Influenza has always been wrongly perceived as a minor disease which is no dwerent than common cold. Influenza affecting all age groups cause a considerable morbidity and mortality although the data are not well established in Asia Pacwc. In the United States, it claims similar order of mortality as that due to car accidents. Inflluenza A and B can cause epidemic human disease. New Influenza virus variants develop frequently due to antigenic dry?. The rapid evolution of both influenza A and B virus is responsible for annual influenza epidemics in humans. Although in Malaysia, Influenza Surveillance began in 1954, the disease awareness is still low. It is
prudent to continue the surveillance throughout in order to monitor the seasonal trend, circulating strain as well to prepare us from an epidemic or pandemic. Institute for Medical Research, being the sole WHO National Reference lab in this country committed in improving the Influenza Surveillance which will involve all the states in Malaysia in the near future.
This study evaluates the efficacy of palm oil-based nanoemulsion insecticides in thermal fogging applications against adult Ae. aegypti. The nanoemulsion formulations contained a palm oil methyl ester solvent, water, a non-ionic surfactant, and active ingredient deltamethrin, with nanoemulsion droplet diameters ranging from 362 to 382 nm. Knockdown and mortality rates of caged mosquitoes were measured at various distances up to 18 m from the spray nozzle. After 15 min of insecticide exposure, nanoemulsion insecticides achieved a knockdown rate of >97% at a spraying distance of 4 m, and the knockdown effect increased substantially with exposure time. At an 18 m spraying distance, the best nanoemulsion formulation, NanoEW8, achieved a high mosquito mortality rate of more than 80%, whereas the non-nanoemulsion and the commercial product reached only 14 and 8 m distances, respectively, for comparable mortality. The artificial neural network (ANN) was used to predict the mosquito knockdown distribution over the spraying distances and time intervals. The models predicted that NanoEW8 can still cause knockdown at a maximum distance of 61.5 m from the discharge point 60 min after spraying. The results established that Ae. aegypti was susceptible to the newly developed palm oil-based nanoemulsion insecticide, indicating a high potential for mosquito control.