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Objective:To investigate the total radioactivity in drinking well water around the Bayanwula uranium mine.Methods:Totally 174 samples of drinking well water and 5 samples of filtered well water from residential houses were collected during dry and wet seasons in 2020 around the Bayanwula uranium mine. Total α and total β radioactivity in dry season and wet season were analyzed for detrmining whether there were differences between them and the relation between total radioactivity with different locations away from the uranium center. The radioactivity in filtered drinking well water used in residential houses was also investigated. Radioactivity were measured and analyzed using low background alpha and beta radioactivity meters, and the data were analysed using SPSS analytical statistical method.Results:In the drinking well water around Bayanwula uranium mine, the activity concentrations of total α and β measured in dry season were 0.024-2.468 Bq/L with a mean of (0.605±0.507) Bq/L and 0.125-1.395 Bq/L with a mean of (0.420±0.235) Bq/L, respectively. The values measured in wet season were 0.049-2.988 Bq/L with a mean of (0.825±0.605) Bq/L for total α and 0.059-1.623 Bq/L with a mean of (0.506±0.265) Bq/L for total β, respectively. The average value of total radioactivity in water samples was lower within 10, 30 and 20 km of the uranium mine in the descending order.Conclusions:The radioactivity in well water around the Bayanwula uranium mine is high, with the total α and β in samples greater in wet season than in the dry season and without elevated levels as compared to the pre-mining background.
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Objective:To ascertain the level of radioactivity in drinking water in Inner Mongolia region, and analyze the reasons why the total alpha radioactivity index is high in drinking water in some areas thereof.Methods:Water samples with high total alpha radioactivity index were collected in some towns in the region on the basis of surveyed result , with the causes of abnormal radioactivity index being analyzed, using low background α radioactivity measuring instrument, microuranium analyzer, and inductively coupled plasma mass spectrometer, to estimate the accumulative effective dose caused by ingestion of radioactivity in drinking water.Results:The total alpha activity was 0.508-1.008 Bq/L in tap water samples and 0.507-1.965 Bq/L in finished water samples. Uranium concentration was 3.41-35.71 μg/L in tap water measured using laser fluorescence method and 3.62-32.61 μg/L in finished water measured using laser fluorescence method, respectively. The concentration of 238U and 232Th in tap water measured by inductively coupled plasma mass spectrometry was 5.83-34.36 μg/L, 0.002-0.359 μg/L, respectively, while that in finished water was 5.62-29.41 μg/L, 0.003-0.327 μg/L, respectively. Conclusions:Based on the repeated measurement analysis of drinking water samples from some areas in Inner Mongolia, the high level of total α radioactivity in water samples is caused by uranium, and the high content of uranium leads to a high total alpha value.
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This study was aimed to explore the effects of Shengmai(SM) injection on blood pressure (BP),heart rate (HR),electrocardiogram (ECG),and serum C-reactive protein (CRP) and NO levelin Beagle dogs with myocardial ischemia (MI).A total of 30 Beagle dogs were divided into 5 groups,which were the blank control group,model control group,SM injection low-dose group (0.80 mL· kg-1),SM injection high-dose group (3.20 mL· kg-1) and isosorbidemononitrate group (0.07 mL· kg-1).The MI model was established by the subcutaneous injection of isoprenaline hydrochloride,and the drug treatments were given at the same time.At 1 h,6 h,12 h,24 h after administration,changes of BP,HR and ECG were recorded;serum CRP and NO content were detected.The results showed that compared with the blank control group,the mean arterial pressure (MBP) was significantly decreased (P<0.01),HR was significantly increased (P<0.01,or P<0.05),the ECG△ST value was significantly increased (P<0.01) in the model group.SM injection could improve symptoms mentioned above,but the effectswereslow.SM injection had a significant antagonistic effect on the decreasing of CRP content and the increasing of NO content,compared with the model group.The difference was statistically significant (P<0.01,or P<0.05).It was concluded that SM injection could improve the physiological indices of Beagle dogs with MI,which might be related to the regulation of CRP and the inhibition of NO secretion.
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Objective: To observe the antiasthmaf ic, anti-inflammatory and immunological effects of Gubenchuansoukang Granule. Methods: The rats asthma model was established by ovalbumin sensitization. The model was identified by the study of the asthma incubation period and the total white cells counts in bronchoalveolar lavage fluid (BALF). The anti-inflammatory effect was observed by the acute inflammation and chronic inflammation induced xylene and agar. To observe the effect of Gubenchuansoukang Granule on humoral immunity and cellular immunity induced by chicken red blood cell and 2, 4-dinitrochlorobenzene. Results: Gubenchuansoukang Granule could lengthen the asthma incubation period, reduce the quantity of total white cells in BALF, against the acute inflammation and chronic inflammation, and restrain the humoral immunity and cellular immunity. Conclusion: Gubenchuansoukang Granule had antiasthmafic, anti-inflammatory and immunosuppression effects.