uses CMMS data, service-cost ratios, and lifecycle signals rather than gut. Most hospitals replace equipment on one of two signals: it breaks beyond repair, or the depreciation schedule ran out. Neither is a good signal. This guide is for biomed and capital planners who want a defensible, repeatable replacement-planning process that produces a 3–5 year capital plan and can withstand a finance committee's scrutiny. ![Four replacement signals shown as a 2x2 quadrant](https://storage.googleapis.com/ezmedsource-product-images/guides/ecc11db1-1cec-4975-98b8-18ffd2b77807/diagram-biomed-equipment-replacement-planning-guide.png) *Four replacement signals shown as a 2x2 quadrant* ## The four replacement signals A device is a replacement candidate when **two or more** of these are true: **1. Service cost ratio above threshold.** Annualized service and repair cost exceeds 30% of new-unit cost. Above 50%, replacement is almost always correct. **2. End of OEM support.** Parts or software no longer available from the OEM, or ISO coverage is thinning. The device does not have to be broken — support attrition alone can be decisive. **3. Technology obsolescence.** The clinical standard has moved. Older ultrasound without harmonic imaging, older defibrillators without waveform analysis, older ventilators without modern modes. Clinical risk rises even if the device works. **4. Failure-rate trend.** Mean-time-between-failures has crossed into out-of-band territory for that device type relative to your fleet median. Single signals rarely justify capital spend. Two or more make the case. ## Building the plan from CMMS data Most CMMS systems contain everything you need: - Device inventory with install dates. - Work-order history with labor hours and parts costs. - Downtime events. - PM compliance and variance. A useful aggregated view per device: - Years in service. - Total lifetime service cost. - Annualized service cost (last 3 years). - Service-cost ratio vs new-unit cost. - Failure events in the last 12 and 24 months. - OEM support status. Sort devices by service-cost ratio descending. The top decile is your replacement shortlist. The second decile is your watch list. ## Scoring replacements for priority With more candidates than budget, score each: - **Clinical impact** (1–5): is failure a patient-safety event, a workflow inconvenience, or purely economic? - **Utilization** (1–5): is the device running at 80%+ or sitting in storage? - **Service cost ratio** (1–5): 10% → 1; 50%+ → 5. - **Support status** (1–5): in OEM support → 1; EOL with thin ISO coverage → 5. - **Downtime history** (1–5): frequency of unplanned outages. Sum the scores. Replace from the top down until budget is exhausted. Document the method — finance will respect the framework even when they push back on an individual line. ## Funding options — not all replacements are capital Consider these before adding an item to the capital budget: - **OEM trade-in credits.** Many OEMs offer structured trade-in programs that return meaningful value on aged fleets. - **Refurbished replacement.** For standardization fleets (patient monitors, pumps), refurbished OEM often clears the clinical bar at 40–60% of new-unit cost and frees capital for higher-priority replacements. - **Operating leases.** Smooth capital impact; useful for devices where technology obsolescence is a real risk and you do not want to hold the asset. - **Rental-to-own.** Lets you validate a model before committing capital; common for surgical and high-end imaging. - **Service contract conversion.** Sometimes restructuring a service contract into a managed-service arrangement with the OEM/ISO can defer replacement. ## A 5-year capital plan structure The plan should live on a single page per device category: - Year, device type, quantity, unit cost, funding source. - Replacement trigger for each line (referenced to the scoring above). - Downstream implications: training, space, networking, integration. This is the document you bring to finance. It is also the document that gives clinical leadership confidence in the process. ## Handling the edge cases **Beloved but obsolete.** Clinicians resist replacing devices they love. Pilot the replacement device with the clinical champions first, and give them veto early. **Replaced into a shortage.** Current events (post-pandemic ventilators, periodic anesthesia shortages) can disrupt procurement. Build in optionality — two qualified models, two qualified vendors. **Recall-forced replacement.** A Class I recall on a device you had slated for replacement in 3 years accelerates the plan. Document the forcing event separately; finance will want the paper trail. **End-of-life software.** Increasingly common — the device works but the OEM stops patching. Treat as a support-status signal; plan replacement within 18 months of end-of-patch. ## The planning discipline Run this process annually. Between cycles, update the CMMS aggregation monthly. Capital planning improves when it is a living process, not an October scramble. The plan is a tool. The tool is only as good as the data behind it and the rigor in applying it. When both are present, capital planning stops being a defensive exercise and becomes a strategic one. --- ### How to Evaluate a Medical Equipment Vendor Before You Buy _Qualifications, paperwork, references, and on-site checks — the evaluation playbook most hospitals learn only after a bad purchase._ > Source: https://shop.ezmedsource.com/guides/how-to-evaluate-a-medical-equipment-vendor > Published: 2026-04-30 > Author: EzMedSource editorial team A structured checklist for evaluating medical equipment vendors — ISOs, OEM depots, distributors, refurbishers — before a single PO is issued. Separates reputable from reboxed-and-resold. The vendor you choose matters more than the model you choose. A bad refurbishment from a marginal vendor is a safety event; a good refurbishment from a rigorous vendor is indistinguishable from new. Here is how to tell the difference **before** you sign anything. ![Six-step vendor evaluation funnel](https://storage.googleapis.com/ezmedsource-product-images/guides/c1960ff2-003c-4143-84cc-f1160f62d392/diagram-how-to-evaluate-a-medical-equipment-vendor.png) *Six-step vendor evaluation funnel* ## Part 1 — Before first contact Do your homework in open sources. Takes 20 minutes per vendor. - **Business registration.** Confirm the entity is an active business in its state of formation. Silent flag: dissolved LLCs still listing inventory. - **FDA establishment registration.** For anyone who manufactures, refurbishes, or remanufactures: the FDA Establishment Registration & Device Listing database is public. Absence is a conversation starter, not automatic disqualification — some legitimate service-only businesses are not required to register. - **State medical device licensing** where applicable (e.g., California's HSC Chapter 4). - **FDA enforcement history.** Search the FDA Warning Letters and 483 Observations databases for the vendor's name. - **BBB / state AG complaints.** Quick signal on pattern issues. - **Domain and entity age.** A medical equipment vendor with a six-month-old domain and a PO box is a signal, not a conclusion. - **LinkedIn**. Does the technical leadership exist and have relevant background? Companies with no identifiable technical staff are a flag. ## Part 2 — On the phone / video Ask these. The answers, and the confidence with which they are given, matter. - "Who performs the actual refurbishment or service work? Where?" - "Are your technicians OEM-trained, and which OEMs?" - "What's your first-pass yield on refurbishment — how often do units come back?" - "What service manuals do you work against?" - "Are you ISO 13485 certified? ISO 9001? What's your last audit result?" - "Can you share three references from hospital customers currently buying from you?" - "What's your DOA rate and your 90-day failure rate?" - "How do you handle recalls on devices you've sold?" Good vendors answer these crisply. Marginal vendors deflect, negotiate the question, or promise to "get back to you." ## Part 3 — Documentation they should produce on request For each device quoted: - Refurbishment or service report tied to serial number. - Parts replaced, OEM or aftermarket. - Electrical safety test results. - Functional test results per OEM procedure. - Software / firmware version installed. - Recall-status statement. For the vendor itself: - Current ISO 13485 certificate (for refurbishers). - Technician training certificates, current within 3 years. - Liability and product insurance, current. - Written quality policy. If a vendor bristles at providing these, they are telling you something. ## Part 4 — References Three is a minimum, not a maximum. Ask each reference: - How long have you bought from them? - What device categories? - What's the failure rate compared to your overall fleet average? - How are they on warranty work — responsive, argumentative, or ghosting? - Would you choose them again? (If hesitation, probe.) - Is there a category you would not buy from them? ## Part 5 — Pilot before scale When the evaluation is positive but the vendor is new to your hospital, do a pilot: - Small order (2–5 devices) of a non-critical device type. - Document incoming inspection findings. - Track failure rate for 90 days against your fleet baseline. - Evaluate warranty responsiveness on the first service event. If the pilot clears, scale. If it doesn't, the cost of one bad pilot order is negligible compared to a fleet-wide problem. ## Part 6 — Ongoing vendor management Evaluation is not a one-time event. - Track per-vendor failure rates in your CMMS. - Review annually. - Be willing to deprecate a vendor who drifts. Vendor quality does drift — personnel turnover, ownership changes, capacity pressure. - Maintain at least two qualified vendors per device category so you are never single-sourced. ## The short version If you remember nothing else: **paperwork, references, pilot.