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Objective To investigate the relations between saliva arsenic levels and serum arsenic and urinary arsenic of rats after exposed to different levels of sodium arsenite.Methods Thirty-two SD rats were randomly divided into four groups(8 rats in each group),namely the control group,the low,the medium,and the high doses of sodium arsenite exposure groups.Rats of the control group were given 0.9% NaCI by gavage,and other three groups were given sodium arsenite of 0.2,2.0,20.0 mg/kg body weight by gavage.All animals were administrated every other day for two weeks,then saliva,blood,urine and tissue organs were collected,organ coefficients were calculated,total arsenic concentrations in blood and urine were detected by Atomic Fluorescence Spectrometry(AFS-230) and total arsenic concentration in saliva was detected by Inductively Coupled Plasma Mass Spectrometer(ICP-MS).Results The weight gain values of rats exposed to sodium arsenite were lower than that of the control group,the difference was statistically significant between the highest dose group[(76.13 ± 17.19)g]and the control group[(103.00 ± 12.31)g,P < 0.05].The liver and kidney organ coefficients in the highest dose group [(3.92 ± 0.54)%,(0.96 ± 0.15)%]were significantly higher than that in the control group[(3.27 ± 0.35)%,(0.76 ± 0.05)%,P < 0.05 or < 0.01].The total arsenic concentrations in saliva[(0.044 ± 0.019),(0.211 ± 0.071),(1.128 ± 0.380)mg/L],blood[(11.832 ± 1.887),(45.032 ± 7.216),(121.839 ± 17.323)mg/L]and urine[(0.138 ± 0.085),(0.874 ± 0.328),(8.843 ± 1.754)mg/L]in the three treatment groups were significantly higher compared with that of the control group [(0.018 ± 0.014),(2.267 ± 0.370),(0.025 ± 0.011)mg/L,all P < 0.05],furthermore,there was a significant difference among the three treatment groups (all P < 0.05).The arsenic contents in saliva were significantly correlated with blood arsenic and urinary arsenic,the correlation coefficient was 0.934 and 0.960,respectively (all P < 0.01).Conclusions High dose of arsenic exposure,with a strong toxicity to liver and kidney,can inhibit the increase of rat body weight.Arsenic dose-response relationship exists in the saliva,and saliva arsenic is significantly correlated with blood arsenic and urinary arsenic,suggesting that salivary arsenic can be used as a new biomarker for assessing human exposure to arsenic.
RESUMO
Objective To investigate the level of arsenic in environmental media and food stuffs including vegetables in water-born endemic arsenicosis area for provide a scientific basis for endemic arsenicosis of Shanxi province.Methods Samples of drinking water,soil,and glutinous broom corn,foxtail millet,and potato were collected from local families in water-born endemic arsenicosis area of Shanyin county,Shanxi province.According to“Diagnosis Standard for Endemic Arsenicosis” (WS/T 211-2001 ),totally 309 people from 126 families were choosen for the survey.The content of arsenic in drinking water,glutinous broom corn and foxtail millet was quantitatively determined by inductively coupled plasma mass spectrometry(ICP-MS).The level of arsenic in soil and potato was measured by atomic fluorescence spectrometer(AFS).The water arsenic concentrations were divided into five groups,≤10,> 10 - 50,> 50 - 100,> 100 - 200,and > 200 μ g/L,analysis the relationship between water arsenic exposure and skin lesions.ResultIn this study,126 water samples were collected.Arsenic concentrations in drinking water were 4.04 - 720.00 μg/L,the median value was 87.75 μg/L,and the ratio of arsenic level higher than the Chinese standards for drinking water(50 μg/L) was 63.49%(80/126).The levels of arsenic in food were 0.16 - 4.58 mg/kg,the median value of arsenic in food was 0.66 mg/kg,and 98.73%(78/79) of arsenic exceeded 0.2 mg/kg.Arsenic concentrations in soil and vegetable were 5.34 - 13.74 mg/kg and 0 - 0.30 mg/kg,respectively.Predicted inorganic arsenic intake from food and vegetable was modeled with the equivalent intake from drinking water for a typical Chinese diet.Daily consumption of grain with a total arsenic level of 0.17 mg/kg would be equivalent to a drinking water arsenic level of 10 μg/L.Otherwise,adjusted with gender and age,symptoms of skin lesions correlated positively with water arsenic concentrations in all subjects.The OR values were 3.219,9.001,56.127,and 97.734 for each group,respectively.Rank correlation test using Chi-square test and Spearman correlation test showed that the severity of skin lesions was associated with the increasing of arsenic content in water(x2 =128.747,P < 0.05; r =0.501,P < 0.05).ConclusionsArsenic levels in both drinking water and food are high in water-born endemic arsenicosis area of Shanxi province,and in soil and vegetables are not high.Arsenic in drinking water has been considered as a main risk factor of skin lesions,and dietary intake of arsenic through foodstuff can not be ignored.
RESUMO
ObjectiveTo investigate the arsenic level in saliva and its relationship with arsenic in urine and drinking water in endemic arsenism area in Shanyin county of Shanxi province.MethodsSeventy individuals from four villages in endemic arsenicosis area in Shanyin county Shanxi provence were selected as research subjects.“The National Diagnosis Standard for Endemic Arsenism” (WS/T211-2001 ) was used to identify and categorize the cases of arsenicosis during the survey.Urine,saliva samples from all individuals and water samples from their families were collected.Total arsenic in saliva,urine and drinking water samples were detected by inductively coupled plasma mass spectrometry (ICP-MS) and atomic fluorescence spectrometry-230 (AFS-230).ResnltsThe median of arsenic in drinking water samples was 127.22 μg/L,and 66.67% (28/42) of samples' arsenic levels exceeded the drinking water standard,37 individuals had varying degrees of skin lesions among the 70 residents.There was a significant difference of the arsenic concentration in saliva and urine of the residents exposed to different levels of arsenic in drinking water (F =28.643,10.226,all P< 0.05).Arsenic levels were positively correlated significantly (r =0.674,0.686,all P< 0.05) between water and saliva,urinary.Saliva and urinary arsenic levels were highly correlated (r =0.794,P < 0.05).In addition,arsenic in saliva and urine,water arsenic,skin symptoms were closely related, and the levels of arsenic were significantly different statistically between symptomatic group and asymptomatic group (t =- 3.194,- 4.167,- 4.938,all P < 0.01).ConclusionsSalivary arsenic is significantly correlated with water arsenic and also with skin symptoms of patients with arsenic poisoning,which suggests that salivary arsenic is a potential useful biomarker for assessing human exposure to arsenic.