Drive to the human respiratory muscles

被引:85
作者
Butler, Jane E. [1 ]
机构
[1] Univ New S Wales, Prince Wales Med Res Inst, Sydney, NSW 2031, Australia
基金
英国医学研究理事会;
关键词
control of breathing in humans; Single motor units; Neuromechanical matching; Neural drive; Upper airway; Motoneurones; HUMAN MOTOR UNITS; PARASTERNAL INTERCOSTAL MUSCLES; OBSTRUCTIVE PULMONARY-DISEASE; TRANSCRANIAL MAGNETIC STIMULATION; INSPIRATORY BULBOSPINAL NEURONS; MONO-SYNAPTIC CONNECTIONS; NEGATIVE AIRWAY PRESSURE; VOLUME REDUCTION SURGERY; CEREBRAL BLOOD-FLOW; DIAPHRAGM LENGTH;
D O I
10.1016/j.resp.2007.06.006
中图分类号
Q4 [生理学];
学科分类号
071003 ;
摘要
The motor control of the respiratory muscles differs in some ways from that of the limb muscles. Effectively, the respiratory muscles are controlled by at least two descending pathways: from the medulla during normal quiet breathing and from the motor cortex during behavioural or voluntary breathing. Neurophysiological studies of single motor unit activity in human subjects during normal and voluntary breathing indicate that the neural drive is not uniform to all muscles. The distribution of neural drive depends on a principle of neuromechanical matching. Those motoneurones that innervate intercostal muscles with greater mechanical advantage are active earlier in the breath and to a greater extent. Inspiratory drive is also distributed differently across different inspiratory muscles, possibly also according to their mechanical effectiveness in developing airway negative pressure. Genioglossus, a muscle of the upper airway, receives various types of neural drive (inspiratory, expiratory and tonic) distributed differentially across the hypoglossal motoneurone pool. The integration of the different inputs results in the overall activity in the muscle to keep the upper airway patent throughout respiration. Integration of respiratory and non-respiratory postural drive can be demonstrated in respiratory muscles, and respiratory drive can even be observed in limb muscles under certain circumstances. Recordings of motor unit activity from the human diaphragm during voluntary respiratory tasks have shown that depending on the task there can be large changes in recruitment threshold and recruitment order of motor units. This suggests that descending drive across the phrenic motoneurone pool is not necessarily consistent. Understanding the integration and distribution of drive to respiratory muscles in automatic breathing and voluntary tasks may have implications for limb motor control. (C) 2007 Elsevier B.V. All rights reserved.
引用
收藏
页码:115 / 126
页数:12
相关论文
共 144 条
[1]   Phasic mechanoreceptor stimuli can induce phasic activation of upper airway muscles in humans [J].
Akahoshi, T ;
White, DP ;
Edwards, JK ;
Beauregard, J ;
Shea, SA .
JOURNAL OF PHYSIOLOGY-LONDON, 2001, 531 (03) :677-691
[2]   Human respiratory muscle actions and control during exercise [J].
Aliverti, A ;
Cala, SJ ;
Duranti, R ;
Ferrigno, G ;
Kenyon, CM ;
Pedotti, A ;
Scano, G ;
Sliwinski, P ;
Macklem, PT ;
Yan, S .
JOURNAL OF APPLIED PHYSIOLOGY, 1997, 83 (04) :1256-1269
[3]   SPINAL INTEGRATION OF SEGMENTAL, CORTICAL AND BREATHING INPUTS TO THORACIC RESPIRATORY MOTONEURONES [J].
AMINOFF, MJ ;
SEARS, TA .
JOURNAL OF PHYSIOLOGY-LONDON, 1971, 215 (02) :557-+
[4]   Individual muscle contributions to support in normal walking [J].
Anderson, FC ;
Pandy, MG .
GAIT & POSTURE, 2003, 17 (02) :159-169
[5]  
BASSAL M, 1981, J PHYSIOLOGY PARIS, V77, P759
[6]   INSPIRATORY ONSET OR TERMINATION INDUCED BY ELECTRICAL-STIMULATION OF THE BRAIN [J].
BASSAL, M ;
BIANCHI, AL .
RESPIRATION PHYSIOLOGY, 1982, 50 (01) :23-40
[7]  
BASSAL M, 1981, J PHYSIOLOGY PARIS, V77, P741
[8]   PHRENIC MOTO-NEURONS IN THE CAT - SUB-POPULATIONS AND NATURE OF RESPIRATORY DRIVE POTENTIALS [J].
BERGER, AJ .
JOURNAL OF NEUROPHYSIOLOGY, 1979, 42 (01) :76-90
[9]   REGULATION OF RESPIRATION .2. [J].
BERGER, AJ ;
MITCHELL, RA ;
SEVERINGHAUS, JW .
NEW ENGLAND JOURNAL OF MEDICINE, 1977, 297 (03) :138-143
[10]   REGULATION OF RESPIRATION .1. [J].
BERGER, AJ ;
MITCHELL, RA ;
SEVERINGHAUS, JW .
NEW ENGLAND JOURNAL OF MEDICINE, 1977, 297 (02) :92-97