** Vendors who will not produce paperwork, will not share references, or will not accept a pilot are telling you exactly what kind of vendor they are. The evaluation takes time. The alternative is paying for that learning with a bad purchase — which costs more. --- ### Total Cost of Ownership for Medical Equipment — What Your Capital Budget Misses _Purchase price is typically 20–40% of lifetime cost. A framework for modeling the other 60–80% before you sign a PO._ > Source: https://shop.ezmedsource.com/guides/medical-equipment-total-cost-of-ownership > Published: 2026-04-30 > Author: EzMedSource editorial team Capital budgets show the PO. They do not show the service contracts, disposables, software licenses, accreditation-driven upgrades, or disposal cost that determine what a device actually costs you over 10 years. The lowest-PO device is not the lowest-cost device. Across most medical equipment categories, the capital purchase is 20–40% of the lifetime cost. The remaining 60–80% is visible only after the device is installed, if it is visible at all. This is a framework for modeling total cost of ownership (TCO) before you issue a PO, and a checklist of the line items that get missed. ![Five total-cost-of-ownership buckets shown as a stacked donut](https://storage.googleapis.com/ezmedsource-product-images/guides/4a669f96-e13b-4700-8068-09811b60de1a/diagram-medical-equipment-total-cost-of-ownership.png) *Five total-cost-of-ownership buckets shown as a stacked donut* ## The five TCO buckets **1. Acquisition cost** — what shows up on the PO. Unit price, installation, initial training, room prep. **2. Operating cost** — disposables, reagents, consumables, printer paper, probes, leads, batteries. Also power and compressed-gas consumption for high-draw devices. Software subscription renewals. **3. Service and maintenance** — service contracts, time and materials repair, planned preventive maintenance, upgrades to maintain regulatory status, calibration, loaner-equipment fees during downtime. **4. Compliance and risk** — training updates when clinical staff turn over, electrical-safety testing, recall remediation, cybersecurity patching on networked devices, FDA reporting if the device generates a MAUDE. **5. End-of-life** — deinstallation, data sanitization, disposal (especially for devices with lead, mercury, or high-activity radioactive sources), trade-in value or lack thereof. ## The TCO line items that get missed Every procurement team tracks PO price. Fewer track: - **Accreditation-driven upgrades.** Joint Commission, DNV, and payer audits push fleet upgrades on cycles independent of clinical need. Budget a ~15% mid-life cost bump for devices that touch accreditation scope. - **Cybersecurity patching.** Networked devices need patching. Some OEMs charge for patch packages or tie them to active service contracts. Track the cost of "the device stays HIPAA-compliant." - **Software license renewals.** Advanced imaging analytics, EMR integrations, and modality-specific add-ons increasingly ship as subscriptions. The unit price does not include them beyond year 1. - **Consumables lock-in.** Closed reagent systems, proprietary probes, and single-source disposables create long-tail cost that can exceed the device price within 3 years. - **Loaner fees.** When a high-utilization device goes down, clinical operations need a replacement. Some service contracts include loaners; many charge. - **Training turnover.** Average nursing turnover is 15–25% per year. If training is not ongoing, clinical proficiency degrades and so does safety. - **End-of-life disposal.** Safe, documented disposal can cost thousands per device for anything with lead, mercury, or radioactive components. Trade-in programs help; confirm the program still exists at disposal time. ## A simple 10-year model For most capital devices, a good first-pass TCO model looks like this: - Acquisition: 25–35% of TCO - Service contract (all 10 years): 20–30% - Consumables: 15–40% (varies wildly by device) - Software / licenses / cybersecurity: 5–10% - Training and process cost: 3–8% - End-of-life: 2–5% Run the numbers before negotiations. A 15% PO discount is often worth less than a 5% multi-year service-contract discount. ## Levers you can pull to lower TCO - **Negotiate service in the capital PO.** Multi-year service with price caps is almost always cheaper when bundled at purchase than when added later. - **Push back on proprietary consumables.** Where the clinical standard allows multi-source disposables, insist on it. If the device requires proprietary consumables, price them into the TCO at projected volume, not at list. - **Consider refurbished for the fleet backbone.** Standardizing fleet on a refurbished primary model expands the parts pool and reduces service-contract leverage against you. See the refurbished buyer's guide on this site. - **Buy capacity, not peaks.** A 90th-percentile-sized fleet of mid-range devices usually beats a 99th-percentile-sized fleet of top-tier devices over 10 years. - **Plan end-of-life in year 7.** Don't be forced into rushed replacement at year 10. ## Red flags at the quote stage - Service contract pricing "locked" only for the first year. - Consumables not included in the quoted 10-year cost model. - Software licenses quoted as one-time when they are actually subscriptions. - Trade-in values promised without contractual backing. - "We'll discount the unit if you take the standard service contract" — standard contracts are usually the worst rates. ## TCO is a negotiation tool, not just a model Walking into a procurement negotiation with a modeled TCO fundamentally changes the conversation. You are no longer negotiating unit price; you are negotiating lifecycle cost. Vendors prepared for price comparisons are not always prepared for TCO comparisons, and that asymmetry is where savings live. The PO is the start. It is not the cost. --- ### ISO vs OEM Service for Medical Equipment — a Decision Framework _Independent service organizations vs the original equipment manufacturer: what changes, what does not, and how to decide by device type._ > Source: https://shop.ezmedsource.com/guides/iso-vs-oem-service-for-medical-equipment > Published: 2026-04-30 > Author: EzMedSource editorial team The ISO vs OEM debate is not one decision — it is a different decision per device type, per age, per risk profile. A practical framework for choosing service providers across a hospital equipment fleet. Asking "ISO or OEM?" as a blanket question is usually asking the wrong question. The right question is: **for this device, at this point in its lifecycle, at this risk profile, which service route gives the best clinical and financial outcome?** That answer varies by device type. This is a framework, not a recommendation. ![Device-class fit matrix between ISO and OEM service providers](https://storage.googleapis.com/ezmedsource-product-images/guides/84528279-11e9-4ec9-b6dd-a8ed76f95398/diagram-iso-vs-oem-service-for-medical-equipment.png) *Device-class fit matrix between ISO and OEM service providers* ## What each provider is optimized for **OEM service** optimizes for: - Complete access to service manuals, schematics, and proprietary diagnostic tools. - Genuine replacement parts without provenance question. - Recall remediation that is automatically tracked and documented. - Reputational protection for the OEM, which aligns with clinical safety on the rare but consequential edge cases. **ISO (Independent Service Organization)** optimizes for: - Lower labor rates, often 30–50% below OEM rates. - Faster response on non-urgent service (OEM techs travel farther and schedule tighter). - Negotiable service contracts — ISOs will customize coverage and hours in ways OEMs usually will not. - Willingness to service devices past the OEM's official end-of-support date. Neither lane is universally better. Choose by device risk, age, and strategic importance. ## A decision framework by device class ### Life-support and imaging (ventilators, anesthesia machines, linear accelerators, MRI, CT) **Default to OEM** for in-warranty and first-five-years-of-service windows. Failure modes are high-consequence; OEM access to software, service bulletins, and parts trains matters more than the price delta. Consider qualified ISOs after year 5 if the ISO has **specific, named service credentials** on that model and can demonstrate OEM-authorized training. ### Patient monitoring (multi-parameter monitors, telemetry, central stations) Mixed. OEM makes sense during the support window for the central-station / network components. Monitors and modules at scale are an ISO wheelhouse — the service procedures are well-documented, parts are available through secondary markets, and the failure modes are mostly well-understood. ### Infusion, feeding, and drug-delivery pumps **Strong ISO case** once out of warranty. High device count, well-understood service procedures, cost per service event is small, and the OEM markup on labor is large. Track the failure rate closely — if any model spikes, inspect your ISO's procedures. ### Sterilizers, washers, and central-sterile equipment **Prefer OEM or OEM-authorized.** Regulatory and validation documentation matters. An unrecognized service provider's records can jeopardize a Joint Commission survey. ### Endoscopes, surgical energy devices, laser equipment **OEM or OEM-trained depot.** Device-specific calibration and optical alignment is not generic knowledge; ISOs that do good work in this space are specialists, not generalists. ### Power beds, stretchers, transport **ISO or in-house biomed.