OBJECTIVE: To evaluate the use of emergent dynamic intravenous contrast-enhanced computed tomography (CT) in the diagnosis of active arterial extravasation in patients admitted to hospital after blunt abdominal trauma. METHODS: Four-hundred and ninety-eight consecutive emergent contrast-enhanced computed tomographic images of the abdomen and pelvis were retrospectively reviewed. The presence of and site(s) of active arterial extravasation were recorded. Two radiologists reviewed the images and compared the site(s) of extravasated arterial contrast agent with the site(s) of active hemorrhage established at angiography (n = 9) or surgery (n = 4). RESULTS: Twenty-eight patients' computed tomographic images were identified as showing signs of extravasation of contrast agent representing active arterial bleeding. A total of 49 sources of active arterial extravasation were identified, 37 in 19 patients. A pelvic source of active arterial hemorrhage was most frequent and was typically associated with unstable pelvic fractures (n = 18). Other sources of active arterial hemorrhage included the liver (n = 3), spleen (n = 2), retroperitoneum (n = 1), kidney (n = 1), mesentery (n = 1), abdominal wall (n = 3) and lumbar region (n = 1). Only 9 of 28 patients became sufficiently hemodynamically unstable to warrant angiography. All 9 patients had a pelvic source of arterial extravasation on contrast-enhanced CT, and 7 demonstrated active bleeding requiring embolization. The contrast-enhanced computed tomographic images correctly indicated the anatomical source of bleeding in all 7 cases. CONCLUSION: In patients who have experienced blunt abdominal trauma, attention should be paid to the computed tomographic features of active arterial hemorrhage. In our series, the pelvis was the most common source of active arterial bleeding, which was typically associated with unstable pelvic fractures.
OBJECTIVE: To evaluate the use of emergent dynamic intravenous contrast-enhanced computed tomography (CT) in the diagnosis of active arterial extravasation in patients admitted to hospital after blunt abdominal trauma. METHODS: Four-hundred and ninety-eight consecutive emergent contrast-enhanced computed tomographic images of the abdomen and pelvis were retrospectively reviewed. The presence of and site(s) of active arterial extravasation were recorded. Two radiologists reviewed the images and compared the site(s) of extravasated arterial contrast agent with the site(s) of active hemorrhage established at angiography (n = 9) or surgery (n = 4). RESULTS: Twenty-eight patients' computed tomographic images were identified as showing signs of extravasation of contrast agent representing active arterial bleeding. A total of 49 sources of active arterial extravasation were identified, 37 in 19 patients. A pelvic source of active arterial hemorrhage was most frequent and was typically associated with unstable pelvic fractures (n = 18). Other sources of active arterial hemorrhage included the liver (n = 3), spleen (n = 2), retroperitoneum (n = 1), kidney (n = 1), mesentery (n = 1), abdominal wall (n = 3) and lumbar region (n = 1). Only 9 of 28 patients became sufficiently hemodynamically unstable to warrant angiography. All 9 patients had a pelvic source of arterial extravasation on contrast-enhanced CT, and 7 demonstrated active bleeding requiring embolization. The contrast-enhanced computed tomographic images correctly indicated the anatomical source of bleeding in all 7 cases. CONCLUSION: In patients who have experienced blunt abdominal trauma, attention should be paid to the computed tomographic features of active arterial hemorrhage. In our series, the pelvis was the most common source of active arterial bleeding, which was typically associated with unstable pelvic fractures.
Authors: Nicolas Cheynel; Julie Gentil; Marc Freitz; Patrick Rat; Pablo Ortega Deballon; C Bonithon Kopp Journal: World J Surg Date: 2011-07 Impact factor: 3.352
Authors: David Dreizin; Yuyin Zhou; Tina Chen; Guang Li; Alan L Yuille; Ashley McLenithan; Jonathan J Morrison Journal: J Trauma Acute Care Surg Date: 2020-03 Impact factor: 3.697
Authors: Federico Coccolini; Giulia Montori; Fausto Catena; Yoram Kluger; Walter Biffl; Ernest E Moore; Viktor Reva; Camilla Bing; Miklosh Bala; Paola Fugazzola; Hany Bahouth; Ingo Marzi; George Velmahos; Rao Ivatury; Kjetil Soreide; Tal Horer; Richard Ten Broek; Bruno M Pereira; Gustavo P Fraga; Kenji Inaba; Joseph Kashuk; Neil Parry; Peter T Masiakos; Konstantinos S Mylonas; Andrew Kirkpatrick; Fikri Abu-Zidan; Carlos Augusto Gomes; Simone Vasilij Benatti; Noel Naidoo; Francesco Salvetti; Stefano Maccatrozzo; Vanni Agnoletti; Emiliano Gamberini; Leonardo Solaini; Antonio Costanzo; Andrea Celotti; Matteo Tomasoni; Vladimir Khokha; Catherine Arvieux; Lena Napolitano; Lauri Handolin; Michele Pisano; Stefano Magnone; David A Spain; Marc de Moya; Kimberly A Davis; Nicola De Angelis; Ari Leppaniemi; Paula Ferrada; Rifat Latifi; David Costa Navarro; Yashuiro Otomo; Raul Coimbra; Ronald V Maier; Frederick Moore; Sandro Rizoli; Boris Sakakushev; Joseph M Galante; Osvaldo Chiara; Stefania Cimbanassi; Alain Chichom Mefire; Dieter Weber; Marco Ceresoli; Andrew B Peitzman; Liban Wehlie; Massimo Sartelli; Salomone Di Saverio; Luca Ansaloni Journal: World J Emerg Surg Date: 2017-08-18 Impact factor: 5.469
Authors: Sheng-Der Hsu; Cheng-Jueng Chen; Yu-Ching Chou; Sheng-Hao Wang; De-Chuan Chan Journal: Int J Environ Res Public Health Date: 2017-10-12 Impact factor: 3.390