Damage control in abdominal vascular trauma.
Alberto Federico GarcíaMauricio MillánDaniela BurbanoCarlos A OrdoñezMichael W ParraAdolfo González HadadMario Alain HerreraLuis Fernando PinoFernando Rodríguez-HolguínAlexander SalcedoMaria Josefa FrancoRicardo FerradaJuan Carlos PuyanaPublished in: Colombia medica (Cali, Colombia) (2021)
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. This manuscript aims to present the surgical approach to abdominal vascular trauma following damage control principles. The priority in a trauma laparotomy is bleeding control. Hemorrhages of intraperitoneal origin are controlled by applying pressure, clamping, packing, and retroperitoneal with selective pressure. After the temporary bleeding control is achieved, the compromised vascular structure must be identified, according to the location of the hematomas. 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.
Keyphrases
- vena cava
- atrial fibrillation
- oxidative stress
- trauma patients
- squamous cell carcinoma
- high resolution
- inferior vena cava
- locally advanced
- rectal cancer
- radiation therapy
- drinking water
- cystic fibrosis
- blood brain barrier
- brain injury
- mass spectrometry
- pulmonary hypertension
- biofilm formation
- blood flow
- robot assisted