posted on 2018-06-22, 00:00authored byMalinda Salim, Jamal Khan, Gisela Ramirez, Andrew J. Clulow, Adrian Hawley, Hanu Ramachandruni, Ben J. Boyd
Milk
has been used as a vehicle for the delivery of antimalarial
drugs during clinical trials to test for a food effect and artefenomel
(OZ439) showed enhanced oral bioavailability with milk. However, the
nature of the interaction between milk and OZ439 in the gastrointestinal
tract remains poorly understood. To understand the role of milk digestion
on the solubilization of OZ439 and polymorphism, we conducted real-time
monitoring of crystalline drug in suspension during in vitro intestinal
lipolysis of milk containing OZ439 using synchrotron X-ray scattering.
OZ439 formed an unstable solid-state intermediate free base form (OZ439-FB
form 1) at intestinal pH and was partially solubilized by milk fat
globules prior to lipolysis. Dissolution of the free base form 1 and
recrystallization of OZ439 in a more stable polymorphic form (OZ439-FB
form 2) occurred during in vitro lipolysis in milk. Simply stirring
the milk/drug suspension in the absence of lipase or addition of lipase
to OZ439 in a lipid-free buffer did not induce this polymorphic transformation.
The formation of OZ439-FB form 2 was therefore accelerated by the
solubilization of OZ439-FB form 1 during the digestion of milk. Our
findings confirmed that although crystalline precipitates of OZ439-FB
form 2 could still be detected after in vitro digestion, milk-based
lipid formulations provided a significant reduction in crystalline
OZ439 compared to lipid-free formulations, which we attribute to the
formation of colloidal structures by the digested milk lipids. Milk
may therefore be particularly suited as a form of lipid-based formulation
(LBF) for coadministration with OZ439, from which both an enhancement
in OZ439 oral bioavailability and the delivery of essential nutrients
should result.