Neuromuscular Stimulation via Neurotrac Continence
Neurotrac Continence delivers a low volt stimulation of motor nerves. This stimulation has long been used to treat numerous neuromuscular conditions.
How does it work?
Electric pulses twitch the muscle fibres, causing them to repeatedly contract and relax. This continual workload serves to strengthen and recondition the muscles of the pelvic floor.
A weakened pelvic floor can lead to incontinence, a condition which responds well to the muscular stimulation provided by the Neurotrac Continence.
The Neurotrac Continence has been designed for ease of use and effectiveness by patients and therapists alike. It is compact, portable and simple to use.
The Neurotrac Continence is utilised by doctors and continence physiotherapists in the management of various types of incontinence and other conditions which arise when the pelvic floor muscles are deconditioned.
Features and Benefits of Neurotrac Continence
1. Dual Channel
2. 9 Pre-set programmes for ease of use
3. 3 Customisable programmes for personal set up
4. Alternating and synchronous channels
5. Work/rest periods from 2 - 99 seconds
6. Pulse width selection from 50 - 450µS
7. Frequency output range 2 Hz - 100 Hz
8. Waveform asymmetrical rectangular bi-phasic
8. Time 1 - 90 minutes
9. Ramp up time from 0.1 - 9.9 seconds
10. Ability to lock the unit
11. Recordable “time in use” and “average” of the current
12. User friendly
13. Compact and very light
14. Physical dimensions 108 x 62 x 23 mm
15. Convenient belt clip
NeuroTrac Continence has stimulation programmes for the following pelvic floor muscles problems:
• Urge Incontinence (1)
• Stress Incontinence (2)
• Frequency & Urge (2)
• Lack of sensitivity (1)
• Pelvic Floor Workout (1)
• Endurance Increase (1)
• Pain Relief (1)
NeuroTrac Continence is a dual channel device that combines several treatment programmes (9 pre-set programmes) in one unit. NeuroTrac Continence stimulates neuromuscular system through full command of Pulse Widths, Pulse Rates, Ramp up Times, Work & Rest Cycles as well as alternating and/or synchronous applications.
