The T-Stat 2.0 Microvascular Tissue Oximeter provides a continuous, non-invasive
The T-Stat 2.0 Microvascular Tissue Oximeter provides a continuous, non-invasive, and localized measurement of the microvascular hemoglobin oxygen saturation. sensitive to regional and global reduced flow or no-flow ischemia. It is intended for use as an adjunct monitor of the localized oxygen saturation of blood in microvasular tissue spaces.
The T-Stat 303 Microvascular Tissue Oximeter provides a continuous, non-invasive
The T-Stat 303 Microvascular Tissue Oximeter provides a continuous, non-invasive, and localized measurement of the microvascular hemoglobin oxygen saturation, sensitive to regional and global reduced flow or no-flow ischemia. It is intended for use as an adjunct monitor of the localized hemoglobin oxygen saturation of blood in microvascular tissue spaces.
Gastrointestinal sensor for use with the T-Stat monitor to measure ischemia in c
Gastrointestinal sensor for use with the T-Stat monitor to measure ischemia in colorectal tissue.
International (non-U.S.) model; optional camera that can be used to record video
International (non-U.S.) model; optional camera that can be used to record video of the patient.
International (non-U.S.) model; optional 40 input EEG amplifier for direct recor
International (non-U.S.) model; optional 40 input EEG amplifier for direct recording of EEG and other physiological signals from the patient.
Research model; optional 40 input EEG amplifier for direct recording of EEG and
Research model; optional 40 input EEG amplifier for direct recording of EEG and other physiological signals from the patient.
Optional 40 input EEG amplifier for direct recording of EEG and other physiologi
Optional 40 input EEG amplifier for direct recording of EEG and other physiological signals from the patient.
International (non-U.S.) model; optional 16 input EEG amplifier for direct recor
International (non-U.S.) model; optional 16 input EEG amplifier for direct recording of EEG and other physiological signals from the patient.
Research model; optional 16 input EEG amplifier for direct recording of EEG and
Research model; optional 16 input EEG amplifier for direct recording of EEG and other physiological signals from the patient.
Optional 16 input EEG amplifier for direct recording of EEG and other physiologi
Optional 16 input EEG amplifier for direct recording of EEG and other physiological signals from the patient.
A portable, computer-based system that can continuously record, display, store a
A portable, computer-based system that can continuously record, display, store and analyze physiological data from multiple monitoring sources in real time.
International (non-U.S.) model; a portable, computer-based system that can conti
International (non-U.S.) model; a portable, computer-based system that can continuously record, display, store and analyze physiological data from multiple monitoring sources in real time.
Research model; a portable, computer-based system that can continuously record,
Research model; a portable, computer-based system that can continuously record, display, store and analyze physiological data from multiple monitoring sources in real time.
Domestic (U.S.) model; a portable, computer-based system that can continuously r
Domestic (U.S.) model; a portable, computer-based system that can continuously record, display, store and analyze physiological data from multiple monitoring sources in real time.