Vasiliki Chatzaraki1,2, Michael J Thali3, Garyfalia Ampanozi3. 1. Department of Forensic Medicine and Imaging, Institute of Forensic Medicine, University of Zurich, Winterthurerstrasse 190/52, CH-8057, Zurich, Switzerland. chatzaraki@outlook.com.gr. 2. Department of Radiology, Kantonsspital Baden AG, Im Ergel 1, CH-5404, Baden, Switzerland. chatzaraki@outlook.com.gr. 3. Department of Forensic Medicine and Imaging, Institute of Forensic Medicine, University of Zurich, Winterthurerstrasse 190/52, CH-8057, Zurich, Switzerland.
Abstract
AIM: The aim of this retrospective study was to determine the accuracy of postmortem computed tomography and different radiological signs for the determination of the bleeding source in cases with hemoperitoneum confirmed at autopsy. METHODS: Postmortem computed tomography data of consecutive cases with hemoperitoneum confirmed at autopsy were reviewed by two raters, blinded to the autopsy findings. The determination of possible bleeding sources was based on the presence of the sentinel clot sign, blood or sedimented blood surrounding an organ, intraparenchymal abnormal gas distribution, and parenchymal disruption. The bleeding source and the cause of hemoperitoneum (traumatic, surgical, natural, or resuscitation) as reported in the autopsy report were noted. The survival intervals of the deceased were calculated when information about the time of an incident related to death was available in the autopsy reports. RESULTS: Eighty-five cases were included in the study. Postmortem computed tomography showed 79% sensitivity and 92.1% specificity for the detection of the bleeding source. The sentinel clot sign was associated with surgical or natural causes of hemoperitoneum and longer survival intervals. Sedimented blood around the bleeding source was associated with resuscitation. Abnormal gas distribution within organs and combination of multiple radiological signs provided higher sensitivity. CONCLUSION: Postmortem computed tomography provides moderate sensitivity and high specificity for determining the bleeding source in cases with hemoperitoneum. Different PMCT signs are associated with different causes of hemoperitoneum and survival intervals.
AIM: The aim of this retrospective study was to determine the accuracy of postmortem computed tomography and different radiological signs for the determination of the bleeding source in cases with hemoperitoneum confirmed at autopsy. METHODS: Postmortem computed tomography data of consecutive cases with hemoperitoneum confirmed at autopsy were reviewed by two raters, blinded to the autopsy findings. The determination of possible bleeding sources was based on the presence of the sentinel clot sign, blood or sedimented blood surrounding an organ, intraparenchymal abnormal gas distribution, and parenchymal disruption. The bleeding source and the cause of hemoperitoneum (traumatic, surgical, natural, or resuscitation) as reported in the autopsy report were noted. The survival intervals of the deceased were calculated when information about the time of an incident related to death was available in the autopsy reports. RESULTS: Eighty-five cases were included in the study. Postmortem computed tomography showed 79% sensitivity and 92.1% specificity for the detection of the bleeding source. The sentinel clot sign was associated with surgical or natural causes of hemoperitoneum and longer survival intervals. Sedimented blood around the bleeding source was associated with resuscitation. Abnormal gas distribution within organs and combination of multiple radiological signs provided higher sensitivity. CONCLUSION: Postmortem computed tomography provides moderate sensitivity and high specificity for determining the bleeding source in cases with hemoperitoneum. Different PMCT signs are associated with different causes of hemoperitoneum and survival intervals.
Authors: Andreas Christe; Patricia Flach; Steffen Ross; Danny Spendlove; Stephan Bolliger; Peter Vock; Michael J Thali Journal: Leg Med (Tokyo) Date: 2010-07-13 Impact factor: 1.376
Authors: A Carballeira Álvarez; J Mancini; L Tuchtan-Torrents; P Gach; C Bartoli; J Desfeux; M D Piercecchi; G Gorincour Journal: Diagn Interv Imaging Date: 2018-02-21 Impact factor: 4.026
Authors: Hamid Jalalzadeh; Georgios F Giannakopoulos; Ferco H Berger; Judith Fronczek; Frank R W van de Goot; Udo J Reijnders; Wietse P Zuidema Journal: Forensic Sci Int Date: 2015-07-20 Impact factor: 2.395
Authors: Jackson D Hamilton; Manickam Kumaravel; Michael L Censullo; Alan M Cohen; Daniel S Kievlan; O Clark West Journal: Radiographics Date: 2008-10 Impact factor: 5.333