Hypoxic-ischemic (HI) brain damage poses a high risk of death or lifelong disability, yet effective treatments remain elusive. Here, we demonstrated that miR-100-5p levels in the lesioned cortex increased after HI insult in neonatal mice. Knockdown of miR-100-5p expression in the brain attenuated brain injury and promoted functional recovery, through inhibiting the cleaved-caspase-3 level, microglia activation, and the release of proinflammation cytokines following HI injury. Engineered extracellular vesicles (EVs) containing neuron-targeting rabies virus glycoprotein (RVG) and miR-100-5p antagonists (RVG-EVs-Antagomir) selectively targeted brain lesions and reduced miR-100-5p levels after intranasal delivery. Both pre- and post-HI administration showed therapeutic benefits. Mechanistically, we identified protein phosphatase 3 catalytic subunit alpha (Ppp3ca) as a novel candidate target gene of miR-100-5p, inhibiting c-Fos expression and neuronal apoptosis following HI insult. In conclusion, our non-invasive method using engineered EVs to deliver miR-100-5p antagomirs to the brain significantly improves functional recovery after HI injury by targeting Ppp3ca to suppress neuronal apoptosis.
Animals ; MicroRNAs/metabolism* ; Extracellular Vesicles/metabolism* ; Mice ; Recovery of Function/physiology* ; Hypoxia-Ischemia, Brain/therapy* ; Mice, Inbred C57BL ; Antagomirs/administration & dosage* ; Male ; Animals, Newborn ; Apoptosis/drug effects* ; Brain Injuries/metabolism* ; Glycoproteins ; Peptide Fragments ; Viral Proteins

Objective:To analyze the carrier rates and profiles of pathogenic and likely pathogenic variants for hearing loss-related genes MYO7A, PCDH15, and CDH23 among neonates in Nanjing city through targeted next-generation sequencing (NGS). Methods:Heel-prick blood samples were collected from 30 043 newborns delivered at Nanjing Women and Children′s Health Care Hospital between March 2022 and April 2024. Dried blood spots were prepared, and genomic DNA was extracted. Targeted NGS was applied to detect variants across the full coding regions of the MYO7A, PCDH15, and CDH23 genes. The carrier rates and profiles of pathogenic and likely pathogenic variants of the three genes were analyzed. This study was approved by the Medical Ethics Committee of Nanjing Maternal and Child Health Care Hospital (Ethics No.: 2021KY-071). Results:The carrier rates of pathogenic and likely pathogenic variants (with ≥ 1 variant site) for the MYO7A, PCDH15, and CDH23 genes were 0.340%, 0.226%, and 0.156%, respectively. A total of 65, 49, and 30 variant types were detected in the MYO7A, PCDH15, and CDH23 genes, respectively. For MYO7A, single base variants were predominant, with the most common variant being c. 5581C>T, followed by c. 1343+ 1G>A, c. 2837T>G, and c. 5660C>T, with allelic frequencies of 0.013% (8/60 086), 0.007% (4/60 086), 0.007% (4/60 086), and 0.007% (4/60 086), respectively. PCDH15 variants were mainly deletions, with the most common variant site being c. 4699_4715dupAGAGAAAAGATTCAGAG, followed by c. 3441delA, c. 440T>G, and c. 4733_4736delTCAG, with allelic frequencies of 0.015% (9/60 086), 0.005% (3/60 086), 0.005% (3/60 086), and 0.005% (3/60 086), respectively. For CDH23, single base variants were predominant, with c. 6604G>A being the most common, followed by c. 6085C>T, c. 6050+ 9G>A, and c. 6253+ 1G>A, with allelic frequencies of 0.013% (8/60 086), 0.012% (7/60 086), 0.005% (3/60 086), and 0.005% (3/60 086). Conclusion:This study analyzed the carrier rates and profiles of pathogenic and likely pathogenic variants of the MYO7A, PCDH15, and CDH23 genes, which can provide more evidence for the prevention and management of deafness in the region.

