Firing properties of single postganglionic sympathetic neurones recorded in awake human subjects

For over three decades, the technique of microneurography has allowed us to record sympathetic neural outflow directly from postganglionic axons in awake human subjects. But because sympathetic axons are clustered within a nerve fascicle, such recordings have been limited to the analysis of multi-unit neural activity. To improve the information content of intraneural recordings, we developed the single-unit approach, in which focal recordings can be made from a single C-fibre via a high-impedance tungsten microelectrode. In this review, we describe our methodology for analyzing unitary sympathetic activity and discuss the similarities in the firing properties of individual muscle vasoconstrictor, cutaneous vasoconstrictor and sudomotor neurones.

[1]  M. Elam,et al.  Sympathetic Neural Burst Amplitude Distribution: A More Specific Indicator of Sympathoexcitation in Human Heart Failure , 2000, Circulation.

[2]  M. Elam,et al.  Intraneural stimulation elicits an increase in subcutaneous interstitial glycerol levels in humans , 1999, The Journal of physiology.

[3]  B. Wallin,et al.  Modulation of muscle sympathetic activity during spontaneous and artificial ventilation and apnoea in humans. , 1995, Journal of the autonomic nervous system.

[4]  J. Dempsey,et al.  Influence of lung volume on sympathetic nerve discharge in normal humans. , 1990, Circulation research.

[5]  H. E. Torebjörk,et al.  Single unit sympathetic activity in human skin nerves during rest and various manoeuvres. , 1974, Acta physiologica Scandinavica.

[6]  V G Macefield,et al.  Firing properties of single vasoconstrictor neurones in human subjects with high levels of muscle sympathetic activity , 1999, The Journal of physiology.

[7]  V G Macefield,et al.  Firing properties of single muscle vasoconstrictor neurons in the sympathoexcitation associated with congestive heart failure. , 1999, Circulation.

[8]  Y. Sugiyama,et al.  Vasodilator component in sympathetic nerve activity destined for the skin of the dorsal foot of mildly heated humans , 1998, The Journal of physiology.

[9]  B. Wallin,et al.  The variability of muscle nerve sympathetic activity in resting recumbent man , 1977, The Journal of physiology.

[10]  M. Gilbey,et al.  Focally recorded single sympathetic postganglionic neuronal activity supplying rat lateral tail vein , 1998, The Journal of physiology.

[11]  Benoni B. Edin,et al.  Single unit retrieval in microneurography: a microprocessor-based device controlled by an operator , 1988, Journal of Neuroscience Methods.

[12]  K. Hagbarth,et al.  Regional similarities and differences in thermoregulatory vaso‐ and sudomotor tone. , 1980, The Journal of physiology.

[13]  A. Vallbo,et al.  Somatosensory, proprioceptive, and sympathetic activity in human peripheral nerves. , 1979, Physiological reviews.

[14]  K. Hagbarth,et al.  Cardiac rhythmicity of skin sympathetic activity recorded from peripheral nerves in man. , 1981, Journal of the autonomic nervous system.

[15]  D L Eckberg,et al.  Respiratory modulation of muscle sympathetic and vagal cardiac outflow in man. , 1985, The Journal of physiology.

[16]  K. Hagbarth,et al.  Thermoregulatory and rhythm‐generating mechanisms governing the sudomotor and vasoconstrictor outflow in human cutaneous nerves. , 1980, The Journal of physiology.

[17]  R Tsukahara,et al.  The recruitment pattern of single vasoconstrictor neurons in human. , 1997, Journal of the autonomic nervous system.

[18]  J. Greenwood,et al.  Chronic I(1)-imidazoline agonism : sympathetic mechanisms in hypertension. , 2000, Hypertension.

[19]  D Burke,et al.  Coupling between variations in strength and baroreflex latency of sympathetic discharges in human muscle nerves. , 1994, The Journal of physiology.

[20]  B. Wallin,et al.  Skin sympathetic nerve activity and effector function during sleep in humans. , 1994, Acta physiologica Scandinavica.

[21]  E. McLachlan,et al.  On‐going and reflex synaptic events in rat superior cervical ganglion cells , 1997, The Journal of physiology.

[22]  J. Greenwood,et al.  Sympathetic nerve discharge in normal pregnancy and pregnancy‐induced hypertension , 1998, Journal of hypertension.

[23]  A. Mark,et al.  Sympathetic outflow to resting muscles during static handgrip and postcontraction muscle ischemia. , 1989, The American journal of physiology.

[24]  K. Hagbarth,et al.  Manoeuvres affecting sympathetic outflow in human skin nerves. , 1972, Acta physiologica Scandinavica.

[25]  B. Wallin,et al.  The discharge behaviour of single sympathetic neurones supplying human sweat glands. , 1996, Journal of the autonomic nervous system.

[26]  P Celka,et al.  Exponential-type distribution of human muscle sympathetic nerve activity results in an automatic quantification method , 1998, Comput. Biol. Medicine.

[27]  J P Greenwood,et al.  Single-unit sympathetic discharge : quantitative assessment in human hypertensive disease. , 1999, Circulation.

[28]  V G Macefield,et al.  Respiratory and cardiac modulation of single sympathetic vasoconstrictor and sudomotor neurones to human skin , 1999, The Journal of physiology.

[29]  T. Mano Microneurographic research on sympathetic nerve responses to environmental stimuli in humans. , 1998, The Japanese journal of physiology.

[30]  V. Macefield,et al.  Multiple firing of single muscle vasoconstrictor neurons during cardiac dysrhythmias in human heart failure. , 2001, Journal of applied physiology.

[31]  B. Wallin,et al.  Sympathetic reflex latencies and conduction velocities in normal man , 1980, Journal of the Neurological Sciences.

[32]  W. Jänig,et al.  Reflex responses to baroreceptor, chemoreceptor and nociceptor inputs in single renal sympathetic neurones in the rabbit and the effects of anaesthesia on them. , 1987, Journal of the autonomic nervous system.

[33]  A B Vallbo,et al.  The discharge behaviour of single vasoconstrictor motoneurones in human muscle nerves. , 1994, The Journal of physiology.

[34]  L. Weaver,et al.  Characteristics of ongoing and reflex discharge of single splenic and renal sympathetic postganglionic fibres in cats. , 1988, The Journal of physiology.

[35]  M. Nordin,et al.  Sympathetic discharges in the human supraorbital nerve and their relation to sudo‐ and vasomotor responses. , 1990, The Journal of physiology.

[36]  W. Jänig,et al.  Organization of the lumbar sympathetic outflow to skeletal muscle and skin of the cat hindlimb and tail. , 1985, Reviews of physiology, biochemistry and pharmacology.

[37]  I. Gibbins,et al.  Autonomic innervation of the skin , 1997 .

[38]  K. Hagbarth,et al.  General characteristics of sympathetic activity in human skin nerves. , 1972, Acta physiologica Scandinavica.