Radial force distribution changes associated with tangential force production in cylindrical grasping, and the importance of anatomical registration

Radial force (Fr) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit Fr tasks, and have not normalized for anatomical variance when considering Fr distributions. The goals of the present study were (i) to explore Fr during tangential...

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Published in	Journal of biomechanics Vol. 45; no. 2; pp. 218 - 224
Main Authors	Pataky, Todd C., Slota, Gregory P., Latash, Mark L., Zatsiorsky, Vladimir M.
Format	Journal Article
Language	English
Published	Kidlington Elsevier Ltd 10.01.2012 Elsevier Elsevier Limited
Subjects	Adult Arm - anatomy & histology Arm - physiology Biological and medical sciences Biomechanical Phenomena Contact Curve registration Fingers Fundamental and applied biological sciences. Psychology Grasp force coordination Grasping Grip force Hand - anatomy & histology Hand - physiology Hand and finger biomechanics Hand Strength - physiology Humans Interpolation Male Models, Biological Physical Medicine and Rehabilitation Polyvinyl chloride Registration Sensors Statistical parametric mapping Statistics Stress concentration Tasks Vertebrates: body movement. Posture. Locomotion. Flight. Swimming. Physical exercise. Rest. Sports United States > US Grasp force coordination Hand and finger biomechanics Statistical parametric mapping Curve registration Human Gripping Force measurement Finger Anatomy Hand Biomechanics Statistical method Biomedical engineering
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ISSN	0021-9290 1873-2380 1873-2380
DOI	10.1016/j.jbiomech.2011.11.006

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Abstract	Radial force (Fr) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit Fr tasks, and have not normalized for anatomical variance when considering Fr distributions. The goals of the present study were (i) to explore Fr during tangential force production tasks, and (ii) to examine the extent to which anatomical registration (i.e. spatial normalization of anatomically analogous structures) could improve signal detectability in Fr data. Twelve subjects grasped a vertically oriented cylindrical handle (diameter=6cm) and matched target upward tangential forces of 10, 20, and 30N. Fr data were measured using a flexible pressure mat with an angular resolution of 4.8°, and were registered using piecewise-linear interpolation between five manually identified points-of-interest. Results indicate that Fr was primarily limited to three contact regions: the distal thumb, the distal fingers, and the fingers’ metatacarpal heads, and that, while increases in tangential force caused significant increases in Fr for these regions, they did not significantly affect the Fr distribution across the hand. Registration was found to substantially reduce between-subject variability, as indicated by both accentuated Fr trends, and amplification of the test statistic. These results imply that, while subjects focus Fr primarily on three anatomical regions during cylindrical grasp, inter-subject anatomical differences introduce a variability that, if not corrected for via registration, may compromise one's ability to draw anatomically relevant conclusions from grasping force data.
AbstractList	Radial force (Fr) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit Fr tasks, and have not normalized for anatomical variance when considering Fr distributions. The goals of the present study were (i) to explore Fr during tangential force production tasks, and (ii) to examine the extent to which anatomical registration (i.e. spatial normalization of anatomically analogous structures) could improve signal detectability in Fr data. Twelve subjects grasped a vertically oriented cylindrical handle (diameter=6cm) and matched target upward tangential forces of 10, 20, and 30N. Fr data were measured using a flexible pressure mat with an angular resolution of 4.8°, and were registered using piecewise-linear interpolation between five manually identified points-of-interest. Results indicate that Fr was primarily limited to three contact regions: the distal thumb, the distal fingers, and the fingers’ metatacarpal heads, and that, while increases in tangential force caused significant increases in Fr for these regions, they did not significantly affect the Fr distribution across the hand. Registration was found to substantially reduce between-subject variability, as indicated by both accentuated Fr trends, and amplification of the test statistic. These results imply that, while subjects focus Fr primarily on three anatomical regions during cylindrical grasp, inter-subject anatomical differences introduce a variability that, if not corrected for via registration, may compromise one's ability to draw anatomically relevant conclusions from grasping force data. Abstract Radial force ( F r ) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit F r tasks, and have not normalized for anatomical variance when considering F r distributions. The goals of the present study were (i) to explore F r during tangential force production tasks, and (ii) to examine the extent to which anatomical registration (i.e. spatial normalization of anatomically analogous structures) could improve signal detectability in F r data. Twelve subjects grasped a vertically oriented cylindrical handle (diameter=6 cm) and matched target upward tangential forces of 10, 20, and 30 N. F r data were measured using a flexible pressure mat with an angular resolution of 4.8°, and were registered using piecewise-linear interpolation between five manually identified points-of-interest. Results indicate that F r was primarily limited to three contact