Symmetrical thalamic calcification: A trio whole exome sequencing negative series.

Symmetrical thalamic calcification or bilateral symmetrical thalamic gliosis presents at delivery with hypertonia, fixed flexion contractures and prominent bulbar signs, without preceding perinatal asphyxia. At post-mortem, there is evidence of bilateral symmetrical selective thalamic neuronal encrustation and gliosis. To date, 27 cases are published with no underlying diagnosis identified. Two affected children from singleton pregnancies were reported and therefore, a genetic cause proposed. No previous reports have performed genetic testing to confirm or reject this hypothesis. We report three additional cases of this rare condition, expanding the clinical and pathological phenotype. We performed trio whole exome sequencing, the first in this cohort of patients, and did not identify a pathogenic variant. As postulated in the original report, the likely underlying mechanism is antenatal hypoxia in the third trimester.

The variable phenotypes of KCNQ-related epilepsy.

Mutations in KCNQ2 and KCNQ3 were originally described in infants with benign familial neonatal seizures (BFNS). Recently, KCNQ2 mutations have also been shown to cause epileptic encephalopathy. This report describes three infants carrying abnormalities of KCNQ2 and one infant with a KCNQ3 mutation. The different KCNQ2 abnormalities led to different phenotypes and included a novel intragenic duplication, c.419_430dup, in an infant with BFNS, a 0.761Mb 20q13.3 contiguous gene deletion in an infant with seizures at 3 months, and a recurrent de novo missense mutation c.881C>T in a neonate with "KCNQ2-encephalopathy." The mutation in KCNQ3, c.989G>A, was novel and occurred in an infant with BFNS. KCNQ-related seizures often present with tonic/clonic manifestations, cyanosis, or apnea. Certain genotype-phenotype correlations help predict outcome. Similarly affected family members suggests benign familial "KCNQ-related" epilepsy, whereas neonatal seizures with unexplained multifocal epileptiform discharges or burst suppression on electroencephalography, and acute abnormalities of the basal ganglia/thalami are suggestive of KCNQ2-encephalopathy, which is often sporadic. 20q13.33 contiguous gene deletion encompassing KCNQ2 may harbor atypical features depending on deletion size. Although the phenotype often guides direct targeted gene testing in these conditions, array CGH should also be considered in suspected sporadic or atypical familial cases to diagnose 20q13.33 deletion.