EXMI Technology GmbH of München at MEDICA 2017 in Düsseldorf -- COMPAMED Trade Fair
Manufacturers Trader

EXMI Technology GmbH

Xaver-Weismor-Str. 22 A, 81829 München
Germany

Telephone +49 172 9712330
Fax +49 89 346894
info@kitalpha-med.de

This company is main exhibitor of

Hall map

MEDICA 2017 hall map (Hall 9): stand B59

Fairground map

MEDICA 2017 fairground map: Hall 9

Our range of products

Product categories

  • 01  Electromedical equipment / Medical Technology
  • 01.03  Therapie and physical medicine
  • 01.03.13  Transcutaneous nerve stimulation

Transcutaneous nerve stimulation

Our products

Product category: Transcutaneous nerve stimulation

Extracorporeal Magnetic Innervation (ExMI™)

  • A treatment session takes around 20 minutes and is typically done every second day in the doctor’s office. Usually there will be an improvement already after 6-8 sessions. The maximal outcome will be achieved after 20-25 sessions.
  • The therapy is completely painless – Nothing other than a chair.
  • The patients sit fully clothed in this comfortable chair and will feel a small vibration or tapping while sitting in the chair.
  • They will even be able to feel there pelvic floor muscles contracting.
  • For some patients, this will cure incontinence completely. Others may need to repeat the treatment periodically to maintain muscle control.
  • That easy! And that effective!

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About us

Company details

NeoControl is based on a revolutionary technology called Extracorporeal Magnetic Innervations (ExMI™).

This technology produces highly focused time varying magnetic field which penetrates deep into the perineum, activating the pelvic floor muscles by stimulating all branches of the pudental and splanchnic nerves.

Pulses of sleep gradient magnetic flux are produced and focused by the specially designed therapy head. These fields pass through clothing, bone and soft tissues to initiate nerve impulses. The time varying magnetic field creates an electrical potential which causes ion flow, or Eddy currents, in the soft tissues of the pelvic floor. This ion flow results in a brief depolarization of resting motor neurons. When a threshold is reached, an action potential is initiated for that neuron. This action potential then propagates naturally down the axon via the usual Na+ and K+ ion flows. Once these impulses reach the motor end plates, the muscles of the pelvic floor respond by contracting at an equal to the output pulse rate of the therapy head. The muscles contract and relax with each pulse, unless the output pulse rate exceeds the muscles’ ability to contract and relax, resulting in a constant or tetanic contraction of the muscles.

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