![]() A prospective randomized controlled trial comparing circumferential casting and splinting in displaced Colles fractures. Grafstein E, Stenstrom R, Christenson J, Innes G, MacCormack R, Jackson C, et al. Evaluation of a treatment protocol in distal radius fractures: a prospective study in 581 patients using DASH as outcome. Long-term outcome of nonsurgically treated distal radius fractures. 97-B (7):957-62.įöldhazy Z, Törnkvist H, Elmstedt E, Andersson G, Hagsten B, Ahrengart L. Arthroscopic assistance does not improve the functional or radiographic outcome of unstable intra-articular distal radial fractures treated with a volar locking plate: a randomised controlled trial. Yamazaki H, Uchiyama S, Komatsu M, Hashimoto S, Kobayashi Y, Sakurai T, et al. Volar locking plate implant prominence and flexor tendon rupture. Soong M, Earp BE, Bishop G, Leung A, Blazar P. The extended flexor carpi radialis approach: a new perspective for the distal radius fracture. Orbay JL, Badia A, Indriago IR, Infante A, Khouri RK, Gonzalez E, et al. Volar fixation for dorsally displaced fractures of the distal radius: a preliminary report. Injectable bone cement augmentation for the treatment of distal radius fractures: a review. A revolution in the management of fractures of the distal radius?. Routine follow-up radiographs for distal radius fractures are seldom clinically substantiated. Weil NL, El Moumni M, Rubinstein SM, Krijnen P, Termaat MF, Schipper IB. Intra-articular fractures of the distal end of the radius in young adults. Management of distal radius fractures evidence-based clinical practice guideline. The relationship between displacement and clinical outcome after distal radius (Colles') fracture. 36 (10):1621-5.įinsen V, Rod O, Rød K, Rajabi B, Alm-Paulsen PS, Russwurm H. Ligament contribution to patterns of articular fractures of the distal radius. ![]() ![]() Fractures of the distal end of the radius treated by internal fixation and early function. Long-term follow-up of treatment of comminuted fractures of the distal end of the radius by transfixation with Kirschner wires and cast. Distal radius instability and stiffness: common complications of distal radius fractures. Soft tissue complications of distal radius fractures. Surgical management of forearm and distal radius fractures in children and adolescents. Effect of patient age on the radiographic outcomes of distal radius fractures subject to nonoperative treatment. A systematic review of outcomes and complications of treating unstable distal radius fractures in the elderly. The frequency and epidemiology of hand and forearm fractures in the United States. The fractures are also referred to as various stages of classification systems, such as a Melone IV or an AO (ie, Arbeitsgemeinschaft für Osteosynthesefragen ) C3 fracture, or are referred to the region of the fracture (eg, radial styloid or lunate facet fracture), or have a historical explanation (chauffeur's fracture, so called because a chauffeur sustained this injury when he tried to crank-start a car and it backfired).Ĭhung KC, Spilson SV. Over time, other eponyms have been added to the various subclassifications of DRFs (eg, Smith fracture, Barton fracture, and volar Barton fracture). Colles stated, "One consolation only remains, that the limb will at some remote period again enjoy perfect freedom in all of its motions and be completely exempt from pain." This claim-that all DRFs, despite displacement, will fare well-has been a source of widespread criticism. The Irish surgeon Abraham Colles described DRFs in the 1814 volume of the Edinburgh Medical Surgical Journal. Although his description was based on clinical examination alone (radiography was not invented until 1895, 81 years later), it is quite accurate, and it is Colles' name that is most often associated with this fracture in the English-speaking world.
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