Advanced search
Publication Cover
Somatosensory & Motor Research Volume 7, 1990 - Issue 3
Submit an article Journal homepage
61
Views
20
CrossRef citations to date
0
Altmetric
Original Article

Reaction Times for Hand Movements Made in Response to Visual versus Vibratory Cues

R. J. Nelson Department of Anatomy and Neurobiology, College of Medicine, University of Tennessee-Memphis, 875 Monroe Avenue, Memphis, Tennessee, 38163
,
C. A. McCandlish Department of Anatomy and Neurobiology, College of Medicine, University of Tennessee-Memphis, 875 Monroe Avenue, Memphis, Tennessee, 38163
&
V. D. Douglas Department of Anatomy and Neurobiology, College of Medicine, University of Tennessee-Memphis, 875 Monroe Avenue, Memphis, Tennessee, 38163
Pages 337-352 | Published online: 10 Jul 2009

References

  • Aldridge J. W., Anderson R. J., Murphy J. T. Sensory-motor processing in the caudate nucleus and globus pallidus: A single-unit study in behaving primates. Can. J. Physiol. Pharmacol. 1980; 58: 1192–1201
  • Baedeker C., Wolf W. Influence of saccades on manual reactions: A reaction time and VEP study. Brain Res. 1987; 27: 609–619
  • Bartlett J. R., Doty R. W., Sr. Response of units in striate cortex of squirrel monkeys to visual and electrical stimuli. J. Neurophysiol. 1974; 37: 621–641
  • Benecke R., Rothwell J. C., Dick J. P. R., Day B. L., Marsden C. D. Disturbance of sequential movements in patients with Parkinson's disease. Brain 1987; 110: 361–379
  • Boch R. Behavioral modulation of neuronal activity in monkey striate cortex: Excitation in the absence of active fixation. Exp. Brain Res. 1986; 64: 610–614
  • Brebner J. M. T., Welford A. T. Introduction: An historical background sketch. Reaction Times, A. T. Welford. Academic Press, New York 1980; 1–24
  • Brigell M. G., Goodwin J. A., Lorance R. Saccadic latency as a measure of afferent visual conduction. Invest. Ophthalmol. 1988; 29: 1331–1338
  • Brown J. E., Frank J. S. Influence of event anticipation on postural actions accompanying voluntary movement. Exp. Brain Res. 1987; 67: 645–650
  • Buchthal F., Rosenfalck A. Evoked action potentials and conduction velocity in human sensory nerves. Brain Res. 1966; 3: 1–122
  • Chan C. W. Y. Could Parkinsonian akinesia be attributable to a disturbance in the motor preparatory process. Brain Res. 1986; 36: 183–196
  • Chapman C. E., Jiang W., Lamarre Y. Modulation of lemniscal input during conditioned arm movements in the monkey. Exp. Brain Res. 1988; 72: 316–334
  • Chapman C. E., Spidalieri G., Lamarre Y. Activity of dentate neurons during arm movements triggered by visual, auditory, and somesthetic stimuli in the monkey. J. Neurophysiol. 1986; 55: 203–226
  • Cohen L. G., Starr A. Localization, timing and specificity of gating of somatosensory evoked potentials during active movement in man. Brain 1987; 110: 451–467
  • Colburn T. R., Evarts E. V. Use of brushless DC torque motors in studies of neuromuscular function. Progress in Clinical Neurophysiology, Vol. 4, Cerebral Motor Control in Man: Long Loop Mechanisms, J. E. Desmedt. S. Karger, Basel 1978; 153–166
  • Conde H., Benita M., Dormont J. F., Schmied A., Cadoret A. Control of reaction time performance involves the striatum. J. Physiol. (Paris) 1981; 77: 97–105
  • Crabtree D. A., Antrim L. R. Guidelines for measuring reaction times. Percept. Mot. Skills 1988; 66: 363–370
  • Desmedt J. E., Godaux E. Ballistic skilled movements: Load compensation and patterning of the motor commands. Progress in Clinical Neurophysiology, Vol. 4, Cerebral Motor Control in Man: Long Loop Mechanisms, J. E. Desmedt. S. Karger, Basel 1978; 21–55
  • Donchin E., Lindsley D. B. Average evoked potentials and reaction times to visual stimuli. Electroenceph. Clin. Neurophysiol. 1966; 20: 217–223
