Osgood–Schlatter disease

Osgood-Schlatter condition
Classification and external resources

Lateral radiograph of the knee demonstrating fragmentation of the tibial tubercle with overlying soft tissue swelling.
ICD-10 M92.5
ICD-9 732.4
DiseasesDB 9299
MedlinePlus 001258
eMedicine emerg/347 orthoped/426 radio/491 sports/89

Osgood–Schlatter disease and or syndrome (also known as tibial tubercle apophyseal traction injury) is an irritation of the patellar tendon at the tibial tuberosity.[1]

Sinding–Larsen–Johansson syndrome is an analogous condition involving the patellar tendon and the lower margin of the patella bone, instead of the upper margin of the tibia.

The condition occurs in active boys and girls aged 9–16[2] coinciding with periods of growth spurts. It occurs more frequently in boys than in girls, with reports of a male-to-female ratio ranging from 3:1 to as high as 7:1. It has been suggested the difference is related to a greater participation by boys in sports and risk activities than by girls.

The condition is usually self-limiting and is caused by stress on the patellar tendon that attaches the quadriceps muscle at the front of the thigh to the tibial tuberosity. Following an adolescent growth spurt, repeated stress from contraction of the quadriceps is transmitted through the patellar tendon to the immature tibial tuberosity. This can cause multiple subacute avulsion fractures along with inflammation of the tendon, leading to excess bone growth in the tuberosity and producing a visible lump which can be very painful when hit.

The syndrome may develop without trauma or other apparent cause; however, some studies report up to 50% of patients relate a history of precipitating trauma.

In a retrospective study of adolescents, young athletes actively participating in sports showed a frequency of 21% reporting the syndrome compared with only 4.5% of age-matched nonathletic controls.[3] Intense knee pain is usually the presenting symptom that occurs during activities such as running, jumping, squatting, and especially ascending or descending stairs and during kneeling. The pain is worse with acute knee impact. The pain can be reproduced by extending the knee against resistance, stressing the quadriceps, or striking the knee. Pain is mild and intermittent initially. In the acute phase the pain is severe and continuous in nature. Impact of the affected area can be very painful. Bilateral symptoms are observed in 20–30% of patients.

The symptoms usually resolve with treatment but may recur for 12–24 months before complete resolution at skeletal maturity, when the tibial epiphysis fuses. In some cases the symptoms do not resolve until the patient is fully grown. In approximately 10% of patients the symptoms continue unabated into adulthood, despite all conservative measures.[4]

The condition is named after Robert Bayley Osgood and Carl B. Schlatter who described the condition independently in 1903.

Treatment

Diagnosis is made based on typical symptoms and physical examination findings. XRAY can also show calcification near the tibial turbiosity. (medical text was replaced with offensive language here; can anyone fill in the gap please) clinically,[5] and treatment is conservative with rest, RICE (Rest, Ice, Compression, and Elevation), and if required acetaminophen (paracetamol) or ibuprofen. The condition usually resolves in a few months, with a study of young athletes revealing a requirement of complete training cessation for 1 week (on average) and gradual resumption of full training by 1 months.[3]

Bracing or use of an orthopedic cast to enforce joint immobilization is rarely required and does not necessarily give quicker resolution. Sometimes, however, bracing may give comfort and help reduce pain as it reduces strain on the tibial tubercle.[6] Surgical excision may rarely be required in skeletally mature patients.[4] In chronic cases that are refractory to conservative treatment, surgical intervention yields good results, particularly for patients with bony or cartilaginous ossicles. Excision of these ossicles produces resolution of symptoms and return to activity in several weeks. [7] Removal of all loose intratendinous ossicles associated with prominent tibial tubercles is the procedure of choice, both from the functional and the cosmetic point of view. [8] According to one study, in the great majority of young adults, the functional outcome of surgical treatment of unresolved Osgood-Schlatter disease is excellent or good, the residual pain intensity is low, and postoperative complications or subsequent reoperations are rare. [9]

After symptoms have resolved, a gradual progression to the desired activity level may begin. In addition, predisposing factors should be evaluated and addressed. Commonly quadriceps and/or hamstring tightness is present and should be addressed with stretching exercise.

After being clinically diagnosed the patient should rest for at least 3 days and must try not to use the knee as hard for about 1–2 weeks without any physical activities. If the disease continues to a certain extent where the patient cannot move the joint then they should seek medical advice straight away as although this is very rare it can be severely limiting for the patient's sporting future if it does occur.

The Strickland Protocol has shown a positive response in patients with a mean return to sport in less than 3 weeks. Further research into the anatomical and biomechanical responses of this protocol are currently being undertaken by the authors. The study was presented at the European College of Sports Science - 13th Congress Proceedings Estoril,Portugal, July 9–12, 2008.[10][11]

Paul Scholes is a sportsman who has recovered from this condition.[12] The French tennis player, Gaël Monfils, wears patella bands in an attempt to combat the condition. [13] Liverpool Captain Steven Gerrard also suffered from the condition in his youth.

References

  1. ^ Nowinski RJ, Mehlman CT (1998). "Hyphenated history: Osgood-Schlatter disease". Am J. Orthop. 27 (8): 584–5. PMID 9732084. 
  2. ^ Yashar A, Loder RT, Hensinger RN (1995). "Determination of skeletal age in children with Osgood-Schlatter disease by using radiographs of the knee,". J Pediatr Orthop 15 (3): 298–301. PMID 7790482. 
  3. ^ a b Kujala UM, Kvist M, Heinonen O (1985). "Osgood-Schlatter's disease in adolescent athletes. Retrospective study of incidence and duration". Am J Sports Med 13 (4): 236–41. doi:10.1177/036354658501300404. PMID 4025675. 
  4. ^ a b Gholve PA, Scher DM, Khakharia S, Widmann RF, Green DW (2007). "Osgood Schlatter syndrome". Curr. Opin. Pediatr. 19 (1): 44–50. doi:10.1097/MOP.0b013e328013dbea. PMID 17224661. 
  5. ^ Cassas KJ, Cassettari-Wayhs A (2006). "Childhood and adolescent sports-related overuse injuries". Am Fam Physician 73 (6): 1014–22. PMID 16570735. 
  6. ^ Engel A, Windhager R (1987). "[Importance of the ossicle and therapy of Osgood-Schlatter disease]" (in German). Sportverletz Sportschaden 1 (2): 100–8. doi:10.1055/s-2007-993701. PMID 3508010. 
  7. ^ https://mospace.umsystem.edu/xmlui/bitstream/handle/10355/3208/WhatBestTreatmentOsgoodSchlatter.pdf?sequence=1
  8. ^ https://mospace.umsystem.edu/xmlui/bitstream/handle/10355/3208/WhatBestTreatmentOsgoodSchlatter.pdf?sequence=1
  9. ^ http://www.jbjs.org/article.aspx?Volume=91&page=2350
  10. ^ "Osgood-Schlatter’s Disease: An active approach using massage and stretching". Presentation at the European Congress of Sports Science Conference appendix1. 2008. 
  11. ^ Clinical study - Electronic Version ISSN 1536-7290
  12. ^ http://www.guardian.co.uk/football/2008/may/18/manchesterunited.championsleague1
  13. ^ http://www.skysports.com/story/0,19528,12110_5217335,00.html

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