NC-BVP-F (finger module):The BVP sensor provides a photoplethysmography (PPG) si
NC-BVP-F (finger module):The BVP sensor provides a photoplethysmography (PPG) signal when connected to a NeXus signal acquisition device, that corresponds with variations in peripheral blood flow resulting from cardiovascular activity and responses, with the purpose of providing information on the cardiovascular variations such as heart rate variations and measured pulse amplitude. The sensor output is not intended to be used for vital monitoring purposes.The device is designed for medical use, not restricted to a specific medical indication, for acquisition of physiological signals. The device is intended to be used by, or under supervision of, a health professional within a clinical environment.
The NeXus-10 MKII is designed for medical use, not restricted to a specific medi
The NeXus-10 MKII is designed for medical use, not restricted to a specific medical indication, for acquisition of (electro)-physiological signals (e.g. EEG, EMG or ECG). The product is intended to be used by medical/acces professionals in a laboratory setup or medical office, or to be set-up in such an environment after which the subject/patient can be sent out while signal acquisition continues on memory. The NeXus 10 MKII is not intended for use in diagnosis, nor in critical and/or life supporting applications.The NeXus 10 MKII is intended for use on humans.The NeXus 10 MKII is intended to be used with approved NeXus 10 MKII accessories only. Specifically, (active) sensors intended to measure specific physiological signals, shall be designed in accordance with the specifications of the NeXus-10 MKII and may require interpretation by user or application software.
The NeXus software is intended to provide (near) real-time biofeedback and neuro
The NeXus software is intended to provide (near) real-time biofeedback and neurofeedback in the form of information, visual and auditory signals, corresponding to the state of one or more physiological parameters, so that a patient can learn voluntary control of these parameters. The software shall be used on a personal computer (in a medical office environment) in combination with compatible signal acquisition devices and sensor accessories to perform its intended use. The software is designed for medical use, not restricted to a specific medical indication. It is intended to be used within a medical office environment by, or under supervision of, a health professional (novice user, technical knowledge, normal eyesight, possibly achieved with the aid of glasses). The software is not intended for use in a life support application nor is it intended for diagnostic purposes.
NB-BVP-F (finger module):The BVP sensor provides a photoplethysmography (PPG) si
NB-BVP-F (finger module):The BVP sensor provides a photoplethysmography (PPG) signal when connected to a NeXus signal acquisition device, that corresponds with variations in peripheral blood flow resulting from cardiovascular activity and responses, with the purpose of providing information on the cardiovascular variations such as heart rate variations and measured pulse amplitude. The sensor output is not intended to be used for vital monitoring purposes.The device is designed for medical use, not restricted to a specific medical indication, for acquisition of physiological signals. The device is intended to be used by, or under supervision of, a health professional within a clinical environment.
The NeXus-Q32 is intended for acquisition of (electro)-physiological signals (e.
The NeXus-Q32 is intended for acquisition of (electro)-physiological signals (e.g. EEG, surface EMG or ECG) from humans, regardless of any specific medical indication, by medical/research professionals.
NB-GSR:The GSR sensor provides a measure of skin resistance or skin conductance
NB-GSR:The GSR sensor provides a measure of skin resistance or skin conductance when connected to a NeXus signal acquisition device, which is influenced by the autonomic activation of sweat glands in the skin. The sensor output is not intended to be used for vital monitoring purposes.The device is designed for medical use, not restricted to a specific medical indication, for acquisition of physiological signals. The device is intended to be used by, or under supervision of, a health professional within a clinical environment.
NC-C-GT:The GSR sensor provides a measure of skin resistance or skin conductance
NC-C-GT:The GSR sensor provides a measure of skin resistance or skin conductance when connected to a NeXus signal acquisition device, which is influenced by the autonomic activation of sweat glands in the skin. The sensor output is not intended to be used for vital monitoring purposes.The temperature sensor provides a signal that corresponds with (variations in) peripheral skin temperature when connected to a NeXus signal acquisition device. The sensor shall be placed on intact skin to provide a signal that is influenced by cutaneous blood flow. The sensor is not intended to determine directly or indirectly a measure of core body temperature and to be used for vital monitoring purposes.The device is designed for medical use, not restricted to a specific medical indication, for acquisition of physiological signals. The device is intended to be used by, or under supervision of, a health professional within a clinical environment.
NC-BVP-H (head module):The BVP sensor provides a photoplethysmography (PPG) sign
NC-BVP-H (head module):The BVP sensor provides a photoplethysmography (PPG) signal when connected to a NeXus signal acquisition device, that corresponds with variations in peripheral blood flow resulting from cardiovascular activity and responses, with the purpose of providing information on the cardiovascular variations such as heart rate variations and measured pulse amplitude. The sensor output is not intended to be used for vital monitoring purposes.The device is designed for medical use, not restricted to a specific medical indication, for acquisition of physiological signals. The device is intended to be used by, or under supervision of, a health professional within a clinical environment.
NB-TMP:The temperature sensor provides a signal that corresponds with (variation
NB-TMP:The temperature sensor provides a signal that corresponds with (variations in) peripheral skin temperature when connected to a NeXus signal acquisition device. The sensor shall be placed on intact skin to provide a signal that is influenced by cutaneous blood flow. The sensor is not intended to determine directly or indirectly a measure of core body temperature and to be used for vital monitoring purposes.The device is designed for medical use, not restricted to a specific medical indication, for acquisition of physiological signals. The device is intended to be used by, or under supervision of, a health professional within a clinical environment.
