Sports clinic Paris
Metro: Saint Marcel
Parking 6 rue test
The information provided on this website is provided by medical professionals: sports doctors, rheumatologists, functional rehabilitation doctors, orthopedic, clinical surgeons sport, podiatrist sports meeting within the group "chirurgiedusport.com"
Fractured clavicle External 1/3: What attitude?
Interest minimally invasive arthroscopic techniques
The clavicle fractures affects about 2% to 5% of all fractures in adults and 10% to 15% of the child. They follow a bimodal distribution in function of age. Young men under 30 years and those aged over 70 seem to be the most vulnerable age groups.
In adults, more than two thirds of these fractures occur in the middle third of the clavicle with a larger displacement potential for fractures of the medial and lateral 1/3.
Since its first description by Neer in 1963, the ideal management of the fracture of distal third of the clavicle remains a matter of debate. Traditionally, conservative treatment is the rule. Functional results of the surgically treated group were comparable to those treated functionally, which has led many authors to advocate a non-surgical approach to this initial fracture. But this type of treatment does not bring good results. Recent data suggest that some patients may be at high risk of consolidation, have a dysfunction of the shoulder girdle on malunion, or have chronic pain. However, despite sometimes higher nonunion rates of 22-44%, less than 15% of the patients required surgical treatment for the treatment of a nonunion. In theory, surgery might minimize long-term complications.
Even before these high rates of non consolidation and the difficulties of the secondary management of these fractures, other authors recommend early surgery. Edwards et al reported a series of 43 patients with Neer type II fractures of which 23 were treated surgically. Consolidation has occurred in all patients treated surgically, while the treated group presented a functionally rate of non consolidation of 30% and a rate of 45% of delayed. Therefore, the specific treatment of clavicle fractures should not be used widely but must be individualized according to the characteristics of the fracture and patient expectations.
If one focuses specifically fractures of distal third of the clavicle, they are less common than shaft fractures but can lead to poor functional results. Neer classified them into three types depending on the location of coracoclavicular ligaments compared to the fracture line.
Type I fractures are stable with coracoclavicular ligaments intact, attached to the medial fragment. Type II fractures are compared to medial ligaments. Craig and Rockwood added two subtypes in the initial classification: type IIA, where coroco-clavicular ligaments are attached to the lateral fragment, and IIB, with detachment of the conoid ligament lateral fragment. Type III fractures are stable intra-articular fractures.
These fractures, treatment for type IIB remains controversial. While other fractures can be treated conservatively, those type IIB are known to be unstable at risk of consolidation and malunion in cases of non-surgical treatment (> 20%), thus requiring often surgical treatment for optimal functional outcome.
Several surgical techniques with different fastening systems have been described. However, for most of the techniques have been reported complications such as rupture, relaxation or migration of the implant, infection, not consolidation, erosion of the clavicle or acromioclavicular osteoarthritis. Recent arthroscopic techniques using synthetic grafts showed a decrease surgical morbidity and reduced complication rate.
Conservative treatment is to immobilize the upper limb trauma with a summing device most often a simple scarf or sash / scarf against the patient is very painful. Conventional clavicular rings are poorly tolerated because based directly on the fracture most often. Downtime varies depending on the type of fracture and age of the patient. If stable fracture, 3 to 4 weeks of immobilization serious enough usually followed by a relative immobilization, consisting primarily of a use restriction of the injured limb (no heavy load port, no untimely mobilization ...) . In case of unstable fracture, if surgery is not possible, strict immobilization of six weeks is required with regular monitoring of the fracture.
The goal of treatment is to achieve bone healing while minimizing shoulder dysfunction, morbidity immobilization and aesthetic deformity. Because the majority of fractures of the lateral third of the clavicle are not moved or moved little and extra-articular, conservative treatment is usually the treatment of choice. Thereafter, rehabilitation for a satisfactory result for most patients. To protect the collarbone, it is recommended to avoid contact sports for at least 4 to 5 months. A special feature for children and adolescents. The physis of the lateral portion of the clavicle merges at the age of 25 years. Therefore, most lesions of the lateral end of the clavicle resulting from separation of the physis rather than a fracture because the acromioclavicular ligaments and coracoclavicular are biomechanically stronger than the snail. Due to the physeal injury, there is a great potential for healing and remodeling. The majority of these fractures can be treated by simple immobilization. Surgical indications are rare, if the fracture is displaced, if there is interposition of soft tissues through skin opening, or soft tissue pain in adolescents.
