Sameer Jain1, Sabri Bleibleh, Jan Marciniak, Alistair Pace. 1. Department of Trauma & Orthopaedic Surgery, Scarborough General Hospital, Woodlands Drive, Scarborough, North Yorkshire YO12 6QL, UK. samjain@hotmail.co.uk
Abstract
PURPOSE: Major pelvic injuries resulting from high-energy trauma require emergency hospital treatment, and part of the initial management includes mechanical stabilisation of the pelvis. Controversies include binder position, use in lateral compression injuries and application during radiological assessment. We present the results of a survey of both emergency department and orthopaedic specialties. METHODS: A telephone survey of all 144 trauma units in the UK accepting adult pelvic trauma patients was carried out in July 2012. The duty registrar for the emergency and orthopaedic departments was contacted and asked to complete a questionnaire. RESULTS: A response rate of 100% was achieved. Pelvic binders were available for use in approximately three quarters of the trauma units surveyed. Eight-five emergency department (59%) and 79 orthopaedic (54.9%) registrars had been given training on pelvic binder application. Fifty-six emergency department (38.9%) and 114 orthopaedic (79.1%) registrars identified the level of the greater trochanters as the most suitable position for the binder. Forty-five emergency department (31.3%) and 58 orthopaedic (40.3%) registrars used pelvic binders in suspected lateral compression injuries. One hundred and twenty-six emergency department (87.5%) and 113 orthopaedic (78.5%) registrars would not release the binder during radiological assessment of the pelvis in a haemodynamically stable patient. CONCLUSION: There is great variability in practice amongst trauma units in the UK. Training must be formalised and provided as a mandatory part of departmental induction. The use of standardised treatment algorithms in trauma units and the Advanced Trauma and Life Support (ATLS) framework may help decision making and improve patient survival rates.
PURPOSE: Major pelvic injuries resulting from high-energy trauma require emergency hospital treatment, and part of the initial management includes mechanical stabilisation of the pelvis. Controversies include binder position, use in lateral compression injuries and application during radiological assessment. We present the results of a survey of both emergency department and orthopaedic specialties. METHODS: A telephone survey of all 144 trauma units in the UK accepting adult pelvic traumapatients was carried out in July 2012. The duty registrar for the emergency and orthopaedic departments was contacted and asked to complete a questionnaire. RESULTS: A response rate of 100% was achieved. Pelvic binders were available for use in approximately three quarters of the trauma units surveyed. Eight-five emergency department (59%) and 79 orthopaedic (54.9%) registrars had been given training on pelvic binder application. Fifty-six emergency department (38.9%) and 114 orthopaedic (79.1%) registrars identified the level of the greater trochanters as the most suitable position for the binder. Forty-five emergency department (31.3%) and 58 orthopaedic (40.3%) registrars used pelvic binders in suspected lateral compression injuries. One hundred and twenty-six emergency department (87.5%) and 113 orthopaedic (78.5%) registrars would not release the binder during radiological assessment of the pelvis in a haemodynamically stable patient. CONCLUSION: There is great variability in practice amongst trauma units in the UK. Training must be formalised and provided as a mandatory part of departmental induction. The use of standardised treatment algorithms in trauma units and the Advanced Trauma and Life Support (ATLS) framework may help decision making and improve patient survival rates.
Authors: Julie A Evans; Karlijn J P van Wessem; Debra McDougall; Kevin A Lee; Timothy Lyons; Zsolt J Balogh Journal: World J Surg Date: 2010-01 Impact factor: 3.352
Authors: Simon P Knops; Esther M M Van Lieshout; W Richard Spanjersberg; Peter Patka; Inger B Schipper Journal: Injury Date: 2010-10-08 Impact factor: 2.586
Authors: Michael Bottlang; Tamara Simpson; Juergen Sigg; James C Krieg; Steven M Madey; William B Long Journal: J Orthop Trauma Date: 2002-07 Impact factor: 2.512
Authors: Laura Blum; Mark E Hake; Ryan Charles; Todd Conlan; David Rojas; Murphy Trey Martin; Cyril Mauffrey Journal: Int Orthop Date: 2018-03-26 Impact factor: 3.075
Authors: Rahul Vaidya; Matthew Roth; Bradley Zarling; Sarah Zhang; Christopher Walsh; Jessica Macsuga; John Swartz Journal: West J Emerg Med Date: 2016-10-20