Diagnostic assessment of foetal brain malformations with intra-uterine MRI versus perinatal post-mortem MRI

Goergen, Stacy; Alibrahim, Ekaterina; Govender, Nishentha; Stanislavsky, Alexandra; Abel, Christian; Prystupa, Stacey; Collett, Jacquelene; Shelmerdine, Susan C.; Arthurs, Owen J.

doi:10.1007/s00234-019-02218-9

Cited by 20 publications

(20 citation statements)

References 47 publications

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“…5) The value of an international program to help support countries and demonstrate the value of paediatric postmortem MRI to governments and insurance companies. 6) One centre has shown that paediatric postmortem MRI is not as accurate as intrauterine foetal MRI for central nervous system cases [17], a finding supported by another study [18]. Consequently, the centre is now using intrauterine foetal MRI as a first step in postmortem investigations when there is an intention to terminate the pregnancy due to a foetal cranial abnormality.…”

Section: Imaging Protocols (Table 2)mentioning

confidence: 99%

Current state of perinatal postmortem magnetic resonance imaging: European Society of Paediatric Radiology questionnaire-based survey and recommendations

et al. 2020

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Background Postmortem magnetic resonance imaging (MRI) in perinatal and childhood deaths is increasingly used as a noninvasive adjunct or alternative to autopsy. Imaging protocols vary between centres and consensus guidelines do not exist. Objective Our aim was to develop practical, standardised recommendations for perinatal postmortem MRI. Materials and methods Recommendations were based on the results of two surveys regarding local postmortem MRI practices sent electronically to all 14 members of the European Society of Paediatric Radiology (ESPR) Postmortem Imaging Task Force and 17 members of the International Society of Forensic Radiology and Imaging Task Force (25 different centres). Results Overall, 11/14 (78.6%) respondents from different institutions perform postmortem MRI. All of these centres perform postmortem MRI for perinatal and neonatal deaths, but only 6/11 (54.5%) perform imaging in older children. Conclusion We propose a clinical standard for postmortem MRI sequences plus optional sequences for neuroimaging and cardiac anatomy depending on available scanning time and referral indications.

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Section: Imaging Protocols (Table 2)mentioning

confidence: 99%

Current state of perinatal postmortem magnetic resonance imaging: European Society of Paediatric Radiology questionnaire-based survey and recommendations

et al. 2020

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“…There is now also evidence that where a fetal brain malformation is suspected and termination of pregnancy is to be sought that intrauterine fetal MRI may be even more accurate than the PMMR . However, where an intrauterine death or stillbirth has occurred prior to the possibility for performing an intrauterine fetal MRI, then PMMR would be the next best option.…”

Section: Discussionmentioning

confidence: 99%

Maceration determines diagnostic yield of fetal and neonatal whole body post‐mortem ultrasound

et al. 2019

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Objectives:To determine factors in nondiagnostic fetal and neonatal post-mortem ultrasound (PMUS) examinations. Methods:All fetal and neonatal PMUS examinations were included over a 5-year study period (2014)(2015)(2016)(2017)(2018)(2019). Nondiagnostic image quality by body parts (brain, spine, thorax, cardiac, and abdomen) was recorded and correlated with patient variables.Descriptive statistics and logistic regression analyses were performed to identify significant factors for nondiagnostic studies. Results: Two hundred sixty-five PMUS examinations were included, with median gestational age of 22 weeks (12-42 wk), post-mortem weight of 363 g (16-4033 g), and post-mortem interval of 8 days (0-39 d). Diagnostic imaging quality was achieved for 178/265 (67.2%) studies. It was high for abdominal (263/265, 99.2%), thoracic (264/265, 99.6%), and spine (265/265, 100%)but lower for brain (210/265, 79.2%) and cardiac imaging (213/265, 80.4%). Maceration was the best overall predictor for nondiagnostic imaging quality (P < .0001).Post-mortem fetal weight was positively associated with cardiac (P = .0133) and negatively associated with brain imaging quality (P = .0002). Post-mortem interval was not a significant predictor. Conclusions:Fetal maceration was the best predictor for nondiagnostic PMUS, particularly for brain and heart. Fetuses with marked maceration and suspected cardiac or brain anomalies should be prioritised for post-mortem MRI.

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“…The incidence of CNS abnormalities is 0.14-0.16% in live births and reaches 3-6% in stillbirths [1]. They are the most common reason for pregnancy terminations owing to their poor longterm outcomes [2].…”

Section: Introductionmentioning

confidence: 99%

Fetal brain MRI: how it added to ultrasound diagnosis of fetal CNS anomalies-1 year experience

Raafat

Alalfy

Nagy

et al. 2021

Egypt J Radiol Nucl Med

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Background Central nervous system (CNS) anomalies are the most commonly diagnosed abnormalities of all fetal malformations and are usually primarily discovered on routine prenatal ultrasonography (US). Fetal magnetic resonance imaging (MRI) is a non-invasive technology with high soft tissue contrast that is documented to increase the diagnostic accuracy for detection of fetal brain anomalies. The aim of our study is to analyze the value of adding magnetic resonance imaging (MRI) of the fetal brain to antenatal ultrasound in the diagnosis of fetal central nervous system (CNS) anomalies. Results We diagnosed various CNS anomalies including twelve cases with infra- and supra-tentorial arachnoid cysts, six cases had Dandy-Walker malformation (DWM) and its variants, 1 case with mega cisterna magna, 2 cases of holoprosencephaly, 1 case of hydranencephaly, 2 cases with supratentorial hydrocephalus, 1 case of craniopharyngioma, 6 cases with corpus callosum (CC) agenesis, 1 case of extradural hematoma, and 8 cases with Meckel-Gruber syndrome (MGS). MRI diagnosis confirmed the ultrasound finding, without additional information in 23 cases (57.5%%), added an extra finding in 11 cases (27.5%), differentiated between 2 pathologies in 3 cases (7.5%), and changed the diagnosis in 3 cases (7.5 %). The 40 pregnancies resulted in 27 births (67.5%), 2 died directly after birth (5%), 7 terminations (17.5%), and 4 intrauterine fetal deaths (IUFD) (10 %). Conclusion Ultrasound is the gold standard imaging modality for anomaly scan in the second and third trimesters; however, MRI of the fetal brain might be a clinically valuable complement especially when ultrasound examination is inconclusive due to maternal obesity, severe oligohydramnios, or in complicated cases with unclear diagnosis.

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Diagnostic assessment of foetal brain malformations with intra-uterine MRI versus perinatal post-mortem MRI

Cited by 20 publications

References 47 publications

Current state of perinatal postmortem magnetic resonance imaging: European Society of Paediatric Radiology questionnaire-based survey and recommendations

Current state of perinatal postmortem magnetic resonance imaging: European Society of Paediatric Radiology questionnaire-based survey and recommendations

Maceration determines diagnostic yield of fetal and neonatal whole body post‐mortem ultrasound

Fetal brain MRI: how it added to ultrasound diagnosis of fetal CNS anomalies-1 year experience

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