Abstract
Damage control laparotomy was first described by Dr. Harlan Stone in 1983 when he suggested that patients with severe trauma should have their primary procedures abbreviated when coagulopathy was encountered. He recommended temporizing patients with abdominal packing and temporary closure to allow restoration of normal physiology prior to returning to the operating room for definitive repair. The term damage control in the trauma setting was coined by Rotondo et al., in 1993. Studies in subsequent years have validated this technique by demonstrating decreased mortality and immediate post-operative complications. The indications for damage control laparotomy have evolved to encompass abdominal compartment syndrome, abdominal sepsis, vascular and acute care surgery cases. The perioperative critical care provided to these patients, including sedation, paralysis, nutrition, and fluid management strategies may improve closure rates and recovery. In the rare cases of inability to primarily close the abdomen, there are a number of reconstructive strategies that may be used in the acute and chronic phases of abdominal closure.
Highlights
The bloody lethal triad of hypothermia, acidosis, and coagulopathy has been the nemesis of trauma surgeons for decades
The first stage in damage control laparotomy (DCL) is control of hemorrhage and contamination followed by use of a temporary abdominal closure (TAC) strategy [1]
DCL has been associated with improved outcomes and decreased mortality in severely injured trauma patients [5,6]
Summary
The bloody lethal triad of hypothermia, acidosis, and coagulopathy has been the nemesis of trauma surgeons for decades. DCL has been associated with improved outcomes and decreased mortality in severely injured trauma patients [5,6]. In addition to the above indications, patients at high risk for ACS should be left open prophylactically at the time of laparotomy [10,11] This includes patients requiring large volume resuscitation (>15 L or 10 Units of PRBCs), those with evidence of visceral edema, peak inspiratory pressures >40, or intra-abdominal pressure (IAP) >21 during attempted closure [12,13,14,15,16]. The ideal TAC should be and quickly applied, allow room for expansion, limit contamination, decrease bowel edema, protect the viscera, fascia and skin from damage, evacuate fluids, prevent adhesions, minimize loss of domain and be cost effective. Barker et al, coined the term “vacuum pack” (VP) in 1995; describing a 3 layer TAC; Table 1 Grades of intra-abdominal hypertension
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