Positioning of the tibial tunnel for anterior cruciate ligament reconstruction.

Two mechanisms of unintentional anterior tibial tunnel axis shift can occur despite accurate placement of the guide wire within the proximal tibia. The first results from using a short-block reamer head joined to a shaft of smaller diameter. If the tibial tunnel is drilled obliquely, it is possible for the reamer head to displace anteriorly in the knee joint before completion of the posterior portion of the tibial tunnel. The second mechanism of anterior shift involves using two sequential drills to create the tibial tunnel. To delineate the causes of this unwanted shift, cadaveric studies and special roentgenographic studies were undertaken. Results demonstrated that the shift is related directly to the presence of high-density bone in the tibial plateau. In an effort to minimize this effect, various drill designs were tested, and it was determined that a drill-head length of 25 mm was most effective at reducing the shift without sacrificing the freedom of movement necessary to obtain precise endosteal placement of the femoral tunnel. Along with these experimental studies, a retrospective 7-year review of anterior cruciate ligament (ACL) reconstruction failures was performed to assess the clinical significance of inadvertent anterior positioning of the tibial tunnel.

[1]  K G JONES,et al.  RECONSTRUCTION OF THE ANTERIOR CRUCIATE LIGAMENT. A TECHNIQUE USING THE CENTRAL ONE-THIRD OF THE PATELLAR LIGAMENT. , 1963, The Journal of bone and joint surgery. American volume.

[2]  J. Gillquist,et al.  Intercondylar notch measurements with special reference to anterior cruciate ligament surgery. , 1991, Clinical orthopaedics and related research.

[3]  J A Sidles,et al.  Ligament length relationships in the moving knee , 1988, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[4]  C. D. Vanmeter,et al.  Anterior cruciate ligament reconstruction through the patellar tendon defect , 1993 .

[5]  J. Melhorn,et al.  The relationship of the femoral attachment site to the isometric tracking of the anterior cruciate ligament graft , 1987, The American journal of sports medicine.

[6]  S. Howell,et al.  Tibial tunnel placement in anterior cruciate ligament reconstructions and graft impingement. , 1992, Clinical orthopaedics and related research.

[7]  T. Simon,et al.  Endoscopic ACL reconstruction: a technical note on tunnel length for interference fixation. , 1993, Arthroscopy : the journal of arthroscopic & related surgery : official publication of the Arthroscopy Association of North America and the International Arthroscopy Association.

[8]  C. Schneck,et al.  Testing for isometry during reconstruction of the anterior cruciate ligament. Anatomical and biomechanical considerations. , 1990, The Journal of bone and joint surgery. American volume.

[9]  D. W. Jackson,et al.  Tibial tunnel placement in ACL reconstruction. , 1994, Arthroscopy : the journal of arthroscopic & related surgery : official publication of the Arthroscopy Association of North America and the International Arthroscopy Association.

[10]  J. S. Keene,et al.  Anterior cruciate ligament reconstruction , 1993, The American journal of sports medicine.

[11]  E. Grood,et al.  Factors affecting the region of most isometric femoral attachments , 1989, The American journal of sports medicine.

[12]  S. Arnoczky,et al.  The Anterior cruciate ligament : current and future concepts , 1993 .

[13]  B. Reider,et al.  Anterior cruciate ligament reconstruction using one-third of the patellar ligament, augmented by extra-articular tendon transfers. , 1982, The Journal of bone and joint surgery. American volume.