Pontocerebellar Hypoplasia: a Pattern Recognition Approach.

Pontocerebellar hypoplasias (PCH) represent a heterogeneous group of very rare disorders with reduced volume of pons and cerebellum. The term is purely descriptive and does not imply a genetic progressive disease. Currently (as of Jan 01, 2020), 13 different types are listed in OMIM (Online Mendelian Inheritance in Man), associated with 19 different genes. However, a large group of similar imaging patterns is known, and it is unclear why some are labeled as PCH, while others are not. The latter include CASK- and VLDLR-associated disorders, some tubulinopathies, certain dystroglycanopathies, a few congenital disorders of glycosylation (CDG) syndromes, several forms associated with rare variants (e.g., DCK1, WDR81, ITPR1), and "cerebellar disruption of prematurity"-an acquired etiology. The objective of this paper is to elaborate a pattern recognition approach, mainly imaging-based, to facilitate a timely and accurate diagnosis, to narrow the differential diagnosis, and to enable targeted additional (genetic) investigations. We describe magnetic resonance imaging (MRI) findings and offer "checklists" for infratentorial findings (e.g., non-lobulated vermis, dragonfly pattern of the cerebellum, cerebellar cysts, brainstem kinking, longitudinal grooves along the brainstem, flat pons) as well as for supratentorial anomalies (e.g., agenesis of corpus callosum, optic atrophy, simplified gyral pattern, and hypomyelination). The clinical context and laboratory investigations need to be considered as well. We also provide a "checklist" for clinical features. A systematic analysis of imaging and clinical features can assist in narrowing the differential diagnosis and permitting more targeted genetic testing. Some imaging patterns are diagnostic.

Structural brain anomalies in Cri-du-Chat syndrome: MRI findings in 14 patients and possible genotype-phenotype correlations.

INTRODUCTION: Cri-du-Chat Syndrome (CdCS) is a genetic condition due to deletions showing different breakpoints encompassing a critical region on the short arm of chromosome 5, located between p15.2 and p15.3, first defined by Niebuhr in 1978. The classic phenotype includes a characteristic cry, peculiar facies, microcephaly, growth retardation, hypotonia, speech and psychomotor delay and intellectual disability. A wide spectrum of clinical manifestations can be attributed to differences in size and localization of the 5p deletion. Several critical regions related to some of the main features (such as cry, peculiar facies, developmental delay) have been identified. The aim of this study is to further define the genotype-phenotype correlations in CdCS with particular regards to the specific neuroradiological findings. PATIENTS AND METHODS: Fourteen patients with 5p deletions have been included in the present study. Neuroimaging studies were conducted using brain Magnetic Resonance Imaging (MRI). Genetic testing was performed by means of comparative genomic hybridization (CGH) array at 130 kb resolution. RESULTS: MRI analyses showed that isolated pontine hypoplasia is the most common finding, followed by vermian hypoplasia, ventricular anomalies, abnormal basal angle, widening of cavum sellae, increased signal of white matter, corpus callosum anomalies, and anomalies of cortical development. Chromosomal microarray analysis identified deletions ranging in size from 11,6 to 33,8 Mb on the short arm of chromosome 5. Then, we took into consideration the overlapping and non-overlapping deleted regions. The goal was to establish a correlation between the deleted segments and the neuroradiological features of our patients. CONCLUSIONS: Performing MRI on all the patients in our cohort, allowed us to expand the neuroradiological phenotype in CdCS. Moreover, possible critical regions associated to characteristic MRI findings have been identified.

"Twig-like" cerebral vessels are not pathognomonic for ACTA A2 mutations: A case report.

ACTA2 mutations are recently described genetically defined abnormalities of blood vessels in various organs of the body with specific abnormalities in cerebral vessels in the form of straightening of all cerebral arteries ("twig-like" pattern), stenosis/occlusions, proximal dilatation, and absent "moyamoya" type of collaterals. We describe a one-and-a half year-old girl child who presented with mild motor developmental delay and on neuroimaging showed septo-preoptic holoprosencephaly, diffuse radial polymicrogyria, and pontine hypoplasia along with magnetic resonance angiographic features suggestive of ACTA2 mutation type of cerebral vessels. However, genetic studies revealed no evidence of ACTA2 mutation, indicating that the "twig-like" pattern may not only be a pathognomonic feature of ACTA2 mutations.