Objective:To investigate the relationship between susceptibility to hearing loss in noise-exposed Han Chinese male homo sapiens and glutathione S-transferase (GST) gene polymorphisms, providing a scientific basis for further understanding the pathogenic mechanisms of noise-induced hearing loss (NIHL) and screening for genetic susceptibility biomarkers.Methods:In May 2024, a cross-sectional survey was conducted to recruit 332 male Han workers exposed to noise from a prominent mechanical maintenance enterprise. Workers were classified into the hearing loss group if they exhibited a binaural high-frequency average hearing threshold exceeding 25 dB and a binaural speech frequency average hearing threshold loss that was less than the binaural high-frequency average hearing threshold loss, resulting in a total of 332 individuals in this group. Furthermore, a matched group of 332 hearing-normal workers was established on a 1∶1 basis for each hearing-impaired worker, using criteria such as the same job type, age, and a noise exposure duration of ≤4 years. Basic data of worker was collected through a questionnaire survey, and individual noise exposure levels were assessed using cumulative noise exposure (CNE). Various PCR and high-throughput sequencing techniques were employed to identify polymorphisms in the GSTT1, GSTM1, and GSTP1rs1695 genes. The basic information and genotypes of the two groups were compared using paired t-tests and paired chi-square tests. A Cox regression model was utilized to establish a 1∶1 paired logistic regression model to examine the correlation between GST gene polymorphisms and susceptibility to NIHL. Results:Individuals with GSTM1 and GSTT1 gene deletion are more susceptible to NIHL compared to those with existing genes, even after adjusting for other factors ( OR=1.464, 95% CI: 1.02-2.09; OR=0.68, 95% CI: 1.06-2.02). Wearing protective equipment occasionally, rather than consistently, significantly increases the risk of NIHL ( OR=1.38, 95% CI: 1.01-1.88). There was no link between GSTP1rs1695 polymorphism and NIHL risk ( P>0.05) . Conclusion:The deletion of GSTM1 and GSTT1 genes is an independent influencing factor that increases the risk of NIHL, and can be considered as a genetic susceptibility biomarker for the NIHL population. Strengthening personal hearing protection is an effective measure to reduce the risk of NIHL.

Objective:To investigate the relationship between susceptibility to hearing loss in noise-exposed Han Chinese male homo sapiens and glutathione S-transferase (GST) gene polymorphisms, providing a scientific basis for further understanding the pathogenic mechanisms of noise-induced hearing loss (NIHL) and screening for genetic susceptibility biomarkers.Methods:In May 2024, a cross-sectional survey was conducted to recruit 332 male Han workers exposed to noise from a prominent mechanical maintenance enterprise. Workers were classified into the hearing loss group if they exhibited a binaural high-frequency average hearing threshold exceeding 25 dB and a binaural speech frequency average hearing threshold loss that was less than the binaural high-frequency average hearing threshold loss, resulting in a total of 332 individuals in this group. Furthermore, a matched group of 332 hearing-normal workers was established on a 1∶1 basis for each hearing-impaired worker, using criteria such as the same job type, age, and a noise exposure duration of ≤4 years. Basic data of worker was collected through a questionnaire survey, and individual noise exposure levels were assessed using cumulative noise exposure (CNE). Various PCR and high-throughput sequencing techniques were employed to identify polymorphisms in the GSTT1, GSTM1, and GSTP1rs1695 genes. The basic information and genotypes of the two groups were compared using paired t-tests and paired chi-square tests. A Cox regression model was utilized to establish a 1∶1 paired logistic regression model to examine the correlation between GST gene polymorphisms and susceptibility to NIHL. Results:Individuals with GSTM1 and GSTT1 gene deletion are more susceptible to NIHL compared to those with existing genes, even after adjusting for other factors ( OR=1.464, 95% CI: 1.02-2.09; OR=0.68, 95% CI: 1.06-2.02). Wearing protective equipment occasionally, rather than consistently, significantly increases the risk of NIHL ( OR=1.38, 95% CI: 1.01-1.88). There was no link between GSTP1rs1695 polymorphism and NIHL risk ( P>0.05) . Conclusion:The deletion of GSTM1 and GSTT1 genes is an independent influencing factor that increases the risk of NIHL, and can be considered as a genetic susceptibility biomarker for the NIHL population. Strengthening personal hearing protection is an effective measure to reduce the risk of NIHL.

