An experimental approach involves preventing the parasite from binding with red blood cells by blocking calcium signalling between the parasite and the host cell. Erythrocyte-binding-like proteins (EBLs) and reticulocyte-binding protein homologues (RHs) are both used by specialized P. falciparum organelles known as rhoptries and micronemes to bind with the host cell. Disrupting the binding process can stop the parasite.

Chloroquine, proguanil, mefloquine, and doxycycline are suppressive prophylactics. This means that they are only effective at killing the malaria parasite once it has entered the erythrocytic stage (blood stage) of its life cycle, and therefore have no effect until the liver stage is complete. That is why these prophylactics must continue to be taken for four weeks after leaving the area of risk.

Mefloquine, doxycycline, and atovaquone-proguanil appear to be equally effective at reducing the risk of malaria for short-term travelers and are similar with regard to their risk of serious side effects. Mefloquine is sometimes preferred due to its once a week dose, however mefloquine is not always as well tolerated when compared with atovaquone-proguanil. There is low-quality evidence suggesting that mefloquine and doxycycline are similar with regards to the number of people who discontinue treatments due to minor side effects. People who take mefloquine may be more likely to experience minor side effects such as sleep disturbances, depressed mood, and an increase in abnormal dreams. There is very low quality evidence indicating that doxycycline use may be associated with an increased risk of indigestion, photosensitivity, vomiting, and yeast infections, when compared with mefloquine and atovaquone-proguanil.

Causal prophylactics target not only the blood stages of malaria, but the initial liver stage as well. This means that the user can stop taking the drug seven days after leaving the area of risk. Malarone and primaquine are the only causal prophylactics in current use

With Regards,

Nancy Ella

Managing Editor

Drug Designing: Open Access