Microneurography: how the technique developed and its role in the investigation of the sympathetic nervous system.

A historical review is given of the development of microneurography and its application for studies of sympathetic nerve activity in humans.

Human motor compensations for thixotropy-dependent changes in resting wrist joint position after large joint movements.

Aim: Resting tension of relaxed skeletal muscle fibres held at a given length varies with the immediate previous history of length changes and contractions. The primary aim of this study was to explore the motor control consequences of this history-dependency in healthy subjects.

Methods: Angular position and passive torque were recorded from the intact wrist joint.

Microelectrode recordings from human peripheral nerves (microneurography).

The development of microneurography, which began in the laboratory of clinical neurophysiology in Uppsala, is described.

Human motor control consequences of thixotropic changes in muscular short-range stiffness.

1. The primary aim of the present study was to explore whether in healthy subjects the muscle contractions required for unrestrained voluntary wrist dorsiflexions are adjusted in strength to thixotropy-dependent variations in the short-range stiffness encountered in measurements of passive torque resistance to imposed wrist dorsiflexions. 2.

Thixotropy of rib cage respiratory muscles in normal subjects.

In this study, we searched for signs of thixotropic behavior in human rib cage respiratory muscles. If rib cage respiratory muscles possess thixotropic properties similar to those seen in other skeletal muscles in animals and humans, we expect resting rib cage circumference would be temporarily changed after deep rib cage inflations or deflations and that these aftereffects would be particularly pronounced in trials that combine conditioning deep inflations or deflations with forceful isometric contractions of the respiratory muscles. We used induction plethysmography to obtain a continuous relative measure of rib cage circumference changes during quiet breathing in 12 healthy subjects.

Postural after-contractions in man attributed to muscle spindle thixotropy.

1. It is an old observation that non-volitional arm abduction movements accompanied by a sensation of arm lightness often occur as an after-effect following forceful voluntary arm abductor contractions against a restraint. In the present study we have tested the hypothesis that such non-volitional, so-called 'postural after-contractions' are tonic reflex responses to an enhanced resting discharge in primary muscle spindle afferents which in turn is a consequence of thixotropy-dependent enhanced stiffness of intrafusal muscle fibres.

Effects of preceding movements and contractions on the tonic vibration reflex of human finger extensor muscles.

The vibration sensitivity of feline muscle spindle endings is known to vary as a result of preceding muscle conditioning manoeuvres. If similar after-effects occur in man they should be expected to influence the strength of the tonic vibration reflex (TVR). To study this issue, vibration was applied over the finger extensor tendons of 11 volunteers who actively held their fingers in a semi-extended position.

Reduced servo-control of fatigued human finger extensor and flexor muscles.

1. In healthy human subjects holding the index finger semi-extended at the metacarpophalangeal joint against a moderate load, electromyographic (EMG) activity was recorded from the finger extensor and flexor muscles during different stages of muscle fatigue. The aim was to study the effect of muscle fatigue on the level of background EMG activity and on the reflex responses to torque pulses causing sudden extensor unloadings.

Conductivity ratios of the scalp-skull-brain head model in estimating equivalent dipole sources in human brain.

The dipole tracing (DT) method estimates the position and vector dipole moment of an equivalent current dipole by minimizing the mean squared error of the dipole potentials at the surface electrode positions. In the scalp-skull-brain/DT (SSB/DT) method, which we have developed, the head model consists of three compartments of uniform conductors corresponding to the scalp, skull and brain. The accuracy of the calculations are mainly dependent on the ratios of the conductivities of the three compartments.

The fusimotor system. Its role in fatigue.

Several lines of evidence point to an important role of the fusimotor system in the "muscle-wisdom" phenomenon during peripheral fatigue of some human voluntary contractions: 1) muscle afferents provide a net amplification of skeletomotor output, with the only known afferent species capable of this being the muscle spindle; 2) muscle spindle firing rates decline during constant-force voluntary contractions, so fusimotor support to skeletomotor output decreases; 3) this waning support can be offset by application of high-frequency vibration to the fatiguing muscle, which excites spindle endings; and 4) the progressive decline in motor unit firing rates during maximal voluntary contractions is abolished by blocking muscle afferent inputs, and it is argued that, at least in the initial stages of a contraction, this must be due to a progressive withdrawal of spindle support.

After-effects on stiffness and stretch reflexes of human finger flexor muscles attributed to muscle thixotropy.

1. While the subject maintained a weak contraction in his finger flexor muscles, holding the metacarpophalangeal joints in 45 deg flexion, test torque pulses were applied which caused rapid finger extension movements and electromyographic (EMG) stretch reflex responses. Before each test pulse the fingers were passively flexed or extended ('post-short' and 'post-long' trials) for about 10 s.

Location of electric current sources in the human brain estimated by the dipole tracing method of the scalp-skull-brain (SSB) head model.

Using a realistic, 3-shell head model including the scalp (S), skull (S) and brain (B) with conductivity ratios of 1:1/80:1, respectively, the electrical activity in the human brain recorded by conventional electroencephalography was approximated by 1 or 2 equivalent current dipoles. The dipole locations and vector moments were estimated by minimizing the squared difference between the potentials actually recorded from the scalp and those theoretically calculated from the equivalent dipoles. The validity of this dipole tracing method (the DT of the SSB head model) was tested in patients with focal epileptic seizures undergoing presurgical evaluation with intracranial subdural strip electrodes.

Double blind cross over trial with deprenyl in amyotrophic lateral sclerosis.

In this paper we present results from a double blind cross over trial with deprenyl, a selective and irreversible monoamine oxidase-B (MAO-B) inhibitor, in 10 patients suffering from amyotrophic lateral sclerosis. The patients were randomised in such a way that half of the patients started with the active drug and half with the placebo treatment. Each patient was given 10 mg deprenyl (eldepryl, 10 mg tablets) per day for 12 weeks and then placebo for the same length of time.

