OBJECTIVE: To evaluate possible anxiogenic activity, sedative property and anxiolytic potential of crude ethanolic extract of Calotropis gigantea leaves. METHODS: The anxiogenic activity of crude ethanolic extract of Calotropis gigantea leaves was evaluated using standard animal behavioral models, such as hole cross and open field; sedative property and anxiolytic potential were evaluated by conducting thiopental sodium induced sleeping time tests and elevated plus-maze test. RESULTS: The crude ethanolic extract exhibited a significant (P<0.05, P<0.001) decrease of motor activity and exploratory behavior in hole cross and open field tests. The extract also markedly increased both the number of visits to and time spent in the corners of the open field. The extract treated rats spent more time in the open arm of elevated plus-maze, showing its antianxiety activity. There was a decrease in the locomotor activity. CONCLUSIONS: The obtained results provide support for the use of this species in traditional medicine and warrant further investigation to isolate the specific components that are responsible for the sedative and anxiolytic effects. Components from this plant may have a great potential value as medicinal agents, as leads or model compounds for synthetic or semi synthetic structure modifications and optimization, and as neuropharmacological probes.
OBJECTIVE: To evaluate possible anxiogenic activity, sedative property and anxiolytic potential of crude ethanolic extract of Calotropis gigantea leaves. METHODS: The anxiogenic activity of crude ethanolic extract of Calotropis gigantea leaves was evaluated using standard animal behavioral models, such as hole cross and open field; sedative property and anxiolytic potential were evaluated by conducting thiopental sodium induced sleeping time tests and elevated plus-maze test. RESULTS: The crude ethanolic extract exhibited a significant (P<0.05, P<0.001) decrease of motor activity and exploratory behavior in hole cross and open field tests. The extract also markedly increased both the number of visits to and time spent in the corners of the open field. The extract treated rats spent more time in the open arm of elevated plus-maze, showing its antianxiety activity. There was a decrease in the locomotor activity. CONCLUSIONS: The obtained results provide support for the use of this species in traditional medicine and warrant further investigation to isolate the specific components that are responsible for the sedative and anxiolytic effects. Components from this plant may have a great potential value as medicinal agents, as leads or model compounds for synthetic or semi synthetic structure modifications and optimization, and as neuropharmacological probes.