The Clinical DTS was purpose built for the busy clinician who needs insight into what is happening within the muscles, but doesn't have time for extensive signal processing and post hoc analysis. When time is of the essence, the Clinical DTS is the right tool for the job.
Fusing the accuracy of our research systems with a pre-processed signal using a 100ms RMS filter, provides clinicians with clean, consistent results from an easy to read signal. Wether you are using it for real-time biofeedback or assessing movement against a pre-established baseline, clinical decision making will have more clarity and speed.
|Sample Rate||100Hz (RMS EMG Waveforms)|
|Input Impedance||> 100Mohm|
|EMG Sensor Size|| |
|EMG Sensor Weight|| |
Required Software Module
Symmetry & Coordination Tests
These various tests allow for the comparison of affected and unaffected sides. Display the EMG and histogram statistics for unilateral, bilateral, multi joint and symmetrical movements. Evaluate the neuromuscular coordination and compare innervation deficiencies between right and left sides.
Average Activation Patterns
Clinicians can assess repeated movement sequences and exercises while creating averaged and time normalized EMG patterns. Analyze the typical innervation structure of movements.
EMG Standard Analysis
The DTS system use a universal protocol for all kinds of EMG setups. View basic amplitude parameters in selected analysis periods. Use standard graphs and histograms designed for general analysis questions.
Use the bar graph display of signals to provide precise training of dysfunctional muscle groups with both acoustic and optical automatic training assistance.
Use multi activity recording with base lines, quick flicks, max contractions, max endurance and rest line tests to improve incontinence. The shrinking cycle display of signals coupled with the acoustic and optical automatic training assistance provides maximum training.
Use background templates for biofeedback training. Create EMG/angle/force templates using the healthy side. Use biofeedback and motor learning concepts to confirm the accuracy of performance.