** The OEM premium is rarely justified. ## The hybrid model most hospitals land on After working through the above, most programs end up with: - **OEM-serviced**: imaging, linear accelerators, sterilizers, surgical-suite devices, and anything in-warranty. - **ISO-serviced**: patient monitors, infusion pumps, GI scopes (from a specialist ISO), beds, transport. - **In-house biomed**: routine PM, first-line troubleshooting, minor repairs across the fleet regardless of provider. The mix is why this is a framework, not a recommendation. ## Questions before you sign an ISO service contract - Which specific models are covered, and who at the ISO is trained on each? - Are technicians OEM-trained, and can they provide proof? - What is your parts sourcing — OEM, OEM-authorized distributor, or aftermarket? What is the warranty on installed parts? - Response-time SLAs, and what happens when they are missed? - How are recall notifications handled? - Is service-event documentation compatible with our CMMS import? - What are the exit terms? Is there handoff support if we move back to OEM? ## Red flags across providers (ISO and OEM) - A quote that is conspicuously cheaper than the market. "Cheap" in medical service is a warning. - No documentation of technician qualifications. - No written SLA. - Parts warranties shorter than the parts' typical failure period. - Refusal to provide a list of hospital references. ISO vs OEM is a lifecycle decision, not a single purchase decision. Revisit it every time a device crosses a warranty line, an end-of-support date, or changes clinical criticality. --- ### The Refurbished Medical Equipment Buyer's Guide _What "refurbished" actually means, how to evaluate a refurbisher, and the right questions to ask before you issue a PO._ > Source: https://shop.ezmedsource.com/guides/refurbished-medical-equipment-buyers-guide > Published: 2026-04-30 > Author: EzMedSource editorial team A practical guide for biomed and procurement teams evaluating refurbished medical equipment. Learn what "refurbished" really means, how refurbishment tiers differ, and which questions separate legitimate suppliers from resellers reboxing used gear. Refurbished medical equipment can cut capital costs by 30–60% versus new while delivering clinical performance indistinguishable from factory-fresh units — when it's done right. The problem is that "refurbished" is a marketing word, not a regulated one. Two sellers can use the word to mean completely different things. This guide is for biomed, clinical engineering, and procurement leaders who need to separate the two. ![The four refurbishment tiers (cosmetic, functional, full, OEM-recertified) shown as ascending stylized bars](https://storage.googleapis.com/ezmedsource-product-images/guides/f0e9cd5b-19fe-4a10-9165-aeb6a870a6f6/diagram-refurbished-medical-equipment-buyers-guide.png) *The four refurbishment tiers (cosmetic, functional, full, OEM-recertified) shown as ascending stylized bars* ## What "refurbished" should mean At a minimum, a refurbished device has been: 1. **Inspected** against the manufacturer's service bulletins for known failure points at that serial-number range. 2. **Reconditioned** — wear items (batteries, pneumatics, printer paper paths, seals) replaced or tested to spec. 3. **Functionally tested** end-to-end against OEM service-manual procedures. 4. **Safety-tested** — electrical safety (IEC 60601-1 leakage, ground bond), and where applicable, patient-lead integrity. 5. **Software-updated** to the current OEM-sanctioned firmware, subject to licensing and recall status. 6. **Documented** with a refurbishment report serialized to the device, including tests run and parts replaced. A "cleaned and tested" listing is not refurbished. Ask. ## Refurbishment tiers The industry has no official grading system, but in practice you will see four levels: - **Cosmetic only** — wiped down, cable ties replaced, visually acceptable. No internal work. Cheapest, most risk. - **Functional refurb** — the six-step checklist above, minus cosmetic rework. - **Full refurb** — functional plus cosmetic (new housing, keypad overlays, screen polishing). - **Recertified / OEM-refurbished** — performed by the OEM or an OEM-authorized depot using factory procedures. Warranties match or approach new-unit warranties. Price scales with tier. So does longevity of the result. ## Questions to ask before you buy These questions will tell you more than the listing description ever will. - **Who performed the refurbishment?** In-house technicians, a contracted ISO, or the OEM? Get a name. - **What service manual revision did you work against?** If the seller can't cite one, move on. - **Was the device ever under an FDA recall or safety corrective action?** If so, is that remediation applied? - **Can I see the refurbishment report?** A reputable seller produces one per device, tied to serial number. - **What is the warranty, and what does it cover?** "30-day DOA" is not a warranty; it's a return policy. Look for parts-and-labor coverage measured in months or years. - **What software / firmware version is installed, and is it the current OEM-supported revision?** - **What happens if the device fails in use?** Loaner policy, turnaround time, shipping arrangement. - **Is the device export-restricted or subject to EPA / state disposal rules for shipment back?** Relevant for imaging. ## Red flags - Listing says "tested" but will not share a checklist. - No serial number provided on the listing. - "Parts-only" units being pitched as working. - A seller that won't name its technicians or their qualifications. - Condition grades that do not map to anything documented. - Extremely low prices with no warranty. (If the margin for real refurbishment is there, it's priced there.) ## What to do on delivery Regardless of the refurbisher's paperwork, incoming-inspection belongs to you: 1. Unbox in the presence of a second person and photograph. 2. Confirm serial numbers match the paperwork. 3. Run the OEM operational verification procedure (OVP) before the device goes into clinical service. 4. Log the refurbishment report into your CMMS and tag the device with its refurbished status for future recall cross-checks. ## When refurbished makes sense - Fleet standardization (you have a dominant install base at the model level; refurbished units extend your parts pool). - Clinical backup / surge capacity. - Sites where new-equipment capital doesn't pencil. - Departments that would otherwise buy third-party models to hit budget — refurbished OEM usually beats new off-brand. ## When to buy new - A device type your team has no service experience with. - Models at end-of-life or end-of-service-support within your intended hold period. - Any situation where OEM warranty coverage is the deciding factor. Refurbished done right is an asset. Done wrong, it's a liability. The difference is entirely in the rigor of the refurbisher — the word itself guarantees nothing. --- ## Recently-added products (full markdown) # Unknown ETC 13809 Shoulder Bolt 1/2″ x 4-1/4″ – 1641 > Source: https://shop.ezmedsource.com/products/unknown-etc-13809-shoulder-bolt-1-2-x-4-1-4-1641 ## At a glance - **Manufacturer:** Unknown - **Model:** ETC 13809 Shoulder Bolt 1/2″ x 4-1/4″ – 1641 - **Category:** Device ## Description The ETC 13809 is a shoulder bolt assembly used in patient monitor and medical equipment assembly. This fastener is a standard component in equipment refurbishment and field repair kits for multimodal patient monitors and their modular accessories. Shoulder bolts serve to pivot or mount fixed components in monitor chassis and parameter module frames. This particular variant is sized 1/2" diameter by 4-1/4" length, conforming to the ETC 13809 specification. ## Tech Info - **Diameter:** 1/2" - **Length:** 4-1/4" - **Part Number:** ETC 13809 - **Specification/Reference:** 1641 ## Specifications | Spec | Value | | --- | --- | | Length | 4-1/4" | | Diameter | 1/2" | | Part Number | ETC 13809 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-etc-13809-shoulder-bolt-1-2-x-4-1-4-1641. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown GETINGE 513427R PC Control Board Remanufactured – 1655 > Source: https://shop.ezmedsource.com/products/unknown-getinge-513427r-pc-control-board-remanufactured-1655 ## At a glance - **Manufacturer:** Unknown - **Model:** GETINGE 513427R PC Control Board Remanufactured – 1655 - **Category:** Sterilizer ## Description The Getinge 513427R is a PC control board for Getinge 1655 sterilizer systems. It manages control logic and interface functions for the autoclave during sterilization cycles. This is a remanufactured unit. ## Specifications | Spec | Value | | --- | --- | | Part Number | 513427R | | Manufacturer | Getinge | | Compatible Equipment | Getinge 1655 | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-getinge-513427r-pc-control-board-remanufactured-1655. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown WASHER SOLUTIONS WS1710 Rotating Spray Arbor (MTP) – 1710 > Source: https://shop.ezmedsource.com/products/unknown-washer-solutions-ws1710-rotating-spray-arbor-mtp-1710 ## At a glance - **Manufacturer:** Unknown - **Model:** WASHER SOLUTIONS WS1710 Rotating Spray Arbor (MTP) – 1710 - **Category:** Sterilizer ## Description The Washer Solutions WS1710 is a rotating spray arbor (MTP) for medical equipment cleaning and decontamination systems. It is used in washer-disinfectors and automated cleaning stations to deliver rotating spray action during the wash cycle. The arbor mounts into the chamber and directs pressurized water and cleaning solution across instrumentation and equipment surfaces. ## Specifications | Spec | Value | | --- | --- | | Model | WS1710 | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-washer-solutions-ws1710-rotating-spray-arbor-mtp-1710. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P021504-091 Rubber Cylinder – 1787 > Source: https://shop.ezmedsource.com/products/unknown-steris-p021504-091-rubber-cylinder-1787 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P021504-091 Rubber Cylinder – 1787 - **Category:** Sterilizer ## Description The STERIS P021504-091 is a rubber cylinder assembly, part of STERIS sterilization equipment. This component is typically used as a replacement or spare part in STERIS sterilization systems. ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p021504-091-rubber-cylinder-1787. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P033432-051 Arm Clip Link – OBSOLETE – 1808 > Source: https://shop.ezmedsource.com/products/unknown-steris-p033432-051-arm-clip-link-obsolete-1808 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P033432-051 Arm Clip Link – OBSOLETE – 1808 - **Category:** Device ## Description The STERIS P033432-051 Arm Clip Link is listed as obsolete. This part carries a legacy designation (1808) and is no longer in active circulation. If you are seeking a replacement or compatible alternative for this arm clip assembly, contact a STERIS authorized parts distributor or service center. ## Specifications | Spec | Value | | --- | --- | | Status | Obsolete | | Part Number | P033432-051 | | Legacy Designation | 1808 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p033432-051-arm-clip-link-obsolete-1808. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P055330-091 Nameplate – OBSOLETE – 1844 > Source: https://shop.ezmedsource.com/products/unknown-steris-p055330-091-nameplate-obsolete-1844 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P055330-091 Nameplate – OBSOLETE – 1844 - **Category:** Device ## Description The STERIS P055330-091 is a nameplate component. This part is obsolete and no longer actively manufactured or supported by STERIS. ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p055330-091-nameplate-obsolete-1844. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P056401-011 Cable Assembly – 1858 > Source: https://shop.ezmedsource.com/products/unknown-steris-p056401-011-cable-assembly-1858 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P056401-011 Cable Assembly – 1858 - **Category:** Device ## Description The STERIS P056401-011 is a cable assembly designed for use in STERIS equipment. The assembly is identified as model 1858. No additional technical specifications or application details were provided in the source material. ## Specifications | Spec | Value | | --- | --- | | Model Number | P056401-011 | | Assembly Name | 1858 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p056401-011-cable-assembly-1858. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P077053-091 Safety Valve 1/2″ 85 PSI – 1880 > Source: https://shop.ezmedsource.com/products/unknown-steris-p077053-091-safety-valve-1-2-85-psi-1880 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P077053-091 Safety Valve 1/2″ 85 PSI – 1880 - **Category:** Device ## Description The STERIS P077053-091 is a safety valve rated for 85 PSI at 1/2″ connection. It is used in STERIS sterilizer systems to regulate pressure and prevent overpressure conditions in steam or gas supply lines. ## Tech Info - **Connection Size:** 1/2" - **Pressure Rating:** 85 PSI - **Part Number:** P077053-091 ## Specifications | Spec | Value | | --- | --- | | Connection Size | 1/2" | | Pressure Rating | 85 PSI | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p077053-091-safety-valve-1-2-85-psi-1880. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P090746-091 Terminal Block TB1 – 1920 > Source: https://shop.ezmedsource.com/products/unknown-steris-p090746-091-terminal-block-tb1-1920 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P090746-091 Terminal Block TB1 – 1920 - **Category:** Device ## Description The STERIS P090746-091 is a terminal block assembly (TB1) for STERIS sterilization equipment. It serves as an electrical connection point in the equipment's internal wiring harness. The part is identified as revision 1920. ## Specifications | Spec | Value | | --- | --- | | Revision | 1920 | | Part Number | P090746-091 | | Component Type | Terminal Block (TB1) | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p090746-091-terminal-block-tb1-1920. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P093909-639 EPROM – 1965 > Source: https://shop.ezmedsource.com/products/unknown-steris-p093909-639-eprom-1965 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P093909-639 EPROM – 1965 - **Category:** Device ## Description The STERIS P093909-639 is an EPROM replacement component for STERIS sterilization equipment. This is a firmware or memory module; verify compatibility with your specific STERIS system before ordering. ## Specifications | Spec | Value | | --- | --- | | Part Number | P093909-639 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p093909-639-eprom-1965. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P093911-364 Solenoid Valve 1/8″ – 1991 > Source: https://shop.ezmedsource.com/products/unknown-steris-p093911-364-solenoid-valve-1-8-1991 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P093911-364 Solenoid Valve 1/8″ – 1991 - **Category:** Device ## Description The STERIS P093911-364 is a solenoid valve from 1991 with a 1/8″ port size. It is typically found in STERIS sterilization and fluid-handling systems where electric switching of gas or liquid flows is required. The valve receives a solenoid coil energization signal and opens or closes to control flow through the port. ## Tech Info - **Port Size:** 1/8″ - **Manufacturer:** STERIS - **Part Number:** P093911-364 - **Year:** 1991 ## Specifications | Spec | Value | | --- | --- | | Year | 1991 | | Port Size | 1/8″ | | Part Number | P093911-364 | | Manufacturer | STERIS | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p093911-364-solenoid-valve-1-8-1991. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P093918-358 Door Counterweight Cable 37-1/4″ – 2004 > Source: https://shop.ezmedsource.com/products/unknown-steris-p093918-358-door-counterweight-cable-37-1-4-2004 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P093918-358 Door Counterweight Cable 37-1/4″ – 2004 - **Category:** Sterilizer ## Description The STERIS P093918-358 is a door counterweight cable for STERIS sterilization equipment, 37-1/4" in length. This cable is a replacement component used in the counterweight assembly of STERIS-brand steam sterilizers and related machines manufactured in or around 2004. It maintains tension and balance in the door mechanism during operation and opening cycles. ## Tech Info - **Length:** 37-1/4" - **Part Number:** P093918-358 - **Manufacturer:** STERIS - **Model Year:** 2004 ## Specifications | Spec | Value | | --- | --- | | Year | 2004 | | Length | 37-1/4" | | Part Number | P093918-358 | | Manufacturer | STERIS | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p093918-358-door-counterweight-cable-37-1-4-2004. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS D200058A Inline Exhaust Fan 12 Duct SS – OBSOLETE – 2047 > Source: https://shop.ezmedsource.com/products/unknown-steris-d200058a-inline-exhaust-fan-12-duct-ss-obsolete-2047 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS D200058A Inline Exhaust Fan 12 Duct SS – OBSOLETE – 2047 - **Category:** Device ## Description The STERIS D200058A is an inline exhaust fan with a 12-inch duct connection and stainless-steel construction. This unit is obsolete and listed for reference only. ## Specifications | Spec | Value | | --- | --- | | Material | Stainless steel | | Duct Size | 12 inch | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-d200058a-inline-exhaust-fan-12-duct-ss-obsolete-2047. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P117908-680 Bottom Door Gasket (Manual Door) – 2046 > Source: https://shop.ezmedsource.com/products/unknown-steris-p117908-680-bottom-door-gasket-manual-door-2046 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P117908-680 Bottom Door Gasket (Manual Door) – 2046 - **Category:** Sterilizer ## Description The STERIS P117908-680 is a replacement bottom door gasket for STERIS sterilizers with manual door operation. This gasket provides the seal between the door and chamber housing, critical for maintaining chamber pressure and sterility during the sterilization cycle. The part is designed for model 2046 units. ## Specifications | Spec | Value | | --- | --- | | Door Type | Manual | | Part Number | P117908-680 | | Compatible Model | 2046 | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p117908-680-bottom-door-gasket-manual-door-2046. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P117950-299 Power Supply – OBSOLETE – 2061 > Source: https://shop.ezmedsource.com/products/unknown-steris-p117950-299-power-supply-obsolete-2061 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P117950-299 Power Supply – OBSOLETE – 2061 - **Category:** Device ## Description The STERIS P117950-299 is a power supply for STERIS sterilization equipment. This unit is obsolete and no longer manufactured by STERIS. ## Specifications | Spec | Value | | --- | --- | | Status | Obsolete | | Part Number | P117950-299 | | Manufacturer | STERIS | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p117950-299-power-supply-obsolete-2061. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P117955-339 Top Sliding Door Guide – 2090 > Source: https://shop.ezmedsource.com/products/unknown-steris-p117955-339-top-sliding-door-guide-2090 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P117955-339 Top Sliding Door Guide – 2090 - **Category:** Device ## Description The STERIS P117955-339 is a top sliding door guide for the STERIS 2090 sterilizer. It is a replacement part designed to maintain smooth door operation on the unit. ## Specifications | Spec | Value | | --- | --- | | Part Number | P117955-339 | | Compatible Model | STERIS 2090 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p117955-339-top-sliding-door-guide-2090. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P117955-136 Pneumatic Cylinder 25″ Assembly – 2084 > Source: https://shop.ezmedsource.com/products/unknown-steris-p117955-136-pneumatic-cylinder-25-assembly-2084 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P117955-136 Pneumatic Cylinder 25″ Assembly – 2084 - **Category:** Device ## Description The STERIS P117955-136 is a pneumatic cylinder assembly, 25 inches long, for use in STERIS sterilization equipment. This component is a replacement part for pneumatic actuation systems within the specified equipment line. ## Tech Info - **Length:** 25 inches - **Part Number:** P117955-136 - **Manufacturer:** STERIS ## Specifications | Spec | Value | | --- | --- | | Length | 25 inches | | Part Number | P117955-136 | | Manufacturer | STERIS | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p117955-136-pneumatic-cylinder-25-assembly-2084. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P764317-536 Glass Lamp (Box of 10) – 2321 > Source: https://shop.ezmedsource.com/products/unknown-steris-p764317-536-glass-lamp-box-of-10-2321 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P764317-536 Glass Lamp (Box of 10) – 2321 - **Category:** Sterilizer ## Description The STERIS P764317-536 is a replacement glass lamp sold in a box of 10 units. Part number 2321. Intended for use in STERIS sterilization and processing equipment where lamp replacement is part of standard maintenance. ## Specifications | Spec | Value | | --- | --- | | Part Number | P764317-536 | | Package Quantity | 10 units | | Manufacturer Part Number | 2321 | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p764317-536-glass-lamp-box-of-10-2321. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P117950-703 Connecting Link – 2833 > Source: https://shop.ezmedsource.com/products/unknown-steris-p117950-703-connecting-link-2833 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P117950-703 Connecting Link – 2833 - **Category:** Sterilizer ## Description The STERIS P117950-703 is a connecting link identified by part number 2833. It is a component used in STERIS sterilization and medical equipment systems. Without additional technical documentation, the specific application, compatible equipment, and system role cannot be confirmed from the available product information. ## Specifications | Spec | Value | | --- | --- | | Part Number | P117950-703 | | Component ID | 2833 | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p117950-703-connecting-link-2833. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P117951-013 Pivot Pin 3/16 x1″ – 2842 > Source: https://shop.ezmedsource.com/products/unknown-steris-p117951-013-pivot-pin-3-16-x1-2842 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P117951-013 Pivot Pin 3/16 x1″ – 2842 - **Category:** Device ## Description The STERIS P117951-013 is a pivot pin, 3/16 inch diameter by 1 inch length. It is a replacement hardware component for STERIS sterilization equipment and related medical device assemblies. This pin is typically used in hinge, articulation, or pivot mechanisms where the original part has worn, corroded, or been lost. ## Tech Info - **Diameter:** 3/16 inch - **Length:** 1 inch - **Part Number:** P117951-013 ## Specifications | Spec | Value | | --- | --- | | Length | 1 inch | | Diameter | 3/16 inch | | Part Number | P117951-013 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p117951-013-pivot-pin-3-16-x1-2842. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P117901-756 Valve Connect Link 2-1/2″- 2855 > Source: https://shop.ezmedsource.com/products/unknown-steris-p117901-756-valve-connect-link-2-1-2-2855 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P117901-756 Valve Connect Link 2-1/2″- 2855 - **Category:** Sterilizer ## Description The STERIS P117901-756 Valve Connect Link is a 2-1/2" connector designed for use in STERIS sterilization and medical equipment systems. It provides a standardized connection point for fluid or gas transfer applications within STERIS equipment assemblies. Specific application context and compatible equipment should be verified against the system documentation or your equipment configuration. ## Tech Info - **Part Number:** P117901-756 - **Size:** 2-1/2" ## Specifications | Spec | Value | | --- | --- | | Size | 2-1/2" | | Part Number | P117901-756 | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p117901-756-valve-connect-link-2-1-2-2855. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P764324-406 Level Switch – 2385 > Source: https://shop.ezmedsource.com/products/unknown-steris-p764324-406-level-switch-2385 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P764324-406 Level Switch – 2385 - **Category:** Sterilizer ## Description The STERIS P764324-406 Level Switch – 2385 is a component for STERIS sterilization and high-level disinfection equipment. It monitors fluid or chamber levels in the system and signals when operating parameters drift outside acceptable range. The switch is typically integrated into control circuits that govern cycle execution and alert operators to service conditions. Consult your equipment manual or STERIS for compatibility with your specific model and installation requirements. ## Specifications | Spec | Value | | --- | --- | | Model | 2385 | | Part Number | P764324-406 | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p764324-406-level-switch-2385. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P764326-670 Temperature Control Board Warmer – 2425 > Source: https://shop.ezmedsource.com/products/unknown-steris-p764326-670-temperature-control-board-warmer-2425 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P764326-670 Temperature Control Board Warmer – 2425 - **Category:** Device ## Description The STERIS P764326-670 is a temperature control board for the 2425 warmer. It regulates heating output and maintains set temperature thresholds during operation. Replacement units are supplied new or refurbished. ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p764326-670-temperature-control-board-warmer-2425. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS BF14-100 Armboard Only (W/O Pad) – OBSOLETE – 2453 > Source: https://shop.ezmedsource.com/products/unknown-steris-bf14-100-armboard-only-w-o-pad-obsolete-2453 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS BF14-100 Armboard Only (W/O Pad) – OBSOLETE – 2453 - **Category:** Device ## Description The STERIS BF14-100 is an armboard frame assembly without an integrated pad or cushioning layer. It is used to support and position a patient's arm during IV insertion, blood draw, or other upper-extremity procedures. The product is no longer manufactured and is considered obsolete. ## Specifications | Spec | Value | | --- | --- | | Model | BF14-100 | | Status | Obsolete | | Manufacturer | STERIS | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-bf14-100-armboard-only-w-o-pad-obsolete-2453. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P338522-042 Dual Scale Chamber Gauge – OBSOLETE – 2989 > Source: https://shop.ezmedsource.com/products/unknown-steris-p338522-042-dual-scale-chamber-gauge-obsolete-2989 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P338522-042 Dual Scale Chamber Gauge – OBSOLETE – 2989 - **Category:** Sterilizer ## Description The STERIS P338522-042 is a dual-scale chamber gauge. This model is listed as obsolete. ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p338522-042-dual-scale-chamber-gauge-obsolete-2989. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P117955-135 Pneumatic Cylinder 17.5″ – 3039 > Source: https://shop.ezmedsource.com/products/unknown-steris-p117955-135-pneumatic-cylinder-17-5-3039 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P117955-135 Pneumatic Cylinder 17.5″ – 3039 - **Category:** Device ## Description The STERIS P117955-135 is a pneumatic cylinder with a 17.5-inch stroke. It is a replacement or service component for STERIS sterilization equipment and related surgical systems. The cylinder functions as an actuation element in pneumatic control circuits, converting compressed air pressure into linear mechanical motion. ## Tech Info - **Stroke Length:** 17.5 inches - **Model:** P117955-135 - **Type:** Pneumatic cylinder ## Specifications | Spec | Value | | --- | --- | | Type | Pneumatic cylinder | | Model | P117955-135 | | Stroke Length | 17.5 inches | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p117955-135-pneumatic-cylinder-17-5-3039. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown MIDMARK 016-0395-01 Door Insulator Pad – 3047 > Source: https://shop.ezmedsource.com/products/unknown-midmark-016-0395-01-door-insulator-pad-3047 ## At a glance - **Manufacturer:** Unknown - **Model:** MIDMARK 016-0395-01 Door Insulator Pad – 3047 - **Category:** Device ## Description The Midmark 016-0395-01 is a door insulator pad for the Midmark 3047 sterilizer. It is a replacement component that seals the sterilizer door during the sterilization cycle. ## Specifications | Spec | Value | | --- | --- | | Part Number | 016-0395-01 | | Compatibility | Midmark 3047 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-midmark-016-0395-01-door-insulator-pad-3047. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P764324-892 Valve Repair Kit – 3088 > Source: https://shop.ezmedsource.com/products/unknown-steris-p764324-892-valve-repair-kit-3088 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P764324-892 Valve Repair Kit – 3088 - **Category:** Device ## Description The STERIS P764324-892 is a valve repair kit for the 3088 model. This kit supplies replacement components for valve maintenance and overhaul in STERIS sterilization equipment. It is used by biomedical technicians and equipment depots during scheduled preventive maintenance or following valve wear or failure. ## Specifications | Spec | Value | | --- | --- | | Model | 3088 | | Part Number | P764324-892 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p764324-892-valve-repair-kit-3088. