Abstracts

Introduction

Reconstruction of the anterior cruciate ligament is the principal surgical procedure performed in sports medicine.¹1. Stapleton T. Complications in anterior cruciate ligament reconstructions with patellar tendon grafts. Sports Med Arthrosc Rev. 1997;5:156-62. The arthroscopic technique used for reconstructions of the anterior cruciate ligament presents satisfactory results with regard to stability, which allows patients to return to sports practise.²2. Bach BR, Jones GT, Sweet FA, Hager CA. Arthroscopy-assisted anterior cruciate ligament reconstruction using patellar tendon substitution. Two- to four- year follow-up results. Am J Sports Med. 1994;22:758-67. ^{, 3}3. Buss DD, Warren RF, Wickiewicz TL, Galinat BJ, Panariello R. Arthroscopically assisted reconstruction of the anterior cruciate ligament with use of autogenous patellar- ligament grafts. Results after twenty-four to forty-two months. J Bone Joint Surg Am. 1993;75:1346-55.

Semitendinosus and gracilis tendons (knee flexors) are currently the main source of grafts for intra and extra-articular ligament reconstruction.⁴4. Tuncay I, Kucuker H, Uzun I, Karalezli N. The fascial band from semitendinosus to gastrocnemius: the critical point of hamstring harvesting: an anatomical study of 23 cadavers. Acta Orthop. 2007;78:361-3. Among the advantages of using this graft is the fact that it is autologous, gives rise to less morbidity at the donor site, preserves the integrity of the knee extensor and has a lower rate of anterior knee pain.⁴4. Tuncay I, Kucuker H, Uzun I, Karalezli N. The fascial band from semitendinosus to gastrocnemius: the critical point of hamstring harvesting: an anatomical study of 23 cadavers. Acta Orthop. 2007;78:361-3. ^{, 5}5. Papastergiou SG, Voulgaropoulos H, Mikalef P, Ziogas E, Pappis G, Giannakopoulos I. Injuries to the infrapatellar branch(es) of the saphenous nerve in anterior cruciate ligament reconstruction with four- strand hamstring tendon autograft: vertical versus horizontal incision for harvest. Knee Surg Sports Traumatol Arthrosc. 2006;14:789-93.

Lack of knowledge of the anatomy of the insertions of the flexor tendons may lead to technical problems during har-vesting, such as injury to the saphenous nerve and technical difficulty in harvesting because the incision was made in an inappropriate location.⁴4. Tuncay I, Kucuker H, Uzun I, Karalezli N. The fascial band from semitendinosus to gastrocnemius: the critical point of hamstring harvesting: an anatomical study of 23 cadavers. Acta Orthop. 2007;78:361-3. ^{, 6}6. Bertram C, Porsch M, Hackenbroch MH, Terhaag D. Saphenous neuralgia after arthroscopically assisted anterior cruciate ligament reconstruction with a semitendinosus and gracilis tendon graft. Arthroscopy. 2000;16:763-6. It is not uncommon for the flexor tendons to be lost, with a consequent need to harvest another graft from a second donor site.⁶6. Bertram C, Porsch M, Hackenbroch MH, Terhaag D. Saphenous neuralgia after arthroscopically assisted anterior cruciate ligament reconstruction with a semitendinosus and gracilis tendon graft. Arthroscopy. 2000;16:763-6. ^{, 7}7. Ferrari JD, Ferrari DA. The semitendinosus: anatomic considerations in tendon harvesting. Orthop Rev. 1991;20:1085-8. There is a shortage of articles in the literature relating to applied anatomy of the knee flexor tendons.

The aim of this study was to determine anatomical parameters for locating the insertions of the knee flexor tendons in the tibia.

Materials and methods

This study was conducted in the Department of Anatomy of the Biological Sciences Sector of UFPR, during April and May 2011. The inclusion criteria were that the material should be knees from cadavers with intact medial and anterior structures. Ten knees from cadavers that fulfilled these criteria were dissected. All of these were conserved in formol. An anteromedial access was used, with dissection in layers until obtaining a complete view of the tibial plateau and the insertion of the knee flexor tendons.

The distance from the tibial plateau to the insertion of the knee flexor tendons was measured 15 mm from the medial border of the patellar tendon. The horizontal distance from the anterior tibial tuberosity to the insertion of the knee flexor tendons was also measured (Fig. 1).

