Electromyography (EMG): Difference between revisions
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==Electromyography recording== | ==Electromyography recording== | ||
EMG activity can be recorded using different types of electrodes, including monopolar needles, concentric needles, bipolar needles, and single-fiber needles. Without the use of high and low frequency filters, EMG signals would be very noisy and difficult to interpret. The low frequency filter should be set to 10-30 Hz and the high frequency filter to 10-20 kHz, for example. | EMG activity can be recorded using different types of electrodes, including monopolar needles, concentric needles, bipolar needles, and single-fiber needles. Without the use of high and low frequency filters, EMG signals would be very noisy and difficult to interpret. The low frequency filter should be set to 10-30 Hz and the high frequency filter to 10-20 kHz, for example. | ||
#Spontaneous EMG. After the recording electrodes are inserted into the muscle tissue, the background EMG activity is stable and quiet under healthy conditions. | #Spontaneous EMG. After the recording electrodes are inserted into the muscle tissue, the background EMG activity is stable and quiet under healthy conditions. However, in the presence of an injury or a pathology, spontaneous EMG activity is generated by the motor neuron or post-synaptically at the level of the muscle fiber. Examples of spontaneous activity arising from the muscle fiber include fibrillation potentials, positive sharp waves, myotonic discharges, and complex repetitive discharges. Examples of spontaneous activity arising from the motor cell include neuromyotonic tonic discharges, myokymic discharges, and tremors. | ||
#Stimulated EMG. Electrically stimulated EMG activity is used in IONM to probe for motor neuron or cranial nerve activation by determining the stimulus thresholds for activation. A stimulus threshold is determined by ramping up the electrical current slowly until a compound muscle action potential is generated. | #Stimulated EMG. Electrically stimulated EMG activity is used in IONM to probe for motor neuron or cranial nerve activation by determining the stimulus thresholds for activation. A stimulus threshold is determined by ramping up the electrical current slowly until a compound muscle action potential is generated. | ||
#Single Fiber EMG | #Single Fiber EMG | ||
Revision as of 19:07, 22 September 2019
Electromyography is the recording of electrical activity from muscle tissue. Motor neurons generate action potentials when electrically stimulated or under pathological conditions. An electromyograph detects these changes in electrical activity and represents an important diagnostic tool to monitor nerve root function and muscle cell activity.
Muscle and Neuromuscular Junction
Electromyography recording
EMG activity can be recorded using different types of electrodes, including monopolar needles, concentric needles, bipolar needles, and single-fiber needles. Without the use of high and low frequency filters, EMG signals would be very noisy and difficult to interpret. The low frequency filter should be set to 10-30 Hz and the high frequency filter to 10-20 kHz, for example.
- Spontaneous EMG. After the recording electrodes are inserted into the muscle tissue, the background EMG activity is stable and quiet under healthy conditions. However, in the presence of an injury or a pathology, spontaneous EMG activity is generated by the motor neuron or post-synaptically at the level of the muscle fiber. Examples of spontaneous activity arising from the muscle fiber include fibrillation potentials, positive sharp waves, myotonic discharges, and complex repetitive discharges. Examples of spontaneous activity arising from the motor cell include neuromyotonic tonic discharges, myokymic discharges, and tremors.
- Stimulated EMG. Electrically stimulated EMG activity is used in IONM to probe for motor neuron or cranial nerve activation by determining the stimulus thresholds for activation. A stimulus threshold is determined by ramping up the electrical current slowly until a compound muscle action potential is generated.
- Single Fiber EMG
Peripheral Nerves
Cranial Nerves
- Facial Nerve
- Cranial Nerve III IV and VI
- Other Cranial Nerves
Intraoperative Monitoring
- Pedicle screws
- Peripheral Nerves
- Brachial Plexus
- Dorsal Rhizotomy
- Skull Base Tumor
- Others
Anesthesia and Other Factors
- Anesthesia Methods
- Muscle Relaxants
- Temperature
- Tourniquet
- Others