FATIGUE IN TYPE-I FIBER PREDOMINANCE - A MUSCLE FORCE AND SURFACE EMG STUDY ON THE RELATIVE ROLE OF TYPE-I AND TYPE-II MUSCLE-FIBERS

被引：87

作者：

LINSSEN, WHJP ^{[1
]}

STEGEMAN, DF ^{[1
]}

JOOSTEN, EMG ^{[1
]}

BINKHORST, RA ^{[1
]}

MERKS, MJH ^{[1
]}

TERLAAK, HJ ^{[1
]}

NOTERMANS, SLH ^{[1
]}

机构：

[1] CATHOLIC UNIV NIJMEGEN, INST PHYSIOL, 6500 HB NIJMEGEN, NETHERLANDS

来源：

MUSCLE & NERVE | 1991年 / 14卷 / 09期

关键词：

CONGENITAL MYOPATHY; TYPE-I MUSCLE FIBER PREDOMINANCE; SURFACE ELECTROMYOGRAPHY; MUSCLE FIBER CONDUCTION VELOCITY; FORCE;

D O I：

10.1002/mus.880140906

中图分类号：

R74 [神经病学与精神病学];

学科分类号：

摘要：

The relative proportions of fiber types within muscle and the characteristics of these fiber types are important determinants of the surface electromyogram (SEMG) during fatigue. In this study, patients suffering from congenital myopathy characterized by a strong type I fiber predominance were studied. Six patients with 95-100% type I fibers, 2 patients with 80% type I fibers, and 12 healthy volunteers participated in an ischemic, isometric, intermittent exercise test of m. quadriceps femoris at 80% MVC. Considering the results of the morphometric analysis of muscle biopsy specimen and of the anthropometric estimated muscle-bone volume, it was found that type I muscle fibers had a lower force generating capacity than type II fibers. The initial conduction velocity along the muscle fiber membrane (MFCV) was low in patients with 95-100% type I fibers. During the ischemic exercise test, the 95-100% type I fibers showed less fatigability than type II fibers, which was reflected by a nearby absent decrease of the muscle membrane excitability as measured by the MFCV, and only a slight increase of the SEMG amplitude compared with patients having 80% type I fibers and controls. The absence of a definite MFCV decrease was related to the nearby lacking lactate formation in 95-100% type I fibers.

引用

页码：829 / 837

页数：9

共 36 条

[11]

DUBOWITZ V, 1973, MUSCLE BIOPSY MODERN, P74

[12] BODY FAT ASSESSED FROM TOTAL-BODY DENSITY AND ITS ESTIMATION FROM SKINFOLD THICKNESS - MEASUREMENTS ON 481 MEN AND WOMEN AGED FROM 16 TO 72 YEARS [J].

DURNIN, JVGA ;

WOMERSLEY, J .

BRITISH JOURNAL OF NUTRITION, 1974, 32 (01) :77-97

[13] SIMULTANEOUS MEASUREMENT OF MUSCLE CONDUCTION-VELOCITY AND EMG POWER SPECTRUM CHANGES DURING FATIGUE [J].

EBERSTEIN, A ;

BEATTIE, B .

MUSCLE & NERVE, 1985, 8 (09) :768-773

[14] FORCE-VELOCITY PROPERTIES OF FAST-TWITCH AND SLOW-TWITCH MUSCLES OF THE KITTEN [J].

HATCHER, DD ;

LUFF, AR .

JOURNAL OF PHYSIOLOGY-LONDON, 1985, 367 (OCT) :377-385

[15] RELATIONSHIPS BETWEEN MUSCLE LACTATE ACCUMULATION AND SURFACE EMG ACTIVITIES DURING ISOKINETIC CONTRACTIONS IN MAN [J].

HORITA, T ;

ISHIKO, T .

EUROPEAN JOURNAL OF APPLIED PHYSIOLOGY AND OCCUPATIONAL PHYSIOLOGY, 1987, 56 (01) :18-23

[16] MUSCLE ACTION-POTENTIAL PROPAGATION VELOCITY CHANGES DURING ACTIVITY [J].

JUEL, C .

MUSCLE & NERVE, 1988, 11 (07) :714-719

[17] IMPULSE CONDUCTION VELOCITIES IN HUMAN BICEPS BRACHII MUSCLES [J].

KERESHI, S ;

MANZANO, G ;

MCCOMAS, AJ .

EXPERIMENTAL NEUROLOGY, 1983, 80 (03) :652-662

[18]

KSLER F, 1989, BIOMED BIOCHIM ACTA, V48, P465

[19]

LINDSTROM L, 1983, PROG CLIN NEUROPHYS, V10, P1

[20] MUSCLE FATIGUE IN MCARDLES DISEASE - MUSCLE-FIBER CONDUCTION-VELOCITY AND SURFACE EMG FREQUENCY-SPECTRUM DURING ISCHEMIC EXERCISE [J].

LINSSEN, WHJP ;

JACOBS, M ;

STEGEMAN, DF ;

JOOSTEN, EMG ;

MOLEMAN, J .

BRAIN, 1990, 113 :1779-1793

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