regions: the distal thumb, the distal fingers, and the fingers’ metatacarpal heads, and that, while increases in tangential force caused significant increases in F r for these regions, they did not significantly affect the F r distribution across the hand. Registration was found to substantially reduce between-subject variability, as indicated by both accentuated F r trends, and amplification of the test statistic. These results imply that, while subjects focus F r primarily on three anatomical regions during cylindrical grasp, inter-subject anatomical differences introduce a variability that, if not corrected for via registration, may compromise one's ability to draw anatomically relevant conclusions from grasping force data. Radial force (F(r)) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit F(r) tasks, and have not normalized for anatomical variance when considering F(r) distributions. The goals of the present study were (i) to explore F(r) during tangential force production tasks, and (ii) to examine the extent to which anatomical registration (i.e. spatial normalization of anatomically analogous structures) could improve signal detectability in F(r) data. Twelve subjects grasped a vertically oriented cylindrical handle (diameter=6 cm) and matched target upward tangential forces of 10, 20, and 30 N. F(r) data were measured using a flexible pressure mat with an angular resolution of 4.8°, and were registered using piecewise-linear interpolation between five manually identified points-of-interest. Results indicate that F(r) was primarily limited to three contact regions: the distal thumb, the distal fingers, and the fingers' metatacarpal heads, and that, while increases in tangential force caused significant increases in F(r) for these regions, they did not significantly affect the F(r) distribution across the hand. Registration was found to substantially reduce between-subject variability, as indicated by both accentuated F(r) trends, and amplification of the test statistic. These results imply that, while subjects focus F(r) primarily on three anatomical regions during cylindrical grasp, inter-subject anatomical differences introduce a variability that, if not corrected for via registration, may compromise one's ability to draw anatomically relevant conclusions from grasping force data. Radial force ( F r ) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit F r tasks, and have not normalized for anatomical variance when considering F r distributions. The goals of the present study were (i) to explore F r during tangential force production tasks, and (ii) to examine the extent to which anatomical registration (i.e. spatial normalization of anatomically analogous structures) could improve signal detectability in F r data. Twelve subjects grasped a vertically-oriented cylindrical handle (diameter = 6 cm) and matched target upward tangential forces of 10, 20, and 30 N. F r data were measured using a flexible pressure mat with an angular resolution 4.8 deg, and were registered using piecewise-linear interpolation between five manually identified points-of-interest. Results indicate that F r was primarily limited to three contact regions: the distal thumb, the distal fingers, and the fingers’ metatacarpal heads, and that, while increases in tangential force caused significant increases in F r for these regions, they did not significantly affect the F r distribution across the hand. Registration was found to substantially reduce between-subject variability, as indicated by both accentuated F r trends, and amplification of the test statistic. These results imply that, while subjects focus F r primarily on three anatomical regions during cylindrical grasp, inter-subject anatomical differences introduce a variability that, if not corrected for via registration, may compromise one’s ability to draw anatomically relevant conclusions from grasping force data. Radial force (Fr) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit Fr tasks, and have not normalized for anatomical variance when considering Fr distributions. The goals of the present study were (i) to explore Fr during tangential force production tasks, and (ii) to examine the extent to which anatomical registration (i.e. spatial normalization of anatomically analogous structures) could improve signal detectability in Fr data. Twelve subjects grasped a vertically oriented cylindrical handle (diameter=6 cm) and matched target upward tangential forces of 10, 20, and 30 N. Fr data were measured using a flexible pressure mat with an angular resolution of 4.8 degree , and were registered using piecewise-linear interpolation between five manually identified points-of-interest. Results indicate that Fr was primarily limited to three contact regions: the distal thumb, the distal fingers, and the fingers' metatacarpal heads, and that, while increases in tangential force caused significant increases in Fr for these regions, they did not significantly affect the Fr distribution across the hand. Registration was found to substantially reduce between-subject variability, as indicated by both accentuated Fr trends, and amplification of the test statistic. These results imply that, while subjects focus Fr primarily on three anatomical regions during cylindrical grasp, inter-subject anatomical differences introduce a variability that, if not corrected for via registration, may compromise one's ability to draw anatomically relevant conclusions from grasping force data. Radial force (F(r)) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit F(r) tasks, and have not normalized for anatomical variance when considering F(r) distributions. The goals of the present study were (i) to explore F(r) during tangential force production tasks, and (ii) to examine