Transcranial Magnetic Stimulator
Navigational transcranial magnetic stimulator is used to diagnose and treat diseases of the neurological and psychiatric profile and is intended to provide clinical and diagnostic neurophysiological laboratories of treatment-and-prophylactic institutions (MPI) of the primary link and major MPI.
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Description
Areas of use:
diagnosis of lesions of the nervous system in: stroke, multiple sclerosis, spinal cord pathology, parkinsonism, cerebral palsy, traumatic brain injury;
monitoring of neuroplastic processes in the central nervous system during stroke and traumatic brain injury;
conducting and evaluating the parameters of global and stimulation electromyography,
electroencephalography;
treatment of diseases such as stroke, migraine, cognitive disorders, parkinsonism, epilepsy;
treatment of depression, pain, autism;
intraoperative monitoring of motor cortex in patients with neurosurgical pathology;
therapeutic use in the early neuro-reanimation period;
application in a comprehensive rehabilitation program after a stroke.
Benefits
The use of a transcranial magnetic stimulator (TCMS) in domestic medicine will result in:
mortality reduction;
increase the effectiveness of stroke treatment;
reducing the time of examination, treatment and rehabilitation;
development of domestic innovative production of medical equipment; • replacement of expensive imported analogues.
As a result of R&D, a transcranial magnetic stimulator will be created that meets international standards. Taking into account the lower price, this will fully satisfy the need in the Russian market and reduce the cost of purchasing and servicing. A high potential for product export is also estimated.
Specifications
The principle of operation of the stimulator is based on the discharge of a high voltage capacitor and a large current to the stimulation coil of copper wire (“inductor”) at the time of the high voltage switch closure. At this moment, a pulsed magnetic field arises in the inductor, which induces a current in the closely located tissues of the patient’s body that causes a nerve impulse, as in the case of ordinary electrical stimulation.
Composition
The composition of the product:
transcranial magnetic stimulator (TKMS);
patient chair with a system; positioning of the patient's head and with a mechanical manipulator to set the indicator in a predetermined position;
control unit and signal processing;
signal recording unit;
a set of inductors and electrodes for stimulation;
electrodes for myography and encelography.
diagnosis of lesions of the nervous system in: stroke, multiple sclerosis, spinal cord pathology, parkinsonism, cerebral palsy, traumatic brain injury;
monitoring of neuroplastic processes in the central nervous system during stroke and traumatic brain injury;
conducting and evaluating the parameters of global and stimulation electromyography,
electroencephalography;
treatment of diseases such as stroke, migraine, cognitive disorders, parkinsonism, epilepsy;
treatment of depression, pain, autism;
intraoperative monitoring of motor cortex in patients with neurosurgical pathology;
therapeutic use in the early neuro-reanimation period;
application in a comprehensive rehabilitation program after a stroke.
Benefits
The use of a transcranial magnetic stimulator (TCMS) in domestic medicine will result in:
mortality reduction;
increase the effectiveness of stroke treatment;
reducing the time of examination, treatment and rehabilitation;
development of domestic innovative production of medical equipment; • replacement of expensive imported analogues.
As a result of R&D, a transcranial magnetic stimulator will be created that meets international standards. Taking into account the lower price, this will fully satisfy the need in the Russian market and reduce the cost of purchasing and servicing. A high potential for product export is also estimated.
Specifications
The principle of operation of the stimulator is based on the discharge of a high voltage capacitor and a large current to the stimulation coil of copper wire (“inductor”) at the time of the high voltage switch closure. At this moment, a pulsed magnetic field arises in the inductor, which induces a current in the closely located tissues of the patient’s body that causes a nerve impulse, as in the case of ordinary electrical stimulation.
Composition
The composition of the product:
transcranial magnetic stimulator (TKMS);
patient chair with a system; positioning of the patient's head and with a mechanical manipulator to set the indicator in a predetermined position;
control unit and signal processing;
signal recording unit;
a set of inductors and electrodes for stimulation;
electrodes for myography and encelography.