![]() ![]() ![]() Hossain M, Barwick C, Sinha AK, Andrew JG. Magnetic resonance imaging compared with bone-scanning. Diagnosis of occult fractures about the hip. Prevalence of traumatic hip and pelvic fractures in patients with suspected hip fracture and negative initial standard radiographs-a study of emergency department patients. 1994 76(1):158–9.ĭominguez S, Liu P, Roberts C, Mandell M, Richman PB. Comparison of MRI with bone scanning for suspected hip fracture in elderly patients. 2018, in Press.Įvans PD, Wilson C, Lyons K. An internal rotation traction radiograph improves proximal femoral fracture classification accuracy and agreement. Khurana B, Mandell J, Rocha T, Duran-Mendicuti M, Jimale H, Rosner B, et al. Does a traction-internal rotation radiograph help to better evaluate fractures of the proximal femur? Bull NYU Hosp Joint Dis. Anatomy of the medial femoral circumflex artery and its surgical implications. Gautier E, Ganz K, Krügel N, Gill T, Ganz R. Provides a comprehensive overview of proximal femur fractures, including a detailed description of mechanism of action and various classification systems. Proximal femoral fractures: what the orthopedic surgeon wants to know. Sheehan SE, Shyu JY, Weaver MJ, Sodickson AD, Khurana B.Skeletal trauma: basic science, management, and reconstruction. In: Browner BD, Jupiter JB, Krettek C, Anderson PA, editors. The role of the calcar femorale in stress distribution in the proximal femur. Zhang Q, Chen W, Liu H, Li Z, Song Z, Pan J, et al. An anatomic, radiologic, and surgical correlative study. Stiles RG, Laverina CJ, Resnick D, Convery FR. Anatomy, classification and treatment of intracapsular hip fractures. Morphological analysis of the proximal femur using quantitative computed tomography. Computerized tomography of proximal femoral trabecular patterns. Kerr R, Resnick D, Sartoris DJ, Kursunoglu S, Pineda C, Haghighi P, et al. Analysis of mortality and fixation failure in geriatric fractures using quantitative computed tomography. Pidgeon TS, Johnson JP, Deren ME, Evans AR, Hayda RA. 1976 58:2–24.Ĭheung WH, Miclau T, Chow SKH, Yang FF, Alt V. ![]() Numbers, costs, and potential effects of postmenopausal estrogen. The future of hip fractures in the United States. Burden of hip fracture using disability-adjusted life-years: a pooled analysis of prospective cohorts in the CHANCES consortium. Papadimitriou N, Tsilidis KK, Orfanos P, Benetou V, Ntzani EE, Soerjomataram I, et al. Clinical burden and incremental cost of fractures in postmenopausal women in the United Kingdom. Gutiérrez L, Roskell N, Castellsague J, Beard S, Rycroft C, Abeysinghe S, et al. Recently published papers of particular interest have been highlighted as: SummaryĪ simplified anatomic and treatment-based approach to hip fractures can help guide image interpretation and clinical management. There are multiple classifications of hip fractures in the orthopedic literature however, these are not commonly used in clinical practice due to complexity, poor reported inter-observer agreement, and relatively few methods of surgical fixation. Radiographs are the principal imaging modality for assessment of hip fracture, although there is a clear role for CT and MRI for assessment of radiographically occult fractures. ![]() The osseous and vascular anatomy of the proximal femur can help to understand the clinical implications of various types of hip fracture. Hip fractures are predominantly seen in the elderly, where they are increasing in incidence, and can substantially reduce healthy life-years. To summarize relevant anatomy, imaging, and treatment of hip fractures, and to synthesize a treatment-based approach for description and classification of hip fractures. ![]()
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