Title :
Signal processing methods for automatic F-wave latency assignment
Author :
Neimark, M.A. ; Kong, X.
Author_Institution :
NeuroMetric Inc., Cambridge, MA, USA
Abstract :
F-waves are motor responses resulting from antidromic activation of motor neurones. Any successful F-wave analysis algorithm must satisfactorily address the following challenges: the uncertainty of F-wave occurrences, the variability of F-wave morphology and poor signal quality. F-wave latency is the most frequently used parameter for clinical diagnosis, and it is defined as the time difference between the stimulus and the initial deflection of the F-wave from its baseline. Our goal is to develop an automatic latency assignment algorithm that will yield F-wave latencies that are highly correlated with those assigned by human operators. In this paper, we present signal processing techniques for F-wave noise suppression and baseline removal, and report the results of latency assignment improvement
Keywords :
bioelectric phenomena; delay estimation; interference suppression; medical signal processing; neuromuscular stimulation; patient diagnosis; F-wave analysis algorithm; F-wave morphology variability; F-wave noise suppression; F-wave occurrence uncertainty; antidromic activation; automatic F-wave latency assignment; baseline removal; clinical diagnosis; correlation; initial deflection; motor neurones; motor responses; signal processing methods; signal quality; stimulus; time difference;
Conference_Titel :
Advances in Medical Signal and Information Processing, 2000. First International Conference on (IEE Conf. Publ. No. 476)
Conference_Location :
Bristol
Print_ISBN :
0-85296-728-4
DOI :
10.1049/cp:20000351
