Microneurography
Encyclopedia
Human microneurography or simply microneurography involves the insertion of metal microelectrodes into nerve fascicles.
sensitivity by the slope of the relationship of MSNA to diastolic blood pressure. A classic autonomic function test that uses microneurography to evaluate baroreflex sensitivity is a modified oxford test, in which two vasoactive drugs (sodium nitroprusside
and phenylephrine
) are given while beat to beat blood pressure and MSNA are recorded over 3 minutes.
Microneurography is also used to study and understand the neurophysiology of nerve fibers (both afferent and efferent) in the face and peripheral nervous system. Studies done in humans carry the advantage of communication, and have thus considerably helped in our understanding of receptive fields of mechanoreceptors.
Since recording is done in nerve fasicles the neuronal activity is directly related to the sensory afferents or motor efferents. That is to say, the firing rate of sensory afferents are directly from stimulation of receptors, whether in muscles, tendons, or skin. The same is true for efferent signals to skeletal muscle
or smooth muscle
. This is different than recording in the spinal cord or cortex where signals can be processed.
Applications
Microneurography is used to study autonomic nervous system function. This is accomplished by recording muscle sympathetic nerve activity (MSNA). MSNA is a direct recording of sympathetic nerve activity representing postganglionic vasoconstrictor nerve traffic. Methodologically, this is done by using 200 µm diameter tungsten electrodes with a 2-5 µm uninsulated tip which are inserted into a postganglionic nerve fiber (commonly the peroneal or popliteal). This signal is then amplified, filtered (bandwidth 700-2,000 Hz), rectified and integrated to provide a mean voltage neurogram. This neurogram can be used to assess baroreflexBaroreflex
The baroreflex or baroreceptor reflex is one of the body's homeostatic mechanisms for maintaining blood pressure. It provides a negative feedback loop in which an elevated blood pressure reflexively causes heart rate to decrease therefore causing blood pressure to decrease; likewise, decreased...
sensitivity by the slope of the relationship of MSNA to diastolic blood pressure. A classic autonomic function test that uses microneurography to evaluate baroreflex sensitivity is a modified oxford test, in which two vasoactive drugs (sodium nitroprusside
Sodium nitroprusside
Sodium nitroprusside is the inorganic compound with the formula Na2[Fe5NO]·2H2O. This red-coloured salt, which is often abbreviated SNP, is a potent vasodilator...
and phenylephrine
Phenylephrine
Phenylephrine is a selective α1-adrenergic receptor agonist used primarily as a decongestant, as an agent to dilate the pupil, and to increase blood pressure...
) are given while beat to beat blood pressure and MSNA are recorded over 3 minutes.
Microneurography is also used to study and understand the neurophysiology of nerve fibers (both afferent and efferent) in the face and peripheral nervous system. Studies done in humans carry the advantage of communication, and have thus considerably helped in our understanding of receptive fields of mechanoreceptors.
Since recording is done in nerve fasicles the neuronal activity is directly related to the sensory afferents or motor efferents. That is to say, the firing rate of sensory afferents are directly from stimulation of receptors, whether in muscles, tendons, or skin. The same is true for efferent signals to skeletal muscle
Skeletal muscle
Skeletal muscle is a form of striated muscle tissue existing under control of the somatic nervous system- i.e. it is voluntarily controlled. It is one of three major muscle types, the others being cardiac and smooth muscle...
or smooth muscle
Smooth muscle
Smooth muscle is an involuntary non-striated muscle. It is divided into two sub-groups; the single-unit and multiunit smooth muscle. Within single-unit smooth muscle tissues, the autonomic nervous system innervates a single cell within a sheet or bundle and the action potential is propagated by...
. This is different than recording in the spinal cord or cortex where signals can be processed.