The
pharmaceutical industry faces multiple challenges (e.g., inefficient
manufacturing techniques, quality control issues, and supply chain
vulnerabilities) because of its current batch-wise approach to manufacturing.
Recent regulatory support for continuous manufacturing and advances
in continuous process technologies have caused an increase in interest
from some drug manufacturers to modernize their production processes.
However, many of these companies have focused on hybrid processes,
where only certain steps are continuous, while others remain batch.
Herein, the quality by design (QbD)-based design strategy and operation
of an end-to-end integrated continuous manufacturing (ICM) pilot plant
that produces both small-molecule active pharmaceutical ingredient
(API) and oral solid dosages (OSDs) are discussed. Additionally, important
quality and economic matters pertaining to scale-up and commercialization
are addressed. ICM has significant benefits, including better quality
control, increased supply chain flexibility, a lower capital investment
(in the example provided, a ∼ 90% reduction),
and lower operating costs (in the example provided, a 33.6% reduction
for API and 29.4% reduction for tablets).
The continuous reactive crystallization of an active pharmaceutical ingredient (API) in a plug flow reactor (PFR)-continuous stirred tank reactor (CSTR) cascade system with in-line PATs was developed and investigated. Residence...
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