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P764326-875 Heating Element 34KW 415V – 3087 > Source: https://shop.ezmedsource.com/products/unknown-steris-p764326-875-heating-element-34kw-415v-3087 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P764326-875 Heating Element 34KW 415V – 3087 - **Category:** Sterilizer ## Description The STERIS P764326-875 is a 34 kW heating element for sterilization and decontamination equipment. Rated for 415V operation, it is a replacement component commonly used in STERIS autoclave and sterilizer systems. This element is a direct swap for original equipment in matching voltage and power specifications. ## Tech Info - **Power Output:** 34 kW - **Voltage:** 415V - **Part Number:** P764326-875 - **Model Code:** 3087 ## Specifications | Spec | Value | | --- | --- | | Voltage | 415V | | Part Number | P764326-875 | | Power Output | 34 kW | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p764326-875-heating-element-34kw-415v-3087. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown WASHER SOLUTIONS WS3109 Pump Hose Suction Box 3-1/2″ ID x 4 Ft. (MTP) – 3109 > Source: https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3109-pump-hose-suction-box-3-1-2-id-x-4-ft-mtp-3109 ## At a glance - **Manufacturer:** Unknown - **Model:** WASHER SOLUTIONS WS3109 Pump Hose Suction Box 3-1/2″ ID x 4 Ft. (MTP) – 3109 - **Category:** Device ## Description The WASHER SOLUTIONS WS3109 is a suction pump hose assembly designed for medical equipment fluid transfer applications. The hose features a 3-1/2" inner diameter and measures 4 feet in length, with connections terminated in MTP (multi-tube port) fittings for compatibility with standard suction and pumping systems. ## Tech Info - **Inner Diameter:** 3-1/2" - **Length:** 4 ft - **Connection Type:** MTP (multi-tube port) - **Application:** Suction pump hose ## Specifications | Spec | Value | | --- | --- | | Length | 4 feet | | Inner Diameter | 3-1/2 inches | | Connection Type | MTP (multi-tube port) | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3109-pump-hose-suction-box-3-1-2-id-x-4-ft-mtp-3109. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown SCIENTEK 17-2725 Guide Track SW4600 Black – 3126 > Source: https://shop.ezmedsource.com/products/unknown-scientek-17-2725-guide-track-sw4600-black-3126 ## At a glance - **Manufacturer:** Unknown - **Model:** SCIENTEK 17-2725 Guide Track SW4600 Black – 3126 - **Category:** Device ## Description The Scientek 17-2725 is a guide track accessory, model SW4600, finished in black. No additional product information is available in the source material. ## Specifications | Spec | Value | | --- | --- | | Color | Black | | Model | SW4600 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-scientek-17-2725-guide-track-sw4600-black-3126. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown WASHER SOLUTIONS WS3142 Filter Assembly 1/4 – 3142 > Source: https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3142-filter-assembly-1-4-3142 ## At a glance - **Manufacturer:** Unknown - **Model:** WASHER SOLUTIONS WS3142 Filter Assembly 1/4 – 3142 - **Category:** Sterilizer ## Description The Washer Solutions WS3142 is a filter assembly for 1/4-inch tubing. It is used in cleaning and sterilization systems to remove particulates from fluid lines during washer-disinfector operation. The assembly installs inline within the water or chemical distribution circuit. ## Specifications | Spec | Value | | --- | --- | | Model | WS3142 | | Tubing Size | 1/4 inch | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3142-filter-assembly-1-4-3142. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown GETINGE P0016074 Control Air Valve Plugin – OBSOLETE – 3158 > Source: https://shop.ezmedsource.com/products/unknown-getinge-p0016074-control-air-valve-plugin-obsolete-3158 ## At a glance - **Manufacturer:** Unknown - **Model:** GETINGE P0016074 Control Air Valve Plugin – OBSOLETE – 3158 - **Category:** Device ## Description The Getinge P0016074 is a control air valve plugin for Getinge surgical equipment. This is an obsolete part; it is no longer in active production or support by the manufacturer. ## Specifications | Spec | Value | | --- | --- | | Status | Obsolete | | Part Number | P0016074 | | Manufacturer | Getinge | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-getinge-p0016074-control-air-valve-plugin-obsolete-3158. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown WASHER SOLUTIONS WS3188 Electrical Box Enclosure – 3188 > Source: https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3188-electrical-box-enclosure-3188 ## At a glance - **Manufacturer:** Unknown - **Model:** WASHER SOLUTIONS WS3188 Electrical Box Enclosure – 3188 - **Category:** Device ## Description The WS3188 is an electrical box enclosure designed to house and protect circuit components and wiring in medical equipment installations. It serves as a standard utility enclosure for field assembly, retrofit, or panel mounting in clinical environments. The unit accommodates standard DIN rail mounting and accepts knockouts for cable entry. ## Specifications | Spec | Value | | --- | --- | | Model | WS3188 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3188-electrical-box-enclosure-3188. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown WASHER SOLUTIONS WS3203 Power Supply 120 VAC to 24 VDC – 3203 > Source: https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3203-power-supply-120-vac-to-24-vdc-3203 ## At a glance - **Manufacturer:** Unknown - **Model:** WASHER SOLUTIONS WS3203 Power Supply 120 VAC to 24 VDC – 3203 - **Category:** Device ## Description The WASHER SOLUTIONS WS3203 is a power-supply module converting 120 VAC input to 24 VDC output. It is designed for use in clinical-grade medical equipment that requires regulated low-voltage DC power from standard wall supply. ## Specifications | Spec | Value | | --- | --- | | Input | 120 VAC | | Output | 24 VDC | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3203-power-supply-120-vac-to-24-vdc-3203. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown WASHER SOLUTIONS WS3201 Pressure Transducer 0-50 PSIA 0-10 VDC Operating 4-20m V Signal – 3201 > Source: https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3201-pressure-transducer-0-50-psia-0-10-vdc-operating-4-20m-v-signal-3201 ## At a glance - **Manufacturer:** Unknown - **Model:** WASHER SOLUTIONS WS3201 Pressure Transducer 0-50 PSIA 0-10 VDC Operating 4-20m V Signal – 3201 - **Category:** Device ## Description The WASHER SOLUTIONS WS3201 is a pressure transducer designed to measure pressure in the range of 0–50 PSIA. It outputs a 4–20 mA signal and operates on 0–10 VDC input. The transducer connects to patient-monitoring systems, ventilators, and other medical devices that require continuous pressure measurement in clinical or laboratory environments. ## Tech Info - **Pressure Range:** 0–50 PSIA - **Output Signal:** 4–20 mA - **Operating Input:** 0–10 VDC ## Specifications | Spec | Value | | --- | --- | | Output Signal | 4–20 mA | | Pressure Range | 0–50 PSIA | | Operating Input | 0–10 VDC | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3201-pressure-transducer-0-50-psia-0-10-vdc-operating-4-20m-v-signal-3201. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown GETINGE 61301600874 Power Cord Assembly 24V (6 Feet) – 3480 > Source: https://shop.ezmedsource.com/products/unknown-getinge-61301600874-power-cord-assembly-24v-6-feet-3480 ## At a glance - **Manufacturer:** Unknown - **Model:** GETINGE 61301600874 Power Cord Assembly 24V (6 Feet) – 3480 - **Category:** Device ## Description The Getinge 61301600874 is a 24V power cord assembly, 6 feet in length, designed to supply power to Getinge equipment. This is a replacement or spare cord for systems that operate on 24V DC input. It is typically used in hospital operating rooms, intensive care units, and other clinical settings where Getinge surgical or monitoring systems are deployed. ## Tech Info - **Voltage:** 24V - **Length:** 6 feet - **Part Number:** 61301600874 ## Specifications | Spec | Value | | --- | --- | | Length | 6 feet | | Voltage | 24V | | Part Number | 61301600874 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-getinge-61301600874-power-cord-assembly-24v-6-feet-3480. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown GETINGE 61301602085 PM Kit (Solenoid Valves) – OBSOLETE – 3238 > Source: https://shop.ezmedsource.com/products/unknown-getinge-61301602085-pm-kit-solenoid-valves-obsolete-3238 ## At a glance - **Manufacturer:** Unknown - **Model:** GETINGE 61301602085 PM Kit (Solenoid Valves) – OBSOLETE – 3238 - **Category:** Device ## Description The Getinge 61301602085 PM Kit is a solenoid valve assembly for Getinge perfusion and bypass systems. This is an obsolete part; stock may be available from refurbishment depots or secondary-market vendors, but Getinge no longer manufactures or supports it. Verify compatibility with your specific Getinge model before ordering. ## Specifications | Spec | Value | | --- | --- | | Part Number | 61301602085 | | Manufacturer | Getinge | | Product Type | Solenoid Valve Assembly | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-getinge-61301602085-pm-kit-solenoid-valves-obsolete-3238. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown WASHER SOLUTIONS WS3253 Input Relay Board 16 Slots – 3253 > Source: https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3253-input-relay-board-16-slots-3253 ## At a glance - **Manufacturer:** Unknown - **Model:** WASHER SOLUTIONS WS3253 Input Relay Board 16 Slots – 3253 - **Category:** Lab Analyzer ## Description The WS3253 is a 16-slot input relay board for Washer Solutions laboratory equipment. It serves as a distribution module for relay signals within compatible Washer Solutions systems, routing input signals to downstream processing stages. The board is a component-level replacement part typically found in the control or signal-distribution layer of automated washing or reagent-handling platforms. ## Specifications | Spec | Value | | --- | --- | | Model | WS3253 | | Slot Count | 16 | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3253-input-relay-board-16-slots-3253. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown GETINGE 86531 Magnetic Catch (Manual Door) – 3267 > Source: https://shop.ezmedsource.com/products/unknown-getinge-86531-magnetic-catch-manual-door-3267 ## At a glance - **Manufacturer:** Unknown - **Model:** GETINGE 86531 Magnetic Catch (Manual Door) – 3267 - **Category:** Device ## Description The Getinge 86531 magnetic catch is a manual door closure component, model 3267. It is used in Getinge sterilization equipment and medical device housings where a magnetically-latching door mechanism is required. The catch engages and disengages via manual operation without powered actuation. ## Specifications | Spec | Value | | --- | --- | | Type | Magnetic door catch | | Model | 3267 | | Part Number | 86531 | | Manufacturer | Getinge | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-getinge-86531-magnetic-catch-manual-door-3267. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown GETINGE 530681 Microcomputer Control 8050AH V8.4D – OBSOLETE – 3270 > Source: https://shop.ezmedsource.com/products/unknown-getinge-530681-microcomputer-control-8050ah-v8-4d-obsolete-3270 ## At a glance - **Manufacturer:** Unknown - **Model:** GETINGE 530681 Microcomputer Control 8050AH V8.4D – OBSOLETE – 3270 - **Category:** Device ## Description The Getinge 530681 is a microcomputer control unit, model 8050AH V8.4D. This unit is obsolete and no longer supported by the manufacturer. Please note: This product is listed for reference only. Replacement parts and technical support are not available. Units in the field may be suitable for salvage or non-critical refurbishment, depending on condition and application requirements. ## Specifications | Spec | Value | | --- | --- | | Status | Obsolete | | Part Number | 530681 | | Manufacturer | Getinge | | Model Number | 8050AH V8.4D | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-getinge-530681-microcomputer-control-8050ah-v8-4d-obsolete-3270. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P117905-143 Locking Pin – 3527 > Source: https://shop.ezmedsource.com/products/unknown-steris-p117905-143-locking-pin-3527 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P117905-143 Locking Pin – 3527 - **Category:** Device ## Description The STERIS P117905-143 is a locking pin (part number 3527) used in STERIS sterilization equipment assemblies. It secures components in place during operation and is a wear or fatigue item commonly replaced during maintenance and refurbishment cycles. ## Specifications | Spec | Value | | --- | --- | | Part Number | P117905-143 | | Component ID | 3527 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p117905-143-locking-pin-3527. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown GETINGE 517347 Solenoid Valve 2-Way – SUB to 6013114401 – 3283 > Source: https://shop.ezmedsource.com/products/unknown-getinge-517347-solenoid-valve-2-way-sub-to-6013114401-3283 ## At a glance - **Manufacturer:** Unknown - **Model:** GETINGE 517347 Solenoid Valve 2-Way – SUB to 6013114401 – 3283 - **Category:** Device ## Description The GETINGE 517347 is a 2-way solenoid valve used in GETINGE sterilization and medical equipment systems. It functions as a flow-control component within larger automated sequences and may serve as a direct replacement for GETINGE part 6013114401. ## Specifications | Spec | Value | | --- | --- | | Valve Type | 2-way solenoid | | Part Number | 517347 | | Manufacturer | GETINGE | | Cross-Reference | 6013114401 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-getinge-517347-solenoid-valve-2-way-sub-to-6013114401-3283. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown GETINGE P0020491 Level Control Unit with remote controls – OBSOLETE – 3288. > Source: https://shop.ezmedsource.com/products/unknown-getinge-p0020491-level-control-unit-with-remote-controls-obsolete-3288 ## At a glance - **Manufacturer:** Unknown - **Model:** GETINGE P0020491 Level Control Unit with remote controls – OBSOLETE – 3288. - **Category:** Device ## Description The Getinge P0020491 is a level control unit for Getinge sterilization and surgical equipment. It is marked obsolete and is offered as a refurbished spare part for legacy system maintenance and repair. The unit includes remote controls and is suitable for depot technicians and biomedical engineers servicing installed Getinge equipment. This part is typically used as a replacement component in Getinge autoclave or surgical-support systems where level sensing and remote operation are required. Compatibility with your specific equipment should be verified before purchase. ## Specifications | Spec | Value | | --- | --- | | Status | Obsolete | | Part Number | P0020491 | | Manufacturer | Getinge | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-getinge-p0020491-level-control-unit-with-remote-controls-obsolete-3288. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown CONSOLIDATED 8629 Solenoid Valve 1/2 120/60 VAC – OBSOLETE – 3300 > Source: https://shop.ezmedsource.com/products/unknown-consolidated-8629-solenoid-valve-1-2-120-60-vac-obsolete-3300 ## At a glance - **Manufacturer:** Unknown - **Model:** CONSOLIDATED 8629 Solenoid Valve 1/2 120/60 VAC – OBSOLETE – 3300 - **Category:** Device ## Description The Consolidated 8629 is a 1/2-inch solenoid valve rated for 120/60 VAC operation. It is marked obsolete and is listed here for reference and parts-recovery purposes only. This valve is no longer manufactured and replacement units may be unavailable. ## Tech Info - **Valve Size:** 1/2 inch - **Voltage Rating:** 120/60 VAC ## Specifications | Spec | Value | | --- | --- | | Status | Obsolete | | Valve Size | 1/2 inch | | Voltage Rating | 120/60 VAC | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-consolidated-8629-solenoid-valve-1-2-120-60-vac-obsolete-3300. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown WASHER SOLUTIONS WS3544 Valve Repair Kit – 3544 > Source: https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3544-valve-repair-kit-3544 ## At a glance - **Manufacturer:** Unknown - **Model:** WASHER SOLUTIONS WS3544 Valve Repair Kit – 3544 - **Category:** Device ## Description The WS3544 is a valve repair kit for Washer Solutions equipment. It contains replacement components for valve maintenance and rebuild on compatible washers in the WS3544 product line. ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3544-valve-repair-kit-3544. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P117904-584 Door Sensor – 3323 > Source: https://shop.ezmedsource.com/products/unknown-steris-p117904-584-door-sensor-3323 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P117904-584 Door Sensor – 3323 - **Category:** Sterilizer ## Description The STERIS P117904-584 is a door sensor for STERIS sterilization equipment. It detects door position and status during sterilizer cycles. The sensor integrates with sterilizer control logic to ensure proper chamber sealing and cycle sequencing. ## Specifications | Spec | Value | | --- | --- | | Model | 3323 | | Part Number | P117904-584 | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p117904-584-door-sensor-3323. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P338522-043 Jacket Pressure Gauge – OBSOLETE – 3560 > Source: https://shop.ezmedsource.com/products/unknown-steris-p338522-043-jacket-pressure-gauge-obsolete-3560 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P338522-043 Jacket Pressure Gauge – OBSOLETE – 3560 - **Category:** Sterilizer ## Description The STERIS P338522-043 is a jacket pressure gauge (part number 3560) that is obsolete and no longer in production or general distribution. This product is included in the EzMedSource catalog for reference by technicians and depot staff working on legacy STERIS equipment. If you are seeking a functional replacement or current-production equivalent, contact STERIS directly or consult your equipment documentation. ## Specifications | Spec | Value | | --- | --- | | Status | Obsolete | | Part Number | P338522-043 | | Legacy Model Number | 3560 | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p338522-043-jacket-pressure-gauge-obsolete-3560. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P764325-922 Door Seal Removal Tool – OBSOLETE – 3561 > Source: https://shop.ezmedsource.com/products/unknown-steris-p764325-922-door-seal-removal-tool-obsolete-3561 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P764325-922 Door Seal Removal Tool – OBSOLETE – 3561 - **Category:** Device ## Description The STERIS P764325-922 is a door seal removal tool for STERIS sterilization equipment. This product is marked obsolete and no longer in active production. ## Specifications | Spec | Value | | --- | --- | | Status | Obsolete | | Part Number | P764325-922 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p764325-922-door-seal-removal-tool-obsolete-3561. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown GETINGE 470802170 Jacket PT Sensor – 3566 > Source: https://shop.ezmedsource.com/products/unknown-getinge-470802170-jacket-pt-sensor-3566 ## At a glance - **Manufacturer:** Unknown - **Model:** GETINGE 470802170 Jacket PT Sensor – 3566 - **Category:** Device ## Description The Getinge 470802170 is a jacket-style patient temperature sensor, model 3566. It is designed to measure patient core or peripheral temperature in clinical and perioperative settings. The sensor connects to compatible Getinge monitoring systems via a standardized interface and displays temperature readings on the connected monitor or control unit. ## Specifications | Spec | Value | | --- | --- | | Model | 3566 | | Manufacturer Part Number | 470802170 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-getinge-470802170-jacket-pt-sensor-3566. