Discover how srt zeptoring® has a targeted effect on neurological disorders. It improves your patients’ mobility and coordination with impressive results – quickly, effectively and sustainably.
The Srt Zeptor Medical plus noise® has proven itself in the treatment of numerous neurological disorders.
Its unique mode of action is based on the developed Zeptoring®, which uses the physical phenomenon of stochastic resonance to train the neuronal stimulus processing of the human body and enable better mobility in the long term.
The term srt zeptoring® is derived from the sensors of the nerves, the so-called receptors. Their activity is enhanced by the non-rhythmic movements and the additional noise function of the Srt Zeptor Medical plus noise® and can thus counteract the breakdown of nerve cells.
These processes are particularly important for patients with neurodegenerative diseases such as Parkinson’s or multiple sclerosis, but also for spinal cord injuries and after strokes, as these patients in particular have movement disorders that make conventional physiotherapy training difficult or almost impossible. Stochastic resonance therapy, on the other hand, makes it possible to generate new nerve and muscle activity in such patients without great physical effort.
Proven effectiveness proven by numerous studies and scientific publications.
Highest standards of precision and reliability for optimum treatment results.
Versatile - a solution for almost all neurological treatment needs.
srt zeptoring® can be used to achieve numerous therapeutic goals for neurological disorders. The targeted stimulation promotes:
Stochastic resonance therapy works in Parkinson’s disease by releasing dopamine and other neurotrophic substances, among other things. The special feature is that the regulatory mechanism of the brain metabolism is not fooled because the body’s own dopamine is released. Continuous therapy with stochastic resonance therapy does not lead to such rapid depletion of dopamine production. By saving on medication, dreaded side effects can be reduced.
24 % reduced rigor
25 % reduced tremor
Source: Prof. Dr. rer. nat. Stefan Dalichau, Institut f. angewandte Prävention u. Leistungsdiagnostik BG Unfall-Ambulanz u. Reha-Zentrum am Airport Bremen: Vibration training in therapy with special consideration of stochastic resonance
Multiple sclerosis has very different manifestations, which is explained by the pathogenesis of the disease. Treatment must therefore be individually tailored by the doctor. The patient’s quality of life can be sustainably improved with stochastic resonance therapy, in particular through improved motor function and reactivity. New neuronal networks are formed and reactivated.
27 % better balance
Source: Prof. Dr. rer. nat. Stefan Dalichau, Institut f. angewandte Prävention u. Leistungsdiagnostik BG Unfall-Ambulanz u. Reha-Zentrum am Airport Bremen: Vibration training in therapy with special consideration of stochastic resonance
In addition to the consequences for quality of life due to reduced walking ability, impaired balance regulation and the resulting restrictions in mobility, paresis also makes it difficult to carry out rehabilitation programs. Muscular activation is a central characteristic of effective motor training stimuli. Paresis prevents voluntary muscular activation or severely restricts it. As a result, neurodegenerative processes occur after a short time in both the peripheral and central nervous system. Stochastic resonance therapy avoids the problem of voluntary activation disorders. By stimulating various receptor systems, reflexive muscular activation is induced. In a further step, this leads to the training of nerve cell groups, independent of voluntary motor activity.
Stochastic resonance therapy is effective in cases of craniocerebral trauma/paresis by stimulating the receptor systems and the resulting reflexive muscular activation (voluntary motor activity). At the same time, the cerebellum is reactivated, which stimulates neuroplastic processes.
The training should be used for patients with central nervous system disorders and peripheral nervous system disorders.
Neuropathies arise for a variety of reasons, e.g. in conjunction with diabetes, as a result of toxic environmental influences such as solvents, pesticides or pesticides, or even without a detectable cause. This means that all age groups can be affected.
Stochastic resonance therapy improves the disturbed nerve metabolism by releasing neurotrophic substances and developing and expanding neuronal networks. Stochastic resonance therapy can significantly improve the patient’s quality of life.
34 % better perception
Source: Prof. Dr. rer. nat. Stefan Dalichau, Institut f. angewandte Prävention u. Leistungsdiagnostik BG Unfall-Ambulanz u. Reha-Zentrum am Airport Bremen: Vibration training in therapy with special consideration of stochastic resonance
40 % better activation capacity
Source: Prof. Dr. rer. nat. Stefan Dalichau, Institut f. angewandte Prävention u. Leistungsdiagnostik BG Unfall-Ambulanz u. Reha-Zentrum am Airport Bremen: Vibration training in therapy with special consideration of stochastic resonance
We work with people with Parkinson’s, multiple sclerosis or after a stroke on a daily basis and can say from practical experience:
Progress here does not come from strength or will alone, it comes from the nervous system and its ability to adapt, reorganize and respond to stimuli.
Many of our patients struggle not only with motor impairments, but also with insecurity. Movements can no longer be called up reliably, steps feel uncoordinated and confidence in their own body is lost. Particularly in the case of complex neurological disorders, traditional forms of therapy repeatedly reach their limits because they only indirectly address the central problem.
Based on this experience, one question became increasingly important for us: How can we trigger neuronal adaptation processes in a targeted manner without overburdening patients?
In this context, we became aware of srt zeptoring® through a webinar and what appealed to us was the approach of targeted unpredictability. The stochastic movement impulses generate a controlled neuronal “noise” that challenges the central nervous system without stressing it. It is precisely this stimulus that seems to decisive to break up entrenched patterns of movement and open up new ways of responding.
During the application, patients experience a few minutes of intensive neuronal activation, without active force or overload. And yet we observe changes that are relevant in everyday life. Reactions become more stable, movements more coordinated and the feeling of control increases. We see clear effects in Parkinson’s patients in particular; freezing episodes occur less frequently, the gait appears more fluid and transitions are safer. Even after a stroke or in MS, patients are able to initiate movements more clearly and perform them more stably. Not because symptoms “disappear”, but because the nervous system reacts in a more organized way again.
Another advantage is that srt zeptoring® can be easily combined and seamlessly integrated into existing neurophysiological concepts; the therapy complements proven approaches without replacing them. It is well tolerated by patients and can be clearly structured for everyday practice. Over time, the system has become firmly integrated into our neurological work. Not as an isolated measure, but as targeted support where neuroplasticity needs to be promoted. The therapy creates a framework in which the nervous system can learn, in its own way, at its own pace.
For our neurological practice in the DACH region, srt zeptoring® means a tangible expansion of our therapeutic options. Modern neurorehabilitation is not only visible, but can also be experienced by patients and relatives, as well as by us as practitioners. Looking back, the decision to use srt zeptoring® was not a technological one, it was a therapeutic one. It was a decision in favor of an approach that does not describe neuroplasticity theoretically, but makes it usable in practice.
