Objective: The aim of this study was to evaluate the effects of aqueous extract of dry fruits of Trapa bispinosa (TB) in alleviating mercury (Hg)-induced neurobehavioral toxicity.Methods: A total of 36 adult male Swiss albino mice weighing 25–30 g were equally divided into six groups, namely I–VI. Group I received distilled water, Group II received mercuric chloride (1.5 mg/kg), Group III received TB extract low dose (150 mg/kg), Group IV received TB extract high dose (300 mg/kg), Group V received mercuric chloride plus TB extract low dose, and Group VI received mercuric chloride plus TB extract high dose. All the groups received doses orally through oral gavage tube and the treatment lasted for 14 days. The behavioral effects were evaluated with locomotor activity in the open field test (OFT), spatial learning ability and memory in the Morris water maze test (MWM), immobility in Forced swimming test (FST) and anxiety in Elevated plus maze test (EPM).Result: In the present study, it was observed that Hg-exposed mice significantly decreased the locomotor activity (p<0.001), time spent in open arms (p<0.001), number of open arm entries (p<0.01), number of annulus crossovers (p<0.001) and increased immobility (p<0.001), escape latency (p<0.01), and path length (p<0.001) in mice. The aqueous extract of TB significantly reduced the neurotoxic effects of Hg. The aqueous extract of TB showed to increase the locomotor activity (p<0.01), time spent in open arms (p<0.01), number of open arm entries (p<0.05), and number of annulus crossovers (p<0.001), which was decreased in Hg-exposed mice. TB extract also showed to decrease the immobility (p<0.001), escape latency (p<0.05), and path length (p<0.001) in Hg-fed mice.Conclusion: On the basis of the results obtained from the behavioral study, the present study indicates that mercuric chloride caused neurobehavioral changes which were significantly reversed by the aqueous extract of TB. Thus, TB was found to be effective in ameliorating the neurobehavioral deficit induced by Hg exposure.
Objective: This study aims to assess the effects of the aqueous extract of Hydrocotyle javanica (HJ) in ameliorating mercury-induced neurobehavioral toxicity.Methods: For the study, 36 adult male Swiss albino mice of 25–30 g in weight were taken. They were equally divided into six groups. Group I was treated with distilled water, Group II was treated with mercuric chloride (1.5 mg/kg), Group III was treated with HJ extract low dose (100 mg/kg), Group IV was treated with HJ extract high dose (200 mg/kg), Group V was treated with mercuric chloride plus HJ extract low dose, and Group VI was treated with mercuric chloride plus TB extract high dose. In all the groups, the doses were administered orally through oral gavage tube and the treatment lasted for 14 days. The behavioral effects evaluated were locomotor activity in the open field test, immobility in forced swimming test and anxiety in elevated plus maze test, spatial learning ability, and memory in the Morris water maze test.Results: The present study showed that mercury exposure significantly decreased the locomotor activity (p<0.001), number of annulus crossovers (p<0.001), number of open arm entries (p<0.01), time spent in open arms (p<0.001), and increased escape latency (p<0.01), path length (p<0.001), and immobility (p<0.001) in mice. The aqueous extract of HJ significantly alleviated the neurotoxic effects of mercury. The aqueous extract of HJ showed to increase the locomotor activity (p<0.01), number of annulus crossovers (p<0.001), number of open arm entries (p<0.05), and time spent in open arms (p<0.05), which was decreased in mercury-exposed mice. The HJ extract also showed to decrease the immobility (p<0.001), escape latency (p<0.05), and path length (p<0.001) in mercury-exposed mice.Conclusion: The result of the study shows that neurobehavioral changes induced by mercuric chloride were significantly reversed by the aqueous extract of HJ. Thus, base on the present study, it is concluded that HJ is effective in ameliorating the neurobehavioral deficits induced by mercury.
Objective: The aim of this study was to evaluate the toxicity of Mussaenda roxburghii with special reference to the nervous system. Methods: For the study, 15 mice were obtained from Pasteur Institute, Shillong. The mice were then divided into three groups containing five mice in each group. The groups were, namely Group I, Group II, and Group III; Group I mice received distilled water and acted as a control group, Group II mice received plant extract at a dose of 600 mg/kg body weight (BWT.), and Group III mice received plant extract at a dose of 800 mg/kg BWT. The doses were administered orally through oral gavage tube for 28 days and the BWT of the mice was measured at 7th, 14th, 21th, and 28th days. The behavior of mice was evaluated for anxiety, locomotion, immobility, learning, and memory with the elevated plus maze test (EPMT), open field test (OFT), forced swim test (FST), and Morris water maze test (MWMT), respectively. Results: The result of the experiment showed a decrease in the BWT of mice exposed to plant extracts significantly as compared to the control. In the OFT, there is a significant decrease in total distance travel in OFT and also total distance travel in the central zone in mice treated with the plant extracts as compared to the control mice. In the EPMT, the plant extract treated mice showed a decreased in the time spent in open arms. The FST results in increased immobility in mice exposed to plant extracts as compared to control. In the present study, MWMT results in an increased escape latency and path length and in decreased annulus crossovers in plant extract treated group as compared to control. Conclusion: The results of the present study suggest that the plant extract alters the behavior of the treated mice and possesses neurotoxic activity.