The health-associated infection in the department of stomatology is an important issue for global public health and is closely associated with the medical quality and the health of health care workers and patients.Al-though certain progress has been achieved in the prevention and control of the health-associated infections in de-partment of stomatology,considering the diversity of influencing factors,the joint effort of the global public health institutions,medical institutions and scientific research institutions remains necessary for the effective con-trol of the hospital-associated infections.The study focuses on the current status of hospital-associated infections in department of stomatology,risk factors and progress of research on prevention and control strategies in recent years so as to formulate more effective prevention and control strategies and provide reference for better prevention and control of the infections and protection of public heath.

The health-associated infection in the department of stomatology is an important issue for global public health and is closely associated with the medical quality and the health of health care workers and patients.Al-though certain progress has been achieved in the prevention and control of the health-associated infections in de-partment of stomatology,considering the diversity of influencing factors,the joint effort of the global public health institutions,medical institutions and scientific research institutions remains necessary for the effective con-trol of the hospital-associated infections.The study focuses on the current status of hospital-associated infections in department of stomatology,risk factors and progress of research on prevention and control strategies in recent years so as to formulate more effective prevention and control strategies and provide reference for better prevention and control of the infections and protection of public heath.

Background The current increasing trend of new cases of occupational noise-induced deafness indicates that the hearing loss of occupational population has not been effectively controlled in China. It is of great significance to study the characteristics of hearing loss among noise-exposed workers and its related factors. Objective To investigate characteristics and influencing factors of hearing loss among occupational noise-exposed workers in a large machinery maintenance enterprise, and to provide a scientific basis to prevent and control noise-induced hearing loss. Methods A cross-sectional survey was conducted to investigate male Han occupational noise-exposed workers in a large mechanical maintenance enterprise. We acquired demographic characteristics, occupational exposure history, and individual life behavior characteristics of the workers through questionnaires, collected occupational exposure level data from annual occupational disease hazard factor surveillance reports, obtained pure tone hearing threshold test data through occupational health examinations, and estimated individual noise exposure levels using cumulative noise exposure (CNE). According to the results of pure tone air conduction hearing threshold test, the workers were divided into a hearing loss group and a normal hearing group. The chi-square test was employed to compare the occupational exposure characteristics and individual life behavior characteristics between the two groups. Additionally, the trend chi-square test was utilized to analyze the changing trends of age, length of service, CNE, and hearing loss rate within the two groups. The relationship between high-frequency hearing loss in both ears and its related influencing factors was assessed by a multiple logistic regression model. Results The M (P₂₅, P₇₅) of CNE for the 2531 occupational noise-exposed workers was 97.51 (95.39, 99.96) dB(A)·year. The incidence of hearing anomaly, binaural high-frequency hearing anomaly, random ear high-frequency hearing anomaly, binaural low-frequency hearing anomaly, and random ear low-frequency hearing anomaly were 22.48%, 16.59%, 22.13%, 2.77%, and 3.52%, respectively. High-frequency hearing threshold increase was the main reason for hearing anomaly (98.42%). In comparison to the CNE ≤ 97 dB(A)·year group, the 97 dB(A)·year100 dB(A)·year group experienced a 36.4% and 52.3% increase in the risk of bilateral high-frequency hearing loss, respectively. The smoking group exhibited a 43.5% elevated risk of bilateral high-frequency hearing loss when compared to the non-smoking group. Conversely, the group frequently wearing hearing protection equipment demonstrated a 23.6% lower risk of bilateral high-frequency hearing loss in comparison to the group occasionally wearing protective equipment. The data suggested that CNE＞97 dB(A)·year and smoking might be independent risk factors for bilateral high-frequency hearing loss, and frequently wearing hearing protection equipment might be an important protective factor. Conclusion Increased CNE and smoking can elevate the risk of high-frequency hearing loss, while personal hearing protection can effectively reduce the risk of hearing loss.