Objective To screen for genomic copy number variants(CNVs)in six neonates with Pierre Robin sequence(PRS)by Affymetrix 2.7 M chip to identify possible loci related to PRS.Methods Six neonates with PRS admitted into the Department of Neonatology,Children's Hospital of Fudan University from June 2009 to May 2010 were enrolled in this study.CNVs were detected by Cytogenetic Whole Genome 2.7 M array.Rare CNVs with potential clinical significance that deletion segments' size ＞50 kb and duplication segments' size ＞200 kb were selected based on the analysis of Chromosome Analysis Suite(ChAS)software,false positive CNVs and segments of normal population were excluded.The identified CNVs were compared with those in relative published literatures.Results(1)Among 6 PRS patients,two patients had facial deformation,two had congenital heart defects,one had congenital dysplasia of the laryngeal cartilage and one had choroidal space occupying lesion.(2)Seven rare CNVs whose size from 51-11 956 kb were identified in four neonates,including a 739 kb duplication on lp26.23-p36.22,a 6273 kb deletion on lq43-44,a 51 kb and a 55 kb deletions on 14q32.31,a 1022 kb duplication on 14q11.1-11.2,a 11 956 kb duplication on 20p13 and a 105 kb deletion on 4q23.3.(3)Published literatures showed that deletions of 1q43-44 and 14q32.31 might relate to micro/retrognathia and abnormal palate.Region of chromosome 1q43-q44 contained AKT3 and heterogeneous nuclear ribonucleoprotein U(hnRNPU)genes,and the haploinsufficiency of AKT3 and hnRNPU genes might cause developmental human microcephaly and agenesis of the corpus callosum,speech delay and seizures respectively.Region of chromosome 14q32.31 contained some C/D small nucleolar RNA,and the human imprinted 14q32 domain shared common genomic features with the imprinted 15q11-q13 loci.Conclusions This study established a method to discover whole genome CNVs in identifying novel submicroscopic deletions and duplications.Reviewing of published literatures suggested that deletions of chromosome 1q43-q44 and 14q32.31 might cause Pierre Robin sequence.

Non-coding RNAs ( ncRNA ), including ribosomal RNA( rRNA), transfer RNA( tRNA), MicroRNA ( miRNA), long noncoding RNA(lncRNA) and small nucleolar RNA(snoR-NA), are a class of RNA that have multiple functions and are not translated to proteins. MicroRNA and lncRNA are involved in the injury, remodeling and aging of blood vessels, and it is necessary to understand the regulatory roles of MicroRNA and lncRNA in these processes. It is reported that MicroRNA and lncRNA are not only participated in the regulation of oxidative response, inflammation, cell proliferation and migration, and phenotype transition, they are also involved in the regulation of gene expression by conducting different mechanisms, including transcriptional regulation, post-transcriptional modification and chromatin remodeling. These aspects of regulation by MicroRNA and lncRNA are related to cardiovascular diseases, such as ath-erosclerosis, hypertension, myocardial infarction, stroke, pul-monary hypertension and diabetes, and thus provide a new way for genetic diagnosis and therapy of cardiovascular diseases.

Objective To summarize the clinical feature,gene mutations,diagnosis,treatment,and follow-up data of protein-sensitive hypoglycemia,so as to improve the clinical understanding of the disease.Methods Five patients were diagnosed with protein-sensitive hypoglycemia during June in 2015 and December in 2017 from the Department of Pediatric Endocrinology and Inherited Metabolic Diseases,Children's Hospital of Fudan University.Clinical data of 5 cases were summarized,including clinical manifestations,findings of protein sensitivity test,therapy effect and prognosis.The endocrine and metabolic panel was used to investigate the genetic cause of four patients.Related literatures of protein-sensitive hypoglycemia were reviewed,and the phenotypes,genotypes,and therapy effects were summarized.Results Among the 5 patients diagnosed with positive results of protein-sensitive hypoglycemia,three were found to harbor glutamate dehydrogenase 1 (GLUD 1) mutations (c.965G ＞ A,p.R322H:2 cases;c.943C ＞T,p.H315Y:1 case),and another one had complex heterozygous mutations in L-3-hydroxyacyl-CoA dehydrogenase (HADH,c.29G ＞ C,p.R10P;c.89T＞ A,p.V30E).5 patients were euglycemia without any medical support after low protein diet.In 18 literatures retrieved and this study,there were totally 161 cases of protein-sensitive hypoglycemia (149 cases with GLUD1 mutations and 10 cases with HADH mutations).Conclusions When a child was admitted because of hypoglycemia,the diagnosis of protein-sensitive hypoglycemia should be suspected if he or she also had postprandial hypoglycemia,with or without hyperammonemia.Protein sensitivity test is helpful for us to make the diagnosis of protein-sensitive hypoglycemia.

Hospice care is the product of the development of social civilization. Our country has gradually promoted the development of hospice care from the government, society, education and other levels, but has invested less in systematic education. This article reviews the development status of hospice care education at home and abroad in order to provide a reference for the development of related education in our country.

Objective:To summarize the clinical features and therapeutic outcomes of patients with hyperinsulinemic hypoglycemia (HH) auxiliarily diagnosed by 18F-DOPA positron emission tomography (PET) CT scanning. Methods:The clinical data of 123 patients who were diagnosed with hyperinsulinemic hypoglycemia by comprehensive clinical diagnostic procedures in the Department of Pediatric Endocrinology and Inherited Metabolic Diseases, Children′s Hospital of Fudan University between January 2016 and December 2020 were retrospectively analyzed. Clinical data such as gender, age of onset, province, concurrent serum insulin level measured during hypoglycemia, lesion type of pancreas by 18F-DOPA-PET CT scanning, genetic test results, and treatment were collected successively. The clinical features and therapeutic outcomes were compared between patients with focal and diffuse pancreatic lesions. T test, Rank sum test, and χ2 test were used for comparison between groups. Results:A total of 123 patients with hyperinsulinemic hypoglycemia (72 males and 51 females), whose average age of onset was 3 days (ranging from 1 day to 4 860 days), were recruited from 24 provinces. The concurrent serum insulin level was 7.1 (0.4-303.0) mU/L during hypoglycemia. 18F-DOPA-PET CT scanning identified focal lesions in 25.2% (31/123) and diffuse lesions in 74.8% (92/123) of the patients; 64.2% (79/123) of the HH cases were found to have pathogenic gene variants, in which 88.6% (70/79) were found to have K ATP channel related genes (61 in ABCC8 and 9 in KCNJ11 mutations). Thirty-seven patients (17 focal and 20 diffuse) received surgical treatment with a success rate of 67.6% (25/37). The effective rate of diazoxide for children with diffuse type was significantly higher than that of children with focal group (28.3% (26/92) vs. 9.7% (3/31), χ2=10.31, P=0.001). Conclusions:18F-DOPA-PET CT scan can improve the success rate of surgery. Comprehensive diagnosis of the etiology of hyperinsulinemic hypoglycemia by genetic analysis and 18F-DOPA-PET CT scanning can result in better treatment and prognosis.