Background: Holarrhena pubescens Wall. ex G. Don belongs to the family Apocynaceae and has several therapeutic applications in traditional medicine. This plant has various pharmacological properties such as antihelmintic, antidiuretic and antidiabetic. One of the major concerns, as they are used, is the lack of adequate pharmacological and toxicological data to support their uses. Objective: The present investigation was carried out to evaluate the safety of an ethanolic extract of Holarrhena pubescens Wall.ex.G.Don (Apocynaceae) by determining its potential toxicity after oral administration for 28 days. Methods: In sub-acute toxicity, the extract at the doses of 250, 500 and 1000mg/kg, bw was administered orally for 28 days. After 28 days of treatment, the mice were decapitated; brain was homogenized for evaluating oxidative stress. The brain was fixed in 10 % formalin and processed for histopathological examinations. Phytochemical analysis of the plant extract was performed by (GC-MS). Result: In the sub-acute study in mice, daily oral administration of HP resulted in a significant increase in the lipid peroxidation of treated animals and a decrease in enzymes activity of CAT, SOD, GPX and GR in both, males and females mice. Histopathological analysis showed alterations in the mice brain cortex. From the GC-MS analysis of the plant extract, it was evident that major phytochemicals were present in the ethanol extract of HP. Some major phytochemicals namely, conessimine (17.81 %); lup-20(29)-en-3-one (16.50%); piperidine, 2-(tetrahydro-2-furanyl)-(6.44%); lup-20(29)-ene-3, 28-diol, (3.beta.) (4.82%) and 17-(1, 5-dimethyl-3-phenylsulfanyl-hex-4-enyl (4.37%) were found. Conclusion: H.pubsecne bark ethanol extract was found to be relatively safe in lower doses although at higher doses it can cause lipid peroxidation and damage to the neuronal cell of the brain and should therefore be used with caution.
Clitoria ternatea L. of the family Fabaceae is an economical, ornamental as well as medicinal important species. Chromosome characterization of C. ternatea, encompassing karyomorphological as well as fluorochrome binding was carried out in the present investigation. Karyomorphological studies showed the presence of 2n = 16 somatic chromosome number with three pairs of metacentric chromosomes and five pairs of submedian chromosomes. The analysis also revealed the present of one pair of nucleolar organizing region or satellite. Fluorochrome binding using chromomycin A3 (CMA) and 4-6-diamidino-2-phenylindole (DAPI) showed the presence of GC- and AT- rich heterochromatic region. Further analysis revealed the percentage of GC-rich was comparatively higher than AT-rich heterochromatic region. This is the first report on heterochromatin characterization in C. ternatea.
Objective: This study aims to assess the effects of the aqueous extract of Hydrocotyle javanica (HJ) in ameliorating mercury-induced neurobehavioral toxicity.Methods: For the study, 36 adult male Swiss albino mice of 25–30 g in weight were taken. They were equally divided into six groups. Group I was treated with distilled water, Group II was treated with mercuric chloride (1.5 mg/kg), Group III was treated with HJ extract low dose (100 mg/kg), Group IV was treated with HJ extract high dose (200 mg/kg), Group V was treated with mercuric chloride plus HJ extract low dose, and Group VI was treated with mercuric chloride plus TB extract high dose. In all the groups, the doses were administered orally through oral gavage tube and the treatment lasted for 14 days. The behavioral effects evaluated were locomotor activity in the open field test, immobility in forced swimming test and anxiety in elevated plus maze test, spatial learning ability, and memory in the Morris water maze test.Results: The present study showed that mercury exposure significantly decreased the locomotor activity (p<0.001), number of annulus crossovers (p<0.001), number of open arm entries (p<0.01), time spent in open arms (p<0.001), and increased escape latency (p<0.01), path length (p<0.001), and immobility (p<0.001) in mice. The aqueous extract of HJ significantly alleviated the neurotoxic effects of mercury. The aqueous extract of HJ showed to increase the locomotor activity (p<0.01), number of annulus crossovers (p<0.001), number of open arm entries (p<0.05), and time spent in open arms (p<0.05), which was decreased in mercury-exposed mice. The HJ extract also showed to decrease the immobility (p<0.001), escape latency (p<0.05), and path length (p<0.001) in mercury-exposed mice.Conclusion: The result of the study shows that neurobehavioral changes induced by mercuric chloride were significantly reversed by the aqueous extract of HJ. Thus, base on the present study, it is concluded that HJ is effective in ameliorating the neurobehavioral deficits induced by mercury.
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