The Vios Monitoring System (VMS) Adapter and Chest Sensor are intended for use b
The Vios Monitoring System (VMS) Adapter and Chest Sensor are intended for use by medically qualified personnel for physiological vital signs monitoring of adult (18+) patients in healthcare facilities. It is indicated for use in monitoring of 7-Lead ECG, heart rate, respiratory rate, pulse rate, functional oxygen saturation of arterial hemoglobin, non-invasive blood pressure, and patient posture and activity. VMS allows for the input of body temperature and can display data from peripheral devices. VMS can generate alerts when rate-based cardiac arrhythmias are detected and when physiological vital signs fall outside of selected parameters.The Vios Chest Sensor and Adapter are intended to be used by Vios-trained clinical professionals who also have a working knowledge of medical procedures, practices, and terminology, as required for monitoring patients.
The Vios Monitoring System (VMS) Adapter and Chest Sensor are intended for use b
The Vios Monitoring System (VMS) Adapter and Chest Sensor are intended for use by medically qualified personnel for physiological vital signs monitoring of adult (18+) patients in healthcare facilities. It is indicated for use in monitoring of 7-Lead ECG, heart rate, respiratory rate, pulse rate, functional oxygen saturation of arterial hemoglobin, non-invasive blood pressure, and patient posture and activity. VMS allows for the input of body temperature and can display data from peripheral devices. VMS can generate alerts when rate-based cardiac arrhythmias are detected and when physiological vital signs fall outside of selected parameters.The Vios Chest Sensor and Adapter are intended to be used by Vios-trained clinical professionals who also have a working knowledge of medical procedures, practices, and terminology, as required for monitoring patients.
The Vios Monitoring System (VMS) Adapter and Chest Sensor are intended for use b
The Vios Monitoring System (VMS) Adapter and Chest Sensor are intended for use by medically qualified personnel for physiological vital signs monitoring of adult (18+) patients in healthcare facilities. It is indicated for use in monitoring of 7-Lead ECG, heart rate, respiratory rate, pulse rate, functional oxygen saturation of arterial hemoglobin, non-invasive blood pressure, and patient posture and activity. VMS allows for the input of body temperature and can display data from peripheral devices. VMS can generate alerts when rate-based cardiac arrhythmias are detected and when physiological vital signs fall outside of selected parameters.The Vios Chest Sensor and Adapter are intended to be used by Vios-trained clinical professionals who also have a working knowledge of medical procedures, practices, and terminology, as required for monitoring patients.
The Vios Monitoring System (VMS) Bedside Monitor is intended for use by medicall
The Vios Monitoring System (VMS) Bedside Monitor is intended for use by medically qualified personnel for physiological vital signs monitoring of adult (18+) patients in healthcare facilities. It is indicated for use in monitoring of 7-Lead ECG, heart rate, respiratory rate, pulse rate, functional oxygen saturation of arterial hemoglobin, non-invasive blood pressure, and patient posture and activity. VMS allows for the input of body temperature and can display data from peripheral devices. VMS can generate alerts when rate-based cardiac arrhythmias are detected and when physiological vital signs fall outside of selected parameters.The VMS Bedside Monitor is intended to be used by Vios-trained clinical professionals who also have a working knowledge of medical procedures, practices, and terminology, as required for monitoring patients.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
pulse Oximeter, with an optional adapter cable for compatible models.SpO2 sensor
pulse Oximeter, with an optional adapter cable for compatible models.SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.
SpO2 sensors are electro-optical sensors that function without skin penetration,
SpO2 sensors are electro-optical sensors that function without skin penetration, electrical contact, or heat transfer. The sensor uses optical means to determine the light absorption of functional arterial hemoglobin by being connected between the patient and the Oximeter. The sensor contains three optical components, (LED) that serves as light sources and one photodiode that acts as light detector. The optical components are housed in adhesive film/rigid spring-loaded clip, or foam and Velcro wrap. The sensor cable is terminated by a connector as specified by the different make/ manufacturer of the pulse Oximeter, with an optional adapter cable for compatible models.