Microneurography and applications to issues of motor control: Fifth Annual Stuart Reiner Memorial Lecture.

Among the hypotheses regarding fusimotor functions based on earlier animal experiments some are inconsistent, others are in conformity with microneurographic observations in man. The human data provide evidence against the following two theories: (1) the length follow-up servo theory; and (2) the theory that fusimotor neurons can be selectively activated to produce spindle sensitization and stretch reflex reinforcements. The human data support the theory of alpha-gamma coactivation.

Decline in spindle support to alpha-motoneurones during sustained voluntary contractions.

1. To address whether the muscle spindle support to alpha-motoneurones is maintained during prolonged isometric voluntary contractions, the discharge of eighteen muscle spindle afferents, originating in the dorsiflexors of the ankle or toes, was recorded from the common peroneal nerve in eight subjects. Isometric contractions were generally sustained for 1 min, usually below 30% of the maximal voluntary dorsiflexion force.

Multiunit neural responses to strong finger pulp vibration. I. Relationship to age.

The effect of age on mechanoreceptive function in the distal part of the fingers was studied in 12 healthy subjects aged 18-64 years. A recording microelectrode was inserted into a sensory fascicle of the median nerve at the wrist. Multiunit mechanoreceptor activity was recorded from the fascicular field, which is typically restricted to the ulnar or radial half of one finger, corresponding to the innervation zone of one digital nerve.

Generator mechanisms of epileptic potentials analyzed by dipole tracing method.

A new dipole tracing method, based on a realistic head model, was used to determine dipole locations and vector moments of interictal convexity sharp waves recorded (with conventional EEG technique) from the right fronto-temporal region in a patient with partial complex seizures. When the dipole locations in the head model were compared to MRI scans, the majority of the sharp wave dipoles were found to be located in the right hippocampal area. For individual sharp waves, the hippocampal dipoles moved along tracks corresponding to the vector moment directions, suggesting that the electrical sources of the convexity sharp waves were somato-dendritic currents which spread rapidly from one neuron group to the next in the hippocampal area.

Prolonged muscle vibration reducing motor output in maximal voluntary contractions in man.

1. We observed in a previous study on the human foot dorsiflexor muscles that the fatigue-induced decline in motor output during sustained maximal voluntary contractions (MVCs) was temporarily counteracted during the initial phase of superimposed high-frequency (150 Hz) muscle vibration, whereas prolonged muscle vibration seemed to accentuate the fatigue-induced decline in gross EMG activity and motor unit firing rates. A more extensive investigation of this late effect of muscle vibration on MVCs was performed in the present study.

Tonic vibration reflexes elicited during fatigue from maximal voluntary contractions in man.

1. In the present study on human foot dorsiflexor muscles we have examined the effects of high-frequency (150 Hz) muscle vibration on weak or moderate voluntary contractions (maintained by constant effort) and on maximal voluntary contractions (MCVs) of (i) non-fatigued muscles, (ii) muscles fatigued by sustained MVCs and (iii) muscles deprived of gamma-fibre innervation by partial anaesthetic nerve block. The motor outcome of the voluntary dorsiflexion efforts was assessed by measuring the firing rates of single motor units in the anterior tibial (TA) muscle, the mean voltage EMG activity from the pretibial muscles and foot dorsiflexion force.

Mechanoreceptive units in the human infra-orbital nerve.

Eighty-four low-threshold mechanoreceptive afferents innervating facial hairy skin or the red zone of the lip were recorded with micro-electrodes from the human infra-orbital nerve. Based on their responses to skin indentations, the units were classified as slowly or fast-adapting, with small or large receptive fields. The responses to hair movement, skin stretching and contraction of facial muscles were also studied.

Motor-unit responses in human wrist flexor and extensor muscles to transcranial cortical stimuli.

1. Transcranial cortical stimuli (TCCS) were used to elicit motor responses in contralateral wrist flexor and extensor muscles of healthy adult subjects. The motor responses were assessed by surface EMG recordings, by needle recordings of single motor-unit discharges, and by measurements of wrist twitch force.

Peripheral neural correlates of cutaneous anaesthesia induced by skin cooling in man.

The effect of local skin cooling on the behavior of low- and high-threshold mechanoreceptive afferents innervating glabrous and non-glabrous skin was studied in microneurographic recordings on awake human subjects. Cooling with ice or ethyl chloride to a skin surface temperature below 10 degrees C caused a reduction of receptor sensitivity in 49 out of 52 studied low-threshold afferents. This effect was reversible upon warning but some reduction often persisted for a few minutes after normal skin temperature had been reached.

Microelectrode recordings from the facial nerve in man.

Microneurographic recordings have for the first time been obtained from the human facial nerve trunk, close to its exit from the stylomastoid foramen. The aim was to search for evidence of an afferent or sympathetic component of the facial nerve at this level and to study the fascicular organization of motor fibres. Single unit discharges of motor axons were occasionally discerned, and all recordings showed multiunit motor impulses preceding the EMG activity of the appropriate facial muscles by about 5 ms during both blink reflexes and voluntary contractions.

Gamma loop contributing to maximal voluntary contractions in man.

A local anaesthetic drug was injected around the peroneal nerve in healthy subjects in order to investigate whether the resulting loss in foot dorsiflexion power in part depended on a gamma-fibre block preventing 'internal' activation of spindle end-organs and thereby depriving the alpha-motoneurones of an excitatory spindle inflow during contraction. The motor outcome of maximal dorsiflexion efforts was assessed by measuring firing rates of individual motor units in the anterior tibial (t.a.