- F wave
In
neuroscience , an F wave is the second of twovoltage changes observed after electrical stimulation is applied to the skin surface above thedistal region of anerve . F waves are often used to measurenerve conduction velocity , and are particularly useful for evaluating conduction problems in theproximal region of nerves (i.e., portions of nerves near thespinal cord ).It's called F wave because it was initially recorded in the foot muscles.Fact|date=June 2007
Overview
In a typical F wave study, a strong electrical stimulus (supramaximal stimulation) is applied to the skin surface above the distal portion of a nerve so that the impulse travels both distally (towards the muscle fiber) and proximally (back to the
motor neuron s of the spinal cord). (These directions are also known asorthodromic andantidromic , respectively.) When the "orthodromic" stimulus reaches the muscle fiber, it elicits a strongM wave indicative ofmuscle contraction . When the "antidromic" stimulus reaches the motor neuron cell bodies, a small portion of the motor neurons backfire and orthodromic wave travels back down the nerve towards the muscle. This reflected stimulus evokes small proportion of the muscle fibers causing a small,second CMAP called the F wave.Because a different population of anterior horn cells is stimulated with each stimulation, each F wave have a slightly different shape, amplitude and latency.
Fact|date=June 2007
Properties
F wave properties include:
* "amplitude" (µV) - F wave height
* "duration" (ms) - length of F wave
* "latency" (ms) - period between F wave and initial stimulationF wave measurments
Several measurments can be done on the F responses, including minimal and maximal latencies, and F wave pesistence.
The minimal F wave latency is typically 25-32 ms in the upper extremites, and 45-56 ms in the lower extremities.
F wave persistence is the number of F waves obtained per the number of stimulatons, which is normally 80-100% (or above 50%).
ee also
*
H reflex
*Electromyograph (EMG)References
* Weber, G.A. Nerve conduction studies and their clinical applications. Clin. Podiatr. Med. Surg. 1990;7(1):151-178.
* Preston, Shapiro. Electromyography and Neuromuscular disorders, Elsevier, 2005.
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