Noromed computerized manual muscle testing offers manual muscle testing at its b
Noromed computerized manual muscle testing offers manual muscle testing at its best by bringing science to what once was an art.The muscle testing hardware includes an ergonomic force gauge and five attachments to choose from which provide easy, comfortable testing of all muscle groups - large and small. Now you can perform real time strength testing - quickly and easily - and all fully documented by the computer interface.The flexibility of the system allows you to use pre-programmed established protocols or create your own. Designed to meet your needs, the software calculates the statistics appropriate to each test as well as generating a wide variety of documentation to fit your specific needs. This documentation includes:Supportive documentation reports which contain the graphic reports and profiles of the actual test data. Reports included are:•A composite report of individual test results by protocol and muscles tested as well as calculated deficits. •A test comparison report which collects and displays the patient's historical results. •A Myotest data report which presents both statistical data and graphical data of the individual test broken down by trial.
The Dynamic SEMG module of the MES 9000 allows for the recording of up to 8 chan
The Dynamic SEMG module of the MES 9000 allows for the recording of up to 8 channels of SEMG simultaneously. The MES 9000 offers you the flexibility to monitor and record the data in its raw state or as integrated data.The powerful and user-friendly software simplifies the recording of multiple muscle groups of antagonist and synergist muscles to facilitate assessment and case documentation. In addition, the system includes pre-programmed protocols and analysis for assessment, muscle education and relaxation training. The clinician may also program custom protocols - quickly and simply.
Now you can have all of these capabilities in one compact system. Surface EMG, r
Now you can have all of these capabilities in one compact system. Surface EMG, rangeof motion and muscle testing – may be purchased separately or in any combination. The modulardesign of the MES 9000 allows you to purchase any combination of modules and expand as yourpractice grows. The MES 9000 --- the modular system that enables you to do a complete, integratedevaluation with objective documentation that supports your diagnosis.
By using sophisticated sensors within the inclinometers, the Dynamic ROM system
By using sophisticated sensors within the inclinometers, the Dynamic ROM system records the patient's entire ROM through the plane of movement and displays it in a graphical representation on the computer screen. Unlike other systems which simply give you a static endpoint measurement of ROM, Dynamic ROM captures the entire movement. The figure to your left shows a typical Dynamic ROM recording of the dynamic motion of the spine during three repetitions of lumbar flexion and extension. The numbers correspond with the figure to the left showing the patient's motions.The inclinometers are attached to straps placed over T12 and S1. The recording of the sensor at S1 is subtracted from the recording at T12 to produce the DIFFerential recording graph which represents the true motion of the patient's lumbar during lumbar flexion and extension motion. The flattened DIFF tracing line on each repetition during end-point indicates that both sensors are moving at the same rate of speed, and that the lumbar lordosis stopped unfolding before the end-point of trunk flexion had been reached. With this information the clinician can observe and assess the quality and the pattern of the patient's motion as well as the quantity of the ROM. Dynamic Range of Motion from Noromed elevates range of motion testing from a simple measurement tool to a true diagnostic tool.
Noromed SEMG, with broader operating ranges, greater sensitivity, and unsurpasse
Noromed SEMG, with broader operating ranges, greater sensitivity, and unsurpassed ability to eliminate extraneous electrical "noise", provides an SEMG platform you can use with confidence. With Noromed SEMG you know you are getting true, reliable and repeatable results.In evaluating the technological sophistication, superiority and reliability of SEMG systems, the most important factors are sensitivity (usually expressed in microvolts), the monitoring range (again usually expressed in microvolts), and how the instrument eliminates ambient electrical noise.
Single use disposable application pad adhesive for use with dorsaVi Version 5 MD
Single use disposable application pad adhesive for use with dorsaVi Version 5 MDM Sensors for Movement Suite Kits.
Movement Suite is a wireless medical device that measures, records, and reports
Movement Suite is a wireless medical device that measures, records, and reports movements and muscle activity of the lowerback / lumbar spine. The system also measures range of motion in the sagittal and coronal anatomical planes.
Professional Suite is a wireless medical device that measures, records, and repo
Professional Suite is a wireless medical device that measures, records, and reports movements and muscle activity of the lowerback / lumbar spine. The system also measures range of motion in the sagittal and coronal anatomical planes.
BTS TMJOINT is a wireless surface electromyograph to measure thedifferential in
BTS TMJOINT is a wireless surface electromyograph to measure thedifferential influence of the occlusal function through indices validatedand published in scientific literature
BTS G-SENSOR 2 is a wireless system consisting of an inertial sensor composed by
BTS G-SENSOR 2 is a wireless system consisting of an inertial sensor composed by a tri-axial accelerometer, a magnetic sensor, and a tri-axial gyroscope, that worn by the patient allows a functional gait analysis.
BTS FREEEMG 1000 is a wireless surface electromyograph for the acquisition and t
BTS FREEEMG 1000 is a wireless surface electromyograph for the acquisition and transmission of EMG signals and for the assessment of angles, angular velocities, angular accelerations and foot-floor contact areas.It allows the functional evaluation and a real-time visualization of the acquired signals for biofeedback and monitoring applications.
BTS FREEEMG 300 is a wireless surface electromyograph, which makes the selection
BTS FREEEMG 300 is a wireless surface electromyograph, which makes the selection of muscles, the setting ofduration and frequency of acquisition, amplification gain and the correctpositioning of electrodes, simple and rapid.
BAIOBIT is a wireless system consisting of an inertial sensor composed by a tri-
BAIOBIT is a wireless system consisting of an inertial sensor composed by a tri-axial accelerometer, a magnetic sensor, and a tri-axial gyroscope, that worn by the patient allows a functional movement analysis.