Mark J Seamon1, Elliott R Haut, Kyle Van Arendonk, Ronald R Barbosa, William C Chiu, Christopher J Dente, Nicole Fox, Randeep S Jawa, Kosar Khwaja, J Kayle Lee, Louis J Magnotti, Julie A Mayglothling, Amy A McDonald, Susan Rowell, Kathleen B To, Yngve Falck-Ytter, Peter Rhee. 1. From the Division of Traumatology (M.J.S.), Surgical Critical Care and Emergency Surgery, Hospital of the University of Pennsylvania, Philadelphia, Pennsylvania; Division of Acute Care Surgery (E.R.H.), Department of Surgery (K.V.A.), the Johns Hopkins Hospital, Baltimore, Maryland; Trauma Services (R.R.B.), Legacy Emanuel and Randall Children's Hospitals, Portland, Oregon; R Adams Cowley Shock Trauma Center (W.C.C.), University of Maryland School of Medicine, Baltimore, Maryland; Department of Surgery (C.J.D.), Emory University and Grady Memorial Hospital, Atlanta, Georgia; Division of Trauma (N.F.), Department of Surgery, Cooper University Hospital, Camden, New Jersey; Division of Trauma, Emergency Surgery, and Surgical Critical Care (R.S.J.), Stony Brook Medicine, Stony Brook, New York; Division of Trauma and Acute Care Surgery (K.K.), McGIll University Health Centre, Montreal, Quebec, Canada; Division of Trauma Surgery and Surgical Critical Care (J.K.L.), Department of Surgery, Advocate Christ Medical Center, Oak Lawn, Illinois; Department of Surgery (L.J.M.), University of Tennessee Health Science Center, Memphis, Tennessee; Departments of Emergency Medicine and Surgery (J.A.M.), Division of Trauma/Critical Care, Virginia Commonwealth University, Richmond, Virginia; Division of Trauma, Critical Care, Burns, and Acute Care Surgery (A.A.M.), Department of Surgery, Metrohealth Medical Center, Cleveland, Ohio; Division of Trauma, Critical Care and Acute Care Surgery (S.R.), Departments of Surgery and Emergency Medicine, Oregon Health and Science University, Portland, Oregon; Division of Acute Care Surgery (K.B.T.), Department of Surgery, University of Michigan Hospital, Ann Arbor, Michigan; Division of Gastroenterology (Y.F.-Y.), Case and VA Medical Center, Case Western Reserve University, Cleveland, Ohio; and Division of Trauma, Critical Care, Burn, and Emergency Surgery (P.R.), Department of Surgery, University of Arizona, Tucson, Arizona.
Abstract
BACKGROUND: Within the GRADE (Grading of Recommendations Assessment, Development and Evaluation) framework, we performed a systematic review and developed evidence-based recommendations to answer the following PICO (Population, Intervention, Comparator, Outcomes) question: should patients who present pulseless after critical injuries (with and without signs of life after penetrating thoracic, extrathoracic, or blunt injuries) undergo emergency department thoracotomy (EDT) (vs. resuscitation without EDT) to improve survival and neurologically intact survival? METHODS: All patients who underwent EDT were included while those involving either prehospital resuscitative thoracotomy or operating room thoracotomy were excluded. Quantitative synthesis via meta-analysis was not possible because no comparison or control group (i.e., survival or neurologically intact survival data for similar patients who did not undergo EDT) was available for the PICO questions of interest. RESULTS: The 72 included studies provided 10,238 patients who underwent EDT. Patients presenting pulseless after penetrating thoracic injury had the most favorable EDT outcomes both with (survival, 182 [21.3%] of 853; neurologically intact survival, 53 [11.7%] of 454) and without (survival, 76 [8.3%] of 920; neurologically intact survival, 25 [3.9%] of 641) signs of life. In patients presenting pulseless after penetrating extrathoracic injury, EDT outcomes were more favorable with signs of life (survival, 25 [15.6%] of 160; neurologically intact survival, 14 [16.5%] of 85) than without (survival, 4 [2.9%] of 139; neurologically intact survival, 3 [5.0%] of 60). Outcomes after EDT in pulseless blunt injury patients were limited with signs of life (survival, 21 [4.6%] of 454; neurologically intact survival, 7 [2.4%] of 298) and dismal without signs of life (survival, 7 [0.7%] of 995; neurologically intact survival, 1 [0.1%] of 825). CONCLUSION: We strongly recommend that patients who present pulseless with signs of life after penetrating thoracic injury undergo EDT. We conditionally recommend EDT for patients who present pulseless and have absent signs of life after penetrating thoracic injury, present or absent signs of life after penetrating extrathoracic injury, or present signs of life after blunt injury. Lastly, we conditionally recommend against EDT for pulseless patients without signs of life after blunt injury. LEVEL OF EVIDENCE: Systematic review/guideline, level III.
