The influence of the oscillation angle and the neck anteversion of the prosthesis on the cup safe-zone that fulfills the criteria for range of motion in total hip replacements. The required oscillation angle for an acceptable cup safe-zone
OSCILLATION ANGLE;
RANGE OF MOTION (ROM);
TOTAL HIP PROSTHESIS (THP);
PROSTHETICS;
METAL;
ACETABULOPLASTY;
ARTICLE;
CERAMIC PROSTHESIS;
ERROR;
FEMUR HEAD;
FEMUR NECK;
HIP DISLOCATION;
JOINT FUNCTION;
JOINT MOBILITY;
KINETICS;
MATHEMATICS;
OSCILLATION;
PRIORITY JOURNAL;
PROSTHESIS FAILURE;
SAFETY;
SUBLUXATION;
SURGEON;
THEORY;
TOTAL HIP PROSTHESIS;
ARTHROPLASTY, REPLACEMENT, HIP;
EQUIPMENT DESIGN;
HIP JOINT;
HIP PROSTHESIS;
HUMANS;
MODELS, THEORETICAL;
OSCILLOMETRY;
RANGE OF MOTION, ARTICULAR;
ROTATION;
American Academy of Orthopaedic Surgeons, Chicago.
American Academy of Orthopaedic Surgeons, 1965. Committee for the study of joint motion. Joint Motion: Method of Measurement and Recording. American Academy of Orthopaedic Surgeons, Chicago.
The effect of the orientation of the acetabular and femoral components on the range of motion of the hip at different head-neck ratios
D'Lima D.D., Urquhart A.G., Buehler K.K., Walker R.H., Cowell C.W. The effect of the orientation of the acetabular and femoral components on the range of motion of the hip at different head-neck ratios. Journal of Bone and Joint Surgery. 82-A:2000;315-321
Variations of pelvic anteversion in the lying and standing positions: Analysis of 24 control subjects and implications for CT measurement of position of a prosthetic cup
Eddine T.A., Migaud H., Chantelot C., Cotton A., Fontaine C., Duquennoy A. Variations of pelvic anteversion in the lying and standing positions. analysis of 24 control subjects and implications for CT measurement of position of a prosthetic cup Surgical and Radiologic Anatomy. 23:2001;105-110
Metalosis due to impingement between the socket and the femoral neck in a metal-on-metal bearing total hip prosthesis
Iida H., Kaneda E., Takada H., Uchida K., Kawanabe K., Nakamura T. Metalosis due to impingement between the socket and the femoral neck in a metal-on-metal bearing total hip prosthesis. A case report. Journal of Bone and Joint Surgery. 81-A:1999;401-403
Japanese Orthopaedic Association, 1995. Committee of joint motion. Range of Joint Motion and Method of Measurement. Japanese Orthopaedic Association, Tokyo.
Computer assisted measurement of cup placement in total hip replacement
Jaramaz B., DiGiia A.M., Blackwell M., Nikon C. Computer assisted measurement of cup placement in total hip replacement. Clinical Orthopaedics. 354:1998;70-80
Factors predisposing to dislocation after primary total hip arthroplasty: A multivariate analysis
Jolles B.M., Zagger P., Leyvraz P.F. Factors predisposing to dislocation after primary total hip arthroplasty. a multivariate analysis Journal of Arthroplasty. 17:2002;282-292
Dislocation after total hip-replacement arthroplasties
Lewinnek G.E., Lewis J.L., Tarr R., Compere C.L., Zimmerman J.R. Dislocation after total hip-replacement arthroplasties. Journal of Bone and Joint Surgery. 60-A:1978;217-220
Activities of daily living in non-Western cultures: Range of motion requirements for hip and knee joint implants
Mulholland S.J., Wyss U.P. Activities of daily living in non-Western cultures. range of motion requirements for hip and knee joint implants International Journal of Rehabilitation Research. 24:2001;191-198
Joint motion and surface contact area related to component position in total hip arthroplasty
Robinson R.P., Simonian P.T., Gradisar I.M., Ching R.P. Joint motion and surface contact area related to component position in total hip arthroplasty. Journal of Bone and Joint Surgery. 79-B:1997;140-146
A mathematical formula to calculate the theoretical range of motion for total hip replacement
Yoshimine F., Ginbayashi K. A mathematical formula to calculate the theoretical range of motion for total hip replacement. Journal of Biomechanics. 35:2002;989-993
