1.Causal relationship between gout and Alzheimer's disease: a two-sample Mendelian randomization analysis
Chuijia KONG ; Ying ZHANG ; Zhenkun TAN ; Junjiao PING ; Haibo ZHANG ; Jie ZHANG ; Jiali LUO ; Xinxia LIU
Sichuan Mental Health 2025;38(2):115-122
BackgroundDementia seriously affects the quality of life and lifespan of elderly people, with Alzheimer's disease (AD) being the most common type of dementia. Previous studies have suggested that gout may reduce the risk of developing AD, but the causal relationship between the two still requires further research. ObjectiveTo investigate the potential causal relationship between gout and AD through a two-sample Mendelian randomization (MR) analysis, so as to provide references for the prevention and treatment of AD. MethodsData from Genome-Wide Association Studies (GWAS) extracted in 2024 were analyzed, using pooled data on gout (6 810 cases in the case group and 477 788 cases in the control group) published by UK Biobank in 2021 as the exposure variable, and data on AD (3 899 cases in the case group and 214 893 cases in the control group) published by FinnGen in the same year as the outcome variable. The inverse-variance weighted, MR-Egger regression, weighted median estimation, simple model and weighted model were used to analyze the potential causal relationship between gout and AD. Pleiotropic effects were assessed using MR-Egger regression. Heterogeneity assessment was conducted using Cochran's Q test. The leave-one-out analysis was carried out for sensitivity analysis. And a funnel plot was drawn to detect potential publication bias. ResultsThe inverse-variance weighted analysis demonstrated a negative causal relationship between gout and AD (OR=0.004, 95% CI: 0~0.700, P<0.05). The plot resembled a symmetrical inversed funnel, indicating the absence of publication bias. No heterogeneity was detected by Cochran's Q test. The MR-Egger regression indicated no significant horizontal pleiotropy. Concerning the reverse directions, no significant associations between AD and gout were noted. ConclusionThere is a negative causal relationship between gout and AD, with gout potentially reducing the risk of developing AD. [Funded by The Third Batch of Social Welfare and Basic Research Projects (Medical and Health) of Zhongshan City in 2022 (number, 2022B3017)]
2.Association between urinary metal mixtures and mild cognitive impairment among elderly residents in Guangdong compounds
Chuijia KONG ; Ying ZHANG ; Zhenkun TAN ; Junjiao PING ; Haibo ZHANG ; Jiali LUO ; Xinxia LIU
Journal of Environmental and Occupational Medicine 2025;42(8):893-899
Background Environmental metal exposure is closely associated with the onset and progression of mild cognitive impairment (MCI) in the elderly. Effectively identifying hazardous metal exposure and assessing their interaction effects have significant public health implications. Objective To explore the relationship between urinary single metal and metal mixture exposure and MCI in elderly compound residents. Methods This study included 391 elderly individuals aged 60 and above from residential compounds in Zhongshan City, Guangdong Province. Concentrations of iron (Fe), copper (Cu), selenium (Se), arsenic (As), cadmium (Cd), manganese (Mn), chromium (Cr), nickel (Ni), vanadium (V), cobalt (Co), antimony (Sb), thallium (Tl), zinc (Zn), calcium (Ca), and magnesium (Mg) in urine were measured using inductively coupled plasma mass spectrometry. Cognitive function in the elderly was assessed using the Chinese version of the Mini-Mental State Examination (MMSE). Logistic regression was used to explore the relationship between single metal exposure level and MCI. LASSO regression and multi-metal logistic regression models were used to identify key metal ions associated with MCI. Bayesian kernel machine regression (BKMR) was employed to analyze the relationship between key metal ion mixtures and MCI, as well as the interactions between metals. Age, gender, education level, occupation, and body mass index were adjusted as covariates. Results A total of 78 among the 391 elderly individuals surveyed (19.94%) were diagnosed with MCI (MCI group), and the other 313 individuals were controls. The levels of Se, Cd, Mn, and As in the urine of the MCI group were significantly higher than those in the control group (P < 0.05). In the single-metal model, after adjusting for covariates and using the first quartile (Q1) of each metal concentration as the reference, the OR for MCI in the elderly in the Q4 group of Se was 2.190 (95%CI: 1.017, 4.716); for Cd, the OR was 2.345 (95%CI: 1.041, 5.283) in the Q3 group and 2.371 (95%CI: 1.043, 5.393) in the Q4 group; for Mn, the OR was 2.355 (95%CI: 1.038, 5.344) in the Q2 group; for As, the OR was 3.377 (95%CI: 1.442, 7.908) in the Q3 group and 2.886 (95%CI: 1.227, 6.788) in the Q4 group; for Sb, the OR was 2.779 (95%CI: 1.234, 6.257) in the Q2 group. When urinary metal concentrations were ln-transformed and included as continuous variables in the single-metal model, Cd concentration was positively correlated with MCI (OR=1.377; 95%CI: 1.008, 1.882; P=0.044). Cd, Se, Mg, Ca, Mn, As, Cr, Co, Tl, and Sb were selected by the LASSO regression model and included in the multi-metal model. In the multi-metal model, compared with Q1, the OR for MCI in the elderly was 0.395 (95%CI: 0.164, 0.953) in the Q2 group of Co and 0.390(95%CI: 0.167,0.911) in the Q3 group of Co; for Mn, the OR in the Q2 group was 2.636 (95%CI: 1.053, 6.596); for Sb, the OR in the Q2 group was 2.640 (95%CI: 1.047, 6.658). As continuous variables, Mg (OR=0.472; 95%CI: 0.248, 0.899; P=0.022) and Co (OR=0.857; 95%CI: 0.737, 0.996; P=0.044) concentrations were negatively correlated with MCI. The BKMR mixture analysis suggested that Mg and Co exhibited a synergistic negative correlation with MCI, while Mn and Sb exhibited a synergistic positive correlation with MCI. Mg and Co attenuated the positive correlation of Mn and Sb with MCI, whereas Mn weakened the protective effects of Mg and Co. Conclusion Elevated levels of Se, Cd, As, Mn, and Sb in urine may increase the risk of MCI in the elderly, while Mg and Co have protective effects. Potential synergistic or antagonistic interactions may be found among Mn, Sb, Mg, and Co, which should not be overlooked in terms of their impact on the cognitive function of the elderly.

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