Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on medication adherence

LIVE: Thursday 27th June 2024, 18:00-19:30 (CEST)
Join our expert panel to discover why you need to understand the drivers of non-adherence in your patients, and how you can optimize medication adherence in your clinics to drastically improve patient outcomes.
ADVANCED SEARCH
Log in
Top
Experimental Brain Research
Published in: Experimental Brain Research 3/2007

01-03-2007 | Research Article

Curvature discrimination in various finger conditions

Authors: Bernard J. van der Horst, Astrid M. L. Kappers

Published in: Experimental Brain Research | Issue 3/2007

Login to get access

Abstract

The ability of humans to discriminate curvature was investigated for different finger conditions. The experiments were conducted in which subjects explored cylindrically curved stimuli by touch. Using a 2-alternative forced–choice procedure, discrimination thresholds and biases were measured for several conditions. In 1-finger conditions, reference and test stimulus were explored with the same finger, whereas in 2-finger conditions these stimuli were felt with different fingers. Similar thresholds were obtained for the 1-finger conditions, in which either the preferred or the non-preferred index finger or the thumb was employed. However, significantly higher thresholds were found for the conditions in which subjects used two fingers, either of the same hand or of different hands. Interestingly, even higher thresholds were obtained for a 2-finger condition in which subjects explored the stimuli simultaneously instead of sequentially. In addition, subject-dependent biases were found in the 2-finger conditions. We conclude that the number of fingers and the mode of exploration have a considerable effect on performance in a haptic task such as curvature discrimination.
Literature
Ballesteros S, Manga D, Reales JM (1997) Haptic discrimination of bilateral symmetry in 2-dimensional and 3-dimensional unfamiliar displays. Percept Psychophys 59(1):37–50PubMed
Bradshaw JL, Nicholls MER, Rogers MA (1998) An intermanual advantage for tactual matching. Cortex 34:763–770PubMed
Braun C, Hess H, Burkhardt M, Wühle A, Preissl H (2005) The right hand knows what the left hand is feeling. Exp Brain Res 162:366–373PubMedCrossRef
Coren S (1993) The left-hander syndrome. Vintage Books, New York
Charron JF, Collin I, Braun CM (1996) Intermanual transfer of somaesthetic information: a two-point discrimination experiment. Neuropsychologia 34(9):873–877PubMedCrossRef
Evans PM, Craig JC (1991) Tactile attention and the perception of moving tactile stimuli. Percept Psychophys 49(4):355–364PubMed
Evans PM, Craig JC, Rinker MA (1992) Perceptual processing of adjacent and nonadjacent tactile nontargets. Percept Psychophys 52(5):571–581PubMed
Gordon IE, Morison V (1982) The haptic perception of curvature. Percept Psychophys 31(5):446–450PubMed
Goodwin AW, John KT, Marceglia AH (1991) Tactile discrimination of curvature by humans using only cutaneous information from the fingerpads. Exp Brain Res 86:663–672PubMedCrossRef
Goodwin AW, Browning AS, Wheat HE (1995) Representation of curved surfaces in responses of mechanoreceptive afferent fibers innervating the monkey’s fingerpad. J Neurosci 15(1):798–810PubMed
Goodwin AW, Macefield VG, Bisley JW (1997) Encoding of object curvature by tactile afferents from human fingers. J Neurophysiol 78:2881–2888PubMed
Harris JA, Harris IM, Diamond ME (2001) The topography of tactile learning in humans. J Neurosci 21(3):1056–1061PubMed
Henriques DYP, Soechting JF (2003) Bias and sensitivity in the haptic perception of geometry. Exp Brain Res 150:95–108PubMed
Jansson G, Monaci L (2004) Haptic identification of objects with different number of fingers. In: Ballesteros S, Heller MA (eds) Touch, blindness, and neuroscience. UNED, Madrid pp 209–219
Johnson KO (2001) The roles and functions of cutaneous mechanoreceptors. Curr Opin Neurobiol 11:455–461PubMedCrossRef
Johnson KO, Yoshioka T, Vega-Bermudez F (2000) Tactile functions of mechanoreceptive afferents innervating the hand. J Clin Neurophysiol 17(6):539–558PubMedCrossRef
Kappers AML, Koenderink JJ (1996) Haptic unilateral and bilateral discrimination of curved surfaces. Perception 25(6):739–749PubMedCrossRef
Kappers AML, Koenderink JJ, Te Pas SF (1994) Haptic discrimination of doubly curved surfaces. Perception 23:1483–1490PubMedCrossRef
Lederman SJ, Klatzky RL (1987) Hand movements: a window into haptic object recognition. Cognit Psychol 19(3):342–368PubMedCrossRef
