Objective:To explore the clinical and genetic characteristics of two children diagnosed with two rare genetic diseases simultaneously.Methods:Two children with comorbidity of two genetic diseases due to dual genetic mutations diagnosed at the Third Affiliated Hospital of Zhengzhou University respectively in May 2022 and March 2023 were selected as the study subjects. Clinical and genetic data of the two children were retrospectively analyzed. This study has been approved by the Ethics Committee of the Third Affiliated Hospital of Zhengzhou University (Ethic No. 2021-062-01).Results:Child 1 was a 2-year-and-4-month-old boy whose clinical manifestations included facial dysmorphism, developmental delay, short stature, microcephaly, cleft palate, cryptorchidism, hypospadias, recurrent infections and immunological abnormalities. Whole exome sequencing revealed that he had harbored a heterozygous c.6595delT (p.Y2199Ifs*65) variant of the KMT2D gene and a heterozygous c. 1892G>A (p.R631Q) variant of the PIK3R1 gene. This has led to a dual genetic diagnosis of Kabuki syndrome and PI3Kδ-related immunodeficiency type 36. Child 2 was a 15-year-old girl whose clinical manifestations included epilepsy, Albright′s hereditary osteodystrophy, long body trunk, short limbs, hypocalcemia, hyperphosphatemia and hyperparathyroidism. The child also had a family history of short stature. Whole exome sequencing revealed that she had harbored a heterozygous c. 2T>C (p.Met1? ) variant of the GNAS gene and deletion of exons 2 to 6 of the SHOX gene. The two variants have led to dual diagnose of pseudohypoparathyroidism and X-linked idiopathic short stature. Conclusion:When the clinical phenotype of a genetic disease is complex and cannot be fully explained with a single genetic variant, multiple pathogenic variants should be considered, and this may lead to the diagnosis of co-morbid genetic diseases. To adopt or supplement corresponding genetic testing in time and re-analyze the genetic data may facilitate accurate diagnosis of comorbid genetic diseases.

OBJECTIVE: To explore the clinical and genetic characteristics of two children diagnosed with two rare genetic diseases simultaneously. METHODS: Two children with comorbidity of two genetic diseases due to dual genetic mutations diagnosed at the Third Affiliated Hospital of Zhengzhou University respectively in May 2022 and March 2023 were selected as the study subjects. Clinical and genetic data of the two children were retrospectively analyzed. This study has been approved by the Ethics Committee of the Third Affiliated Hospital of Zhengzhou University (Ethic No. 2021-062-01). RESULTS: Child 1 was a 2-year-and-4-month-old boy whose clinical manifestations included facial dysmorphism, developmental delay, short stature, microcephaly, cleft palate, cryptorchidism, hypospadias, recurrent infections and immunological abnormalities. Whole exome sequencing revealed that he had harbored a heterozygous c.6595delT (p.Y2199Ifs*65) variant of the KMT2D gene and a heterozygous c.1892G>A (p.R631Q) variant of the PIK3R1 gene. This has led to a dual genetic diagnosis of Kabuki syndrome and PI3Kδ-related immunodeficiency type 36. Child 2 was a 15-year-old girl whose clinical manifestations included epilepsy, Albright's hereditary osteodystrophy, long body trunk, short limbs, hypocalcemia, hyperphosphatemia and hyperparathyroidism. The child also had a family history of short stature. Whole exome sequencing revealed that she had harbored a heterozygous c.2T>C (p.Met1?) variant of the GNAS gene and deletion of exons 2 to 6 of the SHOX gene. The two variants have led to dual diagnose of pseudohypoparathyroidism and X-linked idiopathic short stature. CONCLUSION When the clinical phenotype of a genetic disease is complex and cannot be fully explained with a single genetic variant, multiple pathogenic variants should be considered, and this may lead to the diagnosis of co-morbid genetic diseases. To adopt or supplement corresponding genetic testing in time and re-analyze the genetic data may facilitate accurate diagnosis of co-morbid genetic diseases.
Child, Preschool ; Female ; Humans ; Male ; Class Ia Phosphatidylinositol 3-Kinase/genetics* ; Comorbidity ; Exome Sequencing ; Mutation ; Rare Diseases/genetics* ; Retrospective Studies ; Adolescent

