Drop Shipped From GE - Not For Export Out Of US
The BISx Digital Signal Processing Unit DMR in Agile is a customized designed brain monitoring interface cable intended for use in patient monitoring and other medical equipment as applicable. The 2-Channel Bispectral Index™ (BISx™) module, with host monitor cable and patient interface cable, uses the proprietary BIS™ algorithm to acquire and process EEG data, displayed as the BIS™ index. The BIS™ brain monitoring system generates a processed EEG parameter that provides a direct measure of the effects of sedatives on the brain. The BIS™ monitoring value is represented as a number from 0 to 100 that is calculated from the raw EEG obtained by a sensor placed on a patient’s forehead. The BIS™ value is used in a variety of settings, including anesthesia, critical care, and procedural sedation to provide objective information about an individual patient’s response to sedative drugs. The BISx™ system complies with the essential requirements of the Medical Devices Directive 93/42/EEC, as amended by Directive 2007/47/EC, as well as IEC 60601-2 26:2002 and IEC 60601-1-2003. It is a Type BF applied part. It has an internal optical coupling and an isolation transformer for patient isolation. It is protected against damage from defibrillation as long as the sensor is not located between the defibrillator pads and is resilient to artifact from electrosurgery.
The BISx Digital Signal Processing Unit DMR in Agile is a customized designed brain monitoring interface cable intended for use in patient monitoring and other medical equipment as applicable. The 2-Channel Bispectral Index™ (BISx™) module, with host monitor cable and patient interface cable, uses the proprietary BIS™ algorithm to acquire and process EEG data, displayed as the BIS™ index. The BIS™ brain monitoring system generates a processed EEG parameter that provides a direct measure of the effects of sedatives on the brain. The BIS™ monitoring value is represented as a number from 0 to 100 that is calculated from the raw EEG obtained by a sensor placed on a patient’s forehead. The BIS™ value is used in a variety of settings, including anesthesia, critical care, and procedural sedation to provide objective information about an individual patient’s response to sedative drugs. The BISx™ system complies with the essential requirements of the Medical Devices Directive 93/42/EEC, as amended by Directive 2007/47/EC, as well as IEC 60601-2 26:2002 and IEC 60601-1-2003. It is a Type BF applied part. It has an internal optical coupling and an isolation transformer for patient isolation. It is protected against damage from defibrillation as long as the sensor is not located between the defibrillator pads and is resilient to artifact from electrosurgery.
The BISx Digital Signal Processing Unit DMR in Agile is a customized designed brain monitoring interface cable intended for use in patient monitoring and other medical equipment as applicable. The 2-Channel Bispectral Index™ (BISx™) module, with host monitor cable and patient interface cable, uses the proprietary BIS™ algorithm to acquire and process EEG data, displayed as the BIS™ index. The BIS™ brain monitoring system generates a processed EEG parameter that provides a direct measure of the effects of sedatives on the brain. The BIS™ monitoring value is represented as a number from 0 to 100 that is calculated from the raw EEG obtained by a sensor placed on a patient’s forehead. The BIS™ value is used in a variety of settings, including anesthesia, critical care, and procedural sedation to provide objective information about an individual patient’s response to sedative drugs. The BISx™ system complies with the essential requirements of the Medical Devices Directive 93/42/EEC, as amended by Directive 2007/47/EC, as well as IEC 60601-2 26:2002 and IEC 60601-1-2003. It is a Type BF applied part. It has an internal optical coupling and an isolation transformer for patient isolation. It is protected against damage from defibrillation as long as the sensor is not located between the defibrillator pads and is resilient to artifact from electrosurgery.
The BISx Digital Signal Processing Unit DMR in Agile is a customized designed brain monitoring interface cable intended for use in patient monitoring and other medical equipment as applicable. The 2-Channel Bispectral Index™ (BISx™) module, with host monitor cable and patient interface cable, uses the proprietary BIS™ algorithm to acquire and process EEG data, displayed as the BIS™ index. The BIS™ brain monitoring system generates a processed EEG parameter that provides a direct measure of the effects of sedatives on the brain. The BIS™ monitoring value is represented as a number from 0 to 100 that is calculated from the raw EEG obtained by a sensor placed on a patient’s forehead. The BIS™ value is used in a variety of settings, including anesthesia, critical care, and procedural sedation to provide objective information about an individual patient’s response to sedative drugs. The BISx™ system complies with the essential requirements of the Medical Devices Directive 93/42/EEC, as amended by Directive 2007/47/EC, as well as IEC 60601-2 26:2002 and IEC 60601-1-2003. It is a Type BF applied part. It has an internal optical coupling and an isolation transformer for patient isolation. It is protected against damage from defibrillation as long as the sensor is not located between the defibrillator pads and is resilient to artifact from electrosurgery.
The BISx Digital Signal Processing Unit DMR in Agile is a customized designed brain monitoring interface cable intended for use in patient monitoring and other medical equipment as applicable. The 2-Channel Bispectral Index™ (BISx™) module, with host monitor cable and patient interface cable, uses the proprietary BIS™ algorithm to acquire and process EEG data, displayed as the BIS™ index. The BIS™ brain monitoring system generates a processed EEG parameter that provides a direct measure of the effects of sedatives on the brain. The BIS™ monitoring value is represented as a number from 0 to 100 that is calculated from the raw EEG obtained by a sensor placed on a patient’s forehead. The BIS™ value is used in a variety of settings, including anesthesia, critical care, and procedural sedation to provide objective information about an individual patient’s response to sedative drugs. The BISx™ system complies with the essential requirements of the Medical Devices Directive 93/42/EEC, as amended by Directive 2007/47/EC, as well as IEC 60601-2 26:2002 and IEC 60601-1-2003. It is a Type BF applied part. It has an internal optical coupling and an isolation transformer for patient isolation. It is protected against damage from defibrillation as long as the sensor is not located between the defibrillator pads and is resilient to artifact from electrosurgery.
The BISx Digital Signal Processing Unit DMR in Agile is a customized designed brain monitoring interface cable intended for use in patient monitoring and other medical equipment as applicable. The 2-Channel Bispectral Index™ (BISx™) module, with host monitor cable and patient interface cable, uses the proprietary BIS™ algorithm to acquire and process EEG data, displayed as the BIS™ index. The BIS™ brain monitoring system generates a processed EEG parameter that provides a direct measure of the effects of sedatives on the brain. The BIS™ monitoring value is represented as a number from 0 to 100 that is calculated from the raw EEG obtained by a sensor placed on a patient’s forehead. The BIS™ value is used in a variety of settings, including anesthesia, critical care, and procedural sedation to provide objective information about an individual patient’s response to sedative drugs. The BISx™ system complies with the essential requirements of the Medical Devices Directive 93/42/EEC, as amended by Directive 2007/47/EC, as well as IEC 60601-2 26:2002 and IEC 60601-1-2003. It is a Type BF applied part. It has an internal optical coupling and an isolation transformer for patient isolation. It is protected against damage from defibrillation as long as the sensor is not located between the defibrillator pads and is resilient to artifact from electrosurgery.