Detrimental effects of overstuffing or understuffing with a radial head replacement in the medial collateral-ligament deficient elbow.

BACKGROUND Comminuted radial head fractures associated with an injury of the medial collateral ligament can be treated with a radial head implant. We hypothesized that lengthening and shortening of the radial neck would alter the kinematics and the pressure through the radiocapitellar joint in the medial collateral ligament-deficient elbow. METHODS The effects of lengthening (2.5 and 5 mm) and shortening (2.5 and 5 mm) of the radial neck were assessed in six human cadaveric upper extremities in which the medial collateral ligament had been surgically released. The three-dimensional spatial orientation of the ulna was recorded during simulated active motion from extension to flexion. Total varus-valgus laxity and ulnar rotation were measured. Radiocapitellar joint pressure was assessed with use of pressure-sensitive film. RESULTS Radial neck lengthening or shortening of >/=2.5 mm significantly changed the kinematics in the medial collateral ligament-deficient elbow. Lengthening caused a significant decrease (p < 0.05) in varus-valgus laxity and ulnar rotation (p < 0.05), with the ulna tracking in varus and external rotation. Shortening caused a significant increase in varus-valgus laxity (p < 0.05) and ulnar rotation (p < 0.05), with the ulna tracking in valgus and internal rotation. The pressure on the radiocapitellar joint was significantly increased after 2.5 mm of lengthening. CONCLUSIONS This study suggests that accurate restoration of radial length is important and that axial understuffing or overstuffing of the radiohumeral joint by >/=2.5 mm alters both elbow kinematics and radiocapitellar pressure. CLINICAL RELEVANCE This in vitro cadaver study indicates that a radial head replacement should be performed with the same level of concern for accuracy and reproducibility of component position and orientation as is appropriate with any other prosthesis.

[1]  J. Macdermid,et al.  Arthroplasty with a Metal Radial Head for Unreconstructible Fractures of the Radial Head , 2001, The Journal of bone and joint surgery. American volume.

[2]  Ž. Mikić,et al.  Late results in fractures of the radial head treated by excision. , 1983, Clinical orthopaedics and related research.

[3]  G. G. Gupta,et al.  Biomechanical and computer analysis of radial head prostheses. , 1997, Journal of shoulder and elbow surgery.

[4]  I. Stephen Excision of the radial head for closed fracture. , 1981, Acta orthopaedica Scandinavica.

[5]  James A. Johnson,et al.  Metallic radial head arthroplasty improves valgus stability of the elbow. , 1999, Clinical orthopaedics and related research.

[6]  B F Morrey,et al.  Contribution of Monoblock and Bipolar Radial Head Prostheses to Valgus Stability of the Elbow , 2001, The Journal of bone and joint surgery. American volume.

[7]  D. Dowson,et al.  Elbow joint force predictions for some strenuous isometric actions. , 1980, Journal of biomechanics.

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

[9]  I. Harrington,et al.  The functional outcome with metallic radial head implants in the treatment of unstable elbow fractures: a long-term review. , 2001, The Journal of trauma.

[10]  D. Atlıhan,et al.  Current concepts in the treatment of fractures of the radial head, the olecranon and the coronoid. , 1996, The Journal of bone and joint surgery. American volume.

[11]  E. Chao,et al.  Biomechanical study of the elbow following excision of the radial head. , 1979, The Journal of bone and joint surgery. American volume.

[12]  F. van Glabbeek,et al.  Current concepts in the treatment of radial head fractures in the adult. A clinical and biomechanical approach. , 2001, Acta orthopaedica Belgica.

[13]  A A HALLS,et al.  Transmission of pressures across the elbow joint , 1964, The Anatomical record.

[14]  P. Piriou,et al.  A floating prosthesis for radial-head fractures. , 1996, The Journal of bone and joint surgery. British volume.

[15]  A A Amis,et al.  The derivation of elbow joint forces, and their relation to prosthesis design. , 1979, Journal of medical engineering & technology.

[16]  M. Mason Some observations on fractures of the head of the radius with a review of one hundred cases , 1954, The British journal of surgery.

[17]  B F Morrey,et al.  The effect of forearm rotation on laxity and stability of the elbow. , 2001, Clinical biomechanics.

[18]  B F Morrey,et al.  Valgus stability of the elbow. A definition of primary and secondary constraints. , 1991, Clinical orthopaedics and related research.

[19]  K N An,et al.  Application of a magnetic tracking device to kinesiologic studies. , 1988, Journal of biomechanics.

[20]  B. Morrey,et al.  Results of delayed excision of the radial head after fracture. , 1986, The Journal of bone and joint surgery. American volume.

[21]  J. Vegter,et al.  Resection of the radial head after Mason type-III fractures of the elbow: follow-up at 16 to 30 years. , 1998, The Journal of bone and joint surgery. British volume.

[22]  M. Ikeda,et al.  Function after early radial head resection for fracture: A retrospective evaluation of 15 patients followed for 3-18 years , 2000, Acta orthopaedica Scandinavica.

[23]  Z. Yosipovitch,et al.  Late results of excision of the radial head for an isolated closed fracture. , 1986, The Journal of bone and joint surgery. American volume.

[24]  I. Harrington,et al.  Replacement of the radial head in the treatment of unstable elbow fractures. , 1981, Injury.

[25]  F. van Glabbeek,et al.  The floating radial head prosthesis for comminuted radial head fractures: a multicentric study. , 2000, Acta orthopaedica Belgica.