Objective To investigate the clinical significance of the combined screening of thyroid stimulating hormone(TSH)and seven candidate pathogenic genes of congenital hypothyroidism(CH)for CH.Methods 16 645 newborns delivered in Nanjing Women and Children's Healthcare Hospital from July 2022 to July 2023 were performed the screening of TSH.Their DNA was extracted from dried blood spots and the chip capture second-generation sequencing technology was used to detect the candidate pathogenic genes,in-cluding dual oxidase 2(DUOX2),dual oxidase maturation factor 2(DUOXA2),prophet of pit-1(PROP1),thyroid-stimulating hor-mone receptor(TSHR),thyroid peroxidase(TPO),thyroglobulin(TG),and paired box 8(PAX8).The sensitivity,specificity,pos-itive predictive value(PPV),and negative predictive value(NPV)of the screening of TSH,candidate genes,and their combination for CH were analyzed.Results A total of 13 CH patients were screened out based on sensitive thyroid stimulating hormone(sTSH)and free thyroxine(FT4),including 3 patients with hyperthyrotropinemia.Among them,11 were screened out by TSH alone,4 were screened out by candidate genes alone,and 2 were screened out by the combination of TSH and candidate genes.The sensitivity,speci-ficity,PPV,and NPV of TSH for screening CH were 84.62％,99.23％,7.91％,and 99.97％,respectively.The sensitivity,specifici-ty,PPV,and NPV of candidate genes for screening CH were 30.77％,99.87％,15.38％,and 99.87％,respectively.The sensitivity,specificity,PPV,and NPV of the combination of TSH and candidate genes for screening CH were 100％,99.09％,7.88％,and 100％,respectively.The primary mutant gene in the samples with positive candidate genes was DUOX2(85.71％),mainly point muta-tions,among which the c.1588A>T variant was the most common(16.67％).PAX8(14.29％)was the second most common variation,and all of the variation point were c.280G>A.No positive samples for the pathogenic variants of DUOXA2,TSHR,PROP1,TPO,and TG were detected.Conclusion The combined screening of TSH and candidate genes helps to improve the screening efficacy of CH.The genetic etiology of CH in Nanjing area may be mainly the variation of DUOX2 and PAX8 genes.

Objective:Objective To analyze the carrier rates and mutational spectrum of pathogenic variants in deafness-associated genes among newborns in Nanjing.Methods:In this cross-sectional study, heel blood samples were collected from 30 043 neonates born at Nanjing Maternity and Child Health Care Hospital between March 2022 and April 2024. DNA was extracted from dried blood spots and subjected to targeted next-generation sequencing of the full coding regions of deafness-associated genes GJB2, SLC26A4, USH2A, MT-RNR1, and MYO15A. Descriptive statistics were used to analyze carrier rates and variant characteristics, with pathogenicity classified according to American College of Medical Genetics and Genomics guidelines. Results:(1) Carrier rates: The overall carrier rate for deafness-associated gene variants was 19.196% (5 767/30 043). GJB2 showed the highest carrier rate at 13.174% (3 958/30 043), followed by SLC26A4 (2.912%, 875/30 043), USH2A (1.524%, 458/30 043), MT- RNR1 (0.959%, 288/30 043), and MYO15A (0.626%, 188/30 043). MT-RNR1 follows mitochondrial inheritance, while others are autosomal recessive. (2) Variant analysis revealed: 25 GJB2 variants with c.109G>A being most frequent (allele frequency 4.925%, 2 959/60 086), followed by c.235delC (1.127%, 677/60 086) and c.299_300delAT (0.261%, 157/60 086); 85 SLC26A4 variants dominated by c.919-2A>G (0.621%, 373/60 086), c.2009T>C (0.165%, 99/60 086), and c.2168A>G (0.100%, 60/60 086); 118 USH2A variants with c.2802T>G (0.218%, 131/60 086) and c.8559-2A>G (0.165%, 99/60 086) most prevalent; three MT-RNR1 variants including m.1095T>C (230 cases), m.1555A>G (52 cases), and m.1494C>T (six cases); and 81 MYO15A variants with c.10250_10252delCCT (0.043%, 26/60 086) being most common. Conclusion:The predominant pathogenic variants in deafness-associated genes among Nanjing neonates are GJB2 c.109G>A and SLC26A4 c.919-2A>G, with MT- RNR1 m.1095T>C representing a significant mitochondrial variant.

