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Intra-Articular Femorotibial Rotation is Associated with Tibial Tubercle-Trochlear Groove Distance

Intra-Articular Femorotibial Rotation is Associated with Tibial Tubercle-Trochlear Groove Distance

Nicolas Pascual-Leone, MD, UNITED STATES Amirhossein Jahandar, MS, UNITED STATES Ryann Davie, MD, UNITED STATES Joshua T Bram, MD, UNITED STATES Danielle E. Chipman, BS, UNITED STATES Carl W Imhauser, PhD, UNITED STATES Daniel W. Green, MD, MS, UNITED STATES

Hospital for Special Surgery, New York, NY, UNITED STATES


2023 Congress   ePoster Presentation   2023 Congress   Not yet rated

 

Anatomic Location

Diagnosis / Condition

Diagnosis Method

Sports Medicine

Treatment / Technique


Summary: TT-TG distance may depend on the internal/external (IE) rotation of the tibia in relation to the femur, which is typically not controlled for. TT-TG was highly dependent on knee joint IE rotation changing by 0.52mm for every degree of knee joint IE rotation. Physicians should pay close attention to knee joint IE rotation when measuring TT-TG in their patients.


Objectives: A tibial tubercle-trochlear groove (TT-TG) distance of 20 mm is typically used when determining whether tibial tubercle anteromedialization (AMZ) is needed for patellar instability. TT-TG distance, however, may depend on the internal/external (IE) rotation of the tibia in relation to the femur, which is typically not controlled for. Without knowledge of the variability in an individual’s TT-TG influenced by femorotibial rotation, the use of a specific TT-TG distance during pre-operative planning for patellar instability may lead to incorrect decisions on the use of tibial tubercle AMZ. We hypothesized that knee joint IE rotation is related to the TT-TG distance.

Methods

A total of 8 independent human cadaveric knee specimens (age: 32±6; 4 males, 4 females) were utilized. A robotic manipulator (ZX165U, Kawasaki Robotics, Wixom, MI, USA) instrumented with a universal force/moment sensor was used to determine knee joint internal/external (IE) rotation under applied moments of ±5Nm at full extension. Two independent reviewers selected the trochlear groove and tibial tuberosity points on CT images of each specimen to define TT-TG (ICC=0.969). To determine the influence of knee joint IE rotation on TT-TG, 3D models generated from CT scans were registered to tibiofemoral kinematics. Subsequently, linear regression was performed to determine the relationship between knee joint IE rotation and TT-TG. Regression coefficient and standard error of measurement (a=0.05), and coefficient of determination (r2) were reported.

Results

Knee joint IE rotation averaged 23.0 ± 4.2°. TT-TG changed by 12.1 ± 2.8 mm over this range. For every degree of knee joint IE rotation, TT-TG changed by 0.52 ± 0.07 mm (p<0.001 and r2>0.987). At neutral rotation, the TT-TG averaged 14.21 ± 5.0 mm.

Conclusion

TT-TG was highly dependent on knee joint IE rotation changing by 0.52 mm for every degree of knee joint IE rotation. Thus, an offset in IE rotation of 10° would lead to a change in TT-TG of 5.2 mm, enough to alter surgical decision making for or against tibial tubercle AMZ. Physicians should pay close attention to knee joint IE rotation when measuring TT-TG in their patients, specifically in patients found to have a TT-TG near 20 mm, a key indication for surgical treatment of patellar instability.


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