Band‐like intracranial calcification with simplified gyration and polymicrogyria: A distinct “pseudo‐TORCH” phenotype

Briggs, Tracy A; Wolf, Nicole I.; D’Arrigo, Stefano; Ebinger, Friedrich; Harting, Inga; Dobyns, William B.; Livingston, John H.; Rice, Gillian I.; Crooks, Daniel; Rowland-Hill, Christopher; Squier, Waney; Stoodley, Neil; Pilz, Daniela T.; Crow, Yanick J.

doi:10.1002/ajmg.a.32614

Cited by 50 publications

(64 citation statements)

References 33 publications

(36 reference statements)

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“…23,24 Importantly, our neuropathologic evaluation demonstrated that the Zika virus-infected fetal brain shares most of the neuroimaging changes seen in other intrauterine TORCH infections and even in pseudo-TORCH phenotypes. 6,7,8,25,26 It is difficult to make a comparison with the neuropathology of such cases because relatively few autopsies with brain examinations have been performed, 27 not only in cases of Zika virus-associated microcephaly but also in other intrauterine fetal brain infections. 28,29 Some changes, especially those of a malformed cortex, have frequently been described as polymicrogyria on MRI, which should be interpreted with caution.…”

Section: Discussionmentioning

confidence: 99%

“…6 Some cases with fetal, intracranial, bandlike calcifications, similar to those produced by TORCH agents but without confirmed intrauterine viral infection, have been described under the term pseudo-TORCH. 7,8 The most-frequent microorganisms affecting the fetal brain and causing microcephaly, usually accompanied by calcifications, are cytomegalovirus and Toxoplasma gondii. 6 An outbreak of microcephaly in Brazil, causally associated with the Zika virus epidemic since May 2015, has resulted in this emerging viral infection becoming the leading causative agent of microcephaly in South and Central America 9,10 and a serious threat to pregnant women from other countries who have visited that region.…”

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confidence: 99%

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Zika Virus–Associated Micrencephaly: A Thorough Description of Neuropathologic Findings in the Fetal Central Nervous System

Štrafela¹,

Vizjak²,

Mraz³

et al. 2016

Archives of Pathology &Amp; Laboratory Medicine

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Context.-The 2015 outbreak of Zika virus in Brazil resulted in a 20-times increased prevalence of congenital microcephaly in stillborns and neonates and was instrumental in raising the suspicion of a causal association between Zika virus and microcephaly.Objective.-To provide a comprehensive description of the neuropathologic features of congenital Zika virus infection.Design.-Autopsy evaluation of the brain from a fetus of 32 weeks and 6 days of gestation, with a prenatal diagnosis of microcephaly associated with polymerase chain reaction-confirmed, fetal, Zika virus infection.Results.-Multiple severe pathology findings were present. These included lissencephaly, except for the occipital lobes, where some pachygyria was observed. Also present was reduction and thinning of white matter, ventriculomegaly of the lateral ventricles, and coalescent calcifications in the cortical-subcortical white matter border associated with glioneuronal outbursting into the subarachnoid space above and heterotopias below. There were small, scattered calcifications in the basal ganglia, with fewer in the white matter and germinal matrix, and none in the cerebellum and brainstem. The cerebellum and pontine base were atrophic because of Wallerian degeneration or maldevelopment of descending tracts and pontocerebellar connections.Conclusion.-Our findings are in agreement with neuroimaging of Zika virus-associated fetal and infant micrencephalic brains and, to some extent, with neuroimaging of other intrauterine infections causing microcephaly.

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

Zika Virus–Associated Micrencephaly: A Thorough Description of Neuropathologic Findings in the Fetal Central Nervous System

Štrafela¹,

Vizjak²,

Mraz³

et al. 2016

Archives of Pathology &Amp; Laboratory Medicine

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“…Narrowly-defined pseudo-TORCH syndrome (al-Dabbous et al, 1998;Baraitser et al, 1983;Briggs et al, 2008;Burn et al, 1986;Cohen et al, 2012;Ishitsu et al, 1985;Knoblauch et al, 2003;Kulkarni et al, 2010;Nakamura et al, 2011;Reardon et al, 1994;Vivarelli et al, 2001;Watts et al, 2008;Wieczorek et al 1995), also called Baraitser-Reardon syndrome (Vivarelli et al, 2001), or band-like calcification with simplified gyration and polymicrogyria (BLCPMG; MIM: 251290) (Abdel-Salam & Zaki, 2009;Briggs et al, 2008;O'Driscoll et al, 2010), is associated with microcephaly and intracranial calcifications mimicking congenital toxoplasmosis in the absence of infection. Ocular changes are not reported with pseudo-TORCH syndrome / AGS.…”

