Objective:Mosquitoes are the major transmitting vectors of serious human diseases,causing millions of deaths every year with undesirable effects,including toxicity to non-target organisms.Some plants with insecticida...Objective:Mosquitoes are the major transmitting vectors of serious human diseases,causing millions of deaths every year with undesirable effects,including toxicity to non-target organisms.Some plants with insecticidal properties have been used in recent years for the control of a variety of pest insects and vectors.In the quest for alternative natural biological control agents against mosquito larvae lichens were selected.Method:Larvicidal activity was assessed with methanolic extracts of Parmotrema reticulatum,Parmotrema kamatti,Parmotrema tinctorum,Parmelia erumpens,Leptogium papilosum,and Roccella montagnei against Aedes aegypti,Anopheles stephensi,and Culex quinquefasciatus.The standard WHO protocols with minor modifications were adopted and the bioassay was evaluated at the concentrations of 100–500μg/m L for each lichen.Since all the lichen extracts showed complete mortality against C.quinquefasciatus in100μg/m L,the concentrations were decreased to 100,50,25,12.5,and 6.25μg/m L for C.quinquefasciatus.Larval mortality was observed for 24 h after treatment.Results:All the lichen extracts exhibited activity against third instar larvae of A.aegypti and A.stephensi at 100μg/m L,and 100%mortality was observed against the vector C.quinquefasciatus at 100μg/m L.The highest larvicidal activity was found with L.papilosum against A.aegypti(81.127μg/m L)and A.stephensi(89.10μg/m L).Similarly,P.tinctorum and R.montagnei when tested against C.quinquefasciatus with minimum concentration〈100μg/m L exhibited significant activity withof 5.32and 6.97μg/m L.Conclusion:The bioassay results revealed larvicidal potential of lichens especially against C.quinquefasciatus with high mortality even at lower concentration.Hence,lichens can be used as an ideal sustainable approach for the control of lymphatic filariasis caused by vector C.quinquefasciatus.展开更多
Objective: Obesity and hyperlipidemia is the major cause of many pathological diseases with an increase side effects using allopathic drugs. The present study focuses on the effect of Ixora coccinea on Triton X-100 in...Objective: Obesity and hyperlipidemia is the major cause of many pathological diseases with an increase side effects using allopathic drugs. The present study focuses on the effect of Ixora coccinea on Triton X-100 induced hyperlipidemia in rats and associated complications.Methodology: In vitro radical scavenging activity of I. coccinea was assessed using DPPH, FRAP and hydrogen peroxide. In vivo antiobesity and antihyperlipidimic activity of I. coccinea was tested in Triton X-100 induced hyperlipidemic rats and assessed for its biochemical parameters in blood and tissue samples.The relationship between physiological responses and regulation of body temperature was investigated by using animal surface temperature images captured with infrared camera.Results: The results of mineral analysis, antioxidant, total flavonoid and phenolic content represented high amount of mineral and had the potential to scavenge free radicals tested with DPPH, FRAP and hydrogen peroxide radicals with dose dependent activity. The highest activity was observed in aqueous extract, DPPH with 71.5% inhibition, FRAP with 56.8%, H2 O2 with 33% activity at 100 μg/mL concentration.Triton X-100 induced hyperlipidemic rats when treated with I. coccinea aqueous extract showed significant activity by regulating the biochemical parameters and maintaining the lipid profile by decreasing TC,LDL-C, VLDL-C, TG and improving HDL-C levels. Similarly, the elevated levels of creatinine, urea, uric acid,AST, ALT, ALP due to induction of hyperlipidemia, were brought back to near normal levels after treatment with I. coccinea. The levels of tissue anti-oxidants enzymes like SOD and CAT were also found to be improved in treated I. coccinea groups. The whole body asymmetrical temperature distribution analysis showed that significant decreases in temperature was observed in obesity induced groups but a gradual increase in temperature(2%–5%) was observed after treatment.Conclusion: Thus, the results indicated that I. coccinea can be a drug of choice to decrease the risk of complications associated with hyperlipidemia and obesity.展开更多
