Oversensing and undersensing issues of Implantable Cardiac Medical Devices (ICMDs) are addressed in this paper. Particularly, an extensive experimental study has been performed in order to highlight that EMI affects ICMD sensing performances in correspondence of specific heartbeat status in terms of both frequency and amplitude. Experiments have been carried out on both a Pacemaker and an Implantable Cardioverter Defibrillator within an anechoic chamber. This guarantees a proper EMI injection, whose frequency has been chosen in accordance with ANSI / AAMI ISO 14117: standard 2012. In addition, such an environment also guarantees and appropriate shielding against external EMI sources, thus ensuring the reliability of the tests
The number of cardiac implantable electronic devices (CIEDs) has greatly increased in the last 10 ye...
External sources, either within or outside the hospital environment, may interfere with the appropri...
This work is focused on cardiac pacemakers and sources of electronic interference. The project partl...
Oversensing and undersensing issues of Implantable Cardiac Medical Devices (ICMDs) are addressed in ...
A novel electromagnetic characterization of Implantable Cardiac Medical Devices (ICMDs) is presented...
Modern cardiac implantable devices (CIDs. such as pacemakers (PMs), implantable cardioverter defibri...
AbstractIn the last few years we are witnessing a dramatic increase in the number of CIEDs implanted...
Modern life exposes us all to an ever-increasing number of potential sources of electromagnetic inte...
Introduction: The electromagnetic interference (EMI) of active implantable medical devices (AIMDs) d...
The number of implantable cardioverter-defibrillators (ICDs) for the prevention of sudden cardiac de...
EAS (electronic article surveillance) systems have increased rapidly for article surveillance. In th...
An analysis of Electromagnetic Interference (EMI) between a Radio Frequency Identification (RFID) de...
Electromagnetic interference (EMI) from commercially available RFID reader/writers on implantable ca...
The number of cardiac implantable electronic devices (CIEDs) has greatly increased in the last 10 ye...
Abstract—Electromagnetic interference (EMI) affects cir-cuits by inducing voltages on conductors. An...
The number of cardiac implantable electronic devices (CIEDs) has greatly increased in the last 10 ye...
External sources, either within or outside the hospital environment, may interfere with the appropri...
This work is focused on cardiac pacemakers and sources of electronic interference. The project partl...
Oversensing and undersensing issues of Implantable Cardiac Medical Devices (ICMDs) are addressed in ...
A novel electromagnetic characterization of Implantable Cardiac Medical Devices (ICMDs) is presented...
Modern cardiac implantable devices (CIDs. such as pacemakers (PMs), implantable cardioverter defibri...
AbstractIn the last few years we are witnessing a dramatic increase in the number of CIEDs implanted...
Modern life exposes us all to an ever-increasing number of potential sources of electromagnetic inte...
Introduction: The electromagnetic interference (EMI) of active implantable medical devices (AIMDs) d...
The number of implantable cardioverter-defibrillators (ICDs) for the prevention of sudden cardiac de...
EAS (electronic article surveillance) systems have increased rapidly for article surveillance. In th...
An analysis of Electromagnetic Interference (EMI) between a Radio Frequency Identification (RFID) de...
Electromagnetic interference (EMI) from commercially available RFID reader/writers on implantable ca...
The number of cardiac implantable electronic devices (CIEDs) has greatly increased in the last 10 ye...
Abstract—Electromagnetic interference (EMI) affects cir-cuits by inducing voltages on conductors. An...
The number of cardiac implantable electronic devices (CIEDs) has greatly increased in the last 10 ye...
External sources, either within or outside the hospital environment, may interfere with the appropri...
This work is focused on cardiac pacemakers and sources of electronic interference. The project partl...