the extent to which anatomical registration (i.e. spatial normalization of anatomically analogous structures) could improve signal detectability in F(r) data. Twelve subjects grasped a vertically oriented cylindrical handle (diameter=6 cm) and matched target upward tangential forces of 10, 20, and 30 N. F(r) data were measured using a flexible pressure mat with an angular resolution of 4.8°, and were registered using piecewise-linear interpolation between five manually identified points-of-interest. Results indicate that F(r) was primarily limited to three contact regions: the distal thumb, the distal fingers, and the fingers' metatacarpal heads, and that, while increases in tangential force caused significant increases in F(r) for these regions, they did not significantly affect the F(r) distribution across the hand. Registration was found to substantially reduce between-subject variability, as indicated by both accentuated F(r) trends, and amplification of the test statistic. These results imply that, while subjects focus F(r) primarily on three anatomical regions during cylindrical grasp, inter-subject anatomical differences introduce a variability that, if not corrected for via registration, may compromise one's ability to draw anatomically relevant conclusions from grasping force data.Radial force (F(r)) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit F(r) tasks, and have not normalized for anatomical variance when considering F(r) distributions. The goals of the present study were (i) to explore F(r) during tangential force production tasks, and (ii) to examine the extent to which anatomical registration (i.e. spatial normalization of anatomically analogous structures) could improve signal detectability in F(r) data. Twelve subjects grasped a vertically oriented cylindrical handle (diameter=6 cm) and matched target upward tangential forces of 10, 20, and 30 N. F(r) data were measured using a flexible pressure mat with an angular resolution of 4.8°, and were registered using piecewise-linear interpolation between five manually identified points-of-interest. Results indicate that F(r) was primarily limited to three contact regions: the distal thumb, the distal fingers, and the fingers' metatacarpal heads, and that, while increases in tangential force caused significant increases in F(r) for these regions, they did not significantly affect the F(r) distribution across the hand. Registration was found to substantially reduce between-subject variability, as indicated by both accentuated F(r) trends, and amplification of the test statistic. These results imply that, while subjects focus F(r) primarily on three anatomical regions during cylindrical grasp, inter-subject anatomical differences introduce a variability that, if not corrected for via registration, may compromise one's ability to draw anatomically relevant conclusions from grasping force data.
Author	Zatsiorsky, Vladimir M. Pataky, Todd C. Latash, Mark L. Slota, Gregory P.
AuthorAffiliation	1 Department of Bioengineering, Shinshu University, Japan 2 Department of Kinesiology, Pennsylvania State University, USA
AuthorAffiliation_xml	– name: 1 Department of Bioengineering, Shinshu University, Japan – name: 2 Department of Kinesiology, Pennsylvania State University, USA
Author_xml	– sequence: 1 givenname: Todd C. surname: Pataky fullname: Pataky, Todd C. email: tpataky@shinshu-u.ac.jp organization: Department of Bioengineering, Shinshu University, Japan – sequence: 2 givenname: Gregory P. surname: Slota fullname: Slota, Gregory P. organization: Department of Kinesiology, Pennsylvania State University, USA – sequence: 3 givenname: Mark L. surname: Latash fullname: Latash, Mark L. organization: Department of Kinesiology, Pennsylvania State University, USA – sequence: 4 givenname: Vladimir M. surname: Zatsiorsky fullname: Zatsiorsky, Vladimir M. organization: Department of Kinesiology, Pennsylvania State University, USA
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Keywords	Grasp force coordination Hand and finger biomechanics Statistical parametric mapping Curve registration Human Gripping Force measurement Finger Anatomy Hand Biomechanics Statistical method Biomedical engineering
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Snippet	Radial force (Fr) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit Fr tasks, and have not... Abstract Radial force ( F r ) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit F r tasks,... Radial force (F(r)) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit F(r) tasks, and have... Radial force (Fr ) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit Fr tasks, and have not... Radial force ( F r ) distributions describe grip force coordination about a cylindrical object. Recent studies have employed only explicit F r tasks, and have...
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SubjectTerms	Adult Arm - anatomy & histology Arm - physiology Biological and medical sciences Biomechanical Phenomena Contact Curve registration Fingers Fundamental and applied biological sciences. Psychology Grasp force coordination Grasping Grip force Hand - anatomy & histology Hand - physiology Hand and finger biomechanics Hand Strength - physiology Humans Interpolation Male Models, Biological Physical Medicine and Rehabilitation Polyvinyl chloride Registration Sensors Statistical parametric mapping Statistics Stress concentration Tasks Vertebrates: body movement. Posture. Locomotion. Flight. Swimming. Physical exercise. Rest. Sports
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Title	Radial force distribution changes associated with tangential force production in cylindrical grasping, and the importance of anatomical registration
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