New & Used Patient Monitor

Market Value Calculator
 
Applied Filters

Manf. Year From : 1989

  Reset

Manf. Year Until : 1998

  Reset
Please Note: Search results for this device do not include the following devices, please select the relevant device if it is of interest to you: Blood Pressure Monitor
 
 
 
 
Item Details
Seller details
Item Price (USD)
Year manufactured

Quick Look

 
Device: Patient Monitor
Manufacturer: Critikon
Model: DINAMAP XL
Premium User
Location: United States, Washington
Rating: 89%
155
This Seller accepts SafeTrade as a payment method
1991

Quick Look

 
Device: Patient Monitor
Manufacturer: Philips
Model: Viridia 24CT
Premium User
Location: United States, Washington
Rating: 89%
Negotiable
1997

Quick Look

 
Device: Patient Monitor
Manufacturer: Datex-Ohmeda GE Healthcare
Model: S/5 Monitor
Location: Switzerland, Geneva
Rating: 85%
1,542
1998

Quick Look

 
Device: Patient Monitor
Manufacturer: Datex-Ohmeda GE Healthcare
Model: S/5 Monitor
Location: Switzerland, Geneva
Rating: 85%
1,542
1998

Quick Look

 
Device: Patient Monitor
Manufacturer: Hewlett Packard
Model: M1094B
Location: United States, Arizona
300
1998

Quick Look

 
Device: Patient Monitor
Manufacturer: Marquette
Model: 7010
Location: United States, Florida
550
1994

Quick Look

 
Device: Patient Monitor
Manufacturer: Spacelabs
Model: 90309PC Scout
Location: Colombia, Cundinamarca
1,150
1996

Quick Look

 
Device: Patient Monitor
Manufacturer: Siemens
Model: Sirecust 1260
Location: Germany, North Rhine-Westphalia
Rating: 93%
19,277
1993

Quick Look

 
Device: Patient Monitor
Manufacturer: Siemens
Model: Sirecust 404-1
Location: Germany, North Rhine-Westphalia
Rating: 93%
1,027
1989

Quick Look

 
Device: Patient Monitor
Manufacturer: Draeger
Model: PM 8014
Location: Germany, North Rhine-Westphalia
Rating: 93%
450
1995

Quick Look

 
Device: Patient Monitor
Manufacturer: Siemens
Model: SC 8000
Location: Germany, North Rhine-Westphalia
Rating: 93%
3,213
1996

Quick Look

 
Device: Patient Monitor
Manufacturer: Draeger
Model: PM 8035
Location: Germany, North Rhine-Westphalia
Rating: 93%
1,155
1990

Quick Look

 
Device: Patient Monitor
Manufacturer: Draeger
Model: PM 8035
Location: Germany, North Rhine-Westphalia
Rating: 93%
1,155
1990

Quick Look

 
Device: Patient Monitor
Manufacturer: Draeger
Model: PM 8035
Location: Germany, North Rhine-Westphalia
Rating: 93%
1,155
1990
Page: 1 2 3
The model & manufacturer of the marked items have changed due to an acquisition between companies, and are also known as:
Current Manufacturer / Model Name Alternative Manufacturer / Model Name
Spacelabs / 90309PC Scout Spacelabs Burdick / 90309PC Scout

Patient Monitor may also be referred to as :

Vital Signs Monitor | Physiologic Monitor | Physiologic Monitoring System, Acute Care, Battery Powered | Physiologic Monitoring System, Acute Care | Physiologic Monitoring System, Acute Care, ECG Monitor | OR Monitor | Operating Room Monitor | Neonatal Monitor | Bed Side Monitor | Acute Care Monitoring System | Physiological Monitoring
 

Tips for buying Patient Monitor

  1. Patient Monitor Systems can be divided into three groups based on acuity: low, medium, and high. These three categories represent the care settings and the types of patients to be monitored.
  2. Low acuity physiologic monitors perform basic vital signs monitoring, and may be used for outpatient surgical applications with a low level of monitoring.
  3. Medium acuity patient monitors are found in a variety of settings, including the emergency department, intermediate care unit, and general medical/surgical floors. These may be modular or configured with other add-on modules.
  4. High acuity physiologic monitoring system monitors are used in CCU and OR environments, or in post anesthesia care units. They may be modular or configured with other add-on modules.
  5. Using a LAN-based system, central-monitoring stations should display and control data from bedside monitors, in a way that a failure of any bedside ecg monitor or central station display will not affect the performance of the entire system.
  6. A patient monitor should be able to display data from another bedside physiologic  monitor, including automatic display of alarm information.
  7. The central stations should display waveforms, numeric and graphic displays, tabular displays, and calculations.
  8. Users should select electrodes from a big selection available to them. They should test electrodes from multiple suppliers to ensure the best results for their particular patient monitor.
  9. The facility's resources, expected and desired patient population, and current technology base - all of these should be considered when making a decision regarding purchasing of a physiologic monitoring system. This decision should be part of a long-range strategic monitor acquisition and management plan. The purchasing process should start at least six to eight months ahead and consider the care area size and its architectural layout, staffing levels, and geographic proximity of patient assignments.
  10. Patient monitors in critical care areas require these parameters: ECG, IBP, NIBP, SpO2, temperature, cardiac output, and ETCO2. All patient data should be available at a central station monitor.
  11. Buyers of patient monitors should evaluate the alarms on a monitoring system before purchasing. Patient outcome can be affected if a monitoring system fails to alarm for a critical event.
  12. A modular or a configured ecg monitoring system may be used for routine OR procedures, which are shorter and less complex and usually require fewer monitored parameters than intensive procedures.
  13. The capability of integration with the anesthesia monitoring equipment is necessary for monitors used in both intensive and routine OR procedures. This provides centralized alarm information.
Read more valuable tips on the Medical Equipment Buying Guide by MedWOW >>