F. W. J. Cody scite author profile

In separate experiments, we studied the temporal accuracy and precision of self-paced, repetitive finger-tapping in two groups of 12 patients with Parkinson's disease and a group of 12 controls matched to the patients with respect to age and general cognitive state. One group (I) of patients was studied initially following 12-15 h abstinence from normal levodopa medication ('off') and again, subsequently, approximately 1 h after ingestion of a single normal dose ('on'). A second group (II) of patients, each of whom had bilaterally asymmetrical neurological signs, was tested using 'worse' and 'better' hands separately. Within each session, subjects were tested repeatedly on a tapping task during which they were required to produce a regular series of self-timed inter-tap intervals, the target duration (550 ms) of which had been established previously during an initial period of tapping in synchrony with the beats of a regular metronome. We employed Wing and Kristofferson's (1973) model of control of motor timing to partition the total variance (TV) about the mean inter-response interval (IRI) produced during the self-paced phase of each run into separate components ['clock' variance (CV) and 'motor-delay' variance (MDV)] attributable to hypothetical 'clock' and 'motor-implementation' processes. Although the mean self-paced IRI of parkinsonian patients was generally shorter than that of controls, only during the 'on' medication condition (Group I) was it significantly so. By comparison with control values, and those observed during the 'on' medication condition, values of TV, CV and MDV in Group I were all significantly higher when subjects were 'off' medication. During the 'on' medication condition, only CV was significantly higher than the control value. In Group II, values of TV, CV and MDV associated with use of the 'worse' hand were all significantly higher than both control values and those associated with use of the 'better' hand. Values of these variables when subjects used the 'better' hand did not, however, differ significantly from control values. The theoretical import of these results is discussed in the light of several important procedural, statistical and computational issues and we conclude that TV, CV, and MDV may all vary significantly as a function of the efficacy of dopaminergic transmission in the basal ganglia.

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The influence of external timing cues upon the rhythm of voluntary movements in Parkinson's disease.

Freeman

Cody

Schady

1993

Journal of Neurology, Neurosurgery & Psychiatry

195

136

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The ability of patients with Parkinson's disease (PD) and healthy subjects to synchronise finger tapping, produced by rhythmic wrist movements, with auditory signals of target frequencies (range 1-5 Hz) and to sustain such rhythms following sudden withdrawal of auditory cues was studied. Healthy subjects were able, in the presence of auditory cues, to duplicate target frequencies accurately over the range investigated both in terms of mean tapping rate and in regularity of tapping. PD patients were less accurate under these conditions and on average tended to tap too rapidly at the lower (1-3 Hz) target frequencies and too slowly at the highest (5 Hz) target frequency. In addition, the variability of their tapping rhythms was generally greater. Healthy subjects were able to sustain tapping rhythms well following suppression of auditory signals. By contrast, withdrawal of external timing cues resulted in marked impairment of the patients' rhythm generation. At lower frequency targets (1-3 Hz) patients' tapping rates increased over rates which were already elevated in the presence of external cues. Conversely, at higher target frequencies (4-5 Hz), the average tapping rate tended to decline further from previously depressed levels. The accuracy of almost all patients fell outside the normal range. Two patterns of tapping errors were found. The first was hastening of tapping which was most evident at intermediate target frequencies. The second was faltering which occurred mainly at the higher target frequencies.These forms of behaviour may result from inherent abnormalities of internal rhythm generation since they occurred both in the presence and absence of external dtming signals. Overall, our findings are consistent with the view that the basal ganglia have a role in the internal cueing of repetitive voluntary movements.

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Auditory cues can modify the gait of persons with early-stage Parkinson's disease: a method for enhancing parkinsonian walking performance?

et al. 2003

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A saccular origin of frequency tuning in myogenic vestibular evoked potentials?: implications for human responses to loud sounds

2000

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A functional analysis of the components of the mesencephalic nucleus of the fifth nerve in the cat

Cody¹,

Lee²,

Taylor³

1972

The Journal of Physiology

190

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1. The mesencephalic nucleus of the trigeminal nerve has been studied using extracellular micro‐electrode recording and the constituent cell types identified. 2. Two types of unit were found, namely, muscle spindle first order afferents of ipsilateral jaw‐closing muscles and mechanoreceptor afferents of ipsilateral maxillary and mandibular teeth. 3. No evidence was found for representation of extra‐ocular muscle stretch receptors, of temporo‐mandibular joint receptors or of tendon organs of jaw muscles. 4. Spindle units of each of the jaw‐closing muscles were recorded in all parts of the nucleus and there was no evidence of their segregation according to muscle of origin. 5. Attempts to classify spindle units by their dynamic response to ramp stretches, their following of high frequency vibration and their interspike interval variability at constant length gave no indication of two populations when fusimotor activity was suppressed. 6. Following the injection of suxamethonium, however, units fell into two groups according to their dynamic index. Their behaviour resembled that described for primary and secondary spindle afferents. In data pooled from all of the jaw‐closing muscles there were approximately equal numbers of units in each group.

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F. W. J. Cody

The accuracy and precision of timing of self-paced, repetitive movements in subjects with Parkinson's disease

The influence of external timing cues upon the rhythm of voluntary movements in Parkinson's disease.

Auditory cues can modify the gait of persons with early-stage Parkinson's disease: a method for enhancing parkinsonian walking performance?

A saccular origin of frequency tuning in myogenic vestibular evoked potentials?: implications for human responses to loud sounds

A functional analysis of the components of the mesencephalic nucleus of the fifth nerve in the cat

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