New & Used Cardiac Electrophysiologic Monitor

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Item Price (USD)

Year manufactured

393083458

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Device: Cardiac Electrophysiologic Monitor
Manufacturer: GE Healthcare
Model: CardioLab 7000

Location: United States, California
Business type: Refurbishing Company

28500 28,500

2002

684214588

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Device: Cardiac Electrophysiologic Monitor
Manufacturer: Fischer Imaging
Model: DTU 215B

Location: United States, California
Business type: Broker

2500 2,500

2004

195629079

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Brand New Item

Device: Cardiac Catheterization Monitor
Manufacturer: Imacs Medical
Model: IMACS

Location: Malaysia, Kuala Lumpur
Business type: Exporter

15000 15,000

2011

663503696

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Device: Cardiac Electrophysiologic Monitor
Manufacturer: Prucka Engineering
Model: CardioLab

Location: United States, California
Business type: Refurbishing Company

28500 28,500

-

638845293

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Device: Cardiac Electrophysiologic Monitor
Manufacturer: Fischer Imaging
Model: DTU 200

Location: United States, Minnesota
Business type: Dealer
Rating: 93%

Negotiable

-

835221233

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Device: Cardiac Electrophysiologic Monitor
Manufacturer: Siemens
Model: CATHCOR

Location: United States, Pennsylvania
Business type: Dealer

4500 4,500

2001

593083668

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Device: Cardiac Electrophysiologic Monitor
Manufacturer: Bloom Associates Ltd.,
Model: DTU 215B

Location: United States, California
Business type: Refurbishing Company

3900 3,900

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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
Fischer Imaging / DTU 215B	Bloom Associates Ltd., / DTU 215B

Cardiac Electrophysiologic Monitor may also be referred to as :

CAT Lab | Physiologic Monitoring System, Cardiac Electrophysiology | OR Monitor | Operating Room Monitor | Electrocardiographic Monitor | Cardiac Monitor | Cardiac Electrophysiology Monitoring System | Cardiac Electrophysiologic System

Tips for buying Cardiac Electrophysiologic Monitor

1. In terms of their positioning, cardiac electrophysiology monitoring systems may be mobile, tabletop, or wall mounted. Physicians should select the maximum channels depending on procedural requirements. The cardiac electrophysiologic monitor should have at least 12 surface electrocardiogram channels and 24 intracardiac electrocardiogram channels, as well as programmed lead switching.
2. The cardiac electrophysiologic monitor system should have a console with high-resolution color monitors fitted to display waveforms and data on an integrated computer with data processing software and recording media. The system should also have a chart recorder with printing capabilities, plug in modules with vital signs and procedure monitoring functions and a remote amplifier unit to process and condition cardiac electrode signals.
3. The cardiac electrophysiologic monitor system should be able to interpret chart printouts using various reference lines. It should also be able to interface with radio frequency generating devices and cardiac CAT lab imaging systems, and use multitasking software with user-configurable parameters that allows real-time signal analysis.
4. The CAT lab system should be capable of networking and communicating with a hospital information system. This type of networking should be bi-directional and Health Level 7 compliant. The cardiac electrophysiology monitoring system should also have the ability to interface with the National Cardiology Database and cardiology data management system.
5. A basic cardiac electrophysiologic monitor system is configured with amplifiers and filters for signal acquisition and processing, a display screen, and a recorder. Preexisting amplifiers can be used and be interfaced with a corresponding display screen and recorder.
6. The number of available electrocardiogram channels is different among different cardiac electrophysiology monitoring systems. The maximum number of channels desired should be determined by clinicians.
7. The number of displayed waveforms varies among display screens, and also the recorders vary in the number of traces recorded.
8. Recorders may not be offered as standard equipment by some cardiac electrophysiologic monitor systems, because all the waveforms can be retrieved from storage and viewed onscreen for manipulation.
9. When a recorder is needed, it should interface with these cardiac electrophysiologic monitor systems. Semi-automated or automated input switching systems enable the selection of different electrode combinations.
10. Most cardiac electrophysiologic monitor systems provide some flexibility in changing some configurations to better fit the needs of the facility.
11. The amount of channels provided by the recording system should fit the facility's applications.
12. Cardiac electrophysiologic monitor systems with communication capabilities enable links to other electrophysiology labs, central workstations, personal computers, CAT labs, or medical centers data management systems.
13. Cardiac electrophysiologic monitor systems with storage capabilities offer various hard disk capacities and can also have different digital media for archival purposes and easy retrieval of data.
14. Before purchasing a system, facilities should look into their communications and storage needs. These systems are also offered with a variety of analysis and data management software packages, which enable generating user-programmable or customized reports.
15. Most cardiac electrophysiologic monitor system manufacturers do not offer stimulators as standard components. Therefore, these should be purchased from a stimulator supplier.
16. Medical centers need to determine whether separate rooms are needed for the cardiac electrophysiology monitoring system. They should also look at the time required for each test, the type and number of tests, and patient volume.