The indication of surgical treatment of the third lateral clavicle is based on the stability of clavicular segments compared to coracoclavicular ligaments (CC), the displacement of the fracture and the patient's age. The integrity of the CC ligaments plays a key role in ensuring the stability of the medial fragment. The displacement of the medial part of the cl
avicule is observed when the CC ligaments are damaged. It is established that this fracture configuration leads to rates of non consolidation of up to 28%. Some authors have confirmed that the risk of non consolidation increased with age and displacement. The presence of cutaneous suffering, polytrauma, and the floating shoulder are also surgical indications.
Many surgical techniques have been proposed to stabilize these fractures. These include the fixing transacromial by pins or the technique of pin-rigging, the coracoclavicular screws, locked or unlocked plates, hook plates, direct suture techniques or other synthetic grafts systems coraco clavicular which are also used during the reconstruction of the acromioclavicular joint. These techniques can be combined to enhance the main fixation. Some fixing means, in particular the plates and the pins are generally removed after 8-12 weeks when the fracture is consolidated radiographically and clinically cured patient. This avoids the acromial osteolysis or other complications caused by the hardware, pin migration, the stiffness of the shoulder girdle met in coracoclavicular fixings screws. No fastening techniques described has been recognized as a "gold standard", and each has its advantages and disadvantages. Some techniques have a high rate of complications, such as the pin migration rates that can reach up to 50%. The failure of this way of fixing has led several authors to recommend that it not be used as a fixation technique in first intention.
The choice of a fastening system may also depend on the characteristics of the fracture can be very distal or comminuted for example. This commits to master several techniques to suit the type of fracture met.
Conservative treatment of fractures of the lateral third of the clavicle provides good results in over 98% of cases for little or no displaced fractures. The rate of non consolidation is much higher for displaced fractures, Neer Type II and up to 33% if treatment is non-surgical.
The delay of surgery for fractures of the lateral third seems more important for the prognosis of patients compared with fractures of the middle third. The complication rate is higher when surgical treatment is delayed (7% vs 36%).
Fractures of the lateral third of the clavicle with intra-articular extension at increased risk of osteoarthritis of the acromioclavicular joint. If acromioclavicular arthritis occurs, the patient may require a modeling arthroplasty acromioclavicular joint secondarily.
Open surgical techniques
Consolidation rates reported in the literature of 94%. Although the setting seems improved, this technique is associated with complications, including fractures around the equipment (5%), the acromial wear and no consolidation (5%). In addition to these complications, it was recommended that the equipment be removed after the consolidation because of the acromial it causes abrasion, thus requiring the patient to undergo a second surgery.
Some series have reported the results of the top locking plates for unstable fractures of the distal third of the clavicle. This technique provides good results but complications have been described as non-consolidation, fracture around the implant, infection or iatrogenic acromioclavicular dislocation. Some teams combine this extra coracoclaviculaire plate mounting system to prevent lateral withdrawal of screws. This plate may require further intervention to effect its removal.
Arthroscopic surgical techniques
Recently, arthroscopic techniques have been used for surgical treatment of acromioclavicular dysjonctions but also in the treatment of these fractures of the lateral third of the clavicle. This technique uses synthetic grafts which are stretched between the clavicle and the coracoid process, and allow the fracture reduction and consolidation is open.Very encouraging results were published with these minimally invasive procedures. It is recognized by many authors that this technique reduces surgical morbidity and reduced the rate of complications. It is performed during a shoulder arthroscopy with 2 arthroscopic approaches, posterior to the anterior optic and an instrumental. A third approach is performed on the clavicle to introduce the fastening system. Some rare complications are described as transitional retractile capsulitis, secondary symptomatic acromioclavicular osteoarthritis and implant failure leading to non consolidation.
Some surgical techniques require a second surgery to remove the implant which is not the casesutures or synthetic grafts posed by the arthroscopic technique. On plates or intramedullary fixations, some authors recommended the removal of the implant systematically when bone healing was achieved.
The treatment of fractures of the lateral third of the clavicle is based on the precise analysis of the fracture line that defines the stability of the fracture. The indication is also based on the importance of initial displacement. In case of flat or slightly displaced fracture, conservative treatment provides excellent functional results, even in cases of nonunion often very well tolerated. Surgical treatment is recommended in case of unstable or displaced fracture andmust use a technique with low risk of complications with a high degree of consolidation. Minimally invasive arthroscopic techniques develop and become a preferred option in the treatment of fractures of the distal clavicle 1/3.