文摘Objective:Mosquitoes are the major transmitting vectors of serious human diseases,causing millions of deaths every year with undesirable effects,including toxicity to non-target organisms.Some plants with insecticidal properties have been used in recent years for the control of a variety of pest insects and vectors.In the quest for alternative natural biological control agents against mosquito larvae lichens were selected.Method:Larvicidal activity was assessed with methanolic extracts of Parmotrema reticulatum,Parmotrema kamatti,Parmotrema tinctorum,Parmelia erumpens,Leptogium papilosum,and Roccella montagnei against Aedes aegypti,Anopheles stephensi,and Culex quinquefasciatus.The standard WHO protocols with minor modifications were adopted and the bioassay was evaluated at the concentrations of 100–500μg/m L for each lichen.Since all the lichen extracts showed complete mortality against C.quinquefasciatus in100μg/m L,the concentrations were decreased to 100,50,25,12.5,and 6.25μg/m L for C.quinquefasciatus.Larval mortality was observed for 24 h after treatment.Results:All the lichen extracts exhibited activity against third instar larvae of A.aegypti and A.stephensi at 100μg/m L,and 100%mortality was observed against the vector C.quinquefasciatus at 100μg/m L.The highest larvicidal activity was found with L.papilosum against A.aegypti(81.127μg/m L)and A.stephensi(89.10μg/m L).Similarly,P.tinctorum and R.montagnei when tested against C.quinquefasciatus with minimum concentration〈100μg/m L exhibited significant activity withof 5.32and 6.97μg/m L.Conclusion:The bioassay results revealed larvicidal potential of lichens especially against C.quinquefasciatus with high mortality even at lower concentration.Hence,lichens can be used as an ideal sustainable approach for the control of lymphatic filariasis caused by vector C.quinquefasciatus.
文摘Objective: Obesity and hyperlipidemia is the major cause of many pathological diseases with an increase side effects using allopathic drugs. The present study focuses on the effect of Ixora coccinea on Triton X-100 induced hyperlipidemia in rats and associated complications.Methodology: In vitro radical scavenging activity of I. coccinea was assessed using DPPH, FRAP and hydrogen peroxide. In vivo antiobesity and antihyperlipidimic activity of I. coccinea was tested in Triton X-100 induced hyperlipidemic rats and assessed for its biochemical parameters in blood and tissue samples.The relationship between physiological responses and regulation of body temperature was investigated by using animal surface temperature images captured with infrared camera.Results: The results of mineral analysis, antioxidant, total flavonoid and phenolic content represented high amount of mineral and had the potential to scavenge free radicals tested with DPPH, FRAP and hydrogen peroxide radicals with dose dependent activity. The highest activity was observed in aqueous extract, DPPH with 71.5% inhibition, FRAP with 56.8%, H2 O2 with 33% activity at 100 μg/mL concentration.Triton X-100 induced hyperlipidemic rats when treated with I. coccinea aqueous extract showed significant activity by regulating the biochemical parameters and maintaining the lipid profile by decreasing TC,LDL-C, VLDL-C, TG and improving HDL-C levels. Similarly, the elevated levels of creatinine, urea, uric acid,AST, ALT, ALP due to induction of hyperlipidemia, were brought back to near normal levels after treatment with I. coccinea. The levels of tissue anti-oxidants enzymes like SOD and CAT were also found to be improved in treated I. coccinea groups. The whole body asymmetrical temperature distribution analysis showed that significant decreases in temperature was observed in obesity induced groups but a gradual increase in temperature(2%–5%) was observed after treatment.Conclusion: Thus, the results indicated that I. coccinea can be a drug of choice to decrease the risk of complications associated with hyperlipidemia and obesity.
