Colomb Medica
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Esophageal trauma is a rare but life-threatening event associated with high morbidity and mortality. An inadvertent esophageal perforation can rapidly contaminate the neck, mediastinum, pleural space, or abdominal cavity, resulting in sepsis or septic shock. Higher complications and mortality rates are commonly associated with adjacent organ injuries and/or delays in diagnosis or definitive management. ⋯ While hemodynamically unstable patients should be immediately transferred to the operating room for direct surgical control. A primary repair is the surgical management of choice in all esophageal injuries, along with endoscopic nasogastric tube placement and immediate postoperative care in the intensive care unit. We propose an easy-to-follow surgical management algorithm that sticks to the philosophy of "Less is Better" by avoiding esophagostomas.
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Damage control has well-defined steps. However, there are still controversies regarding whom, when, and how re-interventions should be performed. This article summarizes the Trauma and Emergency Surgery Group (CTE) Cali-Colombia recommendations about the specific situations concerning second interventions of patients undergoing damage control surgery. ⋯ In addition, a deferred anastomosis is recommended for correction of intestinal lesions, and patients treated with vascular shunts should be re-intervened within 24 hours for definitive management. Furthermore, abdominal or thoracic wall closure should be attempted within eight days. These strategies aim to decrease complications, morbidity, and mortality.
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In patients with abdominal trauma who require laparotomy, up to a quarter or a third will have a vascular injury. The venous structures mainly injured are the vena cava (29%) and the iliac veins (20%), and arterial vessels are the iliac arteries (16%) and the aorta (14%). The initial approach is performed following the ATLS principles. ⋯ The management of all lesions should be oriented towards the expeditious conclusion of the laparotomy, focusing efforts on the bleeding control and contamination, with a postponement of the definitive management. Their management of vascular injuries includes ligation, transient bypass, and packing of selected low-pressure vessels and bleeding surfaces. Subsequently, the unconventional closure of the abdominal cavity should be performed, preferably with negative pressure systems, to reoperate once the hemodynamic alterations and coagulopathy have been corrected to carry out the definitive management.
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Thoracic vascular trauma is associated with high mortality and is the second most common cause of death in patients with trauma following head injuries. Less than 25% of patients with a thoracic vascular injury arrive alive to the hospital and more than 50% die within the first 24 hours. Thoracic trauma with the involvement of the great vessels is a surgical challenge due to the complex and restricted anatomy of these structures and its association with adjacent organ damage. ⋯ We have been able to show that the early application of a resuscitative median sternotomy together with a zone 1 resuscitative endovascular balloon occlusion of the aorta (REBOA) in hemodynamically unstable patients with thoracic outlet vascular injuries improves survival by providing rapid stabilization of central aortic pressure and serving as a bridge to hemorrhage control. Damage control surgery principles should also be implemented when indicated, followed by definitive repair once the correction of the lethal diamond has been achieved. To this end, we have developed a six-step management algorithm that illustrates the surgical care of patients with thoracic outlet vascular injuries according to the American Association of the Surgery of Trauma (AAST) classification.
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Resuscitative endovascular balloon occlusion of the aorta (REBOA) is commonly used as an adjunct to resuscitation and bridge to definitive control of non-compressible torso hemorrhage in patients with hemorrhagic shock. It has also been performed for patients with neurogenic shock to support the central aortic pressure necessary for cerebral, coronary and spinal cord perfusion. ⋯ There are still unanswered questions on spinal cord perfusion and functional outcomes using a REBOA in Zone 3 in trauma patients with refractory neurogenic shock. However, we believe that its use in these case scenarios can be beneficial to the overall outcome of these patients.