The qualitative nature of this specific region of the flexor tendons was also observed.

The points were previously marked out using 40 × 12 needle and were measured with the aid of digital calipers (Aero Space - 150 mm).

The angle formed between the tibial plateau and the insertion of the knee flexor tendons was also measured with the aid of the ImagePro Plus^(r) software 4.5 for Windows (Media Cybernetics, Inc., USA).

Results

The mean distance between the insertion of the flexor tendons and the tibial plateau, measured 15 mm from the medial border of the patellar tendon (TP-FT), was 41 ± 4.6 mm. The mean distance from the insertion of the flexor tendons to the anterior tibial tuberosity (ATT-FT) was 6.88 ± 1 mm. The mean angle between the insertion of the flexor tendons and the tibial plateau (TP-FT angle) was 20.3 ± 4.9° (Table 1).

It was observed that the gracilis and semitendinosus tendons were covered with a thin fibrotic cap formed by the tendon of the sartorius muscle, which has a broad insertion (Fig. 1). Its tendon is shorter and thinner than the other flexors.

The semitendinosus tendon was the thickest and longest of the tendons analyzed. The insertions of the semitendinosus and gracilis were in the same dissection layer and were more restricted than the insertion of the sartorius.

Discussion

Grafts from tendon flexors are commonly used for ligament reconstructions.⁸8. Yu J- kuo, Paessler HH. Relationship between tunnel widening and different rehabilitation procedures after anterior cruciate ligament reconstruction with quadrupled hamstring tendons. Chin Med J. 2005;118:320-6. Knowledge of the anatomy of the insertions of these tendons is important for ensuring that the harvesting process is precise and safe.

Incision at the correct location is the first step toward success in this procedure. One common mistake is to make the incision too proximally, which creates difficulty in finding the flexor tendons. In such cases, greater wounding of soft tissues is necessary in order to harvest the tendon. The parameter of 40 mm from the tibial plateau may help the surgeon to make the incision in the appropriate location.

The incision to harvest the flexor tendon may be transverse, vertical or oblique. Oblique and transverse incisions facilitate releasing the tendon from deep bindings. Sometimes the tendon is palpable and the incision can be made by following its upper edge. In obese patients, the tendon cannot be palpated. In order to make an oblique incision that follows along the tendon, the parameter of 20° can be used.

With a more precise incision, the soft-tissue injury is lessened. This leads to a less painful postoperative period. The anatomical parameters of the insertions of the knee flexion tendons help in the precision of the procedure. It is important to emphasize that making a precise incision with a low degree of soft-tissue injury does not signify a small incision. The incision needs to be of a size that makes it comfortable to perform the procedure. Incisions that are too small may cause skin lacerations through pulling the skin back or through losing the tendon because of difficulty in viewing the structures. The size of the incision diminishes naturally with the number of procedures that the surgeon performs. This learning curve should not be artificially altered.

The anatomy of the insertions of the knee flexor tendons has been described in some important orthopedic textbooks in the following order from proximal to distal: sartorius, gracilis and semitendinosus.⁹9. Hoppenfeld S. Physical examination of the spine and extremities [Internet] Hardcover; 1976. Available from http://www.amazon.com/Physical-Examination-Extremities-Stanley-Hoppenfeld/dp/0838578535 [cited 2012 Feb 27].
Available from http... Although it is correct to teach this in this manner, it may lead to confusion with regard to surgical anatomy because the tendon of the sartorius is not in the same dissection layer as the other two tendons. It is shorter and more superficial, and its insertion is broader. The tendon of the sartorius covers the tendons of the gracilis and semitendinosus, which are just below, with insertions that are much more restricted (Fig. 1). Better surgical comprehension of the anatomical images can be achieved through using 3D images.¹⁰10. Astur DC, Oliveira SG, Badra R, Arliani GG, Kaleka CC, Jalikjian W, et al. Atualização da anatomia do mecanismo extensor do joelho com uso de técnica de visualização tridimensional. Rev Bras Ortop. 2011;46:490-4. This type of technology can place the teaching material studied closer to the reality of surgical procedures.

Conclusion

The flexor tendons are inserted on average 40 mm distally to the tibial plateau and 7 mm medially to the anterior tibial tuberosity.

The insertion of the knee flexor tendons is oblique and is at an angle of 20° in relation to the tibial plateau.

The sartorius is more superficial and broader than the other tendons and is not in the same dissection layer.

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