Abstract
Antiretroviral drugs for the treatment of human immunodeficiency virus (HIV) and other viral infections are among the emerging contaminants considered for ecological risk assessment. These compounds have been reported to be widely distributed in water bodies and other aquatic environments, while data concerning the risk they may pose to unintended non-target species in a different ecosystem (environment) is scanty. In South Africa and other developing countries, lamivudine is one of the common antiretrovirals applied. Despite this, little is known about its environmental impacts as an emerging contaminant. The present study employed a battery of ecotoxicity bioassays to assess the environmental threat lamivudine poses to aquatic fauna and flora. Daphnia magna (filter feeders), the Ames bacterial mutagenicity test, Lactuca sativa (lettuce) germination test, and the Allium cepa root tip assay were conducted, testing lamivudine at two concentrations (10 and 100 µg/L), with environmental relevance. The Daphnia magna toxicity test revealed a statistically significant response (p << 0.05) with a mortality rate of 85% on exposure to 100 µg/L lamivudine in freshwater, which increased to 100% at 48-h exposure. At lower concentrations of 10 µg/L lamivudine, 90% and 55% survival rates were observed at 24 h and 48 h, respectively. No potential mutagenic effects were observed from the Ames test at both concentrations of lamivudine. Allium cepa bioassays revealed a noticeable adverse impact on the root lengths on exposure to 100 µg/L lamivudine. This impact was further investigated through microscopic examination, revealing some chromosomal aberration in the exposed Allium cepa root tips. The Lactuca sativa bioassay showed a slight adverse impact on both the germination rate of the seeds and their respective hypocotyl lengths compared to the control. Overall, this indicates that lamivudine poses an ecological health risk at different trophic levels, to both flora and fauna, at concentrations previously found in the environment.
Highlights
It has been reported that pharmaceuticals are in continuous release into the environment from different point sources, thereby contaminating water bodies [1,2]
The Daphnia magna are reported to be very sensitive freshwater crustaceans that are quick to respond to small changes in water chemistry; they are used as a target indicator organism in exposure studies
Results showed that 10 μg/L lamivudine had higher neonates’ survivals relative to the control, while neonates exposed to 100 μg/L lamivudine test solution had a lower survival rate (S1)
Summary
It has been reported that pharmaceuticals are in continuous release into the environment from different point sources, thereby contaminating water bodies [1,2]. Once these pollutants enter the environment, they can affect living organisms at many trophic levels in the ecosystem [3]. POSITIVE CONTROL 10 PPB LMV 100 PPB LMV. Test sample exposed to TA 100 S. typhimurium.
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