Medial collateral ligament

The medial collateral ligament (MCL), or tibial collateral ligament (TCL), is one of the four major ligaments of the knee. It is on the medial (inner) side of the knee joint in humans and other primates. Its primary function is to resist outward turning forces on the knee.

Medial collateral ligament
Diagram of the right knee. (Medial collateral ligament labeled at center right.)
Details
Frommedial epicondyle of the femur
Tomedial condyle of tibia
Identifiers
LatinLigamentum collaterale tibiale
MeSHD017888
TAA03.6.08.012
FMA44600
Anatomical terminology

Structure

It is a broad, flat, membranous band, situated slightly posterior on the medial side of the knee joint. It is attached proximally to the medial epicondyle of the femur immediately below the adductor tubercle; below to the medial condyle of the tibia and medial surface of its body. It resists forces that would push the knee medially, which would otherwise produce valgus deformity.

The fibers of the posterior part of the ligament are short and incline backward as they descend; they are inserted into the tibia above the groove for the semimembranosus muscle.

The anterior part of the ligament is a flattened band, about 10 centimeters long, which inclines forward as it descends.

It is inserted into the medial surface of the body of the tibia about 2.5 centimeters below the level of the condyle.

Crossing on top of the lower part of the MCL is the pes anserinus, the joined tendons of the sartorius, gracilis, and semitendinosus muscles; a bursa is interposed between the two.

The MCL's deep surface covers the inferior medial genicular vessels and nerve and the anterior portion of the tendon of the semimembranosus muscle, with which it is connected by a few fibers; it is intimately adherent to the medial meniscus.

Development

Embryologically and phylogenically, the ligament represents the distal portion of the tendon of adductor magnus muscle. In lower animals, adductor magnus inserts into the tibia. Because of this, the ligament occasionally contains muscle fibres. This is an atavistic variation.

Clinical significance

Injury

An MCL injury can be very painful and is caused by a valgus stress to a slightly bent knee, often when landing, bending or on high impact. It may be difficult to apply pressure on the injured leg for at least a few days.

The most common knee structure damaged in skiing is the medial collateral ligament, although the carve turn has diminished the incidence somewhat.[1] MCL strains and tears are also fairly common in American football. The center and the guards are the most common victims of this type of injury due to the grip trend on their cleats, although sometimes it can be caused by a helmet striking the knee. The number of football players who get this injury has increased in recent years. Companies are currently trying to develop better cleats that will prevent the injury. MCL is also crucially affected in breaststroke and many professional swimmers suffer from chronic MCL pains.

There are three distinct levels in a MCL injury. Grade 1 is a minor sprain, grade 2 in a major sprain or a minor tear, and grade 3 is a major tear. Based on the grade of the injury treatment options will vary. [2]

Treatment

Depending on the grade of the injury, the lowest grade (grade 1) can take between 2 and 10 weeks for the injury to fully heal. Recovery times for grades 2 and 3 can take several weeks to several months.

Treatment of a partial tear or stretch injury is usually conservative. Sports medicine therapists should be a first choice option for diagnosis and treatment of injuries to this structure. This includes measures to control inflammation as well as bracing. Kannus has shown good clinical results with conservative care of grade II sprains, but poor results in grade III sprains.[3] As a result, more severe grade III and IV injuries to the MCL that lead to ongoing instability may require arthroscopic surgery. However, the medical literature considers surgery for most MCL injuries to be controversial.[4] Isolated MCL sprains are common.

For higher grade tears of the MCL with ongoing instability, the MCL can be sutured or replaced. Other non-surgical approaches for more severe MCL injuries may include prolotherapy, which has been shown by Reeves in a small RCT to reduce translation on KT-1000 arthrometer versus placebo.[5] The future of non-surgical care for a non-healing MCL injury with laxity (partial ligament tear) is likely bioengineering. Fan et al. (2008) have demonstrated that knee ligament reconstruction is possible using mesenchymal stem cells and a silk scaffold.[6]

Additional images

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See also

References

  1. "KNEE INJURIES". www.ski-injury.com. Archived from the original on October 16, 2013. Retrieved October 13, 2013.
  2. "Medial Collateral Ligament Injury Grading". Radiopaedia.org.
  3. Kannus, P (1988). "Long-term results of conservatively treated medial collateral ligament injuries of the knee joint". Clinical Orthopaedics and Related Research (226): 103–12. doi:10.1097/00003086-198801000-00015. PMID 3335084.
  4. Indelicato, P. A. (1995). "Isolated Medial Collateral Ligament Injuries in the Knee". The Journal of the American Academy of Orthopaedic Surgeons. 3 (1): 9–14. doi:10.5435/00124635-199501000-00002. PMID 10790648.
  5. Reeves, K. D.; Hassanein, K (2000). "Randomized prospective double-blind placebo-controlled study of dextrose prolotherapy for knee osteoarthritis with or without ACL laxity". Alternative Therapies in Health and Medicine. 6 (2): 68–74, 77–80. PMID 10710805. Results should be contrasted with meta-analysis such as the one by Rabago et al: Rabago, D; Best, T. M.; Beamsley, M; Patterson, J (2005). "A systematic review of prolotherapy for chronic musculoskeletal pain". Clinical Journal of Sport Medicine. 15 (5): 376–80. doi:10.1097/01.jsm.0000173268.05318.a4. PMID 16162983. Lay summary PubMed Health (April 30, 2007).
  6. Fan, Hongbin; Liu, Haifeng; Wong, Eugene J.W.; Toh, Siew L.; Goh, James C.H. (2008). "In vivo study of anterior cruciate ligament regeneration using mesenchymal stem cells and silk scaffold". Biomaterials. 29 (23): 3324–37. doi:10.1016/j.biomaterials.2008.04.012. PMID 18462787.
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