The effect of a pneumatic leg brace on return to play in athletes with tibial stress fractures. Swenson EJ, DeHaven KE, Sebastianelli WJ, Hanks G, Kalenak A, Lynch JM. Identification of tibial stress fractures using therapeutic continuous ultrasound. Romani WA, Perrin DH, Dussault RG, Ball DW, Kahler DM. Comparison of ultrasound examination with bone scintiscan in the diagnosis of stress fractures. 1998 42:188-90.īoam WD, Miser WF, Yuill SC, Delaplain CB, Gayle EL, Mac-Donald DC. Longitudinal tibial stress fractures: a report of eight cases and review of the literature. Shearman CM, Brandser EA, Parman LM, el-Khoury GY, Saltzman CL, Pyevich MT, Boles CA. Overuse foot and ankle injuries in ballet. Harmath C, Demos TC, Lomasney L, Pinzur M. Stress fractures in the pediatric athlete. Risk factors for recurrent stress fractures in athletes. Korpelainen R, Orava S, Karpakka J, Siira P, Hulkko A. Incidence of trauma related stress fractures and shin splints in male and female army recruits: retrospective case study. Macleod MA, Houston AS, Sanders L, Anagnostopoulos C. A pneumatic leg brace for the treatment of tibial stress fractures. Whitelaw GP, Wetzler MJ, Levy AS, Segal D, Bissonnette K. Stress fractures of the tibia: can personality traits help us detect the injury-prone athlete?. 1995 5:229-35.Įkenman I, Hassmen P, Koivula N, Rolf C, Fellander-Tsai L. Risk factors for stress fractures in female track-and-field athletes: a retrospective analysis. 1999 28:91-122.īennell KL, Malcom SA, Thomas SA, Ebeling PR, McCrory PR, Wark JD, Brukner PD. Louis: Mosby, 2001:1322–39.īennell K, Matheson G, Meeuwisse W, Brukner P. 2000 27:437-44.Ĭallahan LR, Dillingham MF, Lau AC, McGuire JL. Stress fracture in military recruits: gender differences in muscle and bone susceptibility factors. 1998 26:265-79.īeck TJ, Ruff CB, Shaffer RA, Betsinger K, Trone DW, Brodine SK. An aetiological review for the purposes of guiding management. Clinical history and physical examination. Epidemiology and site specificity of stress fractures. Internal fixation for tension-type fracturesīennell KL, Brukner PD. Intramedullary nailing if nonunion or delayed unionĬonservative therapy for compression fractures (return to sport in eight to 14 weeks) Gradual return to full weight bearing with a semirigid shoe Six weeks of short leg non–weight-bearing cast, followed by four to six weeks of transitional weight-bearing cast Usually heal in four to six weeks with conservative therapy and rarely require surgery Special attention should be given to fifth metatarsal fractures to prevent nonunion Wood-soled shoe or casting for four to six weeks Surgery (intramedullary nailing and/or grafting) if no improvement after six months of treatment (or for certain elite athletes) Modified rest for six to eight weeks (or until pain-free for two to three weeks) activities of daily living and limited walking are permittedĬross-training (non–weight-bearing exercise)Īircast splinting if more severe symptoms or if not resolved with conservative treatmentĬasting for mid-shaft fractures until pain-free and radiographic evidence of healing All stress fractures (conservative therapy)
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |