User menu

Relationship between tactile spatial resolution and digital dexterity during childhood.

Bibliographic reference Bleyenheuft, Yannick ; Wilmotte, Pauline ; Thonnard, Jean-Louis. Relationship between tactile spatial resolution and digital dexterity during childhood.. In: Somatosensory & motor research, Vol. 27, no. 1, p. 9-14 (2010)
Permanent URL http://hdl.handle.net/2078.1/29661
  1. Besné Isabelle, Descombes Caroline, Breton Lionel, Effect of Age and Anatomical Site on Density of Sensory Innervation in Human Epidermis, 10.1001/archderm.138.11.1445
  2. Blake DT, J Neurosci, 17, 7480 (1997)
  3. Blakemore SJ, J Neurosci, 18, 7511 (1998)
  4. Bleyenheuft Yannick, Cols Caroline, Arnould Carlyne, Thonnard Jean-Louis, Age-related changes in tactile spatial resolution from 6 to 16 years old, 10.1080/08990220600816440
  5. Bleyenheuft Y., Grandin C. B., Cosnard G., Olivier E., Thonnard J.-L., Corticospinal Dysgenesis and Upper-Limb Deficits in Congenital Hemiplegia: A Diffusion Tensor Imaging Study, 10.1542/peds.2007-0394
  6. Bleyenheuft Yannick, Thonnard Jean-Louis, Tactile spatial resolution measured manually: A validation study, 10.1080/08990220701496639
  7. Costa LD, Percept Mot Skills, 18, 748 (1964)
  8. Craig James C., Johnson Kenneth O., The Two-Point Threshold : Not a Measure of Tactile Spatial Resolution, 10.1111/1467-8721.00054
  9. Davidson Matthew C., Amso Dima, Anderson Loren Cruess, Diamond Adele, Development of cognitive control and executive functions from 4 to 13 years: Evidence from manipulations of memory, inhibition, and task switching, 10.1016/j.neuropsychologia.2006.02.006
  10. Duque J., Correlation between impaired dexterity and corticospinal tract dysgenesis in congenital hemiplegia, 10.1093/brain/awg069
  11. Eliasson AC, Hand function in the child (1995)
  12. Fietzek U M, Heinen F, Berweck S, Maute S, Hufschmidt A, Schulte-Mönting J, Lücking C H, Korinthenberg R, Development of the corticospinal system and hand motor function: central conduction times and motor performance tests, 10.1017/s0012162200000384
  13. Flanagan JR, J Neurosci, 17, 1519 (1997)
  14. Fleishman Edwin A., Ellison Gaylord D., A factor analysis of fine manipulative tests., 10.1037/h0038499
  15. Forssberg H., Eliasson A.C., Kinoshita H., Johansson R.S., Westling G., Development of human precision grip I: Basic coordination of force, 10.1007/bf00229422
  16. Forssberg H, Exp Brain Res, 90, 393 (1992)
  17. Forssberg H, Exp Brain Res, 104, 323 (1995)
  18. Gardner Richard A., Broman Melinda, The Purdue pegboard: Normative data on 1334 school children, 10.1080/15374417909532912
  19. Gibson Gregory O., Craig James C., Relative roles of spatial and intensive cues in the discrimination of spatial tactile stimuli, 10.3758/bf03194759
  20. Gordon A.M., Forssberg H., Johansson R.S., Eliasson A.C., Westling G., Development of human precision grip : III. Integration of visual size cues during the programming of isometric forces, 10.1007/bf00227254
  21. Heinen Florian, Fietzek Urban M., Berweck Steffen, Hufschmidt Andreas, Deuschl Günther, Korinthenberg Rudolf, Fast corticospinal system and motor performance in children: conduction proceeds skill, 10.1016/s0887-8994(98)00057-5
  22. Inoue Yoshimitsu, Kuwahara Tomoko, Araki Tsutomu, Maturation- and Aging-related Changes in Heat Loss Effector Function, 10.2114/jpa.23.289
  23. Johnson KO, J Neurophysiol, 46, 1177 (1981)
  24. Johnson KO, Can J Physiol Pharmacol, 72, 488 (1994)
  25. Johnson K, The roles and functions of cutaneous mechanoreceptors, 10.1016/s0959-4388(00)00234-8
  26. Kawato Mitsuo, Internal models for motor control and trajectory planning, 10.1016/s0959-4388(99)00028-8
  27. Klenberg Liisa, Korkman Marit, Lahti-Nuuttila Pekka, Differential Development of Attention and Executive Functions in 3- to 12-Year-Old Finnish Children, 10.1207/s15326942dn2001_6
  28. Lang C. E., Differential Impairment of Individuated Finger Movements in Humans After Damage to the Motor Cortex or the Corticospinal Tract, 10.1152/jn.00130.2003
  29. Lang C. E., Reduced Muscle Selectivity During Individuated Finger Movements in Humans After Damage to the Motor Cortex or Corticospinal Tract, 10.1152/jn.00805.2003
  30. Lévêque Jean-Luc, Dresler Johanna, Ribot-Ciscar Edith, Roll Jean-Pierre, Poelman Christine, Changes in Tactile Spatial Discrimination and Cutaneous Coding Properties by Skin Hydration in the Elderly, 10.1046/j.1523-1747.2000.00055.x
  31. Mathiowetz V, Am J Occup Ther, 39, 386 (1985)
  32. Mathiowetz V., Rogers S. L., Dowe-Keval M., Donahoe L., Rennells C., The Purdue Pegboard: Norms for 14- to 19-Year-Olds, 10.5014/ajot.40.3.174
