32 research outputs found

    Diagnostic accuracy of post-mortem MRI for thoracic abnormalities in fetuses and children

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    OBJECTIVES: To compare the diagnostic accuracy of post-mortem magnetic resonance imaging (PMMR) specifically for non-cardiac thoracic pathology in fetuses and children, compared with conventional autopsy. METHODS: Institutional ethics approval and parental consent was obtained. A total of 400 unselected fetuses and children underwent PMMR before conventional autopsy, reported blinded to the other dataset. RESULTS: Of 400 non-cardiac thoracic abnormalities, 113 (28 %) were found at autopsy. Overall sensitivity and specificity (95 % confidence interval) of PMMR for any thoracic pathology was poor at 39.6 % (31.0, 48.9) and 85.5 % (80.7, 89.2) respectively, with positive predictive value (PPV) 53.7 % (42.9, 64.0) and negative predictive value (NPV) 77.0 % (71.8, 81.4). Overall agreement was 71.8 % (67.1, 76.2). PMMR was most sensitive at detecting anatomical abnormalities, including pleural effusions and lung or thoracic hypoplasia, but particularly poor at detecting infection. CONCLUSIONS: PMMR currently has relatively poor diagnostic detection rates for the commonest intra-thoracic pathologies identified at autopsy in fetuses and children, including respiratory tract infection and diffuse alveolar haemorrhage. The reasonable NPV suggests that normal thoracic appearances at PMMR exclude the majority of important thoracic lesions at autopsy, and so could be useful in the context of minimally invasive autopsy for detecting non-cardiac thoracic abnormalities. KEY POINTS: • PMMR has relatively poor diagnostic detection rates for common intrathoracic pathology • The moderate NPV suggests that normal PMMR appearances exclude most important abnormalities • Lung sampling at autopsy remains the "gold standard" for pulmonary pathology

    Een meisje van 1 jaar met perineumletsel

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    Normal cranial postmortem CT findings in children

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    Postmortem imaging (both CT and MRI) has become a widely used tool the last few years, both for adults and children. If it would be known which findings are normal postmortem changes, interpretation of abnormal findings becomes less ambiguous. Our aim was to describe postmortem intracranial radiological findings on postmortem CT (PMCT) in children, which did not have a relationship with the cause of death, and to determine whether these findings have a relationship with the postmortem interval or with medical interventions. We selected all consecutive pediatric autopsies that were performed at the Netherlands Forensic Institute in the period 1-1-2008 to 31-12-2011, whereby the subject underwent total body PMCT. We collected data on age at death, gender, cause of death determined by forensic autopsy and time between death and PMCT. Normal findings that were scored were: gray-white differentiation of the brain, collapse of the ventricles, air in the orbit, fluid accumulation in the frontal and maxillary sinuses, and air in vessels of head and neck. One-hundred-fifty-nine forensic pediatric autopsies were performed in the 4 year study period at the NFI; 77 underwent a total body PMCT, of which 68 were included in the analyses. Fluid accumulation in the sinuses was present 30-40% of the cases in which the sinuses were developed. In 22% of all children intravascular intracranial air, either arterial or venous, was detected. We did not find a relationship between the duration of the postmortem interval and the appearance of any of the findings. Intravenous infusion is not significantly associated with the presence of intravascular air, except for air in the left and right common carotid artery (B=2.9, P=0.05). By demonstrating the intracranial abnormalities that appear postmortem, we have tried to provide more insight in the range of findings that can be seen with pediatric PMCT. As these findings resemble antemortem pathology, it is important that the radiologist who interprets PMCT has knowledge of these normal postmortem finding

    The value of post-mortem CT in neonaticide in case of severe decomposition: description of 12 cases

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    In cases of neonaticide with delayed finding of the body, interpretation of autopsy results can be difficult because of decomposition. Postmortem computed tomography (PMCT) has become an increasingly popular tool in the (pediatric) forensic field. We performed a retrospective study to compare the outcome of PMCT with autopsy results in suspected neonaticide, in neonates found more than one week after their demise. We compared the performance of both methods on (1) determining gestational age, (2) differentiating between live birth and still birth and (3) determining cause of death. We selected all consecutive neonaticide cases with an estimated postmortem interval longer than one week, who underwent a forensic autopsy including a total body PMCT in the Netherlands Forensic Institute in the period 2008-2012. Both a pathologist and radiologist scored gestational age, signs of live birth and cause of death for each case. 22 cases of neonaticide were identified in the study period, of which 15 cases were estimated to be found more than 1 week after death. In 12 of these a total body PMCT was performed. In all cases, late postmortem changes were present. Gestational age could be assessed with PMCT in 100% of the cases and with autopsy in 58% of the cases. In all cases neither PMCT nor autopsy was able to assess live birth and cause of death. PMCT is a better tool for estimating gestational age in case of suspected neonaticide with late postmortem changes compared to autopsy and should therefore be a standard part of the work-up. Signs of live birth and cause of death could not be determined with neither of the methods, an adjusted post mortem examination including limited autopsy for these cases might be develope

    Post-mortem fluid stasis in the sinus,trachea and mainstem bronchi: a computed tomography study in adults and children

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    Introduction: The purposeofthisstudywastoassessoccurrenceof fluid stasisinthesinus,trachea and mainstem bronchionPMCT. Materials andmethods: Patients were collected from different groups, two adult and two paediatric groups. Patients who died from drowning or evident trauma to head and neck were excluded

    Abusive head trauma: Differentiation between impact and non-impact cases based on neuroimaging findings and skeletal surveys

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    To determine whether imaging findings can be used to differentiate between impact and non-impact head trauma in a group of fatal and non-fatal abusive head trauma (AHT) victims. We included all AHT cases in the Netherlands in the period 2005-2012 for which a forensic report was written for a court of law, and for which imaging was available for reassessment. Neuroradiological and musculoskeletal findings were scored by an experienced paediatric radiologist. We identified 124 AHT cases; data for 104 cases (84%) were available for radiological reassessment. The AHT victims with a skull fracture had fewer hypoxic ischaemic injuries than AHT victims without a skull fracture (p=0.03), but the relative difference was small (33% vs. 57%). There were no significant differences in neuroradiological and musculoskeletal findings between impact and non-impact head trauma cases if the distinction between impact and non-impact head trauma was based on visible head injuries, as determined by clinical examination, as well as on the presence of skull fractures. Neuroradiological and skeletal findings cannot discriminate between impact and non-impact head trauma in abusive head trauma victim
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