Louw S, Kappers AML, Koenderink JJ (2000) Haptic detection thresholds of Gaussian profiles over the whole range of scales. Exp Brain Res 132:369–374PubMedCrossRef
Louw S, Kappers AML, Koenderink JJ (2002) Active haptic detection and discrimination of shape. Percept Psychophys 64(7):1108–1119PubMed
Nefs HT, Kappers AML, Koenderink JJ (2005) Intermanual and intramanual tactual grating discrimination. Exp Brain Res 163:123–127PubMedCrossRef
Pont SC, Kappers AML, Koenderink JJ (1997) Haptic curvature discrimination at several regions of the hand. Percept Psychophys 59(8):1225–1240PubMed
Pont SC, Kappers AML, Koenderink JJ (1998) The influence of stimulus tilt on haptic curvature matching and discrimination by dynamic touch. Perception 27:869–880PubMedCrossRef
Pont SC, Kappers AML, Koenderink JJ (1999) Similar mechanisms underlie curvature comparison by static and dynamic touch. Percept Psychophys 61(5):874–89PubMed
Provancher WR, Cutkosky MR, Kuchenbecker KJ, Niemeyer G (2005) Contact location display for haptic perception of curvature and object motion. Int J Robot Res 24(9):691–702CrossRef
Russier S (1999) Haptic discrimination of two-dimensional raised line shapes by blind and sighted adults. J Vis Impair Blind 93(7):421–426
Sanders AFJ, Kappers AML (2006) Bimanual curvature discrimination of hand-sized surfaces placed at different positions. Percept Psychophys (in press)
Sathian K, Zangaladze A (1996) Tactile spatial acuity at the human fingertip and lip: bilateral symmetry and interdigit variability. Neurology 46:1464–1466PubMed
Schnitzler A, Salmelin R, Salenius S, Jousmäki V, Hari R (1995) Tactile information from the human hand reaches the ipsilateral primary somatosensory cortex. Neurosci Lett 200:25–28PubMedCrossRef
Schweizer R, Maier M, Braun C, Birbaumer N (2000) Distribution of mislocalizations of tactile stimuli on the fingers of the human hand. Somatosens Mot Res 17(4):309–316PubMedCrossRef
Van Boven RW, Johnson KO (1994) The limit of tactile spatial resolution in humans: grating orientation discrimination at the lip, tongue, and finger. Neurology 44:2361–2366PubMed
Vogels IMLC, Kappers AML, Koenderink JJ (1996) Haptic after-effect of curved surfaces. Perception 25(1):109–119PubMedCrossRef
Voisin J, Michaud G, Chapman CE (2005) Haptic shape discrimination in humans: insight into haptic frames of reference. Exp Brain Res 164:347–356PubMedCrossRef
Weber EH (1834) De tactu. translation. In: Ross HE, Murray JD (eds) (1996) EH Weber: on the tactile senses. Academic, London pp 21–136
Weinstein S (1968) Intensive and extensive aspects of tactile sensitivity as a function of body part, sex, and laterality. In: Kenshalo DR (ed) The skin senses. Thomas Spring Field, Illinois, pp 195–222
Wheat HE, Goodwin AW, Browning AS (1995) Tactile resolution: peripheral neural mechanisms underlying the human capacity to determine positions of objects contacting the fingerpad. J Neurosci 15(8):5582–5595PubMed
Wichmann FA, Hill NJ (2001) The psychometric function: II. Bootstrap-based confidence intervals and sampling. Percept Psychophys 63(8):1314–1329PubMed
Zuidhoek S, Kappers AML, Van der Lubbe RHJ, Postma A (2003) Delay improves performance on a haptic spatial matching task. Exp Brain Res 149:320–330PubMed
Metadata
Title
Curvature discrimination in various finger conditions
Authors
Bernard J. van der Horst
Astrid M. L. Kappers
Publication date
01-03-2007
Publisher
Springer-Verlag
Published in
Experimental Brain Research / Issue 3/2007
Print ISSN: 0014-4819
Electronic ISSN: 1432-1106
DOI
https://doi.org/10.1007/s00221-006-0670-9

Other articles of this Issue 3/2007

Experimental Brain Research 3/2007 Go to the issue

Research Article

Trifluoperazine protects brain plasma membrane Ca2+-ATPase from oxidative damaging

Research Article

Adaptive changes in postural strategy selection in chronic low back pain

Research Article

Latency of vestibular responses of pursuit neurons in the caudal frontal eye fields to whole body rotation

Research Article

The GABAA receptor-mediated recurrent inhibition in ventral compared with dorsal CA1 hippocampal region is weaker, decays faster and lasts less

Research Article

Gait asymmetry in patients with Parkinson’s disease and elderly fallers: when does the bilateral coordination of gait require attention?

Research Article

Age-related differences in adaptation during childhood: the influences of muscular power production and segmental energy flow caused by muscles