Mean, median and mode estimation of motor unit action potential templates
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Accurate estimation of motor unit action potential (MUAP) templates in the presence of background EMG activity and instrumentation noise is an important requirement of quantitative clinical EMG analysis; especially if EMG signal decomposition is utilized. Traditional mean estimation was compared with recently utilized median estimation and a new mode estimation technique. Using the isolated MUAPs within 250 trains of concentric-needle-detected MUAPs (25-740 per train), obtained using EMG signal decomposition, template baseline rms levels and their spike shape fidelities were measured. Median estimation had statistically better (p<0.05) average rms values than mode estimation, 3.1/spl plusmn/2.6 versus 3.5/spl plusmn/2.4 /spl mu/V, respectively. Both had significantly (p<0.001) lower average rms values than mean estimation (4.6/spl plusmn/3.4 /spl mu/V). Mode estimation provided statistically better (p<0.001) spike fidelity measures than median estimation, 99.59/spl plusmn/0.79% versus 98.68/spl plusmn/2.17% respectively. Mode estimation results were also least variable and therefore might be clinically most useful.
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