Oil-in-Water Nanosized Emulsions for Drug Delivery and Targeting. Tamilvanan Shunmugaperumal

PREFACE

      Over the years, so many new chemical entities (NCE) are constantly being discovered/designed/synthesized and even sometimes few NCE claim to be “molecular breakthrough” showing additional/exceptional better therapeutic activities in managing/treating single or multiple ailments. The so‐called molecular breakthrough NCE, in most of the times, are unable to provide the intended therapeutic application as they were thought initially. Thus, a question has come to find out the answer “why the sudden lacuna that prevents the successful development of NCE from laboratory to market (L‐to‐M).” In the present scenario, the L‐to‐M consists of multiple stages that include laboratory‐scale preformulation studies, systematic optimization of a formula to incorporate the NCE into the selected formulation, NCE‐incorporated formulation characterization and safety assessment at non/preclinical levels, clinical trials using the optimized NCE‐laden formulation including the toxicity assessment at multicentric levels, patenting and regulatory approval processes, market assessment, targeting and positioning of final product, etc. Although each stages of product development require considerable/significant attention and care, the preformulation and formulation development stages become a cutting‐edge decision‐making stage where the formulation development scientist will decide whether to allow the NCE‐laden formulation to proceed for further stages or to send back the NCE to the previous NCE design/discovery/synthesis stage. Furthermore, the cutting‐edge decision‐making stage is very important in industrial point‐of‐view to avoid any further utilization of manpower, money, and time on a particular molecular breakthrough NCE.

Ranging from 40 to 70%, the molecular breakthrough NCE possess exceptionally water‐insoluble characteristics and therefore compelling the formulation developers to look into or to go for any suitable formulation that may fit for the selected NCE rather than simply trying to make aqueous/nonaqueous‐based solution‐type formulation. One of the amazing drug delivery carrier systems that suit for such NCE is oil‐in‐water (o/w)‐type nanosized emulsions. The o/w nanosized emulsions possess the success stories for taking the active pharmaceutical ingredients (APIs) into desirable target organs of human body, particularly in terms of non‐parenteral (especially ocular) and parenteral routes. The in‐or‐new‐born internal structures observed in the dispersed oil droplets of o/w nanosized emulsions are the welcome additions in emulsion technology wherein two or three API molecules can easily be accommodated simultaneously during the emulsification time itself. Such recent observations of in‐or‐new‐born internal structures in the o/w nanosized emulsions include “Cerberus and Janus” and corresponding names given to the emulsions are Cerberus emulsions and Janus emulsions. These types of new emulsions, although at their rudimentary stage of development, are capable of escalating the o/w nanosized emulsion's utility in multiple directions viz., drug solubility enhancers, dual/triple drug‐loading vehicle, imaging and theragnostic purposes, etc.

      This book provides very comprehensively the details of o/w nanosized emulsions at the grass‐root level so that the formulation scientist can understand how to select the proper excipients such as emulsifier combination,