Objective: The aim of the present study is to explore the clinical and genetic characteristics of 3p deletion syndrome to improve clinicians' understanding of the disease.Methods: The clinical manifestations, process of diagnosis and treatment, and genetic characteristics of an individual case of 3p deletion syndrome were analyzed. CNKI, Wanfang Data, and the Biomedical Literature Database (PubMed) were searched. The search time limit, using “3p deletion syndrome” and “BRPF1” as keywords, was from the creation of the database up to June 2020. Related data were reviewed.Results: The proband was a male child with general developmental and intellectual disabilities, special facial features and congenital heart disease. The child was the parents' first pregnancy and first born. Gene microarray analysis showed a 10.095 Mb deletion in the 3p26.3-p25.3 region, resulting in a heterozygous mutation of the BRPF1 gene; thus, the patient was diagnosed with 3p deletion syndrome. At the time of diagnosis, the child was 1 year of age and was responding to comprehensive rehabilitation training. A total of 29 well-documented cases were found in the literature, of which 19 cases had an onset within 1 year of birth, and mainly manifested with mental and motor development disabilities and abnormal facial features, with different gene deletions, depending on the size and location of the 3p deletion.Conclusion: The genetic test results of the child in this study indicated a heterozygous deletion of the BRPF1 gene on the short arm of chromosome 3, which was a unique feature of this study, since it was rarely mentioned in other reports of 3p deletion syndrome. The clinical phenotype of this syndrome is complex as it can include intellectual and motor development backwardness, low muscle tone, certain abnormal facial features (low hairline, bilateral ptosis, widely spaced eyes, a forward nose, left ear auricle deformity, a high-arched palate, a small jaw), and the deformation of systems such as the gastrointestinal tract and the urinary tract malformation or symptoms of epilepsy. As clinical manifestations can be relatively mild, the syndrome is easy to miss or misdiagnose. Clinical workers need to be aware of this disease when they find that children have special features, such as stunted growth, low muscle tone or ptosis, and it needs to be diagnosed through genetic testing. Most children are able to develop certain social skills after rehabilitation treatment.
Rationale:The aim of this study was to analyze the clinical and imaging features of a pediatric patient with mucopolysaccharidosis type IIIA (MPS IIIA) and a novel mutation of the N-sulfoglucosamine sulfohydrolase (SGSH) in 1 pedigree.Patient concerns:An 8-year-old female patient presented with developmental regression, seizures, cerebral atrophy, thickened calvarial diploe, apathy, esotropia, slender build, thick hair, prominent eyebrows, hepatomegaly, ankle clonus, muscle and joint contractures, and funnel chest.Diagnoses:The patient was diagnosed as autosomal recessive (AR) MPS IIIA with a novel mutation in the SGSH gene.Interventions:Genomic DNA was extracted from the peripheral blood and next-generation sequencing (NGS) technology was used to detect pathogenic genes, and the Sanger method was applied to perform pedigree verification for the detected suspicious pathogenic mutations.Outcomes:The NGS done for the girl and her family showed 2 variations that were both missense mutations in SGSH. The c.1298G > A (p.Arg433Gln) was a known mutation, and the c.630 G > T (p.Trp210Cys) was a novel variation.Lessons:The common clinical manifestations of MPS IIIA were rapid developmental regression, seizures, cerebral atrophy, and thickened calvarial diploe. The results showed that the c.630 G > T was likely pathogenic according to bioinformatics analysis, which probably was a novel mutation. This study reports 1 case of MPS IIIA with some clinical features as determined via clinical and genetic analysis, and found a new mutation in the SGSH gene.
Background:The chromosomal 15q11-q13 regions are structurally complex, and their abnormalities are associated with various neuropsychiatric disorders, including autism spectrum disorder (ASD), epilepsy, Angelman syndrome, and Prader-Willi syndrome.Case description: A 6-year-old child was admitted to the hospital as a result of an "epileptic status" showing ASD, intractable epilepsy, and total developmental retardation. Chromosome gene detection showed repetitive variation in the 15q11-q13 regions, and the video electroencephalogram was abnormal. Although children are currently given antiepileptic treatment and rehabilitation training, intermittent seizures can still occur. Conclusion:The clinical phenotypes of 15q11-q13 repetitive syndrome are complex, and vary in severity. Children with intractable epilepsy, ASD, and language and motor retardation should be considered to have this syndrome, which requires confirmation by multiplex ligation-dependent probe amplification and gene detection. These approaches can enable early rehabilitation treatment and improve the patients' quality of life. K E Y W O R D S15q11-q13 repetitive syndrome, autism spectrum disorder, chromosomal diseases, intractable epilepsy INTRODUCTIONOverall, 15q11-q13 repetitive syndrome is an autosomal dominant genetic disorder characterized by different clinical manifestations based on the individual. The common manifestations include developmental retardation, hypotonia, bradykinesia, mental retardation, epilepsy, and autism spectrum disorder (ASD). Autism spectrum disorder is a complex neurological disease characterized by social difficulties, language disorders, and repetitive and stereotypical behaviors.Additionally, over 70% of children have mental retardation. GeneticThis is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
Objective Gene mutation analysis was performed on a family with familial hemophagocytic lymphohistiocytosis (FHL) so as to provide an accurate etiological diagnosis, leading to genetic counseling for the family members. Methods The clinical data of two probands (siblings) with FHL in one family were analyzed, and eight genes related to the onset of the primary hemophagocytic lymphohistiocytosis (pHLH) ( PRF1, UNC13D, STX11, STXBP2, SH2D1A, BIRC4/XIAP, Rab27a, LYST ) were detected and analyzed in the probands and their parents with whole exome sequencing. Results Proband 1 was a two-year-old male with the clinical manifestations of fever, hepatosplenomegaly, and a decreased peripheral blood cell count, sCD25: 12504pg/mL. The results of genetic testing showed that there was a c.1349C>T heterozygous missense mutation and a c.853_855del heterozygous mutation in the PRF1 in proband 1. Proband 2 was an eight-year-old female with the clinical manifestations of convulsions and disturbance of consciousness with fever. The genetic test results were the same as those of proband 1. There was a single heterozygous mutation in the parents of the probands, and both probands had compound heterozygous mutations. Conclusion According to the clinical manifestations, laboratory tests, and results of the family molecular genetic testing, the probands could be clinically diagnosed as FHL2. The results of gene sequencing revealed that this was an autosomal recessive family with familial hemophagocytic syndrome. A rare pathogenic mutation (c.853_855del) in the PRF1 was discovered in the two patients with HLH.
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