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Electroneuromyography: motor and sensory nerve conduction study (NCS), F-wave, H-reflex (also including paired stimulation), motor and sensory inching
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Electromyography: spontaneous activity, interference curve, motor unit potentials (MUP)
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Neuromuscular junction: repetitive stimulation, jitter (single fiber EMG)
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Motor unit number estimation (MUNE)
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Additional EMG techniques: blink reflex, sacral reflex, bulbocavernous reflex, T-reflex*, galvanic skin responses
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Somatosensory evoked potentials (SEP)
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Visual evoked potentials (VEP)
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Brainstem, middle- and long-latency auditory evoked potentials (AEP: BAEP, MLR, LLR)
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Vestibular evoked myogenic potentials (VEMP)
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Cognitive evoked potentials (CEP)
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Transcranial magnetic stimulation (TCMS)**
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Intraoperative monitoring
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Heart rate variability (HRV)***
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Electroretinography (ERG)***
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Electro-oculography (EOG)***
Neuro-MEP Advantages
Modular Architecture with the Use of USB Technology
All the electronic units included in the device delivery set are connected to computer with the use of USB interface. It allows combining them flexibly to arrange a configuration corresponding to your own requirements.
For example, if you connect one more 4-channel amplifier unit to Neuro-MEP-4, you will get 8-channel digital system.
It is possible to connect up to 10 (!) different USB units.
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Set of EMG Electrodes of New Generation
Now new EMG electrodes developed by our company are supplied with the digital EMG and EP system. They correspond to modern requirements.
Software on .NET Platform
“Neuro-MEP” software is developed on .NET platform. It is the most modern technology for program development.
The use of .NET allows increasing the time of creation and the level of program reliability considerably, using the modern and convenient interfaces, and also enhances the device capacities to the maximum.
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New EMG Techniques
The list of EMG techniques is enlarged by:
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motor and sensory inching
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jitter (single fiber EMG)
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sacral reflex
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bulbocavernous reflex
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T-reflex*
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vestibular myogenic EP
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automatic detection of MUP
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conduction velocity combined test (motor/sensory response)
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registration and analysis of spontaneous activity and interference EMG in one test
F-wave
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Neuro-MEP Features
Electroneuromyography:
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registration and analysis of M-wave characteristics and sensory action potential
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evaluation of motor/sensory conduction velocity
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F-wave, H-reflex (also including paired stimulation) parameters study
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magnetic stimulation of spinal roots and peripheral nerves with the further classic analysis of motor response**
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blink reflex, sacral reflex, bulbocavernous reflex, T-reflex*, galvanic skin responses
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motor and sensory inching
Neuromuscular Junction Study:
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analysis of M-wave decrement during repetitive stimulation of motor nerve
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tetanization and posttetanic phenomena study
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user-defined stimulation algorithm creation
Motor Unit Potentials (MUP):
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registration and analysis of spontaneous activity phenomena
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detection of MUP in automatic and manual modes
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automatic analysis of MUP parameters, determination of denervation-reinnervation process stage
Motor Unit Number Estimation (MUNE):
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registration and semiautomatic analysis with evaluation of motor unit quantity by incremental technique
Spontaneous and Interference Electromyography:
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spontaneous activity
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turn-amplitude analysis of interference EMG
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amplitude-frequency analysis of interference EMG
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spectrum analysis of interference EMG
- rectified EMG
- EMG sound playback
Transcranial Magnetic Stimulation (TCMS)**:
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determination of central motor conduction time of patients suffering from nervous system demyelination diseases, in particular, multiple sclerosis
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automatic calculation of root delay at F-wave and magnetic stimulation combined study
Somatosensory Evoked Potentials (SEP):
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short- and long-latency SEP
Auditory Evoked Potentials (AEP)***:
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registration of short-latency (brainstem), middle- and long-latency AEP
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objective audiometry
Vestibular Evoked Myogenic Potentials (VEMP)***:
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registration of VEMP in patients with Meniere's disease, superior canal dehiscence, vestibular neuritis, multiple sclerosis, migraine, spinocerebellar degeneration
Visual Evoked Potentials (VEP)***:
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registration of flash visual evoked potentials
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registration of reversal pattern visual evoked potentials
Heart Rate Variability (HRV)***:
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frequency-domain analysis of heart rate
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cardiovascular reflex tests performing
Electroretinography (ERG)***:
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ERG registration using ganzfeld stimulator, and different intensity white, red, blue, green colors and reversal pattern
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registration of cone, rod, maximal, local, rhythmical ERG and oscillatory potentials
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ERG on long stimulus (on/off electroretinography)
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electro-oculogram registration
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NCS. Sensory conduction velocity
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Motor unit potentials
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Somatosensory evoked potentials (SEP)
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Interference EMG
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Transcranial magnetic stimulation
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Cognitive EP Р300
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Intraoperative EP monitoring
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Short-latency AEP
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Heart rate variability
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Maximal ERG
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Jitter (single fiber EMG)
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if tendon hammer is available
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if Neuro-MS magnetic stimulator is available
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if corresponding accessories and software are available
 Neuro-MEP-8 Delivery Set
Neuro-MEP-8 Extra Delivery Set
Optional Sofware
- Neuro-OAE software (“Neuro-Audio.NET” software with ABR, VEMP, ECohG and OAE modules)
- Neuro-ERG software (“Neuro-MEP.NET” software with ERG module for VEP, PR-VEP, ERG and EOG acquisition, analysis and storage)
According to safety standards all the computer equipment used with digital EEG system should be connected via isolation transformer.
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neuro-mep-8.zip
| 2005—2012 © Neurosoft, Ivanovo, Russia