recombinant-antigen expression. Other chapters will provide more in-depth review
of key technologies.
4.2.2.1
Cell Banks
Creating a cell bank of the cell line represents the cornerstone of the process de-
velopment and manufacturing. The cell bank provides the process with the same
source for each production lot. It can be extensively defined and tested. In the case
of a recombinant expression system such as CHO, the cell bank can be defined with
respect to its genetic properties (including transgene copy number and integration
site). In the case of a cell line for virus propagation, the capacity for virus infection
and replication can be defined. All cell banks are extensively tested for safety.
These include detailed testing programs to document the absence of adventitious
agents (see Sections 4.3 and 4.4).
Cell banks are usually established as a two-tier system. This approach was first
proposed in 1963, when the cryopreservation methods used were based on glycerol
or DMSO [7]. The two-tier system consists of a master cell bank (MCB) and a
working cell bank (WCB) derived from the MCB after few passages. The MCB is
usually prepared from a clone or material obtained from a well-known bioresource
archive such as ATCC or ECACC. Cell lines can also be licensed. The two-tier
system generates a huge capacity for development and further commercial manu-
facturing. Indeed, each vial from the MCB can generate a new WCB. Hence
manufacturing from the same MCB can continue for decades. Therefore, the long-
term strategy with respect to the vaccine volumes required and other potential
technical advances need to be considered by the manufacturer when the cell bank is
established. A third cell bank, termed the end of production cells (EoPC), is also
usually established. The purpose of this cell bank is to expand cells beyond the limit
of the passage used in vaccine production.
MCB
WCB
Production Passage
EoPC
Hence, the three types of cell bank can be used to test the consistency of the bio-
logical system across the production framework; testing that is critical for the re-
lease of clinical lots or commercial vaccine batches.
4.2.2.2
Viral Seeds
For many viral vaccines, viral seeds are produced as well. Viral seeds are produced
for live attenuated vaccines as well as inactivated vaccines. For certain recombinant
vaccines, viral seeds are also produced for expression systems like the baculovirus
expression vector system (BEVS), an adenovirus platform or a vaccinia re-
combinant system.
Viral seeds are also established as a two-tier system. This system consists of the
master viral seed (MVS) and the working viral seed (WVS). A third viral seed is
also prepared at the production passage or beyond, i.e., the post-production seed
(PPS). The GMP production framework is similarly defined as follows:
MVS
WVS
Production Passage
PPS
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Bioprocessing of Viral Vaccines