NGS in the Diagnosis of Neonatal Diseases

Shanghai Children's Hospital1,800 enrolled

Overview

To investigate the application of NGS in neonatal disease screening and diagnosis, two studies was conducted (the other ID is: shercru-20220003). This study is to evaluate the application of NGS in the diagnosis of neonatal disease.

As health care has improved, genetic diseases have become the leading cause of infant death in hospitalized neonatal. However, due to extensive clinical and genetic heterogeneity, differential diagnosis of all known genetic disorders is often a challenging and lengthy process. Current clinical potential genetic diagnosis of ill baby often undergo repeated consulting, several times repeated invasive testing and/or metabolic examination, and efficiency is not high, which lead to children's and family's heavy mental pressure and economic burden. Targeted sequencing, also known as next Generation sequence (NGS), has the advantages of fast sequencing, wide sequencing range, high sensitivity, high accuracy and low cost compared with traditional sequencing technology (Sanger sequencing). NGS has been widely used in tumor diseases, prenatal screening, drugs and the diagnosis of various genetic diseases. In prenatal screening, targeted sequencing is gradually used to detect free fetal DNA in pregnant women's peripheral blood, with an accuracy of 95%, which is much better than traditional amniocentesis karyotype analysis and improves the detection rate of secondary birth defects. Compared with traditional methods, NGS can provide diagnosis and classification, rich genetic disease gene spectrum, accurate direction for treatment, as well as the predict the risk of the next generation of children of the same disease. Therefore, targeted sequencing technology has great advantages for the diagnosis of children and prevention of newborn birth defect diseases. To evaluate the efficacy of NGS in the screening and diagnosis of neonatal disease, the investigator lauched the "Budding Action". This study is to evaluate the application of NGS in the diagnosis of neonatal disease.

Study Type

OBSERVATIONAL

Enrollment

1,800

Conditions

NICU Infants Conventional NBS-positive Infants Premature Infants

Interventions

NGSGENETIC

In the conbentional NBS+/NICU/premature infants, NGS was conducted to investigate whether NGS can accelerate diagnosis and improve prognosis in these children

Eligibility

Sex: ALLMin age: 1 DayMax age: 1 Year

Medical Language ↔ Plain English

Inclusion Criteria: * Subjects: conventional NBS+ infants NICU infants premature infants * After fully understanding the program, the guardian signs the informed consent and agrees to participate in the program. Exclusion Criteria: * Other similar clinical research projects are under way for the examined neonates; * Neonates have received transfusion of allogeneic blood products; * Newborns whose guardians explicitly refuse to participate in the program after receiving the mission.

Outcomes

Primary Outcomes

Diagnostic time

In each cohort, NGS was conducted to investigate whether NGS can shorten the diagnostic time.

Time frame: up to 6 months

Prognosis (mortality)

In each cohort, NGS was conducted to investigate whether NGS can reduce the mortality of children.

Time frame: up to 1 year

Central Contacts

Lin Zou

CONTACT

18623121280 zoulin@shchildren.com.cn

Ziyang Cao

CONTACT

13521377131 caoziyang@bjmu.edu.cn

Data from ClinicalTrials.gov

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