Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- Part I Physiology and pathophysiology of nerve fibres
- Part II Pain
- Part III Control of central nervous system output
- 18 Synaptic transduction in neocortical neurones
- 19 Cortical circuits, synchronization and seizures
- 20 Physiologically induced changes of brain temperature and their effect on extracellular field potentials
- 21 Fusimotor control of the respiratory muscles
- 22 Cerebral accompaniments and functional significance of the long-latency stretch reflexes in human forearm muscles
- 23 The cerebellum and proprioceptive control of movement
- 24 Roles of the lateral nodulus and uvula of the cerebellum in cardiovascular control
- 25 Central actions of curare and gallamine: implications for reticular reflex myoclonus?
- 26 Pathophysiology of upper motoneurone disorders
- 27 Modulation of hypoglossal motoneurones by thyrotropin-releasing hormone and serotonin
- 28 Serotonin and central respiratory disorders in the newborn
- 29 Are medullary respiratory neurones multipurpose neurones?
- 30 Reflex control of expiratory motor output in dogs
- 31 Abnormal thoraco-abdominal movements in patients with chronic lung disease
- 32 Respiratory rhythms and apnoeas in the newborn
- 33 Cardiorespiratory interactions during apnoea
- 34 Impairment of respiratory control in neurological disease
- 35 The respiratory muscles in neurological disease
- Part IV Development, survival, regeneration and death
- Index
22 - Cerebral accompaniments and functional significance of the long-latency stretch reflexes in human forearm muscles
from Part III - Control of central nervous system output
Published online by Cambridge University Press: 04 August 2010
- Frontmatter
- Contents
- List of contributors
- Preface
- Part I Physiology and pathophysiology of nerve fibres
- Part II Pain
- Part III Control of central nervous system output
- 18 Synaptic transduction in neocortical neurones
- 19 Cortical circuits, synchronization and seizures
- 20 Physiologically induced changes of brain temperature and their effect on extracellular field potentials
- 21 Fusimotor control of the respiratory muscles
- 22 Cerebral accompaniments and functional significance of the long-latency stretch reflexes in human forearm muscles
- 23 The cerebellum and proprioceptive control of movement
- 24 Roles of the lateral nodulus and uvula of the cerebellum in cardiovascular control
- 25 Central actions of curare and gallamine: implications for reticular reflex myoclonus?
- 26 Pathophysiology of upper motoneurone disorders
- 27 Modulation of hypoglossal motoneurones by thyrotropin-releasing hormone and serotonin
- 28 Serotonin and central respiratory disorders in the newborn
- 29 Are medullary respiratory neurones multipurpose neurones?
- 30 Reflex control of expiratory motor output in dogs
- 31 Abnormal thoraco-abdominal movements in patients with chronic lung disease
- 32 Respiratory rhythms and apnoeas in the newborn
- 33 Cardiorespiratory interactions during apnoea
- 34 Impairment of respiratory control in neurological disease
- 35 The respiratory muscles in neurological disease
- Part IV Development, survival, regeneration and death
- Index
Summary
A series of electromyographic (EMG) discharges can be recorded following the sudden stretch of a muscle that is either isometrically contracting or in motion. The first discharge (M1) is generally agreed to reflect activity of the monosynaptic stretch reflex. The nature and physiological basis of the later EMG activity is controversial (Chan, 1983; Marsden, Rothwell & Day, 1983), but there appears to be a reflex component (the so-called M2 response) followed by an overlapping component (M3) that is also of reflex origin but is influenced to a greater degree by voluntary mechanisms in some circumstances (Hammond, 1956; Lee & Tatton, 1978; Rothwell, Traub & Marsden, 1980; Jaeger, Gottlieb & Agarwal, 1982). Late EMG activity of similar appearance can be elicited either by interrupting a limb in motion or by perturbing a limb held isometrically against a constant force.
To account for this late EMG activity, some authors have favoured purely segmental mechanisms such as (1) grouped discharges in group la primary afferents (Hagbarth et al., 1980, 1981); (2) separate discharges in fast- and slow-conducting afferent fibres following the stretch stimulus (Matthews, 1984); or (3) slowly conducting polysynaptic pathways within the cord (Hultborn & Wigstrom, 1980). Others, by contrast, have postulated that a long-loop, possibly transcortical, reflex pathway is involved (Lee & Tatton, 1978; Rothwell et al., 1980; Marsden et al., 1983; Abbruzzese et al., 1985; Matthews, Farmer & Ingram, 1990).
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- Information
- The Neurobiology of DiseaseContributions from Neuroscience to Clinical Neurology, pp. 241 - 246Publisher: Cambridge University PressPrint publication year: 1996