SARS‐CoV‐2 (Severe Acute Respiratory Syndrome, Coronavirus, type 2) is the virus responsible for the global pandemic of Coronavirus disease 2019 (COVID‐19) that began in China in December 2019. The variability of nasal olfactory symptoms in pediatric patients is interlinked with possible warning signs, including respiratory, gastrointestinal, ocular, or dermatological symptoms. Skin findings in patients with COVID‐19 can range from petechiae to papulovesicular rashes to diffuse urticaria and can be confused with rashes of non‐COVID‐19 conditions. These lesions typically appear early during COVID‐19 and are thought to be secondary to viral replication or circulating cytokines. Herein, we discuss two pediatric cases, presenting with skin lesions, which tested positive for SARS‐CoV‐2, thus, briefly reviewing current literature for similar reports and related management. Although these lesions heal spontaneously in most cases, an adequate “targeted” therapeutic approach can shorten the time and the discomfort of the skin disease.
The 8p inverted duplication/deletion is a rare chromosomal rearrangement clinically featuring neurodevelopmental delay, mild to severe cognitive impairment, heart congenital defects and brain abnormalities. Patients affected also present typical facial dysmorphisms and skeletal malformations, and it is thought that the composite clinical picture may fall into the chromosomal rearrangement architecture. With the major aim of better framing its related clinical and diagnostic paths, we describe a patient carrying a de novo invdupde[8p] whose clinical features have not been described so far. Hence, through an extensive genotype–phenotype correlation analysis and by reviewing the dedicated scientific literature, we compared our patient’s features with those reported in other patients, which allows us to place our proband’s expressiveness in an intermediate area, widening the scope of the already known invdupde[8p] genotype–phenotype relationship.
Craniosynostosis, the premature closure of cranial sutures, is one of the principal causes of pediatric skull deformities. It can cause aesthetic, neurological, acoustic, ophthalmological complications up to real emergencies. Craniosynostosis are primarily diagnosed with accurate physical examination, skull measurement and observation of the deformity, but the radiological support currently plays an increasingly important role in confirming a more precise diagnosis and better planning for therapeutic interventions. The clinician must know how to diagnose in the earliest and least invasive way for the child. In the past, technological limitations reduced the choices; today, however, there are plenty of choices and it is necessary to use the various types of available imaging correctly. In the future, imaging techniques will probably rewrite the common classifications we use today. We provide an updated review of the role of imaging in this condition, through the ages, to outline the correct choice for the clinician for an early and non-invasive diagnosis.
Microcephaly is an important neurological sign defined by a cranial circumference < 2 standard deviations or < 3 standard deviations in the severe form compared with age- and gender-matched children. Microcephaly is classified as congenital (prenatal) and postnatal. In general, microcephaly may result from an insult, including infections, metabolic diseases, cerebral malformations, and/or genetic syndromes that disturb early brain growth. Clinical history, the trajectory of the child's growth in terms of head circumference, and a detailed physical examination will often be suggestive of a diagnostic workup. Advances in neuroimaging and especially genetics have yielded improvements in understanding the causes of microcephaly, leading to new approaches in diagnosis, treatment, and prevention. The aim of the present study is to report the current practice for the diagnostic algorithm of genetic microcephaly, with prenatal onset.
KCNQ genes encode for a family of six transmembrane domains, single pore-loop, and K+ channel α-subunits that have a wide range of physiological correlates. In the brain, KCNQ2 and KCNQ3 heteromultimers are thought to underlie the M-current which is essential in raising the threshold for firing an action potential; mutations in these genes may cause several types of infantile epilepsies. KCNQ2-related disorders represent a continuum of overlapping neonatal epileptic phenotypes that range from KCNQ2 benign familial neonatal epilepsy (BFNE), a seizure disorder that occur in children who typically have a normal psychomotor development and are inherited as an autosomal dominant trait, to KCNQ2 early-onset epileptic encephalopathy (EOEE) as the result of a de novo pathogenic variant. KCNQ3-related disorders are rarer and include BFNE, benign familial infantile epilepsy and KCNQ3-related epileptic encephalopathy with intellectual disability with or without seizures and/or cortical visual impairment. For both KCNQ2- and KCNQ3-related disorders, it is possible to use several drugs for different classes of mutations (i.e., gain of function vs. loss of function), and usually their effects vary in relation to the clinical presentation and the phenotype of the patient. However, KCNQ2-EOEE patients have a worse response to treatment than KCNQ2-BFNE patients and usually become drug resistant with multiple daily seizures.
Pediatric acute-onset neuropsychiatric syndrome (PANS) is a condition characterized by the abrupt, dramatic onset of obsessive–compulsive disorder (OCD) or eating restriction accompanied by equally abrupt and severe comorbid neuropsychiatric symptoms. PANDAS (pediatric autoimmune neuropsychiatric disorder associated with streptococcal infection) is a heterogeneous syndrome identified as post-Streptococcus pyogenes infection (β-hemolytic Streptococcus group A) complications regarding the central nervous system with specific involvement of neuropsychiatric and behavioral skills. In the first part of our study, we share our experience in the treatment of a group of extreme-grade (according to CY-BOCS severity scale) symptomatic patients with intravenous immunoglobulin (IVIG), following the most recent studies regarding the dosage of the drug. Our contribution is to share our experience made on a sample of 55 patients all in the highest level of a severity grade. In the second part of our study, we also analyze the literature on PANS/PANDAS rehabilitation therapy, since in the literature there is no discussion of union and comparison on this method. Objective: This study aims to evaluate the clinical features of the patients observed from different Italian cohorts, with the attempt at evaluating clinical response to IVIG treatment in children with an extreme severity grade of PANS/PANDAS disease. Furthermore, after having analyzed the literature, we propose rehabilitation therapy as an added value to the pharmacological treatment. Materials and Methods: A total of 55 patients with a diagnosis of PANS/PANDAS, who belonged to an extreme grade of disease, were enrolled. All patients were administered with IVIG treatment at 2 g/kg per day for two consecutive days. Results: From our study, a noticeable improvement (until complete remission) of symptoms was evident for at least one year in 47 out of 55 (85%) observed children, while 11 out of these 43 (25%) showed an evident symptoms remission in a single attempt and the remaining 32 (75%) required a second administration to notice a lasting symptomatic improvement.
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