Background. Anterior Cruciate Ligament Reconstruction is a commonly performed orthopaedic operation. The use of a four-strand semitendinosus and gracilis hamstring graft (STG) is a well established method of reconstruction to restore knee stability. Aim. To assess the ten year subjective knee function and activity level following STG anterior cruciate ligament reconstruction. Methods. 86 patients underwent anterior cruciate reconstruction by two knee surgeons in the year 1999. 80 patients meet the inclusion criteria of STG reconstruction by a standard operative technique. Patient evaluation was by completion of a Lysholm Knee Score and Tegner Activity Level Scale at a minimum of ten years from reconstructive surgery. This was by initial postal questionnaire and subsequent telephone follow-up. Results. 80 patients underwent anterior cruciate reconstruction with average age 30.9 years +/− 8.8 (15 to 58 years). There was a 77.5% (62 patients) response at ten years to the questionnaire. The mean Lysholm Knee Score at ten years was 78.4 +/− 12.8 (39 to 90). The mean activity level had decreased from 8.3 to 5.3 at ten years according to the Tegner Activity Scale. 11 patients required medial and lateral partial menisectomies at the time of original reconstruction. This group of patients had a Lysholm Knee Score of 67.6 +/− 19.1 and Tegner Activity Scale of 3.9 at ten years following reconstruction. 17 of the 80 patients (21.25%) required re-operation because of further knee symptoms, with 4 patients requiring revision of the anterior cruciate following re-rupture. Conclusion. Anterior Cruciate Ligament Reconstruction with four-strand STG hamstring graft provides a reliable method of restoring knee function with a 5% revision rate for re-rupture at ten years. Combined partial medial and lateral menisectomy at the time of the initial reconstruction is a poor prognostic indicator for function at ten years

Background. Injury to the ACL is a significant problem and can cause further damage to the internal structures of the knee. ACL injury is associated with injuries to other structures in the knee such as the meniscus and chondral cartilage. Such intra articular injuries pre-dispose the knee to develop arthritis. This injury is usually seen in young and active people usually related to sporting injuries. There is a paucity of literature on the influence of anthropometric features on the hamstring graft obtained in ACL reconstruction, although there are studies on the sex based differences affecting the hamstring graft. This study was undertaken to assess the influence of anthropometric measurements on the graft thickness obtained at ACL reconstruction surgery within the UK population. Objective. This study was undertaken to assess the influence of anthropometric measurements (body mass index (BMI), height and weight) on the graft thickness obtained at anterior cruciate ligament reconstruction surgery. Materials and methods. Data from 121 consecutive patients who had undergone ACL reconstruction by the same surgeon using quadrupled hamstring grafts were analysed. The body mass index, height and weight of these patients were correlated with the graft thickness obtained during surgery. Regression analysis was undertaken to assess the influence of individual anthropometric variables on the graft thickness. Results. Of the 121 patients there were 108 males and 13 females. Average age of the cohort was 32 years (14–55). There was a statistically significant positive correlation between the height and graft size (r=0.38, p < 0.01) as well as between the body weight and graft size (r=0.29, p < 0.01). However, when body mass index was calculated, the correlation was not statistically significant (r=0.08, p > 0.1). Regression analysis confirmed that BMI was not statistically significant as a predictor of hamstring graft diameter whereas height was statistically the most important predictor (F=20.1; p < 0.01) and yielded the predictive equation from regression analysis. Graft diameter=4.5 + 0.02 × Ht. (in cms) suggesting that people with height less than 125 cms (4′1″) are at greatest risk of a quadrupled graft size of less than 7 mm. Conclusion. Our findings suggest that although body mass index did not significantly correlate, individual anthropometric variables (height and weight) do influence the size of graft thickness in ACL reconstruction and give pre operative information. This may allow surgeons to plan for alternative graft options, if they could predict the possibility of inadequate graft size prior to ACL reconstruction surgery

Introduction. ACL reconstruction using hamstring tendons has gained general acceptance. However, it has been recommended to seek a tight fit of the tendon in the bone canal in order to provide circumferential contact and healing of the graft, and to prevent secondary tunnel widening. Recent findings show, that the graft dynamically adapts to pressure in the canal resulting in a potentially loose graft-bone contact. It was the goal of this study to understand the viscoelastic behaviour of hamstring grafts under pressure and to develop a new method for tendon pre-conditioning to reduce the graft volume before implantation, in order to reduce the necessary bone canal diameter to accommodate the same graft. Material and Methods. Flexor digitorum tendons of calf and extensor digitorum tendons of adult sheep were identified to be suitable as ACL grafts substitutes for human hamstring tendons in vitro. The effect of different compression forces on dimensions and weight of the grafts were determined. Further, different strain rates (1mm/min vs 10mm/min), compression methods (steady compression vs. creep) and different compression durations(1, 5, 10min) were tested to identify the most effective combination to reduce graft size by preserving its macroscopic structure. Results. The effect of compression on volume reduction (25% of initial volume) reached a plateau at 6000N. Both, steady compression and creeping were able to reduce dimensions of the graft, however, creeping was more effective. There was no difference in effect with different durations for compression (p>0.05) in both methods. With a strain rate of 1mm/min no macroscopic destruction was documented, however with 10mm/min some parts were ruptured. During all pressure tests, considerable amounts of liquid were pressed out from the tendons, and if the graft was submersed in saline solution overnight, the volume reduction was mostly reversible. Conclusion. Compression reduces the dimensions of the ACL graft reversibly, to the greatest part by squeezing out of interstitial water. It is reasonable to assume that this effect also occurs if tendons are under constant pressure in the body, such as at the bend where entering a bone tunnel or under the pressure of interference screws. This in vitro experiment suggests that preconditioning of a 8mm hamstring graft is achieved best by creeping compression with 6kN at a strain rate of 1mm/min. By using this technique, indeed a canal of approximately 10–15% less diameter (i.e. 7 instead of 8mm) may be drilled for the same tendon, resulting in a tight fit of the graft in the bone