Section: Overviewmentioning

confidence: 99%

“…These signs include microcephaly (Aalfs et al, 1995;Abdel-Salam & Zaki, 2009;AbdelSalam et al, 1999;Abdel-Salam et al, 2000;Ahmadi & Bradfield, 2007;Aicardi & Goutières, 1984;al-Dabbous et al, 1998;al-Gazali et al, 1999;Alzial et al, 1980;Angle et al, 1994;Atchaneeyasakul et al, 1998;Baraitser et al, 1983;Bogdan, 1951;Book et al, 1953;Briggs et al, 2008;Burn et al, 1986;Cantú et al, 1977;Casteels et al, 2001;Dale et al, 2000;EventovFriedman et al, 2009;Feingold & Bartoshesky 1992;Fisch et al, 1973;Fryns et al, 1995;Hoyeraal et al, 1970;Hordijk et al, 1996;Hreidarsson et al, 1988;Ishitsu et al, 1985;Jarmas et al, 1981;Kloepfer et al, 1964;Knoblauch et al, 2003;Komai et al, 1955;Kozma et al, 1996;Kulkarni et al, 2010;Leung, 1985;Limwongse et al, 1999;McKusick et al, 1966;Mishra et al, 2002;Nakamura et al, 2011;Nemos et al, 2009;Ostergaard et al, 2012;Pearson et al, 2008;Reardon et al, 1994;…”

Section: Introductionmentioning

confidence: 99%

“…The majority of the cases have a family history (Abdel-Salam & Zaki, 2009;Aicardi & Goutières, 1984;al-Dabbous et al, 1998;al-Gazali et al, 1999;Alzial et al, 1980;Atchaneeyasakul et al, 1998;Baraitser et al, 1983;Bogdan, 1951;Book et al, 1953;Briggs et al, 2008;Burn et al, 1986;Cantú et al, 1977;Cohen et al, 2012;Dale et al, 2000;Fisch et al, 1973;Hordijk et al, 1996;Ishitsu et al, 1985;Jarmas et al, 1981;Knoblauch et al, 2003;Kozma et al, 1996;Leung, 1985;Limwongse et al, 1999;McKusick et al, 1966;Reardon et al, 1994;Sadler & Robinson, 1993;Simonell et al, 2002;Slee et al, 1999;Trzupek et al, 2007;van Genderen et al, 1997;Vivarelli et al, 2001;Warburg & Heuer, 1994), and thus a genetic basis has been proposed.…”

Section: Introductionmentioning

confidence: 99%

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Pseudo Toxoplasmosis

Shimada¹

2012

Toxoplasmosis - Recent Advances

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Characterizing the Pattern of Anomalies in Congenital Zika Syndrome for Pediatric Clinicians

et al. 2017

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ontracted through the bite of an infected mosquito or through sexual or other modes of transmission, Zika virus (ZIKV) infection can be prenatally passed from mother to fetus. 1 The virus was first identified in the region of the Americas in early 2015, when local transmission was reported in Brazil. 2 Six months later, a notable increase in the number of infants with congenital microcephaly was observed in northeast Brazil. 3,4 Clinical, epidemiologic, and laboratory evidence led investigators to conclude that intrauterine ZIKV infection was a cause of microcephaly and serious brain anomalies. [5][6][7] However, as with other newly recognized teratogens, these features likely represent a portion of a broader spectrum.A comprehensive review of the English literature, identified by searching Medline and EMBASE for Zika from inception through Sep-tember 30, 2016, was done to better characterize the spectrum of anomalies in fetuses and infants with presumed or laboratoryconfirmed ZIKV infection. A constellation of anomalies that is both consistent and unique, called congenital Zika syndrome (CZS), has emerged but specific components and presumed pathogenetic mechanisms previously have not been well-delineated. [8][9][10] Zika virus infection has spread to more than 45 countries in the Americas and 3 US territories, and, most recently, local transmission was confirmed in the continental United States in the state of Florida. 11 Mosquito-borne transmission of ZIKV in other areas of the United States is possible based on the estimated range of its vectors (Aedes aegypti and Aedes albopictus). 12 Recognition of the CZS phenotype by pediatric clinicians will help ensure appropriate and timely evaluation and follow-up of affected infants.IMPORTANCE Zika virus infection can be prenatally passed from a pregnant woman to her fetus. There is sufficient evidence to conclude that intrauterine Zika virus infection is a cause of microcephaly and serious brain anomalies, but the full spectrum of anomalies has not been delineated. To inform pediatric clinicians who may be called on to evaluate and treat affected infants and children, we review the most recent evidence to better characterize congenital Zika syndrome.OBSERVATIONS We reviewed published reports of congenital anomalies occurring in fetuses or infants with presumed or laboratory-confirmed intrauterine Zika virus infection. We conducted a comprehensive search of the English literature using Medline and EMBASE for Zika from inception through September 30, 2016. Congenital anomalies were considered in the context of the presumed pathogenetic mechanism related to the neurotropic properties of the virus. We conclude that congenital Zika syndrome is a recognizable pattern of structural anomalies and functional disabilities secondary to central and, perhaps, peripheral nervous system damage. Although many of the components of this syndrome, such as cognitive, sensory, and motor disabilities, are shared by other congenital infections, there are 5 features that are rarely seen w...

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Band‐like intracranial calcification with simplified gyration and polymicrogyria: A distinct “pseudo‐TORCH” phenotype

Cited by 50 publications

References 33 publications

Zika Virus–Associated Micrencephaly: A Thorough Description of Neuropathologic Findings in the Fetal Central Nervous System

Zika Virus–Associated Micrencephaly: A Thorough Description of Neuropathologic Findings in the Fetal Central Nervous System

Pseudo Toxoplasmosis

Characterizing the Pattern of Anomalies in Congenital Zika Syndrome for Pediatric Clinicians

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