Sympathetic neural adaptations to exercise training in humans: insights from microneurography.

Sympathetic nerve activity has long been regarded as an important regulator of blood flow and blood pressure. Its importance has been especially recognized during exercise. The present review examines sympathetic neural adaptations to exercise training in humans obtained by sympathetic nerve recordings to nonactive skeletal muscle. Little evidence exists from both cross-sectional and longitudinal studies indicating that training alters resting muscle sympathetic nerve activity (MSNA). However, MSNA responses during exercise appear to be attenuated after training. This attenuation of MSNA seems to be specific to the trained muscle and not generalizable to other muscle groups. The mechanisms for the decrease in exercise-induced MSNA have been attributed to changes in both the muscle metaboreflex and muscle mechanoreflex. In addition to exercise, training has generally not altered MSNA responses to other stressors such as cold pressor test, lower body negative pressure, and upright tilting. However, the effect of training on baroreflex control of MSNA is equivocal. These conclusions are based on few studies. More comprehensive training studies are needed to better understand the role of training on sympathetic neural outflow.

[1]  R. Zelis,et al.  Forearm training attenuates sympathetic responses to prolonged rhythmic forearm exercise. , 1996, Journal of applied physiology.

[2]  A. Mark,et al.  Sympathetic nerve activity to nonactive muscle of the exercising and nonexercising limb. , 1995, Medicine and science in sports and exercise.

[3]  A. Ng,et al.  Endurance exercise training is associated with elevated basal sympathetic nerve activity in healthy older humans. , 1994, Journal of applied physiology.

[4]  B. Batman,et al.  Sympathetic nerve activity during prolonged rhythmic forearm exercise. , 1994, Journal of applied physiology.

[5]  G. Mancia,et al.  Physical training and baroreceptor control of sympathetic nerve activity in humans. , 1994, Hypertension.

[6]  L. M. Sheldahl,et al.  Effect of aerobic training on baroreflex regulation of cardiac and sympathetic function. , 1994, Journal of applied physiology.

[7]  D. Burke,et al.  Coherence between the sympathetic drives to relaxed and contracting muscles of different limbs of human subjects. , 1992, The Journal of physiology.

[8]  A. Mark,et al.  Hydrogen ion concentration is not the sole determinant of muscle metaboreceptor responses in humans. , 1992, The Journal of clinical investigation.

[9]  A. Mark,et al.  Forearm endurance training attenuates sympathetic nerve response to isometric handgrip in normal humans. , 1992, Journal of applied physiology.

[10]  D. Seals Sympathetic neural adjustments to stress in physically trained and untrained humans. , 1991, Hypertension.

[11]  C. Tipton Exercise, training and hypertension: an update. , 1991, Exercise and sport sciences reviews.

[12]  B. Wallin,et al.  Peripheral sympathetic neural activity in conscious humans. , 1988, Annual review of physiology.

[13]  B. Wallin,et al.  Skeletal muscle sympathetic activity at rest in trained and untrained subjects. , 1984, Acta physiologica Scandinavica.