Ultrasound-guided needle positioning near the sciatic nerve to elicit compound muscle action potentials from the gastrocnemius muscle of the rat

▶ Ultrasound does allow minimally invasive placement of needle electrode. ▶ Results of the minimally invasive technique and conventional invasive technique for retrieval of CMAPs are comparable. ▶ Performing minimally invasive technique recommended in future animal projects concerning nerve regenera...

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Published in:Journal of neuroscience methods 2011-01, Vol.194 (2), p.283-286
Main Authors: Nijhuis, T.H.J., Smits, E.S., van Neck, J.W., Visser, G.H., Walbeehm, E.T., Blok, J.H., Hovius, S.E.R.
Format: Article
Language:English
Subjects:
Action Potentials - physiology
Animals
Chi-Square Distribution
CMAP
Electric Stimulation - methods
Electrodes
Electromyography - methods
Muscle, Skeletal - diagnostic imaging
Muscle, Skeletal - innervation
Muscle, Skeletal - physiology
Nerve visualisation
Rats
Sciatic Nerve - diagnostic imaging
Sciatic Nerve - physiology
Ultrasonography
Ultrasound
Wisteria
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Summary:▶ Ultrasound does allow minimally invasive placement of needle electrode. ▶ Results of the minimally invasive technique and conventional invasive technique for retrieval of CMAPs are comparable. ▶ Performing minimally invasive technique recommended in future animal projects concerning nerve regeneration models. The use of ultrasound-guided electrode positioning in near-nerve myography was investigated. This is a minimally invasive technique that allows repeated measurements to increase accuracy and hence decreases animal numbers. Ultrasound imaging of the sciatic nerve was performed in nine rats using a 55MHz high-end transducer. Once visualised, a monopolar needle electrode was placed through the skin near this nerve. Upon stimulation, two surface electrodes, placed over the gastrocnemius muscle, recorded compound muscle action potentials (CMAPs). Reproducibility was tested having two teams of investigators perform the recordings consecutively. Reliability of the procedure was determined by comparing the ultrasound method to the conventional technique, which requires an incision through muscle and skin to expose the sciatic nerve. In all animals the sciatic nerve was visible on ultrasound images. Both methods showed CMAP latencies (duration was determined as the time interval between the onset latency and positive peak). The conventional method had a mean latency of 3.4±0.5ms, our method had a mean latency of 3.3±0.5ms. Reproducibility was excellent (observed latencies and amplitudes: 3.3 versus 3.3ms and 25.6±5.1mV versus 22.5±8.8mV) resulting in a coefficient of variation for duration of 2.1% and for amplitude 6.7%. Interclass correlation coefficient was 0.828 for duration. Comparing the three different measurements no significant differences were found and our new method can therefore be considered reliable and comparable to the conventional method. Ultrasound-guided near-nerve needle positioning is a reproducible and reliable minimally invasive method for selectively eliciting CMAPs, which allows repeated CMAP measurements for studying nerve regeneration in rats.
ISSN:0165-0270
1872-678X
DOI:10.1016/j.jneumeth.2010.10.026