1. Neer CS. Fractures of the distal third of the clavicle. Clin. Orthop. Relat. Res. 1968 Jun; 58: 43-50.
2. Nordqvist A, Petersson C-Redlund Johnell I. The natural course of lateral clavicle fracture. 15 (11-21) year follow-up of 110 boxes. Acta Orthop Scand. 1993 Feb; 64 (1): 87-91.
3. Postacchini F, Gumina S, De Santis P, Albo F. Epidemiology of clavicle fractures. J Shoulder Elbow Surg. 2002 October; 11 (5): 452-6.
4. Stanley D, EA Trowbridge, SH Norris. The mechanism of clavicular fracture. A clinical and biomechanical analysis. . J Bone Joint Surg Br 1988 May; 70 (3): 461-4.
5. Rowe CR. An atlas of anatomy and treatment of midclavicular fractures. Clin. Orthop. Relat. Res. 1968 Jun; 58: 29-42.
6. Deafenbaugh MK, Dugdale TW, Staeheli JW, R. Nielsen nonoperative treatment of Neer Type II distal clavicle fractures: a prospective study. Contemp Orthop. 1990 Apr; 20 (4): 405-13.
7. Kona J Bosse MJ, Staeheli JW Rosseau RL. Type II distal clavicle fractures: a retrospective review of surgical treatment. J Orthop Trauma. 1990; 4 (2): 115-20.
8.Rokito AS, Zuckerman JD, Shaari JM, Eisenberg DP, Cuomo F, Gallagher MA. A comparison of nonoperative and operative treatment of Type II distal clavicle fractures. Bull Hosp Jt Dis. 2002 2003; 61 (1-2): 32-9.
9. Hill JM, McGuire MH, Crosby LA. Closed treatment of displaced middle-third fractures of the clavicle Gives poor results. J Bone Joint Surg Br 1997 Jul; 79 (4):. 537-9.
10. Nordqvist A, Petersson CJ, Redlund-Johnell I. Mid-clavicle fractures in adults: study end result after-conservative treatment. J Orthop Trauma. 1998 December; 12 (8): 572-6.
11. Nowak J, Holgersson M, Larsson S. Can we predict long-term sequelae after-fractures of the clavicle based on initial Findings? A prospective study with nine to ten years of follow-up. J Shoulder Elbow Surg. 2004 October; 13 (5): 479-86.
12. Robinson CM, Court-Brown CM, McQueen MM, Wakefield AE. Estimating the risk of nonunion Following nonoperative treatment of a clavicular fracture. J Bone Joint Surg Am 2004 Jul; 86-A (7). 1359-1365.
13. Zlowodzki M, Zelle BA, Cole PA, Jeray K, McKee MD, Evidence-Based Orthopaedic Trauma Working Group. Treatment of acute midshaft clavicle fractures: systematic review of 2144 fractures on behalf facility of the Evidence-Based Orthopaedic Trauma Working Group. J Orthop Trauma. 2005 Aug; 19 (7): 504-7.
14. Deafenbaugh MK, Dugdale TW, Staeheli JW, R. Nielsen nonoperative treatment of Neer Type II distal clavicle fractures: a prospective study. Contemp Orthop. 1990 Apr; 20 (4): 405-13.
15. Klein SM, Badman BL, CJ Keating, Devinney DS, Frankle MA, MA Mighell. Results of surgical treatment for unstable distal clavicular fractures. J Shoulder Elbow Surg. 2010 October; 19 (7): 1049-1055.
16. Edwards DJ, Kavanagh TG, Flannery MC. Fractures of the distal clavicle: a case for fixing. Injury. 1992; 23 (1): 44-6.
17. Robinson CM. Fractures of the clavicle in the adult. Epidemiology and classification. . J Bone Joint Surg Br 1998 May; 80 (3): 476-84.
18. Anderson K. Evaluation and treatment of distal clavicle fractures. Clin Sports Med. 2003 Apr; 22 (2): 319-326, vii.
19. Weber KL, Makimato A, Raymond AK, MG Pearson, Jaffe N. Ewing sarcoma of the clavicle in a 10-month-old patient. Med. Pediatr. Oncol. 2000 Jun; 34 (6): 445-7.
20. Ballmer FT, Gerber C. Coracoclavicular screw fixation for unstable distal clavicle fractures of the. A report of five cases. . J Bone Joint Surg Br 1991 March; 73 (2): 291-4.
