Objective To screen and analyze 23 mutation sites of deafness susceptibility genes in newborns in Shenzhen using microfluidic chip technology,aiming to enhance the efficiency and accuracy of early diagnosis of congenital deafness.Methods A total of 10 561 newborns delivered in 19 hospitals in Shenzhen between November 2021 and January 2023 were selected.Heel blood samples were collected from them,and 23 key mutation sites within four core deafness susceptible genes(GJB2,SLC26A4,12S rRNA and GJB3)were detected using microfluidic chip technology.Results The results revealed that 21.87%(2 310/10 561)of the newborns carried at least one mutation in deafness susceptibility genes,with the mutation carrier rate of the GJB2 gene reaching as high as 20.42%(2 157/10 561),57 newborns were found to has compound heterozygous mutations.To further verify the accuracy of the screening results,1 203 newborns out of the 2 310 initially screened as deafness gene carriers were recalled for Sanger sequencing,the gold standard,for verification.The verification results were fully consistent with the initial screening results.Conclusion The method combining microfluidic chip technology with Sanger sequence verification significantly improves the detection efficiency and accuracy of neonatal deafness genes,providing scientific evidence and practical guidance for implementing the three-level prevention strategy for congenital deafness.

Objective To screen and analyze 23 mutation sites of deafness susceptibility genes in newborns in Shenzhen using microfluidic chip technology,aiming to enhance the efficiency and accuracy of early diagnosis of congenital deafness.Methods A total of 10 561 newborns delivered in 19 hospitals in Shenzhen between November 2021 and January 2023 were selected.Heel blood samples were collected from them,and 23 key mutation sites within four core deafness susceptible genes(GJB2,SLC26A4,12S rRNA and GJB3)were detected using microfluidic chip technology.Results The results revealed that 21.87%(2 310/10 561)of the newborns carried at least one mutation in deafness susceptibility genes,with the mutation carrier rate of the GJB2 gene reaching as high as 20.42%(2 157/10 561),57 newborns were found to has compound heterozygous mutations.To further verify the accuracy of the screening results,1 203 newborns out of the 2 310 initially screened as deafness gene carriers were recalled for Sanger sequencing,the gold standard,for verification.The verification results were fully consistent with the initial screening results.Conclusion The method combining microfluidic chip technology with Sanger sequence verification significantly improves the detection efficiency and accuracy of neonatal deafness genes,providing scientific evidence and practical guidance for implementing the three-level prevention strategy for congenital deafness.

It's a new financial management system that our country implemented the management of separating the income and expenditure in the community health services.Beijing is one of the former pilot cities which carried on the management of separating the income and expenditure.To know the effectiveness of the implementations and its influence to the health services,this article analyses the status of community health services,the financial investment and the performance results in Beijing.Considering the above,this paper also provides policy recommendations on the development of health services in Beijing to improve the new urban medical service system which based on the community health services.