Objective:To summarize the clinical characteristics of invasive Group A Streptococcus (GAS) infection in children and to provide reference for its clinical treatment and diagnosis. Methods:The medical records of inpatients whose sterile body fluids tested positive for GAS in Beijing Children′s Hospital from February 2013 to June 2024 were reviewed in this case series study.The clinical information of the patients was collected and summarized as a case report.Non-normally distributed measurement data were represented by the median ( M), and count data were represented by cases (%). Results:There were 42 cases of invasive GAS infection, with a median age of 6 years and 3 months (range: 14 days to 13 years and 7 months).Twenty-seven patients (64.3%) developed this disease in winter.In terms of susceptibility factors, there were 4 cases of trauma, 2 cases of influenza A, 1 case of neuroblastoma chemotherapy myelosuppression, 1 case of acute lymphoblastic leukemia chemotherapy myelosuppression, 1 case of varicella, and 1 case of scald among these 42 patients, there are no other obvious susceptibility factors.The types of specimens in which GAS was detected included 23 blood specimens, 9 pleural effusions, 9 sterile-site pus specimens, and 5 cerebrospinal fluids.GAS was detected in 4 children from two types of specimens simultaneously.The methods for detecting GAS included bacterial culture in 35 cases and next-generation sequencing in 9 cases.Two children tested positive for GAS by both methods.According to clinical diagnoses, there were 17 cases of pneumonia, 13 cases of streptococcus toxic shock syndrome, 10 cases of purulent meningitis, 6 cases of purulent osteomyelitis, 6 cases of purulent arthritis, 5 cases of cellulitis, 3 cases of necrotizing fasciitis, 2 cases of infectious myositis, and 2 cases of cervical abscess.Two or more clinical manifestations were detected in 26 patients.Drug sensitivity reports were available for 26 cases.All strains were sensitive to Penicillin, Vancomycin, Linezolid, Ceftriaxone and Cefepime.All except 2 were resistant to Clindamycin, and all were resistant to Erythromycin.All 42 cases were treated with intravenous antibiotics, and 21 of them also received human immunoglobulin.Three of the patients died and 39 were discharged from hospital. Conclusions:Pediatric invasive GAS infection occurs mainly in winter and manifests as pneumonia, purulent meningitis, purulent osteomyelitis, and purulent arthritis.The strains are sensitive to β-lactam antibiotics, Vancomycin and Linezolid, and most are resistant to Clindamycin and Erythromycin.

Objective:To summarize the clinical characteristics of invasive Group A Streptococcus (GAS) infection in children and to provide reference for its clinical treatment and diagnosis. Methods:The medical records of inpatients whose sterile body fluids tested positive for GAS in Beijing Children′s Hospital from February 2013 to June 2024 were reviewed in this case series study.The clinical information of the patients was collected and summarized as a case report.Non-normally distributed measurement data were represented by the median ( M), and count data were represented by cases (%). Results:There were 42 cases of invasive GAS infection, with a median age of 6 years and 3 months (range: 14 days to 13 years and 7 months).Twenty-seven patients (64.3%) developed this disease in winter.In terms of susceptibility factors, there were 4 cases of trauma, 2 cases of influenza A, 1 case of neuroblastoma chemotherapy myelosuppression, 1 case of acute lymphoblastic leukemia chemotherapy myelosuppression, 1 case of varicella, and 1 case of scald among these 42 patients, there are no other obvious susceptibility factors.The types of specimens in which GAS was detected included 23 blood specimens, 9 pleural effusions, 9 sterile-site pus specimens, and 5 cerebrospinal fluids.GAS was detected in 4 children from two types of specimens simultaneously.The methods for detecting GAS included bacterial culture in 35 cases and next-generation sequencing in 9 cases.Two children tested positive for GAS by both methods.According to clinical diagnoses, there were 17 cases of pneumonia, 13 cases of streptococcus toxic shock syndrome, 10 cases of purulent meningitis, 6 cases of purulent osteomyelitis, 6 cases of purulent arthritis, 5 cases of cellulitis, 3 cases of necrotizing fasciitis, 2 cases of infectious myositis, and 2 cases of cervical abscess.Two or more clinical manifestations were detected in 26 patients.Drug sensitivity reports were available for 26 cases.All strains were sensitive to Penicillin, Vancomycin, Linezolid, Ceftriaxone and Cefepime.All except 2 were resistant to Clindamycin, and all were resistant to Erythromycin.All 42 cases were treated with intravenous antibiotics, and 21 of them also received human immunoglobulin.Three of the patients died and 39 were discharged from hospital. Conclusions:Pediatric invasive GAS infection occurs mainly in winter and manifests as pneumonia, purulent meningitis, purulent osteomyelitis, and purulent arthritis.The strains are sensitive to β-lactam antibiotics, Vancomycin and Linezolid, and most are resistant to Clindamycin and Erythromycin.