  • Era P., Jokela J., Heikkinen E. Reaction and movement times in men of different ages: A population study. Percept. Mot. Skills 1986; 63: 111–130
  • Evarts E. V. Sensorimotor cortex activity associated with movements triggered by visual as compared to somesthetic inputs. The Neurosciences, F. O. Schmitt, F. G. Worden. MIT Press, Cambridge, MA. 1974; 327–337
  • Evarts E. V., Teravainen H., Calne D. B. Rection time in Parkinson's disease. Brian 1981; 104: 167–186
  • Gandevia S. C., Burke D. Projection to the cerebral cortex from proximal and distal muscles in the human upper limb. Brain 1988; 111: 389–403
  • Georgopoulos A. P., Kalaska J. F., Massey J. T. Spatial trajectories and reaction times of aimed movements: Effects of practice, uncertainty, and change in target location. J. Neurophysiol. 1981; 46: 725–743
  • Glencross D. J. Latency and response complexity. J. Mot. Behav. 1972; 4: 251–256
  • Hefter H., Homberg V., Lange H. W., Freund H. -J. Impairment of rapid movement in Huntington's disease. Brain 1987; 110: 585–612
  • Heilman K. M., Bowers D., Watson R. T., Greer M. Reaction times in Parkinson disease. Arch. Neurol. 1976; 33: 139–140
  • Henry F. M., Rogers D. E. Increased response latency for complicated movements and a “memory drum” theory of neuromotor reaction. Res. Quart. 1960; 31: 448–458
  • Hore J., Vilis T. Arm movement performance during reversible basal ganglia lesions in the monkey. Exp. Brain Res. 1980; 39: 217–228
  • Klapp S. T., Wyatt E. P., Lingo W. M. Response programming in simple and choice reactions. J. Mot. Behav. 1974; 6: 263–271
  • Klemmer E. T. Simple reaction time as a function of time uncertainity. J. Exp. Psychol. 1957; 54: 195–200
  • Kulics A. T., Cauller L. J. Cerebral cortical somatosensory evoked responses, multiple unit activity and current source densities: Their interrelationships and significance to somatic sensation as revealed by stimulation of the awake monkey's hand. Exp. Brain Res. 1986; 62: 46–60
  • Kurata K., Wise S. P. Premotor cortex of rhesus monkeys: Set-related activity during two conditional motor tasks. Exp. Brain Res. 1988; 69: 327–343
  • Lagasse P. P., Hayes K. C. Premotor and motor reaction time as a function of movement extent. J. Mot. Behav. 1973; 5: 25–32
  • Lamarre Y., Busby L., Spidalieri G. Fast ballistic arm movements triggered by visual, auditory, and somesthetic stimuli in the monkey: I. Activity of precentral cortical neurons. J. Neurophysiol. 1983a; 50: 1343–1358
  • Lamarre Y., Spidalieri G., Chapman C. E. A comparison of neuronal discharge recorded in the sensori-motor cortex, parietal cortex and dentate nucleus of the monkey during arm movements triggered by light, sound or somesthetic stimuli. Exp. Brain Res. 1983b, Suppl. 7: 141–157
  • Marsden C. D. The mysterious motor function of the basal ganglia: The Robert Wartenberg lecture. Neurology 1982; 32: 514–539
  • McClelland J. L. On the time relations of mental processes: An examination of systems of processes in cascade. Psychol. Rev. 1979; 86: 287–330
  • Mowbry G. H., Rhoades M. V. On the reduction of choice reaction times. Quart. J. Exp. Psychol. 1959; 11: 16–23
  • Nelson R. J. Set related and premovement related activity of primate primary somatosensory cortical neurons depends upon stimulus modality and subsequent movement. Brain Res. Bull. 1988; 21: 411–424
  • Nelson R. J., Douglas V. D. Changes in premovement activity in primary somatosensory cortex differ when monkeys make hand movements in response to visual vs vibratory cues. Brain Res. 1989; 484: 43–56
  • Rushton D. N., Rothwell J. C., Craggs M. D. Gating of somatosensory evoked potentials during different kinds of movement in man. Brain 1981; 104: 465–491