OBJECTIVE: To analyze the carrier rates and profiles of pathogenic and likely pathogenic variants for hearing loss-related genes MYO7A, PCDH15, and CDH23 among neonates in Nanjing city through targeted next-generation sequencing (NGS). METHODS: Heel-prick blood samples were collected from 30 043 newborns delivered at Nanjing Women and Children's Health Care Hospital between March 2022 and April 2024. Dried blood spots were prepared, and genomic DNA was extracted. Targeted NGS was applied to detect variants across the full coding regions of the MYO7A, PCDH15, and CDH23 genes. The carrier rates and profiles of pathogenic and likely pathogenic variants of the three genes were analyzed. This study was approved by the Medical Ethics Committee of Nanjing Maternal and Child Health Care Hospital (Ethics No.: 2021KY-071). RESULTS: The carrier rates of pathogenic and likely pathogenic variants (with ≥ 1 variant site) for the MYO7A, PCDH15, and CDH23 genes were 0.340%, 0.226%, and 0.156%, respectively. A total of 65, 49, and 30 variant types were detected in the MYO7A, PCDH15, and CDH23 genes, respectively. For MYO7A, single base variants were predominant, with the most common variant being c.5581C>T, followed by c.1343+1G>A, c.2837T>G, and c.5660C>T, with allelic frequencies of 0.013% (8/60 086), 0.007% (4/60 086), 0.007% (4/60 086), and 0.007% (4/60 086), respectively. PCDH15 variants were mainly deletions, with the most common variant site being c.4699_4715dupAGAGAAAAGATTCAGAG, followed by c.3441delA, c.440T>G, and c.4733_4736delTCAG, with allelic frequencies of 0.015% (9/60 086), 0.005% (3/60 086), 0.005% (3/60 086), and 0.005% (3/60 086), respectively. For CDH23, single base variants were predominant, with c.6604G>A being the most common, followed by c.6085C>T, c.6050+9G>A, and c.6253+1G>A, with allelic frequencies of 0.013% (8/60 086), 0.012% (7/60 086), 0.005% (3/60 086), and 0.005% (3/60 086). CONCLUSION This study analyzed the carrier rates and profiles of pathogenic and likely pathogenic variants of the MYO7A, PCDH15, and CDH23 genes, which can provide more evidence for the prevention and management of deafness in the region.
Humans ; Cadherins/genetics* ; High-Throughput Nucleotide Sequencing/methods* ; Infant, Newborn ; Female ; Myosin VIIa/genetics* ; Cadherin Related Proteins ; Male ; Hearing Loss/genetics* ; Myosins/genetics* ; Heterozygote

Objective:To retrieve, evaluate and summarize the best evidence on the use of bedside ultrasound by ICU nurses to assess the lungs of adult critically ill patients, and to provide a reference for clinical practice and the construction of related processes and protocols.Methods:Based on the "6S" pyramid model, a computer-based search was conducted on relevant computer decision support system, guideline networks, professional associations, and domestic and international databases, the search time limit was from the establishment of the database to June 5, 2024. The panel members who had been trained in the evidence-based course evaluated the included literature with corresponding tools, extracted evidence according to the theme.Results:Twenty-five papers were finally included, including 6 guidelines, 8 expert consensus, 2 expert opinion, 3 clinical decision-making, 3 systematic evaluation, and 3 randomized controlled trials. A total of 35 pieces of evidence were formed from 4 aspects, including personnel training, operation specifications, clinical application (including dyspnea screening, intervention implementation, efficacy evaluation, diaphragm function evaluation) and precautions.Conclusions:The best evidence for lung assessment and intervention in adult critically ill patients based on bedside ultrasound can provide a reference for the adjustment and decision-making of nursing measures for adult critically ill patients. In the subsequent process of evidence transformation, attention should be paid to combining clinical practice and the joint cooperation of medical staff.

