Dr. Mark Brinker, Houston Orthopedic Surgeon Article RSS http://drbrinker.com Dr. Mark Brinker, Houston Orthopedic Surgeon Article RSS feed. . Dr. Mark Brinker, Houston Orthopedic Surgeon http://drbrinker.com/tresources/en/images/icons/tendenci34x15.gif http://drbrinker.com no Copyright 2005, Dr. Mark Brinker, Houston Orthopedic Surgeon Tendenci Membership Management Software by Schipul - The Web Marketing Company en-us noemail@drbrinker.com Tue, 07 Apr 2015 22:25:27 GMT Articles http://drbrinker.com/en/art/61/ <br> <h2>Journal of Orthopaedic Trauma, Vol. 18, No. 10, 2004<br> </h2> <h3>Author: Joseph J. Gugenheim, MD, Robert A. Probe, MD, and Mark R. Brinker, MD<br> </h3> <p>Click here to read the entire <a target="_blank" href="/attachments/articles/61/Effect femoral malrotation JOT 2004.pdf">published article by Dr Brinker</a></p> <br> <hr /> <div><strong></strong></div> <div><strong>Objective</strong>: To determine how axial rotation around the anatomic axis of the femur, as would occur with malrotation of a femoral fracture, affects frontal and sagittal plane alignment and knee joint orientation. Design: Computer-generated models of the lower extremity were constructed using standardized dimensions. To simulate a malrotated fracture, these models were rotated in the shaft around the anatomic axis in 15° increments from 60° internal to 60° external rotation. Rotation was performed at the proximal fourth, mid-shaft, and distal fourth. </div> <p><strong>Main Outcome Measurements:</strong> At each rotational position, the mechanical axis deviation in millimeters and the changes in mechanical lateral distal femoral angle in degrees were measured to quantify frontal plane malalignment and malorientation, respectively. The mechanical axis deviation in millimeters in the sagittal plane was also measured at each rotatory position.</p> <p><strong>Results:</strong> Femoral shaft malrotation greater than 30° internal rotation of a subtrochanteric fracture or more than 45° of a midshaft fracture or external rotation of 30° or greater of a supracondylar fracture resulted in frontal plane malalignment. External rotation of a supracondylar fracture of 45° or more results in knee joint malorientation. Any external rotation at all 3 fracture levels caused posterior displacement of the weight-bearing axis in the sagittal plane. </p> <p><strong>Conclusions:</strong> Malrotation of a femoral shaft fracture is not just a cosmetic problem. Internal and external rotation causes malalignment and malorientation in the frontal plane, depending on the level of the fracture and the magnitude of malrotation. External rotation of any degree at the proximal fourth, mid-shaft, and distal fourth causes a posterior shift of the weight-bearing axis in the sagittal plane. </p> <p><strong>Key Words</strong>: malrotation, femur fracture, intramedullary nailing, malunion</p> <br><br>1-Jan-04 0:00 AM The Effects of Femoral Shaft Malrotation on Lower Journal of Orthopaedic Trauma, Vol. 18, No. 10, 2004 Author: Joseph J. Gugenheim, MD, Robert A. Probe, MD, and Mark R. Brinker, MD Click here to read the entire published article by Dr Brinker Objective: To determine how axial rotation around the anatomic axis of the femur, as would occur with malrotation of a femoral fracture, affects frontal and sagittal plane alignment and knee joint orientation. Design: Computer-generated models of the lower extremity were constructed using standardized dimensions. To simulate a malrotated fracture, these models were rotated in the shaft around the anatomic axis in 15° increments from 60° internal to 60° external rotation. Rotation was performed at the proximal fourth, mid-shaft, and distal fourth. Main Outcome Measurements: At each rotational position, the mechanical axis deviation in millimeters and the changes in mechanical lateral distal femoral angle in degrees were measured to quantify frontal plane malalignment and malorientation, respectively. The mechanical axis deviation in millimeters in the sagittal plane was also measured at each rotatory position. Results: Femoral shaft malrotation greater than 30° internal rotation of a subtrochanteric fracture or more than 45° of a midshaft fracture or external rotation of 30° or greater of a supracondylar fracture resulted in frontal plane malalignment. External rotation of a supracondylar fracture of 45° or more results in knee joint malorientation. Any external rotation at all 3 fracture levels caused posterior displacement of the weight-bearing axis in the sagittal plane. Conclusions: Malrotation of a femoral shaft fracture is not just a cosmetic problem. Internal and external rotation causes malalignment and malorientation in the frontal plane, depending on the level of the fracture and the magnitude of malrotation. External rotation of any degree at the proximal fourth, mid-shaft, and distal fourth causes a posterior shift of the weight-bearing axis in the sagittal plane. Key Words: malrotation, femur fracture, intramedullary nailing, malunion no http://drbrinker.com/en/art/61/ Thu, 01 Jan 2004 06:00:00 GMT