21. Bhatia DN, Page RS. Surgical treatment of lateral clavicle fractures associated with full coracoclavicular ligament disruption: Clinico-radiological outcomes of acromioclavicular seal sparing and spanning implants. Int J Shoulder Surg. October 2012; 6 (4): 116-20.
22. JA Goldberg, Bruce WJ, Sonnabend DH, Walsh WR. Type 2 fractures of the distal clavicle: a new surgical technology. J Shoulder Elbow Surg. 1997 Aug; 6 (4): 380-2.
23. Martetschl├Ąger F, TM Kraus, Schiele CS, Sandmann G, S Siebenlist, Braun KF, et al. Treatment for unstable distal clavicle fractures (Neer 2) with locking T-plate and additional PDS cerclage. Knee Surg Sports Traumatol Arthrosc. 2013 May; 21 (5): 1189-1194.
24. Scadden JE, Richards R. Intramedullary fixation of Neer type 2 fractures of the distal clavicle with an AO / ASIF screw. Injury. 2005 October; 36 (10): 1172-5.
25. Lyons FA, Rockwood CA. Migration of pins used in operations on the shoulder. . J Bone Joint Surg Am 1990 September; 72 (8): 1262-7.
26. Usually JP, Pospiech J, Aalders TA, intraspinal Ruchholtz S. Kirschner wire migration of a 3 months after-clavicular fracture fixation. Neurosurg Rev. 2002 March; 25 (1-2): 110-2.
27. Sajid S, R Fawdington, Mr. Sinha Locking plates for displaced fractures of the lateral end of clavicle: Potential pitfalls. Int J Shoulder Surg. October 2012; 6 (4): 126-9.
28. Bishop JY, Flatow EL. Pediatric trauma shoulder. Clin. Orthop. Relat. Res. March 2005; (432): 41-8.
29. R Kubiak, T. Slongo Operative treatment of clavicle fractures in children: a review of 21 years. J Pediatr Orthop. 2002 December; 22 (6): 736-9.
thirty. van der Meijden OA, TR Gaskill, Millett PJ. Treatment of clavicle fractures: current concepts review. J Shoulder Elbow Surg. 2012 March; 21 (3): 423-9.
31. Flinkkil├Ą T Ristiniemi J, M Lakovaara, Hyv├Ânen P, Leppilahti J. Hook-plate fixation of unstable lateral clavicle fractures: a report on 63 patients. Acta Orthop. 2006 Aug; 77 (4): 644-9.
32.AA Faraj, Ketzer B. The use of a hook-flat in the management of acromioclavicular injuries. Report of ten cases. Acta Orthop Belg. 2001 December; 67 (5): 448-51.
33. Hessmann M, R Kirchner, Baumgaertel F, Gehling H, Gotzen L. Treatment of unstable distal clavicular fractures with and without lesions of the acromioclavicular joint. Injury. 1996 January; 27 (1): 47-52.
34. O. Levy simple, minimally invasive surgical for Treatment of Type 2 fractures of the distal clavicle. J Shoulder Elbow Surg. 2003 Feb; 12 (1): 24-8.
35. MC Webber, Haines JF. The treatment of lateral clavicle fractures. Injury. 2000 Apr; 31 (3): 175-9.
36. Bisbinas I Mikalef P Gigis I Beslikas T, Panou N, Christoforidis I. Management of distal clavicle fractures. Acta Orthop Belg. 2010 Apr; 76 (2): 145-9.
37. Nordqvist A, Petersson CJ, Redlund-Johnell I. Mid-clavicle fractures in adults: study end result after-conservative treatment. J Orthop Trauma. 1998 December; 12 (8): 572-6.
38. Potter JM, Jones C, Wild LM, Schemitsch EH, McKee MD. Does delay matter? The restoration of Objectively Measured shoulder strength and patient-oriented outcome after-fixing immediate versus delayed reconstruction of displaced midshaft fractures of the clavicle. J Shoulder Elbow Surg. 2007 October; 16 (5): 514-8.
39. Stegeman SA, Nacak H, Huvenaars KHJ, Stijnen T, P Krijnen, IB Schipper. Surgical treatment of Neer Type-II fractures of the distal clavicle: a meta-analysis. Acta Orthop. 2013 Apr; 84 (2): 184-90.
