The cytogenetic study using hospital effluent was carried out engaging three cytogenetic end points—chromosomal aberration (CA) assay, mitotic indices (MIs), and micronucleus (MN) Analysis. These bioassays were performed in hematopoietic bone marrow cells of Mus musculus. The experiment commenced with the collection of hospital effluent from the final outlet when wastewater gets collected after undergoing treatment by a multistep process. The pure treated sample water was collected at different times between March 2019 to January 2020 and was given ad libitum to mice at its low (90% dilution) and high (pure form), i.e. 100% concentration for 3 different durations i.e. 7, 15, and 30 days, respectively. The results indicated a significant (P < 0.01) decrease in the MI in all the groups but was more pronounced in the group which was given 100% concentrated sample water collected in the month of March 2019. Besides this, the major finding was presence of CAs like breaks, fragments, rings, and pulverization in bone marrow cells in different groups; however, the frequency of these aberrations varied from group to group. A significant (P < 0.01) increase in MN Induction and decreased ratio (P < 0.01) of polychromatic to normonochromatic erythrocytes were observed in samples collected in month of March both at 10% and 100% concentrations. However, decrease in the ratio was observed in the samples of September and January at low-concentration sample water. The results thus indicated that there was some lacuna in the treatment process earlier in the month of March, which was rectified to some extent in the subsequent months. Hence, the treated wastewater collected in the month of January next year was more suitable for its use than other samples. Summary: These findings thus draw attention toward ensuring efficiency of the treatment plant and quality of water by the hospital management before it being disposed off into the municipal supply; a step that can help society to live a healthy life. With these findings, it is conveyed that all the hospitals, diagnostic labs, and other health care establishments must pay utmost attention at liquid waste disposal mechanism to make environment pollution-free.
Inefficient monitoring of the water resource recovery facility at various health care establishments may lead to detrimental effects on human population, especially when such water get mixed with potable municipal water supply. To ensure the efficiency and proper functioning of the water resource recovery facility and quality of water, before it being disposed of, the present study was conducted with the assessment of physico‐chemical parameters of water and its genotoxic and cytogenetic effects in mice. The sample water was given ad libitum to animals for three different time durations, that is, 7, 15, and 30 days. Bone marrow chromosomal aberration and bone marrow micronucleus (MN) assay were performed to get the extent of genotoxicity and cytogenicity. The results showed presence of chromosomal aberrations like fragments breaks and ring formation in different groups. Besides this, a significant (p < 0.05*, p < 0.01**, p < 0.001***) decrease in the mitotic index was noted in the group which was given 100% concentrated sample water for 30 days. A significant (p < 0.05*, p < 0.01**, p < 0.001***) increase in MN induction and decreased ratio of polychromatic to normochromatic erythrocytes were observed in groups which were given samples at 10% and 100% concentrations for longer durations. The findings suggest that even the recovered sample water reflects a positive in vivo genotoxic potential when given for a longer duration of 30 days, indicating some lacuna in the treatment process.
Hospital effluents are loaded with drugs, radioactive elements, pathogens, etc. Effluents from treatment plants at source sites may get mixed up with potable water, leading to numerous detrimental/toxic effects. In this study, efforts were made to investigate the toxic effects of one such effluent from a local hospital on the reproductive characteristics of mice when orally administered daily for 60 consecutive days. We primarily focused on the changes in the morphology of the sperm and its geometric morphometrics, i.e., sperm head length and width, area, and perimeter, measured using ImageJ software. The incidence of sperm defects was recorded, and variations in the morphometrics were analyzed by one-way ANOVA using Tukey’s post hoc test. A physico-chemical characterization of the water samples was also performed to assess the basic water quality. In summary, the study revealed the critical role of treated water in inducing different abnormalities in sperm, such as the absence of a head, bent necks, abnormal neck attachment, highly coiled tails, and missing tails. Significant differences (p < 0.01 **, p < 0.001 ***) in the morphometrics of spermatozoa with banana heads, hammer heads, missing heads, pin heads, and missing hooks were noted compared to corresponding controls. It could thus be concluded that treated hospital effluent is still inadequately clean and contains significant amounts of toxicants that might be detrimental to sperm quality.
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