In-vivo kinematic analysis of forearm rotation using helical axis analysis.

BACKGROUND Controversy still exists regarding the location and nature (static or dynamic) of the forearm joint axis. This might be due to inconsistent results from in-vitro data and less precise methods of analysis. We present the first in-vivo kinematic analysis of normal forearm joint rotation described by helical axis analysis. METHODS Data obtained from computed tomography images of both forearms of five healthy volunteers was used to calculate finite helical axis parameters from transformation matrices. Four positions were analyzed: maximum pronation, maximum supination, 60 degrees pronation, and 60 degrees supination. Kinematic analysis focused on the motion of the radius around the ulna. FINDINGS The forearm axis as defined by finite helical axis extended from the radial head between its kinematic center and the proximal radioulnar joint, to the dorsal region of the ulnar head at the distal radioulnar joint. The axis was found to be variable. INTERPRETATIONS Helical axis analysis has precisely defined the nature and location of the forearm axis. This new information of forearm kinematics defined by finite helical analysis, may be useful in implant design, and in guiding surgeons in their reconstruction of instabilities of the distal and proximal radioulnar joint.

[1]  C. Spoor,et al.  Rigid body motion calculated from spatial co-ordinates of markers. , 1980, Journal of biomechanics.

[2]  Hideki Yoshikawa,et al.  In vivo three‐dimensional motion analysis of the forearm with radioulnar synostosis treated by the kanaya procedure , 2006, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[3]  ROTATION OF THE FOREARM. , 1901 .

[4]  K. An,et al.  Force transmission through the radial head. , 1985, The Journal of bone and joint surgery. American volume.

[5]  T Dwight,et al.  The Movements of the Ulna in Rotation of the Fore-Arm. , 2022, Journal of anatomy and physiology.

[6]  T Nakamura,et al.  In vivo motion analysis of forearm rotation utilizing magnetic resonance imaging. , 1999, Clinical biomechanics.

[7]  J. Christensen,et al.  A study of the interosseous distance between the radius and ulna during rotation of the forearm , 1968, The Anatomical record.

[8]  Scott W. Wolfe,et al.  Advances in the in vivo measurement of carpal kinematics , 2001 .

[9]  J. Clarys,et al.  In vivo 3D arthrokinematics of the proximal and distal radioulnar joints during active pronation and supination. , 2006, Clinical biomechanics.

[10]  Ajay Gupta,et al.  How much can carpus rotate axially? An in vivo study. , 2005, Clinical biomechanics.

[11]  K Kedzior,et al.  The anatomic features of the radial head and their implication for prosthesis design. , 2001, Clinical biomechanics.

[12]  R A Robb,et al.  Analyze: a comprehensive, operator-interactive software package for multidimensional medical image display and analysis. , 1989, Computerized medical imaging and graphics : the official journal of the Computerized Medical Imaging Society.

[13]  J Heiberg Movements of the Ulna in Rotation of the Fore-Arm. , 1885, Journal of anatomy and physiology.

[14]  K. An,et al.  Changes in wrist and forearm configuration with grasp and isometric contraction of elbow flexors. , 1992, The Journal of hand surgery.

[15]  D. Ruch,et al.  Ulnar-positive variance as a predictor of distal radioulnar joint ligament disruption. , 2005, The Journal of hand surgery.

[16]  A. Palmer,et al.  The change in ulnar variance with grip. , 1993, The Journal of hand surgery.

[17]  R. Johnson,et al.  Rotation of the forearm; an experimental study of pronation and supination. , 1951, The Journal of bone and joint surgery. American volume.

[18]  J. Rubenstein,et al.  Kinematics of the distal radioulnar joint. , 1986, The Journal of hand surgery.

[19]  S L Woo,et al.  A method for measuring joint kinematics designed for accurate registration of kinematic data to models constructed from CT data. , 2001, Journal of biomechanics.

[20]  F W Werner,et al.  Ulnar variance determination. , 1982, The Journal of hand surgery.

[21]  Y. Youm,et al.  Biomechanical analyses of forearm pronation-supination and elbow flexion-extension. , 1979, Journal of biomechanics.

[22]  S. Patterson,et al.  An anthropometric study of the radial head: implications in the design of a prosthesis. , 2001, The Journal of arthroplasty.

[23]  J. Crisco,et al.  Noninvasive technique for measuring in vivo three‐dimensional carpal bone kinematics , 1999, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[24]  G L Kinzel,et al.  Measurement of the total motion between two body segments. I. Analytical development. , 1972, Journal of biomechanics.

[25]  Kai-Nan An,et al.  A method for in-vivo kinematic analysis of the forearm. , 2008, Journal of biomechanics.

[26]  K. An,et al.  The noncircular shape of the radial head. , 2003, The Journal of hand surgery.

[27]  A. Kapandji Biomechanics of pronation and supination of the forearm. , 2001, Hand clinics.

[28]  C F Small,et al.  Load dependence in carpal kinematics during wrist flexion in vivo. , 1997, Clinical biomechanics.