Trioxaquines and Heme-Artemisinin Adducts Inhibit the In Vitro Formation of Hemozoin Better than Chloroquine

Trioxaquines and Heme-Artemisinin Adducts Inhibit the In Vitro Formation of Hemozoin Better than Chloroquine Trioxaquines Are New Antimalarial Agents Active on All Erythrocytic Forms, Including Gametocytes Potent Antimalarial Activity of Two Arenes Linked with Triamine Designed To Have Multiple Interactions with Heme Structure−Function Relationships in Aminoquinolines:  Effect of Amino and Chloro Groups on Quinoline−Hematin Complex Formation, Inhibition of β-Hematin Formation, and Antiplasmodial Activity Orally Active Antimalarial 3-Substituted Trioxanes:  New Synthetic Methodology and Biological Evaluation Discovery of highly selective 7-chloroquinoline-thiohydantoins with potent antimalarial activity Synthesis, β-hematin inhibition studies and antimalarial evaluation of dehydroxy isotebuquine derivatives against Plasmodium berghei Synthesis and Antimalarial Activity of Side Chain Modified 4-Aminoquinoline Derivatives Chemical Stability of the Peroxide Bond Enables Diversified Synthesis of Potent Tetraoxane Antimalarials In Vitro Activities of Trioxaquines against Schistosoma mansoni