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1.
Chinese Journal of Radiology ; (12): 579-582, 2019.
Artigo em Chinês | WPRIM | ID: wpr-754955

RESUMO

Objective To evaluate the imaging features of MRI of tennis legs and to explore the pathogenesis of tennis legs. Methods A retrospective analysis was made on the MRI images of 38 patients with tennis legs which met the criteria and were clinically diagnosed in our hospital from May 2014 to June 2018. All patients underwent non?enhanced MRI. Coronal T1WI、T2WI fast spin echo (TSE) and transverse proton density weighted imaging (PDWI) were performed. The signs of fluid collection between gastrocnemius muscle (GM) and soleus muscle (SM),muscle and tendon injuries, superficial vein dilatation of calf were observed and recorded. Results Coronal T1WI, T2WI TSE and transverse PDWI sequences showed 30 (75.0%) places fluid collection (hematoma or effusion) between medial head of the gastrocnemius muscle (MCM) and SM, 11 (27.5%) places fluid collection (hematoma or effusion) between lateral head of gastrocnemius muscle(LGM)and SM,7 (17.5%) places fluid collection (hematoma or effusion) in MGM and 2 (5.0%) placesin SM. There were 17 (42.5%) places that hematoma or effusion spread around the fascia of the lower leg. The diameter and thickness of hematoma or effusion are about 1.7-22.3 cm and 0.2-3.5 cm, respectively. Rupture of the GM was seen in 37 (92.5%) places,including 37 places rupture of the MGM at the myotendinous junction, 15 places rupture of the LGM at the myotendinous junction, 24 places tendonrupture of MGM,3 places tendon rupture of MGM and LGM,and 2 places tendon rupture of LGM. The maximum diameter of tendon rupture was 1.2-27.0 mm. The muscle rupture of MGM was seen in one place, and muscle rupture of MGM and LGM was seen in one place at the same time. Rupture of the SM was seen in 15 (37.5%) places, including 15 places rupture of the SM at the myotendinous junction, 2 places muscle rupture of SM, 6 places tendonrupture of SM. The maximum diameter of tendon rupture was 2.5-14.9 mm. Rupture of plantaris tendon (PT) was seen in 4 (10.0%) places. Superficial vein dilatation was seen in 3 (7.5%) places. Conclusion This study shows that the rupture of the MGM at the myotendinous junction and the tendon is the main responsibility of tennis leg.

2.
Artigo em Chinês | WPRIM | ID: wpr-562284

RESUMO

Objective To provide the biomechanical basis of plantaris tendon for clinical autotransplantation. Methods Fifteen plantaris tendons from 8 fresh adult cadavers were cut into 56 segments with about 6 cm lengths in each. The segments were divided into 3 groups: upper,middle,and lower segments. Fifty segments were taken for the tensile test,while the other six segments were loaded under 30 MPa,40 MPa,and 50 MPa respectively. The histologic structure of the tendons was observed under the microscope after presumptive load. Results The average limit load,tensile strength and elastic modulus of the plantaris tendon were (83.19?42.52) N,(60.32?21.80) MPa,and (714.83?285.44) MPa respectively. The tensile strength of the lower segments was significant higher than the upper and middle segments. Conclusion The biomechanical property of the plantaris tendon is accommodative for autografting.

3.
Artigo em Coreano | WPRIM | ID: wpr-768374

RESUMO

A major problem in the repair of the torn Achilles tendon has been providing the restoration of the anatomic continuity such that virtually normal plantar flexion power and ankle mobility result. Continuity should be restored without subsequent pain, disconfiguration, occupational limitations. If possible, postoperative complications, or tendon-rerupture should be avoided. Surgeons have long advocated the use of strips of facia and other tissues, including the plantaris tendon, to reinforce the repair of the torn Achilles tendon, The repair effected by these methods not infrequently is bulky and not too secure. Non-absorbable suture materials utilizing in the end to end anastomosis of the torn Achilles tendon cause sinus formation and discharge of suture materials. A secure method of repair for the tom Achilles tendon, which decreases sinus formation and is not bulky, should be required. The plantaris tendon, which has been used as a reinforcing material, can be utilized in the end-to-end anastomosis of the torn Achilles tendon by detaching from the muculotendinous junction. The 11 patients with the torn Achilles tendon were treated by end-to-end anastomosis using the plantaris tendon as suture material. The postoperative results were staisfactory without significant functional deficit and complication.


Assuntos
Humanos , Tendão do Calcâneo , Tornozelo , Métodos , Complicações Pós-Operatórias , Cirurgiões , Suturas , Tendões
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