Objective:To explore the clinical and genetic characteristics of two children diagnosed with two rare genetic diseases simultaneously.Methods:Two children with comorbidity of two genetic diseases due to dual genetic mutations diagnosed at the Third Affiliated Hospital of Zhengzhou University respectively in May 2022 and March 2023 were selected as the study subjects. Clinical and genetic data of the two children were retrospectively analyzed. This study has been approved by the Ethics Committee of the Third Affiliated Hospital of Zhengzhou University (Ethic No. 2021-062-01).Results:Child 1 was a 2-year-and-4-month-old boy whose clinical manifestations included facial dysmorphism, developmental delay, short stature, microcephaly, cleft palate, cryptorchidism, hypospadias, recurrent infections and immunological abnormalities. Whole exome sequencing revealed that he had harbored a heterozygous c.6595delT (p.Y2199Ifs*65) variant of the KMT2D gene and a heterozygous c. 1892G>A (p.R631Q) variant of the PIK3R1 gene. This has led to a dual genetic diagnosis of Kabuki syndrome and PI3Kδ-related immunodeficiency type 36. Child 2 was a 15-year-old girl whose clinical manifestations included epilepsy, Albright′s hereditary osteodystrophy, long body trunk, short limbs, hypocalcemia, hyperphosphatemia and hyperparathyroidism. The child also had a family history of short stature. Whole exome sequencing revealed that she had harbored a heterozygous c. 2T>C (p.Met1? ) variant of the GNAS gene and deletion of exons 2 to 6 of the SHOX gene. The two variants have led to dual diagnose of pseudohypoparathyroidism and X-linked idiopathic short stature. Conclusion:When the clinical phenotype of a genetic disease is complex and cannot be fully explained with a single genetic variant, multiple pathogenic variants should be considered, and this may lead to the diagnosis of co-morbid genetic diseases. To adopt or supplement corresponding genetic testing in time and re-analyze the genetic data may facilitate accurate diagnosis of comorbid genetic diseases.

Objective:To summarize the clinical characteristics of patients with epilepsy caused by focal cortical dysplasia (FCD), and identify the influencing factors for postoperative seizure controls.Methods:Fifty-seven patients with epilepsy caused by FCD admitted to Department of Neurosurgery, Third Affiliated Hospital of Zhengzhou University from July 2019 to November 2023 were chosen; standard preoperative evaluation, surgery, postoperative management and follow-up were performed. A retrospective study of clinical data, imaging and video electroencephalogram (VEEG) data, surgical approaches, pathological findings, and follow-up data was performed; influencing factors for postoperative seizure controls were analyzed.Results:In these 57 patients with epilepsy caused by FCD, 29 were males (50.88%) and 28 were females (49.12%). Onset age was 30.00 (8.00, 74.50) months, and surgery age was 95.00 (50.00, 138.50) months. Focal to bilateral tonic-clonic seizures (42/57; 73.68%) and epileptic spasms (13/57; 22.81%) were common seizure types. Cranial MRI was positive in 34 patients (59.65%), mainly manifested as abnormal cortical gyri/sulci morphology (17/57; 29.82%). In 43 patients accepted PET-CT, hypometabolic sites were detected in 40 (93.02%), and complete agreement between PET/MRI fusion results and actual lesion sites was noted in 40 (93.02%). FCD type I was noted in 16 patients (28.07%), type II in 39 (68.42%), and type III in 2 (3.51%). By December 2023, 44 (77.19%) had Engel grading I, 4 (7.02%) had grading II, 4 (7.02%) had grading III, and 5 (8.77%) had grading IV. Children with good prognosis (Engel grading I+II) and those with poor prognosis (Engel grading III+IV) showed significant differences in terms of time from first seizure to surgery, positive/negative MRI, and regularity of postoperative ASMs ( P<0.05). Conclusions:Focal to bilateral tonic-clonic seizure is the most common seizure type in patients with epilepsy caused by FCD, and abnormal cortical gyri/sulci morphology is the most common MRI manifestation; PET/MRI fusion imaging is superior to PET-CT or MRI in identifying epileptogenic foci. Poor seizure control can be noted in patients with long onset time to surgery, with negative cranial MRI results, or with irregular postoperative ASMs.