40. Othman A. Internal fixation of lateral clavicle fractures with Vicryl tape. Eur J Orthop Surg Traumatol. 2002 January; 12 (3): 129-31.
41. Badhe SP, Lawrence TM, Clark DI. Suturing tension band for the treatment of type 2 displaced lateral clavicle fractures end. Arch Orthop Trauma Surg. January 2007; 127 (1): 25-8.
42.Kalamaras M, K Cutbush, Mr. Robinson A method for internal fixation of distal clavicle fractures unstable: early observations using a new technology. J Shoulder Elbow Surg. 2008 Feb; 17 (1): 60-2.
43. Shin SJ, Roh KJ, Kim Olympics, Sohn HS. Treatment of unstable distal clavicle fractures using two suture anchors and suture tension bands. Injury. 2009 December; 40 (12): 1308-1312.
44. Fann CY, FY Chiu Chuang TY, Chen CM, Chen TH. Transacromial Knowles pin in the treatment of distal clavicle Neer type 2 fracturesA prospective assessment of 32 boxes. J Trauma. 2004 May; 56 (5): 1102-1105; 1105-1106 discussion.
45.Kashii M, Inui H, Yamamoto K. Surgical treatment of distal clavicle fractures using the clavicular hook plate. Clin. Orthop. Relat. Res. 2006 Jun; 447: 158-64.
46. Fazal MA, Saksena J, Haddad FS. Temporary coracoclavicular screw fixation for displaced distal clavicle fractures. J Orthop Surg (Hong Kong). 2007 Apr; 15 (1): 9-11.
47. Wang SJ, Wong CS. Extra-articular Knowles pin fixation for unstable distal clavicle fractures. J Trauma. 2008 Jun; 64 (6): 1522-7.
48. Renger RJ, Roukema GR, JC Reurings, Raams PM, Font J, Verleisdonk EJMM. The clavicle hook plate for Neer type II lateral clavicle fractures. J Orthop Trauma. 2009 Sep; 23 (8): 570-4.
49. Jou IM, Chiang EP, Lin CJ, CL Lin, Wang PH, Su WR. Treatment of unstable distal clavicle fractures with Knowles pin. J Shoulder Elbow Surg. 2011 Apr; 20 (3): 414-9.
50. Meda PVK, Machani B, C Sinopidis, Braithwaite I, Brownson P, Frostick SP. Clavicular hook plate for lateral end fractures - a prospective study. Injury. 2006 March; 37 (3): 277-83.
51. Muramatsu K, Shigetomi M, Matsunaga T, Murata Y, Taguchi T. Use of the AO hook-plate for Treatment of unstable distal clavicle fractures of the. Arch Orthop Trauma Surg. 2007 Apr; 127 (3): 191-4.
52. Kaipel M, M Majewski, Regazzoni P. Double-plate fixation in lateral clavicle fractures-a new strategy. J Trauma. 2010 October; 69 (4): 896-900.
53. Lee SK, Lee JW, Song DG, Choy WS. Precontoured locking plate fixation for displaced lateral clavicle fractures. Orthopedics. 2013 Jun; 36 (6): 801-7.
54. Brouwer KM, Wright TC, Ring DC. Failure of superior locking clavicle plate by axial pull-out of the lateral screws: a report of four cases. J Shoulder Elbow Surg. 2009 Feb; 18 (1): e22-25.
55. Hohmann E, Hansen T, Tetsworth K. Treatment of Neer type II fractures of the lateral clavicle distal radius using locking plates combined with TightRope increase of the coracoid-clavicular ligaments. Arch Orthop Trauma Surg. 2012 Oct; 132 (10): 1415-1421.
56. Schliemann B Ro├členbroich SB, KN Schneider, W Petersen, Raschke MJ, Weimann A. Surgical treatment of Vertically unstable lateral clavicle fractures (Neer 2b) with locked plate fixation and coracoclavicular ligament reconstruction. Arch Orthop Trauma Surg. 2013 Jul; 133 (7): 935-9.
57. Macheras G, Kateros KT, Savvidou OD, Sofianos J, Fawzy EA, Papagelopoulos PJ. Coracoclavicular screw fixation for unstable distal clavicle fractures. Orthopedics. 2005 Jul; 28 (7): 693-6.
58. FC Kao Chao EK, CH Chen, Yu SW, Chen CY, CY Yen. Treatment of distal clavicle fracture using Kirschner wires and tension band wires. J Trauma. 2001 September; 51 (3): 522-5.
