Hemodynamically unstable pelvic fracture: A damage control surgical algorithm that fits your reality

David Mejia; Michael W Parra; Carlos A Ordoñez; Natalia Padilla; Yaset Caicedo; Salin Pereira Warr; Paula Andrea Jurado-Muñoz; Mauricio Torres; Alfredo Martínez; José Julián Serna; Fernando Rodríguez-Holguín; Alexander Salcedo; Alberto García; Mauricio Millán; Luis Fernando Pino; Adolfo González Hadad; Mario Alain Herrera; Ernest E Moore

doi:10.25100/cm.v51i4.4510

Hemodynamically unstable pelvic fracture: A damage control surgical algorithm that fits your reality

Colomb Med (Cali). 2020 Dec 30;51(4):e4214510. doi: 10.25100/cm.v51i4.4510.

Authors

David Mejia^{1

2}, Michael W Parra³, Carlos A Ordoñez^{4

5

6}, Natalia Padilla⁷, Yaset Caicedo⁷, Salin Pereira Warr⁸, Paula Andrea Jurado-Muñoz², Mauricio Torres⁹, Alfredo Martínez⁹, José Julián Serna^{4

5

6

10}, Fernando Rodríguez-Holguín⁴, Alexander Salcedo^{4

5

6

10}, Alberto García^{4

5

6}, Mauricio Millán^{6

11}, Luis Fernando Pino^{5

10}, Adolfo González Hadad^{5

10

12}, Mario Alain Herrera^{5

10}, Ernest E Moore¹³

Affiliations

¹ Hospital Pablo Tobon Uribe, Department of Surgery, Medellin, Colombia.
² Universidad de Antioquia, Department of Surgery, Medellin, Colombia.
³ Broward General Level I Trauma Center, Department of Trauma Critical Care, Fort Lauderdale, FL, USA.
⁴ Fundación Valle del Lili, Department of Surgery, Division of Trauma and Acute Care Surgery, Cali, Colombia.
⁵ Universidad del Valle, Facultad de Salud, Escuela de Medicina, Division of Trauma and Acute Care Surgery, Department of Surgery. Cali, Colombia.
⁶ Universidad Icesi, Cali, Colombia.
⁷ Fundación Valle del Lili, Centro de Investigaciones Clínicas (CIC), Cali, Colombia.
⁸ Hospital Pablo Tobón Uribe, Grupo de Soporte Nutricional y Pared Abdominal, Medellin, Colombia.
⁹ Fundación Valle del Lili, Department of Orthopedic Surgery, Cali, Colombia.
¹⁰ Hospital Universitario del Valle, Department of Surgery, Division of Trauma and Acute Care Surgery, Cali, Colombia.
¹¹ Fundación Valle del Lili, Department of Surgery, Division of Transplant Surgery, Cali, Colombia.
¹² Centro Médico Imbanaco, Cali, Colombia.
¹³ University of Colorado, Denver Health Medical Center, Department of Surgery, Denver, CO USA.

Abstract
in English, Spanish

Pelvic fractures occur in up to 25% of all severely injured trauma patients and its mortality is markedly high despite advances in resuscitation and modernization of surgical techniques due to its inherent blood loss and associated extra-pelvic injuries. Pelvic ring volume increases significantly from fractures and/or ligament disruptions which precludes its inherent ability to self-tamponade resulting in accumulation of hemorrhage in the retroperitoneal space which inevitably leads to hemodynamic instability and the lethal diamond. Pelvic hemorrhage is mainly venous (80%) from the pre-sacral/pre-peritoneal plexus and the remaining 20% is of arterial origin (branches of the internal iliac artery). This reality can be altered via a sequential management approach that is tailored to the specific reality of the treating facility which involves a collaborative effort between orthopedic, trauma and intensive care surgeons. We propose two different management algorithms that specifically address the availability of qualified staff and existing infrastructure: one for the fully equipped trauma center and another for the very common limited resource center.

Las fracturas de pelvis ocurren en más del 25% de los pacientes con trauma severo y su mortalidad es alta, a pesar de los avances en la resucitación hemodinámica y las técnicas quirúrgicas. Esta mortalidad se explica por la hemorragia inherente y las lesiones extra pélvicas asociadas, las fracturas o las disrupciones ligamentarias de la pelvis aumentan el volumen del espacio pélvico, y conlleva a que la hemorragia pélvica se acumule en el espacio retroperitoneal. En poco tiempo, esto conduce a la inestabilidad hemodinámica y el rombo de la muerte. La hemorragia pélvica es un 80% venosa proveniente de los plexos pre-sacro / pre-peritoneal. El restante 20% es arterial por sangrado de las ramas de la arteria iliaca interna. Esta realidad podría ser cambiada a través de un manejo secuencial enfocado según la disposición de recursos del centro de atención y de un trabajo colaborativo entre ortopedistas, cirujanos de trauma e intensivistas. Este articulo propone dos algoritmos de manejo que están enfocados según la disponibilidad de un equipo calificado e infraestructura existente: uno para un centro de trauma totalmente equipado, y el otro para un centro con recursos limitados.

Keywords: Hemodynamically unstable; REBOA; algorithm; damage control; limited resource center; pelvic fracture.

Publication types

Review

MeSH terms

Algorithms*
Fractures, Bone / physiopathology*
Fractures, Bone / surgery*
Hemodynamics*
Humans
Pelvic Bones / injuries*
Pelvic Bones / surgery*

Abstract in English, Spanish

Publication types

MeSH terms

Abstract
in English, Spanish