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Orthopaedic Proceedings
Vol. 92-B, Issue SUPP_I | Pages 37 - 37
1 Mar 2010
Wotherspoon SDM Willits KR Doherty TJ
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Purpose: The purpose of this study is to investigate the relationships of traction force, traction time, and hip distraction to the development of nerve conduction abnormalities during hip arthroscopy.

Method: Thirteen patients with hip pathology underwent hip arthroscopy. Traction forces applied to the operative leg were measured using a load-cell force transducer. Distraction of the hip joint was assessed using fluoroscopy. Nerve conduction studies of the tibial nerve was performed measuring the latency of the Hoffmann reflex (Hlat reflex). Measurements of the traction force, distraction of the hip, and nerve conduction studies were performed at routine intervals during the procedure, and compared to pre- and post-op values.

Results: Nerve Conduction Studies- The mean baseline Hlat reflex was 30.4+/−2.2 milliseconds for all patients. Three patients lost the Hlat reflex immediately (t=0), and an additional three patients lost the Hlat reflex during the procedure (t=30, t=30, t=60). The remaining seven patients all had delayed conduction of the Hlat reflex over time. At one-hour post-op, the Hlat reflex was documented in all patients (mean 31.9+/−2.9 ms) and remained significantly different from baseline (p< 0.01). Clinically, one patient in the lost Hlat reflex group had an associated neuropraxia post-operatively. Traction Forces- The mean initial traction force at time of application for all patients was 97+/−28 lbs. The mean initial traction force of the lost Hlat reflex group and retained Hlat reflex group was 104+/−32.6 lbs and 91+/−24.1 lbs, respectively (p=0.44). Hip Distraction- The mean initial hip distraction at time of application of traction for all patients was 8.8+/−2 mm. The mean initial distraction of the lost Hlat reflex group and retained Hlat reflex group was 9.6+/−1.4 mm and 8+/−2.2 mm, respectively (p=0.15).

Conclusion: Traction during hip arthroscopy is associated with significant nerve conduction abnormalities in the immediate post-operative period. Six of thirteen patients had complete loss of the Hlat reflex of the tibial nerve, one of these patients exhibiting clinical neuropraxia. Although length of time in traction may be a factor for the development of nerve conduction abnormalities, a more significant factor may be the change in length over time of the surrounding peripheral nerves.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_II | Pages 241 - 241
1 May 2009
Wotherspoon SDM Giffin JR Fowler PJ Litchfield RB Neligan M Willits KR
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The purpose of our study is to determine if hamstring autograft size can be predicted preoperatively. We will define a relationship between patient body size (BMI, height, and weight) and harvested graft size, as well as define a relationship between the preoperative MRI cross-sectional area (CSA) of hamstring tendons and harvested graft size. This information will be useful as a tool for preoperative planning in graft choice selection.

The pre-operative MRIs of one hundred and four patients (62M, 42F) who underwent ACL reconstruction using hamstring autografts were analyzed. Cross-sectional area (CSA) of the ST and G was measured on a single axial MRI image at the level of the knee joint. Combined CSA of both tendons was then compared to the diameter of the four-strand hamstring autograft measured intra-operatively. Patient BMI, height and weight was also compared to intraoperative hamstring autograft size. Linear regression analysis was then performed to define the relationship and predictive value of body size on graft diameter.

Mean graft size was 7.4mm (range 6 – 9). Average graft size for men and women, 7.6mm and 7.1mm, respectively. Predicting graft size from BMI: r= 0.29, R2= 0.08. Predicting graft size from height: r= 0.52, R2= 0.27. Predicting graft size from weight: r= 0.5, R2= 0.25. On preoperative MRI, the mean CSA of ST and G was 9.8mm2 (range 5.4 – 17.7) and 4.5mm2 (range 1.8 – 9.4) respectively, with a total CSA of 14.3mm2 (range 8.4 – 25). If the total CSA was greater than 12mm2, a graft of 7.0mm or greater could be predicted 93% of the time, with sensitivity and specificity, 78% and 76%, respectively, and a LR of 3.25.

Body size is a poor predictor of hamstring graft size in ACL reconstruction, and therefore a large patient does not always provide a large graft from harvested hamstring tendons. MRI assessment of hamstring tendons can be a useful tool for preoperative planning, providing a strong predictive value of graft size from a simple calculation.