BACKGROUND: Within the GRADE (Grading of Recommendations Assessment, Development and Evaluation) framework, we performed a systematic review and developed evidence-based recommendations to answer the following PICO (Population, Intervention, Comparator, Outcomes) question: should patients who present pulseless after critical injuries (with and without signs of life after penetrating thoracic, extrathoracic, or blunt injuries) undergo emergency department thoracotomy (EDT) (vs. resuscitation without EDT) to improve survival and neurologically intact survival? METHODS: All patients who underwent EDT were included while those involving either prehospital resuscitative thoracotomy or operating room thoracotomy were excluded. Quantitative synthesis via meta-analysis was not possible because no comparison or control group (i.e., survival or neurologically intact survival data for similar patients who did not undergo EDT) was available for the PICO questions of interest. RESULTS: The 72 included studies provided 10,238 patients who underwent EDT. Patients presenting pulseless after penetrating thoracic injury had the most favorable EDT outcomes both with (survival, 182 [21.3%] of 853; neurologically intact survival, 53 [11.7%] of 454) and without (survival, 76 [8.3%] of 920; neurologically intact survival, 25 [3.9%] of 641) signs of life. In patients presenting pulseless after penetrating extrathoracic injury, EDT outcomes were more favorable with signs of life (survival, 25 [15.6%] of 160; neurologically intact survival, 14 [16.5%] of 85) than without (survival, 4 [2.9%] of 139; neurologically intact survival, 3 [5.0%] of 60). Outcomes after EDT in pulseless blunt injurypatients were limited with signs of life (survival, 21 [4.6%] of 454; neurologically intact survival, 7 [2.4%] of 298) and dismal without signs of life (survival, 7 [0.7%] of 995; neurologically intact survival, 1 [0.1%] of 825). CONCLUSION: We strongly recommend that patients who present pulseless with signs of life after penetrating thoracic injury undergo EDT. We conditionally recommend EDT for patients who present pulseless and have absent signs of life after penetrating thoracic injury, present or absent signs of life after penetrating extrathoracic injury, or present signs of life after blunt injury. Lastly, we conditionally recommend against EDT for pulseless patients without signs of life after blunt injury. LEVEL OF EVIDENCE: Systematic review/guideline, level III.
Authors: Sandra R DiBrito; Courtenay M Holscher; Christine E Haugen; Ira L Leeds; Heidi N Overton; Kyle R Jackson; Elizabeth A King; Elliott R Haut Journal: Ann Surg Date: 2018-12 Impact factor: 12.969
Authors: V A Reva; Y Matsumura; T Hörer; D A Sveklov; A V Denisov; S Y Telickiy; A B Seleznev; E R Bozhedomova; J Matsumoto; I M Samokhvalov; J J Morrison Journal: Eur J Trauma Emerg Surg Date: 2016-10-13 Impact factor: 3.693
Authors: Pierre Pezy; Alexandros N Flaris; Nicolas J Prat; François Cotton; Peter W Lundberg; Jean-Louis Caillot; Jean-Stéphane David; Eric J Voiglio Journal: JAMA Surg Date: 2017-04-01 Impact factor: 14.766