Exposure to low-intensity noise exacerbates nonalcoholic fatty liver disease by activating hypothalamus pituitary adrenal axis

Effect of Night-Time Noise Control Combined with Detailed Nursing on Negative Emotions and Sleep Quality in Patients with Upper Gastrointestinal Bleeding

OBJECTIVE

The aim of the study was to investigate the effect of nighttime noise control, combined with detailed nursing, on negative emotions and sleep quality in patients suffering from upper gastrointestinal bleeding.

METHODS

This retrospective analysis was conducted on 100 patients with upper gastrointestinal bleeding who were admitted to the Fifth People's Hospital of Wuxi from January 2021 to January 2024. Patients were divided into the noise control group and the detailed nursing group based on different nursing care methods, with each group containing 50 cases. The detailed nursing group received detailed nursing, whereas the noise control group received nighttime noise control combined with detailed nursing. The results of the Fear Visual Analog Scale (FVAS), Pittsburgh Sleep Quality Index (PSQI), Hamilton Anxiety Rating Scale (HAMA), Hamilton Depression Rating Scale (HAMD), and subjective assessment of noise of the two groups were compared.

RESULTS

After management, the HAMA, HAMD, FVAS, and PSQI scores of both groups showed a significant decrease compared to baseline (P < 0.05). Additionally, the HAMA, HAMD, FVAS, and PSQI scores of the noise control group were significantly lower than those of the detailed nursing group (P < 0.05).The subjective assessment of noise in both groups was significantly higher after management than before management, with the noise control group reporting a significantly higher subjective noise assessment than the detailed nursing group (P < 0.05).

CONCLUSION

Nighttime noise control combined with detailed nursing is effective in patients with upper gastrointestinal bleeding. This approach helps reduce negative emotions such as anxiety, depression, and fear; lowers the subjective assessment of noise; and improves sleep quality.

Network Toxicology Analysis Reveals Molecular Mechanisms Associated with Noise Exposure to Multiple Diseases

Noise pollution is recognized as an environmental stressor that affects various biological processes beyond auditory functions, mainly through stress hormones release. This work explored the biological processes, diseases attributable to noise-regulated targets, and the main targets involved in each disease, employing a network toxicology approach. Through various databases and bioinformatics analysis, a total of 577 targets were identified as potential candidates implicated in diseases related to noise exposure, 10 from the GEO database and the rest from other databases. Noise pollution was found to regulate processes such as hormone response, cellular response to cytokines, and circulatory system functions, contributing to the development of the pathological manifestations related to the diseases like hypertension, ischemia, atherosclerosis, and cirrhosis. Hub targets for ischemia included IL-6, CASP3, AKT1, and TNF-α, while NOS3 was related to hypertension, and NOS3, TNF-α, AGT, and IL-1B to atherosclerosis. The targets were found to be linked to vascular regulation and inflammation in cardio- and cerebrovascular diseases. Molecular docking studies indicated stress hormones released by noise exposure regulates these diseases through signaling pathways, without implicating its direct binding to hub targets. The results indicate that individuals with vascular diseases are more vulnerable to the effects of prolonged noise exposure.

Short-term impact of air pollution, noise and temperature on emergency hospital admissions in Madrid (Spain) due to liver and gallbladder diseases

BACKGROUND

Very few epidemiological studies have explored the environmental and meteorological risk factors that influence liver diseases and gallbladder disorders, and no studies have addressed the specific case of Spain.

METHODS

This is a retrospective ecological study conducted during 2013-2018. We analysed emergency admissions in the central area of the Region of Madrid for the following causes: Liver and gallbladder diseases (L&GB) (ICD-10: K70-K81); disorders of gallbladder (DGB) (ICD 10: K80-K81); liver disease (LD) (ICD 10: K70-K77); alcoholic liver disease (ALD) (ICD-10: K70); viral hepatitis (VH) (ICD10:B15-B19); and hepatic failure, not elsewhere classified (HFNS) (ICD-10: K72). Independent variables used: meteorological (maximum daily temperature (Tmax in ⁰C), minimum daily temperature (Tmin in ⁰C), and relative humidity (RH in %)); chemical air pollution (8-hO3, NO2, PM10, PM2.5 in μg/m3); and noise pollution (equivalent level of daily noise (Ld in dB(A)). Transformed variables: extreme heat in degrees (Theat); wet cold (WC); and high ozone. We fitted Poisson models, negative binomials and zero-inflated Poisson controlled for seasonality, day of the week, holidays, trend, and autoregressive trend. Based on these models, the percentage of cases attributable to statistically significant risk factors was then estimated.

RESULTS

In L&GB emergency admissions daily noise is related to 4.4% (CI95%: 0.8 7.9) of admissions; NO2 to 2.9% (CI95%: 0.1 5.7) and wet cold to 0.2% (CI95%: 0.8 7.9). Heat wave temperature was only related to ALD. In addition, the wet cold association with L&GB is also related to HFNS attributing 1.0% (CI95%: 0.3 1.8) of admissions for this cause.

CONCLUSIONS

Daily noise and NO2 are associated with more than 7% of urgent L&GB admissions. Both pollutants, are mainly emitted by road traffic. A reduction of traffic in cities would result in a reduction of emergency admissions due to this cause.

Relationship of long-term exposure to air pollutant mixture with metabolic-associated fatty liver disease and subtypes: A retrospective cohort study of the employed population of Southwest China

BACKGROUND

While evidence suggests that PM2.5 is associated with overall prevalence of Metabolic (dysfunction)-Associated Fatty Liver Disease (MAFLD), effects of comprehensive air pollutant mixture on MAFLD and its subtypes remain unclear.

OBJECTIVE

To investigate individual and joint effects of long-term exposure to comprehensive air pollutant mixture on MAFLD and its subtypes.

METHODS

Data of 27,699 participants of the Chinese Cohort of Working Adults were analyzed. MAFLD and subtypes, including overweight/obesity, lean, and diabetes MAFLD, were diagnosed according to clinical guidelines. Concentrations of NO3-, SO42-, NH4+, organic matter (OM), black carbon (BC), PM2.5, SO2, NO2, O3 and CO were estimated as a weighted average over participants' residential and work addresses for the three years preceding outcome assessment. Logistic regression and weighted quantile sum regression were used to estimate individual and joint effects of air pollutant mixture on presence of MAFLD.

RESULTS

Overall prevalence of MAFLD was 26.6 % with overweight/obesity, lean, and diabetes MAFLD accounting for 92.0 %, 6.4 %, and 1.6 %, respectively. Exposure to SO42-, NO3-, NH4+, BC, PM2.5, NO2, O3and CO was significantly associated with overall MAFLD, overweight/obesity MAFLD, or lean MAFLD in single pollutant models. Joint effects of air pollutant mixture were observed for overall MAFLD (OR = 1.10 [95 % CI: 1.03, 1.17]), overweight/obesity (1.09 [1.02, 1.15]), and lean MAFLD (1.63 [1.28, 2.07]). Contributions of individual air pollutants to joint effects were dominated by CO in overall and overweight/obesity MAFLD (Weights were 42.31 % and 45.87 %, respectively), while SO42- (36.34 %), SO2 (21.00 %) and BC (12.38 %) were more important in lean MAFLD. Being male, aged above 45 years and smoking increased joint effects of air pollutant mixture on overall MAFLD.

CONCLUSIONS

Air pollutant mixture was associated with MAFLD, particularly the lean MAFLD subtype. CO played a pivotal role in both overall and overweight/obesity MAFLD, whereas SO42- were associated with lean MAFLD.