Objective To investigate the clinical significance of the combined screening of thyroid stimulating hormone(TSH)and seven candidate pathogenic genes of congenital hypothyroidism(CH)for CH.Methods 16 645 newborns delivered in Nanjing Women and Children's Healthcare Hospital from July 2022 to July 2023 were performed the screening of TSH.Their DNA was extracted from dried blood spots and the chip capture second-generation sequencing technology was used to detect the candidate pathogenic genes,in-cluding dual oxidase 2(DUOX2),dual oxidase maturation factor 2(DUOXA2),prophet of pit-1(PROP1),thyroid-stimulating hor-mone receptor(TSHR),thyroid peroxidase(TPO),thyroglobulin(TG),and paired box 8(PAX8).The sensitivity,specificity,pos-itive predictive value(PPV),and negative predictive value(NPV)of the screening of TSH,candidate genes,and their combination for CH were analyzed.Results A total of 13 CH patients were screened out based on sensitive thyroid stimulating hormone(sTSH)and free thyroxine(FT4),including 3 patients with hyperthyrotropinemia.Among them,11 were screened out by TSH alone,4 were screened out by candidate genes alone,and 2 were screened out by the combination of TSH and candidate genes.The sensitivity,speci-ficity,PPV,and NPV of TSH for screening CH were 84.62％,99.23％,7.91％,and 99.97％,respectively.The sensitivity,specifici-ty,PPV,and NPV of candidate genes for screening CH were 30.77％,99.87％,15.38％,and 99.87％,respectively.The sensitivity,specificity,PPV,and NPV of the combination of TSH and candidate genes for screening CH were 100％,99.09％,7.88％,and 100％,respectively.The primary mutant gene in the samples with positive candidate genes was DUOX2(85.71％),mainly point muta-tions,among which the c.1588A>T variant was the most common(16.67％).PAX8(14.29％)was the second most common variation,and all of the variation point were c.280G>A.No positive samples for the pathogenic variants of DUOXA2,TSHR,PROP1,TPO,and TG were detected.Conclusion The combined screening of TSH and candidate genes helps to improve the screening efficacy of CH.The genetic etiology of CH in Nanjing area may be mainly the variation of DUOX2 and PAX8 genes.

Objective:To retrieve, evaluate and summarize the best evidence on the use of bedside ultrasound by ICU nurses to assess the lungs of adult critically ill patients, and to provide a reference for clinical practice and the construction of related processes and protocols.Methods:Based on the "6S" pyramid model, a computer-based search was conducted on relevant computer decision support system, guideline networks, professional associations, and domestic and international databases, the search time limit was from the establishment of the database to June 5, 2024. The panel members who had been trained in the evidence-based course evaluated the included literature with corresponding tools, extracted evidence according to the theme.Results:Twenty-five papers were finally included, including 6 guidelines, 8 expert consensus, 2 expert opinion, 3 clinical decision-making, 3 systematic evaluation, and 3 randomized controlled trials. A total of 35 pieces of evidence were formed from 4 aspects, including personnel training, operation specifications, clinical application (including dyspnea screening, intervention implementation, efficacy evaluation, diaphragm function evaluation) and precautions.Conclusions:The best evidence for lung assessment and intervention in adult critically ill patients based on bedside ultrasound can provide a reference for the adjustment and decision-making of nursing measures for adult critically ill patients. In the subsequent process of evidence transformation, attention should be paid to combining clinical practice and the joint cooperation of medical staff.

