IMPROVED TECHNIQUES FOR MEASURING MUSCLE-FIBER CONDUCTION-VELOCITY

被引:5
|
作者
YAAR, I [1 ]
NILES, L [1 ]
机构
[1] XEROX CORP,PALO ALTO RES CTR,PALO ALTO,CA 94304
来源
MUSCLE & NERVE | 1992年 / 15卷 / 03期
关键词
MUSCLE FIBER CONDUCTION VELOCITY; DIP ANALYSIS; CROSS-CORRELATION; POWER MODULATION;
D O I
10.1002/mus.880150324
中图分类号
R74 [神经病学与精神病学];
学科分类号
摘要
Cross-correlation (CCT) and dip analysis (DAT) are accepted techniques for estimating muscle fiber conduction velocity (MFCV). In the DAT, the product of the power spectrum of the conducted EMG times a cosine function of the MFCV is added to and inseparable from the noise power spectrum. The inclusion of the noise power is the weakness of the DAT. We propose and evaluate 2 new techniques that directly estimate the cosine function and, hence, the MFCV, avoiding the noise power: (1) The power-modulating-component (PMC), which equals the real part of the cross-power-spectrum of the EMG signal divided by its magnitude; and (2) The power spectrum of the PMC (PMCP). We recorded intramuscular from 229 biceps in isometric maximum voluntary contraction. The EMG signals were analyzed by the 4 techniques, and the results were compared in pairwise design (sign-tests and t tests) for quality and bias. The PMC surpassed the DAT (P < 0.00005); both the CCT and PMCP performed equally well and better than the DAT and the PMC (P < 0.00005). Also, the new techniques were superior with simulated EMG. In many cases only the PMCP worked. We conclude that the new techniques are valuable in supplementing the others, and most likely will enhance clinical use of MFCV estimations.
引用
收藏
页码:410 / 418
页数:9
相关论文
共 50 条
  • [1] MEASUREMENT OF MUSCLE-FIBER CONDUCTION-VELOCITY IN HUMANS - TECHNIQUES AND APPLICATIONS
    ARENDTNIELSEN, L
    ZWARTS, M
    [J]. JOURNAL OF CLINICAL NEUROPHYSIOLOGY, 1989, 6 (02) : 173 - 190
  • [2] MUSCLE-FIBER CONDUCTION-VELOCITY CHANGES WITH LENGTH
    TRONTELJ, JV
    [J]. MUSCLE & NERVE, 1993, 16 (05) : 506 - 512
  • [3] MUSCLE-FIBER CONDUCTION-VELOCITY WITH SURFACE ELECTROMYOGRAPHY
    EBERSTEIN, A
    GOODGOLD, J
    [J]. MUSCLE & NERVE, 1980, 3 (05) : 437 - 437
  • [4] MUSCLE-FIBER CONDUCTION-VELOCITY WITH SURFACE ELECTROMYOGRAPHY
    EBERSTEIN, A
    GOODGOLD, J
    [J]. ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1980, 50 (5-6): : P240 - P240
  • [5] MUSCLE-FIBER CONDUCTION-VELOCITY DURING ISCHEMIA
    CONTEGIACOMO, V
    DEMATTEI, M
    TRONI, W
    [J]. ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1986, 63 (04): : P58 - P58
  • [6] MUSCLE-FIBER CONDUCTION-VELOCITY RELATED TO STIMULATION RATE
    NISHIZONO, H
    KURATA, H
    MIYASHITA, M
    [J]. ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1989, 72 (06): : 529 - 534
  • [7] A NOTE ON THE NONINVASIVE ESTIMATION OF MUSCLE-FIBER CONDUCTION-VELOCITY
    BROMAN, H
    BILOTTO, G
    DE LUCA, CJ
    [J]. IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING, 1985, 32 (05) : 341 - 344
  • [8] THE MUSCLE-FIBER CONDUCTION-VELOCITY AND POWER SPECTRA IN PERIODIC PARALYSIS
    ZWARTS, MJ
    VANWEERDEN, TW
    LINKS, TP
    HAENEN, HTM
    OOSTERHUIS, HJG
    [J]. ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1988, 69 (02): : P46 - P46
  • [9] MUSCLE-FIBER CONDUCTION-VELOCITY IN THE POSTVIRAL FATIGUE SYNDROME IN MAN
    WEIR, AI
    KIOY, P
    HANSEN, S
    JAMAL, GA
    [J]. JOURNAL OF PHYSIOLOGY-LONDON, 1990, 429 : P51 - P51
  • [10] THE INFLUENCE OF MUSCLE LENGTH ON MUSCLE-FIBER CONDUCTION-VELOCITY AND DEVELOPMENT OF MUSCLE FATIGUE
    ARENDTNIELSEN, L
    GANTCHEV, N
    SINKJAER, T
    [J]. ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1992, 85 (03): : 166 - 172
12345