Objective:To explore the clinical and genetic characteristics of asparagine synthase deficiency.Methods:Case series studies. Retrospective analysis and summary of the clinical data of 6 cases with asparagine synthase deficiency who were diagnosed by genetic testing and admitted to the Third Affiliated Hospital of Zhengzhou University from May 2017 to April 2023 were analyzed retrospectively. The main clinical features, laboratory and imaging examination characteristics of the 6 cases were summarized, and the gene variation sites of them were analyzed.Results:All of the 6 cases were male, with onset ages ranging from 1 month to 1 year and 4 months. All of the 6 cases had cognitive and motor developmental delay, with 3 cases starting with developmental delay, 3 cases starting with convulsions and later experiencing developmental arrest or even regression. All of 6 cases had epilepsy, in whom 2 cases with severe microcephaly developed epileptic encephalopathy in the early stages of infancy with spasms as the main form of convulsions, 4 cases with mild or no microcephaly gradually evolved into convulsions with no fever after multiple febrile convulsions with focal seizures, tonic clonic seizures and tonic seizure as the main forms of convulsions. Three cases of 4 gradually developed into stagnation or even regression of development and ataxia after multiple convulsions with no fever. There were normal cranial imaging in 2 cases, dysplasia of the brains in 1 cases, frontal lobe apex accompanied by abnormal white matter signal in the frontal lobe and thin corpus callosum in 1 case, thin corpus callosum and abnormal lateral ventricular morphology in 1 case, and normal in early stage, but gradually developing into cerebellar atrophy at the age of 5 years and 9 months in 1 case. Two cases underwent visual evoked potential tests, the results of which were both abnormal. Three cases underwent auditory evoked potential examination, with 1 being normal and 2 being abnormal. All of 6 cases had variations in the asparagine synthase gene, with 2 deletion variations and 7 missense variations. The variations of 2 cases had not been reported so far, including c.1341_1343del and c.1283A>G, c.1165_1167del and c.1075G>A. The follow-up time ranged from 3 months to 53 months. Two cases who had severe microcephaly died in infancy, while the other 4 cases with mild or no microcephaly were in survival states until the follow-up days but the control of epilepsy was poor.Conclusions:Asparagine synthase deficiency has a certain degree of heterogeneity in clinical phenotype. Children with obvious microcephaly often present as severe cases, while children with mild or no microcephaly have relatively mild clinical manifestations. The variation of asparagine synthetase gene is mainly missense variation.