Objective:To analyze the carrier rates and profiles of pathogenic and likely pathogenic variants for hearing loss-related genes MYO7A, PCDH15, and CDH23 among neonates in Nanjing city through targeted next-generation sequencing (NGS). Methods:Heel-prick blood samples were collected from 30 043 newborns delivered at Nanjing Women and Children′s Health Care Hospital between March 2022 and April 2024. Dried blood spots were prepared, and genomic DNA was extracted. Targeted NGS was applied to detect variants across the full coding regions of the MYO7A, PCDH15, and CDH23 genes. The carrier rates and profiles of pathogenic and likely pathogenic variants of the three genes were analyzed. This study was approved by the Medical Ethics Committee of Nanjing Maternal and Child Health Care Hospital (Ethics No.: 2021KY-071). Results:The carrier rates of pathogenic and likely pathogenic variants (with ≥ 1 variant site) for the MYO7A, PCDH15, and CDH23 genes were 0.340%, 0.226%, and 0.156%, respectively. A total of 65, 49, and 30 variant types were detected in the MYO7A, PCDH15, and CDH23 genes, respectively. For MYO7A, single base variants were predominant, with the most common variant being c. 5581C>T, followed by c. 1343+ 1G>A, c. 2837T>G, and c. 5660C>T, with allelic frequencies of 0.013% (8/60 086), 0.007% (4/60 086), 0.007% (4/60 086), and 0.007% (4/60 086), respectively. PCDH15 variants were mainly deletions, with the most common variant site being c. 4699_4715dupAGAGAAAAGATTCAGAG, followed by c. 3441delA, c. 440T>G, and c. 4733_4736delTCAG, with allelic frequencies of 0.015% (9/60 086), 0.005% (3/60 086), 0.005% (3/60 086), and 0.005% (3/60 086), respectively. For CDH23, single base variants were predominant, with c. 6604G>A being the most common, followed by c. 6085C>T, c. 6050+ 9G>A, and c. 6253+ 1G>A, with allelic frequencies of 0.013% (8/60 086), 0.012% (7/60 086), 0.005% (3/60 086), and 0.005% (3/60 086). Conclusion:This study analyzed the carrier rates and profiles of pathogenic and likely pathogenic variants of the MYO7A, PCDH15, and CDH23 genes, which can provide more evidence for the prevention and management of deafness in the region.

Objective:Objective To analyze the carrier rates and mutational spectrum of pathogenic variants in deafness-associated genes among newborns in Nanjing.Methods:In this cross-sectional study, heel blood samples were collected from 30 043 neonates born at Nanjing Maternity and Child Health Care Hospital between March 2022 and April 2024. DNA was extracted from dried blood spots and subjected to targeted next-generation sequencing of the full coding regions of deafness-associated genes GJB2, SLC26A4, USH2A, MT-RNR1, and MYO15A. Descriptive statistics were used to analyze carrier rates and variant characteristics, with pathogenicity classified according to American College of Medical Genetics and Genomics guidelines. Results:(1) Carrier rates: The overall carrier rate for deafness-associated gene variants was 19.196% (5 767/30 043). GJB2 showed the highest carrier rate at 13.174% (3 958/30 043), followed by SLC26A4 (2.912%, 875/30 043), USH2A (1.524%, 458/30 043), MT- RNR1 (0.959%, 288/30 043), and MYO15A (0.626%, 188/30 043). MT-RNR1 follows mitochondrial inheritance, while others are autosomal recessive. (2) Variant analysis revealed: 25 GJB2 variants with c.109G>A being most frequent (allele frequency 4.925%, 2 959/60 086), followed by c.235delC (1.127%, 677/60 086) and c.299_300delAT (0.261%, 157/60 086); 85 SLC26A4 variants dominated by c.919-2A>G (0.621%, 373/60 086), c.2009T>C (0.165%, 99/60 086), and c.2168A>G (0.100%, 60/60 086); 118 USH2A variants with c.2802T>G (0.218%, 131/60 086) and c.8559-2A>G (0.165%, 99/60 086) most prevalent; three MT-RNR1 variants including m.1095T>C (230 cases), m.1555A>G (52 cases), and m.1494C>T (six cases); and 81 MYO15A variants with c.10250_10252delCCT (0.043%, 26/60 086) being most common. Conclusion:The predominant pathogenic variants in deafness-associated genes among Nanjing neonates are GJB2 c.109G>A and SLC26A4 c.919-2A>G, with MT- RNR1 m.1095T>C representing a significant mitochondrial variant.