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Item Chronic ciprofloxacin and atrazine co-exposure aggravates locomotor and exploratory deficits in non-target detritivore speckled cockroach (Nauphoeta cinerea)(Springer-Verlag GmbH, 2021) Adedara, I. A. || || || || || || ||; Godswill, U. S.; Mike. M. A.; Afolabi, B. A.; Amorha, C. C.; Sule, J.; Rocha, J. B. T.; Farombi, E. O.The global detection of ciprofloxacin and atrazine in soil is linked to intensive anthropogenic activities in agriculture and inadvertent discharge of industrial wastes to the environment. Nauphoeta cinerea is a terrestrial insect with cosmopolitan distribution and great environmental function. The current study probed the neurobehavioral and cellular responses of N. cinerea singly and jointly exposed to atrazine (1.0 and 0.5 μg g−1 feed) and ciprofloxacin (0.5 and 0.25 μg g−1 feed) for 63 days. Results demonstrated that the reductions in the body rotation, maximum speed, turn angle, path efficiency, distance traveled, episodes, and time of mobility induced by atrazine or ciprofloxacin per se was exacerbated in the co-exposure group. The altered exploratory and locomotor in insects singly and jointly exposed to ciprofloxacin and atrazine were verified by track plots and heat maps. Furthermore, we observed a decrease in acetylcholinesterase and anti-oxidative enzyme activities with concomitant elevation in the levels of lipid peroxidation, nitric oxide, and reactive oxygen and nitrogen species were significantly intensified in the midgut, hemolymph, and head of insects co-exposed to ciprofloxacin and atrazine. In conclusion, exposure to binary mixtures of ciprofloxacin and atrazine elicited greater locomotor and exploratory deficits than upon exposure to the individual compound by inhibiting acetylcholinesterase activity and induction of oxido-inflammatory stress responses in the insects. N. cinerea may be a usable model insect for checking contaminants of ecological risks.Item Toxicological outcome of exposure to psychoactive drugs carbamazepine and diazepam on non-target insect Nauphoeta cinerea(Elsevier Ltd., 2021) Adedara, I. A.; Ajayi, B. O.; Afolabi, B. A.; Awogbindin, I. O.; Rocha, J. B. T.; Farombi, E. O.The continuous detection of human pharmaceuticals during environmental biomonitoring is a global concern because of thè menaces they may exert on non-target organisms. Carbamazepine (CBZ) and diazepam (DZP) are commonly prescribed psychotropic drugs which have been reported to coexist in thè environment globally. Nauphoeta cinerea is a common insect with high ecological impact. This study elucidated thè influence of co-exposure to DZP (0.5 and 1.0 pg kg-1 diet) and CBZ (1.5 and 3.0 pg kg~* diet) for 42 days on thè behavior and biochemical responses in Nauphoeta cinerea. Results showed that DZP alone did not induce adverse effect on thè behavior and antioxidant status in thè exposed insects. However, exposure to CBZ alone and binary mixtures of DZP and CBZ significantly decreased locomotor and exploratory accomplishments evidenced by decreased mobile episodes, total mobile time, maximum speed, total distance traveled, absolute turn angle, body rotation and path efficiency in comparison with control. The decline observed in thè exploratory activities of insects fed with CBZ alone and thè mixtures was confirmed by tracie plots and heat maps. Further, acetylcholinesterase and antioxidant enzyme activities decreased significantly whereas reactive oxygen and nitrogen species, nitric oxide and lipid peroxidation levels increased significantly in thè hemolymph, head and midgut of insects exposed to CBZ alone and thè mixtures. Collectively, CBZ alone and binary mixtures of CBZ and DZP .Item Neurobehavioural and biochemical responses associated with exposure to binary waterborne mixtures of zinc and nickel in rats(1382-6689, 2020) Adedara, I. A.; Adegbosin, A. N.; Owoeye, O.; Abiola, M. A.; Odunewu, A. A.; Owoeye, O.; Owumi, S. E.; Farombi, E. O.Environmental and occupational exposure to metal mixtures due to various geogenic and anthropogenic ac- tivities poses a health threat to exposed organisms. The outcome of systemic interactions of metals is a topical area of research because it may cause either synergistic or antagonistic effect. The present study investigated the impact of co-exposure to environmentally relevant concentrations of waterborne nickel (75 and 150 pg NiCl 2L-1) and zinc (100 and 200pg ZnC^L-1) mixtures on neurobehavioural performance of rats. Locomotor, motor and exploratory activities were evaluated using video-tracking software during trial in a novel arena and thereafter, biochemical and histological analyses were performed using the cerebrum, cerebellum and liver. Results indicated that zinc significantly (p < 0.05) abated the nickel-induced locomotor and motor deficits as well as improved the exploratory activity of exposed rats as verified by track plots and heat map analyses. Moreover, zinc mitigated nickel-mediated decrease in acetylcholinesterase activity, elevation in biomarkers of liver damage, levels of reactive oxygen and nitrogen species as well as lipid peroxidation in the exposed rats when compared with control. Additionally, nickel mediated decrease in antioxidant enzyme activities as well as the increase in tumour necrosis factor alpha, interleukin-1 beta and caspase-3 activity were markedly abrogated in the cerebrum, cerebellum and liver of rats co-exposed to nickel and zinc. Histological and histomorphome- trical analyses evinced that zinc abated nickel-mediated neurohepatic degeneration as well as quantitative re- duction in the widest diameter of the Purkinje cells and the densities of viable granule cell layer of dentate gyrus, pyramidal neurones of cornu ammonis 3 and cortical neurons in the exposed rats. Taken together, zinc abrogated nickel-induced neurohepatic damage via suppression of oxido-inflammatory stress and caspase-3 activation in rats.