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Abstract
The increasing prevalence of poorly soluble drugs in development provides notable
risk of new products demonstrating low and erratic bioavailability with consequences
for safety and efficacy, particularly for drugs delivered by the oral route of administration.
Although numerous strategies exist for enhancing the bioavailability of drugs with
low aqueous solubility, the success of these approaches is not yet able to be guaranteed
and is greatly dependent on the physical and chemical nature of the molecules being
developed. Crystal engineering offers a number of routes to improved solubility and
dissolution rate, which can be adopted through an in-depth knowledge of crystallisation
processes and the molecular properties of active pharmaceutical ingredients. This
article covers the concept and theory of crystal engineering and discusses the potential
benefits, disadvantages and methods of preparation of co-crystals, metastable polymorphs,
high-energy amorphous forms and ultrafine particles. Also considered within this review
is the influence of crystallisation conditions on crystal habit and particle morphology
with potential implications for dissolution and oral absorption.