pharmaceutical circles, not merely due to strong persuasion from the International
Council for Harmonisation (ICH), but its subsequent ratification from key regulatory
agencies like the US Food and Drug Administration (US-FDA), the World Health
Organization (WHO), the European Medicines Agency, and several others, testified
by their corresponding regulatory guidance documents (Singh 2014; Aksu et al.
2015; Singh et al. 2017a, b).
QbD is almost an obligatory catchword today all across the pharmaceutical sector
of the globe, accentuating on building quality into the system all through the product
development cycle, without relying on terminal testing of the products (ICH
Harmonised Tripartite Guideline 2009; Singh 2014; Aksu et al. 2015; Beg et al.
2019). Incorporating the principal elements of Design of Experiments (DoE) and
quality risk management (QRM), QbD chiefly undertakes science- and risk-based
approaches to hit on categorical product and process comprehension (ICH
Harmonised Tripartite Guideline 2005; Singh 2014). Hence, QbD is a rational
amalgam of QRM- and DoE-based pharma production while endeavouring to
unravel to gain all-inclusive process and product understanding. This has lately
become a routine practice in pharma industry, institutional research and regulatory
compliance (Singh 2014; Djuris and Djuric 2017).
Verily, the QbD precepts are based upon J.M. Juran’s quality philosophy, to
produce quality products and deliver services by pre-planning of their quality and
avoiding any issues at the final stages of production phase (Yu et al. 2014; Aksu et al.
2015; Montgomery 2001; Singh et al., 2005b, 2013). The benefits of QbD have not
only been harvested towards unearthing the science underlying the process of
product
development
but
also
of
analytical
development,
drug
substance
manufacturing, dissolution testing, bioavailability studies and biologicals. Owing
to much vaster purview of QbD applications today, a pithier term, viz. “Formulation
by Design (FbD)”, was proposed a few years ago by us, germane precisely to the
practice of QbD principles in developing drug delivery products (Singh et al. 2011c).
Figure 18.2 elucidates the vital implements of FbD, which comprise not only
Fig. 18.2 Cardinal elements
of Formulation by Design
(FbD)
18
QbD-Steered Systematic Development of Drug Delivery Nanoconstructs:. . .
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