59. Checchia SL Doneux PS, Miyazaki AN, Fregoneze M, Silva LA. Treatment of distal clavicle fractures using an arthroscopic technique. J Shoulder Elbow Surg. 2008 Jun; 17 (3): 395-8.
60. Nourissat G, C Kakuda, Dumontier C, Sautet A, Doursounian L. Arthroscopic stabilization of Neer type 2 fractures of the distal portion of the clavicle. Arthroscopy. 2007 Jun; 23 (6): 674.e1-4.
61. Pandya NK, Namdari S, Hosalkar HS. Displaced clavicle fractures in adolescents: facts, controversies, and current trends. J Am Acad Orthop Surg. 2012 Aug; 20 (8): 498-505.
62. Pujol N, P Desmoineaux, Boisrenoult P Beaufils P. Arthroscopic treatment of distal clavicle fractures comminuted (Latarjet fractures) using 2 dual-button devices. Arthrosc Tech. 2013 Feb; 2 (1): e61-63.
63. Takase K, R Kono, K. Yamamoto Arthroscopic stabilization for Neer type 2 fractures of the distal clavicle fracture. Arch Orthop Trauma Surg. 2012 March; 132 (3): 399-403.
64. Loriaut P, Moreau EP Dallaudi├Ęre B Pelissier A Vu HD, Massin P, et al. Outcome of arthroscopic treatment for displaced lateral clavicle fractures using a double-button device. Knee Surg Sports Traumatol Arthrosc. 12 November 2013;
65.Oh JH, Kim SH, Lee JH, Shin HS HS Gong. Treatment of distal clavicle fracture: a systematic review of treatment Modalities in 425 fractures. Arch Orthop Trauma Surg. 2011 Apr; 131 (4): 525-33.
This technique of reconstruction of the anterior cruciate ligament plasty involving extra and intra-articular fascia lata was described by Hey-Groves in 1917, modified in 1972 and MacIntosh Jaeger recently. This reconstruction is a technique increasingly practiced for controlling the tibial rotation and rotational jump experienced by the patient and the surgeon objectified by clinical examination.
This lateral grafting used in this technique is called the fascia lata is a transplant with high resistance comparable to other biomechanical transplants used. The fascia lata retains its tibial insertion, which is a natural attachment system and therefore superior to any other system used. This technique has the advantages of not having to levy tendon and therefore the hope of postoperative muscle recovery and normalization of the fastest isokinetic tests.
The coracoid bone block screwed in front of the glenoid realized today either open or arthroscopically.
The advantages of arthroscopic abutment technique are:
- Take stock of the damage to the joint, bead, cartilage, loss of bone substance, tendon injuries
- The precise positioning of the stop because under direct control by the camera,
- Of smaller sizes scars,
- The treatment of lesions as lesions of the biceps (SLAP lesion) or lesions of the rotator cuff (tendon rupture) that can be treated in the same operation
- Early functional recovery
Latarjet arthroscopic intervention
The procedure is most often performed under general anesthesia with an inter-scalene block made ??preoperatively by the anesthetist. It involves taking a bone block of about 2 cm at the expense of the coracoid and place it in the anterior and inferior part of the glenoid cavity, passing through the subscapularis muscle. The coracoid can be positioned upright and secured by a screw according to Bristow or lying and fixed by two screws according Latarjet. (read more..)
The shoulder dislocations and recurrent anterior instability is a common problem among young athletes making up 90% of shoulder dislocations. Surgical indication can be provided in these cases of glenohumeral dislocations previous recurrent, but also in cases of painful and unstable shoulders. A question now arises, should we offer it immediately after the first dislocation or should we expect one or more recurrences? (Read more ...)
Patient, 58, sporting good level with chronic tendinitis of the Achilles tendon of the left.
chronic Achilles tendon pain lasting for more than a year after a triathlon.
The patient has received medical treatment (necessary before any surgical decision): rehabilitation, Stanish stretching, shock wave, orthopedic soles. (read more...)
While muscle injuries of the posterior region of the thigh are common in athletes, the proximal hamstring rupture is a rare disease. A study published in 2003  analyzed in a consecutive series of 170 patients, 179 trauma hamstrings occurred over a period of 3 years. MRI and / or ultrasound showed that only 12% of the injuries were fractures of the proximal and 9% complete ruptures. It is also little known, the first cases described in the literature from 1988 . Clinically the patients describe a violent pain in the buttock (stab printing) followed by leg weakness. ( To be continued..)