  33. Med Core. 2004. Instruction manual. Quantitative measurements of spatial resolution of the skin. Med Core.
  34. Müller K., Hömberg V., Lenard H.-G., Magnetic stimulation of motor cortex and nerve roots in children. Maturation of cortico-motoneuronal projections, 10.1016/0168-5597(91)90105-7
  35. Müller K., Hömberg V., Development of speed of repetitive movements in children is determined by structural changes in corticospinal efferents, 10.1016/0304-3940(92)90715-j
  36. Müller K., Ebner B., Hömberg V., Maturation of fastest afferent and efferent central and peripheral pathways: No evidence for a constancy of central conduction delays, 10.1016/0304-3940(94)90828-1
  37. Nezua Atsuo, Kimura Seiji, Uehara Saori, Kobayashia Takuya, Tanaka Miyabi, Saito Kaoru, Magnetic stimulation of motor cortex in children: maturity of corticospinal pathway and problem of clinical application, 10.1016/s0387-7604(96)00552-9
  38. Porter R, Corticospinal function and voluntary movement (1993)
  39. Rebok George W., Smith Corey B., Pascualvaca Daisy M., Mirsky Allan F., Anthony Bruno J., Kellam Sheppard G., Developmental changes in attentional performance in urban children from eight to thirteen years, 10.1080/09297049708401366
  40. Sathian K, Neurology, 46, 1464 (1996)
  41. SATHIAN K., ZANGALADZE and ANDRO, Feeling with the Mind’s Eye: the Role of Visual Imagery in Tactile Perception : , 10.1097/00006324-200105000-00010
  42. Sathian K, Zangaladze A, Feeling with the mind's eye: contribution of visual cortex to tactile perception, 10.1016/s0166-4328(02)00141-9
  43. Strenge Hans, Niederberger Uwe, Seelhorst Ulrike, Correlation between Tests of Attention and Performance on Grooved and Purdue Pegboards in Normal Subjects, 10.2466/pms.2002.95.2.507
  44. Steen RG, Am J Neuroradiol, 18, 819 (1997)
  45. Tiffin Joseph, Asher E. J., The Purdue Pegboard: norms and studies of reliability and validity., 10.1037/h0061266
  46. Tremblay François, Mireault Annie-Claude, Létourneau Julie, Pierrat Audrey, Bourrassa Shannon, Tactile perception and manual dexterity in computer users, 10.1080/08990220120113066
  47. Tremblay François, Wong Kim, Sanderson Robin, Coté Leanne, Tactile spatial acuity in elderly persons: assessment with grating domes and relationship with manual dexterity, 10.1080/0899022031000105154
  48. Van Boven RW, Neurology, 44, 2361 (1994)
  49. Van Boven RW, Neurology, 54, 2230 (2000)
  50. Vega-Bermudez Francisco, Johnson Kenneth O., Fingertip skin conformance accounts, in part, for differences in tactile spatial acuity in young subjects, but not for the decline in spatial acuity with aging, 10.3758/bf03194861
  51. Wilson Barbara C., Wilson James J., Iacoviello John M., Risucci Donald, Purdue pegboard performance of normal preschool children, 10.1080/01688638208401113
  52. Witney Alice G., Wing Alan, Thonnard Jean-Louis, Smith Allan M., The cutaneous contribution to adaptive precision grip, 10.1016/j.tins.2004.08.006
  53. Yoshioka T, J Neurosci, 21, 6905 (2001)
  54. Sathian K., Zangaladze Andro, Epstein Charles M., Grafton Scott T., 10.1038/44139