Electrocardiographs (ECG) units are used to measure signals produced by the heart. Some newer models have the ability to analyze these signals and provide a detailed reports of the readings.
This accuracy of the information provided by these units is best maintained by performing yearly preventative maintenance as well as regular checks for any physical damage to the unit. The preventative maintenance of ECGs includes accuracy testing, electrical safety analysis and functionality testing of any additional components.
During accuracy testing the unit is examined at multiple different heart rates. This is tested with a patient simulator and the unit is tested within a range of 30 and 240 beats per minute (BPM). During this time any alarms are also tested such as heart rates outside of the normal range. Testing the accuracy is recommended for many of these units however specific ranges are not always outlined. For example the Philips page writers 100, 200 and 300 reference this testing but do not outline the rates [1]. That is why TRH services chooses to test over a wide range so that any failures of accuracy can be found and resolved.
Electrical safety analysis ensures that the unit is properly grounded and has normal leakage current [1]. ECGs have the additional electrical safety test of ensuring the leads for the unit are isolated from each other and will prevent current from passing between them [1]. During this time the leads are examined for any signs of damage such as exposed wire or artifacts present on the leads [1]. Any damage to the leads can affect the accuracy of the unit. It is recommended to check the leads regularly for any damage that could cause noise within the signal [1]. It is also important to ensure the units electrodes are in good condition before use as this is another aspect that can affect the accuracy of the unit.
Additional components can include displays, keypads, and printers. Displays and keypads are examined for any physical damage and functionality [1]. Further testing including self tests and calibration, are tested as outlined by the manufacturer [1]. Printers are present on most units, a set of readings are printed during the annual maintenance to ensure the printing can be read and that the settings are correct. This is also when internal sensors are tested such to ensure functionality such as the low paper sensor. This issue can be seen with the Philips page writer 100, 200 and 300 units that require a hole in the paper to be sensed when printing on the automatic setting [1].
As with most medical equipment, it is recommended to ensure the battery is properly maintained. This includes replacing the battery as recommended and keeping the unit plugged in to prevent it from depleting [1].
There areĀ a few common issues that occur with these units. An error that can be seen more frequently is incorrect settings due to changes in the number of leads. Many machines can support multiple varieties of leads such as 3, 5 and 10 lead cables. For example the ELI 280 unit made by Burdick allows for 3 and 12 lead variations [2]. If the machine is on the incorrect setting it may still read values but may not provide accurate information. It is important to note that if the unit does not sense that all leads are connected to the patient it may show an error code until all leads are properly connected. This error can be seen on the ELI 280 units as they will not read any values if all leads are not connected [2]. The misplacement of leads or improper connection of leads can also cause the unit to provide inaccurate information or error codes [2].
By ensuring that annual preventative maintenance is performed by a qualified technician many of these errors can be avoided. This maintenance should be done in addition to assessments which should be performed when the unit presents an unknown error code or its accuracy is questioned. All of the technicians at TRH services have experience regarding the maintenance and assessment process for a large variety of ECG units and are committed to ensuring that each unit is functioning as per their manufacturers standards.
Here is a brief list of some equipment that we work on:
Equipment Tested by TRH Services
| Manufacturer | Model Number |
|---|---|
| Burdick Corporation | Atria 6100 |
| Burdick Corporation | EK10 |
| Burdick Corporation | ELI 280 |
| Edan Instruments Inc. | ES-1200 Express |
| Edan Instruments Inc. | SE-1200 |
| GE Medical Systems Information Technologies Inc. | MAC 2000 |
| GE Medical Systems Information Technologies Inc. | MAC1200 |
| GE Medical Systems Information Technologies Inc. | PDM |
| General Electric Company | MAC 5000 |
| General Electric Company | MAC 5500 |
| General Electric Company | MAC 5500 HD |
| Global instrumentation | M12R |
| Hewlett Packard | M1772A |
| Mortara Instrument Inc | ELI 150 Rx |
| Mortara Instrument Inc | ELI 150c |
| Mortara Instrument Inc | ELI 150Rx |
| Mortara Instrument Inc | ELI 1XX Series 2 |
| Nihon Kohden Corporated | ECG-1250A |
| Norav Medical Ltd | 1200M |
| Northeast Monitoring Inc | DR180+ |
| Philips Healthcare | 860315 (PageWriter) |
| Philips Healthcare | M1770A |
| Philips Healthcare | Pagewriter Trim III ABA A03 |
| Philips Healthcare | 860315 |
| Philips Healthcare | 860284 |
| Philips Medical Systems | Page Writer Trim III |
| Pulse Biomedical Inc. | QRS Card USB |
| QRS Diagnostic | Universal ECG |
| Schiller AG | AT-1 |
| Schiller AG | Cardiovit AT-2 |
| Welch Allyn | AT-2 |
| Welch Allyn | SE-PRO-600 |
| Welch Allyn | CP2A |
| Welch Allyn | CP200 |
| Welch Allyn | CP150 |
| Welch Allyn | CP100 |
| Welch Allyn | CP 200 |
| Welch Allyn | COMPUTER SE-PRO-600 |
| Welch Allyn | CP 100 |
References:
Page 61
- PageWriter 100, 200 and 300 series Cardiographs M1170A, M1771A, and M1772A, Mobile Cart M1705B Service Manual, 3rd Hewlett-Packard Company. USA, 1998. Chapter 2: Performance and Verification.
- ELI 280 User Manual, Rev C. Mortara Instrument Inc. Wisconsin, USA, 2018
Written by: Dixon Murphy
Edited by: Tyler Hasenpflug CET