Objective:To explore the clinical manifestations and genetic characteristics of Wolf-Hirschhorn syndrome (WHS) to improve the ability of diagnosis and differential diagnosis of the disease.Methods:The clinical features and auxiliary examinations and treatment of a proband with WHS caused by microdeletion of 4p16.3 segment who admitted to the Third Affiliated Hospital of Zhengzhou University in December 2021 were recorded, and whole exome sequencing (WES) of the family was performed. The prognosis was followed up.Results:The female proband, 11 months old, presented with convulsions at the age of 8 months, with the characteristics of heat sensitivity and cluster seizures, and her identical twin sister had a similar medical history. Physical examination found malnutrition, retarded development, special face, prominent forehead, wide nasal bridge, small jaw, precordial murmur and grade 3/6 murmur in the whole period, hyperactivity of P2, and low limb muscle tone. The whole exon and copy number variation (CNV) test of the family revealed that the proband had a 1.99 Mb heterozygous deletion in the chromosome 4p16.3 segment, including WHSC1 (NSD2), WHSC2 (NEFLA) and other genes. Copy number variation sequencing (CNV-Seq) of the proband and her sister showed 1.97 and 1.92 Mb heterozygous deletion of chromosome 4p16.3, respectively. Genealogical analysis by quantitative polymerase chain reaction revealed that the CNV was de novo, and it was determined to be a pathogenic variant according to the American College of Medical Genetics and Genomics guidelines. The proband took sodium valproate orally, and her sister took oral sodium valproate, zonisamide, and levetiracetam successively, and at the same time they received family rehabilitation training. The age at the last follow-up was 1 year and 8 months. Neither of them had convulsions again in the past 3 months, but the developmental delay was obvious. Conclusion:WHS patients may present with growth retardation, epilepsy, Greek warrior helmet-like special face, and congenital heart disease, and may have microdeletions in the chromosome 4p16.3 segment.

OBJECTIVE: To analyze the clinical characteristics and genetic basis of two children patients with CHARGE syndrome. METHODS: The clinical features of the two patients were analyzed, and potential variants were detected by Trio whole exome sequencing (trio-WES) of the probands and their parents. RESULTS: Child 1 has manifested cerebellar vermis dysplasia, enlargement of cerebral ventricles, whereas child 2 manifested with infantile spasm and congenital hip dysplasia. Both children were found to harbor de novo heterozygous variants of the CHD7 gene, namely c.4015C>T (exon 17) and c.5050G>A (exon 22). Based on the guidelines of the American College of Medical Genetics and Genomics, the two variants were rated as pathogenic variants, and the related disease was CHARGE syndrome. Furthermore, child 2 was also found to harbor a novel heterozygous c.6161A>C (p.Gln2054Pro) missense variant of COL12A1 gene, which was rated as possibly pathogenic, and the associated disease was Bethlem myopathy type 2, which is partially matched with the patient' s clinical phenotype. CONCLUSION The special clinical phenotypes shown by the two children harboring novel CHD7 variants have further expanded the phenotypic spectrum of CHARGE syndrome.
CHARGE Syndrome/genetics* ; DNA Helicases/genetics* ; DNA-Binding Proteins/genetics* ; Genetic Testing ; Heterozygote ; Humans ; Mutation ; Phenotype ; Whole Exome Sequencing

Objective:To explore the clinical and genetic characteristics of a case of early-onset epileptic encephalopathy caused by the UBA5 gene mutation and to review relevant literatures. Methods:The clinical characte-ristics and genetic data of a child with the UBA5 gene mutation in the Department of Pediatrics, the Third Affiliated Hospital of Zhengzhou University in June 2020 were retrospectively analyzed.Clinical characteristics and gene variation characteristics of the disease were reviewed in the domestic and foreign databases. Results:(1) The female patient presented infantile spasms at the age of 4 months.Electroencephalogram(EEG) suggested hypsarrhythmia and she was not responsive to a variety of anti-epileptic drugs.Besides, the patient showed severe cognitive and motor development delay, hypotonia, and microcephaly.The results of whole exome sequencing showed that the compound heterozygous mutation of UBA5 gene: exon 3 c. 214C>T (p.R72C) and exon 9 c. 844_c.845 insA (p.Y282Xfs*1), her father carries c. 214C>T mutation and her mother carries c. 844_c.845 INSA mutation.(2) To December 2020, a total of 15 cases of early-onset epileptic encephalopathy caused by the UBA5 gene mutation have been reported abroad.The main clinical manifestations were uncontrollable spasms, abnormal EEG findings, hypotonia, severe cognitive and movement disorders, microcephaly, and brain atrophy.A total of 11 mutation sites of the UBA5 gene were found, all belonging to the autosomal recessive inheritance, of which c. 1111G>A was the most common. Conclusions:The UBA5 gene mutation can lead to early-onset epileptic encephalopathy, which belongs to the autosomal recessive inheritance.It is featured by the early onset, uncontrollable seizures and poor long-term prognosis.