Abstract
Understanding the kinematics of human movement is of both a basis and an applied value in medicine and biology. Motion measurement can be used to evaluate functional performance of limbs under normal and abnormal conditions. Kinematic knowledge is also essential for proper diagnosis and surgical treatment of joint disease and the design of prosthetic devices to restore function.
In general, kinematic analysis of human movement can be categorized into two main areas: 1) Gross movement of the limb segments interconnected by joints, where the relative three-dimensional joint rotation is described by adopting the Eulerian angle system. With proper selection of axes of rotation between two bone segments, the associated finite rotation is sequence independent. This concept is particularly useful, since it matches precisely the clinical definition of joint motion. 2) Detailed analysis of joint articulating surface motion, where generalized three-dimensional, unconstrained rotation and translation are described utilizing the concept of the screw displacement axis. Knowing the surface geometry and soft-tissue constraints, the movement of an articulating joint can be analyzed to provide basic information for lubrication and wear studies. In addition, with appropriate numerical differentiation, velocity and acceleration can be obtained from the displacement information described by the above two methods.
Currently available measurement techniques of human movement can be classified into three categories: 1) electrical linkage methods; 2) stereometric methods and biplanar roentgenographic methods; and 3) accelerometric methods. Each system has its unique advantages and limitations in terms of the operational principle, instruments required, data reduction, and type of information produced. Representative analyses of human upper and lower extremity movement will be included as illustrative examples.
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References
Andrews, J.G. and Y. Youm. A biomechanical investigation of wrist kinematics.J. Biomech. 12:83–93, 1979.
Brown, R.H., A.H. Burstein, C.L. Nash, and C.C. Schock. Spinal analysis using a three-dimensional radiographic technique.J. Biomech. 9:355–365, 1976.
Chao, E.Y. Experimental methods for biomechanical measurements of joint kinematics. InCRC Handbook of Engineering in Medicine and Biology, Section B: Instruments and Measurements, edited by B.N. Feinberg and D.G. Fleming. West Palm Beach, Florida: CRC Press, 1978, pp. 385–411.
Chao, E.Y. Justification of triaxial goniometer for the measurement of joint rotation.J. Biomech. 13:989–1006, 1980.
Chao, E.Y., K.N. An, L.J. Askew, and B.F. Morrey. Electrogoniometer for the measurement of human elbow rotation.J. Biomech. Eng. 102:301–310, 1980.
Chao, E.Y. and B.F. Morrey. Three-dimensional rotation of the elbow.J. Biomech. 11:57–73, 1978.
Chao, E.Y.S., K. Rim, G. Sundt, and R.C. Johnston. The application of 4×4 matrix method to the correction of the measurements of hip joint rotation.J. Biomech. 3:459–471, 1970.
Crippen, T.E., K.N. An, and K. Takahashi. Effects of measurement errors in describing human joint motion. Proceedings of the Tenth Annual Northeast Bioengineering Conference, IEEE, 1982, pp. 178–182.
Goldstein, H.Classical Mechanics. Reading, Massachusetts. Addison Wesley Publishing Co., Inc., 1959, pp. 107–124.
Kinzel, G.L. On the design of instrumented linkages for the measurement of relative motion between two rigid bodies. Ph.D. Thesis. Purdue University, West Lafayette, Indiana, 1973.
Kinzel, G.L., A.S. Hall, and B.M. Hillberry. Measurement of the total motion between two body segments, Part I-Analytic development.J. Biomech. 5:93–105, 1972.
Kinzel, G.L., A.S. Hall and B.M. Hillberry. Measurement of the total motion between two body segments, Part II-Description of application.J. Biomech. 5:283–293, 1972.
Lewis, J.L. and J.D. Lew. A method for locating an optimal ‘fixed’ axis or rotation for the human knee joint.J. Biomech. Eng. 100:187–193, 1978.
Morris, J.R.W. Accelerometry—A technique for the measurement of human movements.J. Biomech. 6:729–736, 1973.
Panjabi, M.M. Center and angles of rotation of body joints: A study of errors and optimization.J. Biomech. 12:911–920, 1979.
Reuleaux, F.The Kinematics of Machinery: Outline of a Theory of Machines. London: Macmillan, 1876. Translated by A. B. W. Kennedy, New York: Dover Publications, Inc., 1963, p. 61.
Shapiro, R. Direct linear transformation method for three-dimensional cinematography.Res. Q. 49:197–205, 1978.
Spoor, C.W. and F.E. Veldpaus. Rigid body motion calculated from spacial coordinates of markers.J. Biomech. 13:391–393, 1980.
Suntay, W.J., et al. A coordinate system for describing joint position.Advances in Bioengineering, ASME, pp. 59–62, 1978.
Townsend, M.A., M. Izak, and R.W. Jackson. Total motion knee goniometry.J. Biomech. 10:183–193, 1977.
Winter, D.A.Biomechanics of Human Movement. New York: John Wiley and Sons, Inc., 1979, pp. 10–11.
Youm, Y. and Y.S. Yoon. Analytical development in investigation of wrist kinematics.J. Biomech. 12:613–621, 1979.
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An, K.N. Kinematic analysis of human movement. Ann Biomed Eng 12, 585–597 (1984). https://doi.org/10.1007/BF02371451
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DOI: https://doi.org/10.1007/BF02371451