  • Sanders A. F. Some aspects of reaction processes. Attention and Performance I, A. F. Sanders. North-Holland, Amsterdam 1967; 115–130
  • Smith G. A. Models of choice reaction time. Reaction Times, A. T. Welford. Academic Press, London 1980; 173–214
  • Starr A., McKeon B., Skuse N., Burke D. Cerebral potentials evoked by muscle stretch in man. Brain 1981; 104: 149–166
  • Sternberg S. The discovery of processing stages: Extensions of Donders' method. Attention and Performance II, W. G. Koster. North-Holland, Amsterdam 1969; 276–315
  • Sternberg S. Memory scanning: New findings and current controversies. Quart. J. Exp. Psychol. 1975; 27: 1–32
  • Talbot W. H., Darian-Smith I., Kornhuber H. H., Mountcastle V. B. The sense of flutter-vibration: Comparison of the human capacity with response patterns of mechanoreceptive afferents from the monkey hand. J. Neurophysiol. 1968; 31: 301–334
  • Tanji J., Wise S. P. Submodality distribution in sensorimotor cortex of unanesthetized monkey. J. Neurophysiol. 1981; 45: 467–481
  • Thompson P. D., Berardelli A., Rothwell J. C., Day B. L., Dick J. P. R., Benecke R., Marsden C. D. The coexistence of bradykinesia and chorea in Huntington's disease and its implications for the theories of basal ganglia control of movement. Brain 1988; 111: 223–244
  • Vaadia E., Kurata K., Wise S. P. Neuronal activity preceding directional and nondirectional cues in the premotor cortex of rhesus monkey. Somatosens. Mot. Res. 1988; 6: 207–230
  • Welford A. T. The 'psychological refractory period' and the timing of high speed performance: A review and a theory. Brit. J. Psychol. 1952; 43: 2–19
  • Welford A. T. Evidence of a single-channel decision mechanism limiting performance in a serial reaction task. Quart. J. Exp. Psychol. 1959; 11: 193–210
  • Welford A. T. Fundamentals of Skill. Methuen, London 1968
  • Welford A. T. Behavioral approach to motor programming: On the sequencing of action. Brain Res. 1974; 71: 381–392
  • Reaction Times, A. T. Welford. Academic Press, New York 1980
  • Welford A. T., Norris A. H., Shock N. W. Speed and accuracy of movement and their changes with age. Acta Psychol. 1969; 30: 3–15
  • Whittaker S. G., Siegfried J. B. Origin of wavelets in the visual evoked potential. Electroenceph. Clin. Neurophysiol. 1983; 55: 91–101
  • Wiesendanger M. Input from muscle and cutaneous nerves of the hand and forearm to neurones of the precentral gyrus of baboons and monkeys. J. Physiol. 1973; 228: 203–219
  • Wiesendanger M., Miles T. S. Ascending pathway of low-threshold muscle afferents to the cerebral cortex and its possible role in motor control. Physiol. Rev. 1982; 62: 1234–1270
  • Wise S. P., Tanji J. Neuronal responses in sensorimotor cortex to ramp displacements and maintained positions imposed on hindlimb of the unanesthetized monkey. J. Neurophysiol. 1981; 45: 482–500
  • Wolpaw J. R. Correlations between task-related activity and responses to perturbation in primate sensorimotor cortex. J. Neurophysiol. 1980a; 44: 1122–1138
  • Wolpaw J. R. Amplitude of responses to perturbation in primate sensorimotor cortex as a function of task. J. Neurophysiol. 1980b; 44: 1139–1147
  • Wolpaw J. R., Dowman R. Spinal stretch reflex and cortical evoked potential amplitudes versus muscle stretch amplitude in the monkey arm. Electroenceph. Clin. Neurophysiol. 1988; 69: 394–397
  • Wurtz R. H., Mohler C. W. Enhancement of visual responses in monkey striate cortex and frontal eye fields. J. Neurophysiol. 1976; 39: 766–772
  • Zegers de Beyl D., Delberghe X., Herbaut A. G., Brunko E. The somatosensory central conduction time: Physiological considerations and normative data. Electroenceph. Clin. Neurophysiol. 1988; 71: 17–26

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.