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P426637-264 Door Cover – OBSOLETE – 3577 > Source: https://shop.ezmedsource.com/products/unknown-steris-p426637-264-door-cover-obsolete-3577 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P426637-264 Door Cover – OBSOLETE – 3577 - **Category:** Device ## Description STERIS P426637-264 door cover (part number 3577). This is an obsolete component. It is no longer manufactured or supported by STERIS. If you are sourcing replacement parts for legacy STERIS equipment, verify compatibility with your specific unit before ordering, as this part may not be available for current models. ## Specifications | Spec | Value | | --- | --- | | Status | Obsolete | | Legacy ID | 3577 | | Part Number | P426637-264 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p426637-264-door-cover-obsolete-3577. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown GETINGE P0018500 pHT 2-Wire Transmitter 115 volt – 3585 > Source: https://shop.ezmedsource.com/products/unknown-getinge-p0018500-pht-2-wire-transmitter-115-volt-3585 ## At a glance - **Manufacturer:** Unknown - **Model:** GETINGE P0018500 pHT 2-Wire Transmitter 115 volt – 3585 - **Category:** Lab Analyzer ## Description The Getinge P0018500 is a 2-wire pH transmitter rated for 115 volt operation. It is used in clinical laboratory and point-of-care settings to measure and transmit pH values to monitoring or data-collection systems. The 2-wire configuration allows for direct integration into existing pH measurement infrastructure with minimal wiring. The unit connects to a 115 volt power supply and outputs pH readings via its transmitter interface for real-time or logged analysis. It is compatible with laboratory automation systems and standalone pH monitoring applications. ## Tech Info - **Model:** P0018500 - **Power Supply:** 115 volt - **Configuration:** 2-wire transmitter ## Specifications | Spec | Value | | --- | --- | | Model | P0018500 | | Power Supply | 115 volt | | Configuration | 2-wire transmitter | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-getinge-p0018500-pht-2-wire-transmitter-115-volt-3585. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown MTP A107-757-1 Striker Shim – 3351 > Source: https://shop.ezmedsource.com/products/unknown-mtp-a107-757-1-striker-shim-3351 ## At a glance - **Manufacturer:** Unknown - **Model:** MTP A107-757-1 Striker Shim – 3351 - **Category:** Device ## Description The MTP A107-757-1 Striker Shim is a replacement component for the 3351 monitor. It is used as part of the monitor's mechanical assembly. ## Specifications | Spec | Value | | --- | --- | | Model | A107-757-1 | | Compatibility | 3351 monitor | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-mtp-a107-757-1-striker-shim-3351. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P052203-010 Retainer Bearing – 3365 > Source: https://shop.ezmedsource.com/products/unknown-steris-p052203-010-retainer-bearing-3365 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P052203-010 Retainer Bearing – 3365 - **Category:** Device ## Description The STERIS P052203-010 is a retainer bearing (part number 3365) for STERIS sterilization equipment. This is a replacement component used in STERIS systems; consult your equipment manual or contact a STERIS service representative to confirm compatibility with your specific device model and serial number. ## Specifications | Spec | Value | | --- | --- | | Part Number | P052203-010 | | Component Type | Retainer Bearing | | Legacy Part ID | 3365 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p052203-010-retainer-bearing-3365. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P040377-001Wheel Guide – 3615 > Source: https://shop.ezmedsource.com/products/unknown-steris-p040377-001wheel-guide-3615 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P040377-001Wheel Guide – 3615 - **Category:** Device ## Description The STERIS P040377-001 is a wheel guide for the 3615 sterilizer. It is a component part used to manage the positioning and movement of wheeled carts or carriage assemblies within the sterilizer chamber or support structure. ## Specifications | Spec | Value | | --- | --- | | Part Number | P040377-001 | | Manufacturer | STERIS | | Compatible Model | 3615 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p040377-001wheel-guide-3615. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown STERIS P015339-045 Socket Head Screw – 3618 > Source: https://shop.ezmedsource.com/products/unknown-steris-p015339-045-socket-head-screw-3618 ## At a glance - **Manufacturer:** Unknown - **Model:** STERIS P015339-045 Socket Head Screw – 3618 - **Category:** Device ## Description The STERIS P015339-045 is a socket head screw, model 3618. This is a replacement fastener for STERIS sterilization equipment and related assemblies. ## Specifications | Spec | Value | | --- | --- | | Model | 3618 | | Part Number | P015339-045 | | Manufacturer | STERIS | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-steris-p015339-045-socket-head-screw-3618. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown QUINTON 031257-002 Grabber Lead Wire Set 10 pin – OBSOLETE – 3629 > Source: https://shop.ezmedsource.com/products/unknown-quinton-031257-002-grabber-lead-wire-set-10-pin-obsolete-3629 ## At a glance - **Manufacturer:** Unknown - **Model:** QUINTON 031257-002 Grabber Lead Wire Set 10 pin – OBSOLETE – 3629 - **Category:** EKG Machine ## Description The Quinton 031257-002 Grabber Lead Wire Set is a 10-pin connector assembly for Quinton exercise stress-test systems. This lead wire set interfaces with Quinton patient monitors and stress-test equipment to transmit ECG signals during treadmill or ergometer testing. The product is no longer in active production. Note: This item is listed as obsolete. Availability may be limited, and replacement parts or alternative lead wire assemblies may be required for ongoing service. ## Specifications | Spec | Value | | --- | --- | | Status | Obsolete | | Manufacturer | Quinton | | Connector Type | 10-pin Grabber | | Model/Part Number | 031257-002 | ## Vendor offers ### Prescott's Med - **Repair** · Quote on request · availability: AvailableOnRequest - **Purchase** · Quote on request · availability: AvailableOnRequest ### Washer Solutions & Preventive Maintenance Medical - **PreventiveMaintenance** · Quote on request · availability: InStock --- Generated from https://shop.ezmedsource.com/products/unknown-quinton-031257-002-grabber-lead-wire-set-10-pin-obsolete-3629. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown WASHER SOLUTIONS WS3630 Fisher Isotope Freezer Door Handle – 3630 > Source: https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3630-fisher-isotope-freezer-door-handle-3630 ## At a glance - **Manufacturer:** Unknown - **Model:** WASHER SOLUTIONS WS3630 Fisher Isotope Freezer Door Handle – 3630 - **Category:** Device ## Description The WS3630 is a replacement door handle for the Fisher Isotope Freezer model 3630. It is a direct-fit accessory for the freezer cabinet door assembly. ## Specifications | Spec | Value | | --- | --- | | Compatibility | Fisher Isotope Freezer 3630 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-washer-solutions-ws3630-fisher-isotope-freezer-door-handle-3630. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown GARBEL 1744 Variable Delay Timer – OBSOLETE – 3415 > Source: https://shop.ezmedsource.com/products/unknown-garbel-1744-variable-delay-timer-obsolete-3415 ## At a glance - **Manufacturer:** Unknown - **Model:** GARBEL 1744 Variable Delay Timer – OBSOLETE – 3415 - **Category:** Device ## Description The GARBEL 1744 is a variable delay timer, part number 3415. Specific details on its application, compatible platforms, and technical specifications are not available in the current product record. ## Specifications | Spec | Value | | --- | --- | | Part Number | 3415 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-garbel-1744-variable-delay-timer-obsolete-3415. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. # Unknown MTP P0012159 Belting 36 Wide SS (Sold Per Foot) – 3645 > Source: https://shop.ezmedsource.com/products/unknown-mtp-p0012159-belting-36-wide-ss-sold-per-foot-3645 ## At a glance - **Manufacturer:** Unknown - **Model:** MTP P0012159 Belting 36 Wide SS (Sold Per Foot) – 3645 - **Category:** Device ## Description The MTP P0012159 is a stainless-steel conveyor or drive belt 36 inches wide, sold by the linear foot. This belt is used in medical equipment refurbishment and service contexts where transport, sorting, or positioning of instruments or assemblies is required. Stock this belt in refurbishment depots and service centers as a replacement or upgrade component for equipment maintenance workflows. ## Tech Info - **Width:** 36 inches - **Material:** Stainless steel - **Unit:** Sold per linear foot ## Specifications | Spec | Value | | --- | --- | | Width | 36 inches | | Material | Stainless steel | | Part Number | MTP P0012159 | ## Vendor offers ### Prescott's Med - **Purchase** · Quote on request · availability: AvailableOnRequest --- Generated from https://shop.ezmedsource.com/products/unknown-mtp-p0012159-belting-36-wide-ss-sold-per-foot-3645. RFQ flow on EzMedSource is the primary commerce primitive — submit a quote request to receive responses from every vendor matching your line items. --- ## Continue exploring - [/api/products.json](https://shop.ezmedsource.com/api/products.json) — paginated JSON feed of every approved product (use `?page=N&limit=100`) - [/products//markdown](https://shop.ezmedsource.com/products/) — append `/markdown` to any product URL for the same per-PDP markdown rendering used here - [/sitemap.xml](https://shop.ezmedsource.com/sitemap.xml) — full machine-readable site map - [/llms.txt](https://shop.ezmedsource.com/llms.txt) — concise topic map (start there if you missed it)