ACL Tear

PMID: 27243794 J Am Acad Orthop Surg. 2016 Jul;24(7):443-54.

Anatomic Tunnel Placement in Anterior Cruciate Ligament Reconstruction.

ABSTRACT
- The anatomic anterior cruciate ligament (ACL) reconstruction concept has developed in part from renewed interest in the insertional anatomy of the ACL, using surgical techniques that can reproduce this anatomy reliably and accurately during surgical reconstruction.
- Several technical tools are available to help identify and place the tibial and femoral grafts anatomically, including arthroscopic anatomic landmarks, a malleable ruler device, and intraoperative fluoroscopy.
- The changes in technique for anatomic tunnel placement in ACL reconstruction follow recent biomechanical and kinematic data that demonstrate improved time zero characteristics.
- A better re-creation of native ACL kinematics and biomechanics is achieved with independent femoral drilling techniques that re-create a central footprint single-bundle ACL reconstruction or double-bundle reconstruction.
- However, to date, limited short-term and long-term clinical outcome data have been reported that support using either of these techniques rather than a transtibial drilling technique.
- This lack of clear clinical advantage for femoral independent and/or double-bundle techniques may arise because of the potentially offsetting biologic incorporation challenges of these grafts when placed using these techniques or could result from modifications made in traditional endoscopic transtibial techniques that allow improved femoral and tibial footprint restoration.

ABSTRACT
- The anatomic anterior cruciate ligament (ACL) reconstruction concept has developed in part from renewed interest in the insertional anatomy of the ACL, using surgical techniques that can reproduce this anatomy reliably and accurately during surgical reconstruction. Several technical tools are available to help identify and place the tibial and femoral grafts anatomically, including arthroscopic anatomic landmarks, a malleable ruler device, and intraoperative fluoroscopy. The changes in technique for anatomic tunnel placement in ACL reconstruction follow recent biomechanical and kinematic data that demonstrate improved time zero characteristics. A better re-creation of native ACL kinematics and biomechanics is achieved with independent femoral drilling techniques that re-create a central footprint single-bundle ACL reconstruction or double-bundle reconstruction. However, to date, limited short-term and long-term clinical outcome data have been reported that support using either of these techniques rather than a transtibial drilling technique. This lack of clear clinical advantage for femoral independent and/or double-bundle techniques may arise because of the potentially offsetting biologic incorporation challenges of these grafts when placed using these techniques or could result from modifications made in traditional endoscopic transtibial techniques that allow improved femoral and tibial footprint restoration.

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THA Revision Surgical Techniques Femoral revision QID: 219789 (SBQ24HK.14)

QID 219789 (Type "219789" in App Search)

A 71-year-old female presents to the clinic with complaints of left thigh start-up pain. She originally had a left total hip arthroplasty performed by an outside surgeon 10 years ago. A current radiograph is shown in Figure A. She is diagnosed with aseptic loosening of the femoral component. After a negative infectious workup, she is indicated for a revision total hip arthroplasty. Intraoperatively, the surgeon plans to perform an extended trochanteric osteotomy to facilitate the removal of the current implant and the cement mantle. The surgeon is concerned with proximal migration of the osteotomy fragment. What surgical technique can help mitigate the risk of proximal trochanteric migration?

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Abduction of the hip 25-30 degrees during trochanteric reduction and fixation

22%

143/652

Limiting the osteotomy length to less than 10 cm

45/652

Placing a cerclage cable distal to the planned osteotomy site

51/652

Supplementing fixation with cortical strut allograft

26/652

Utilizing plate fixation in addition to cerclage cables

58%

376/652

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