UF membranes can be manufactured using various polymers, including polysulfone
(PS), regenerated cellulose (RC), polyethersulfone (PES), and polyvinylidene fluoride
(PVDF).
A good solution for concentration and diafiltration of viruses is the use of low
adsorptive membranes especially in the case of enveloped viruses. As an example,
the biotechnology company Sartorius proposes Hydrosart® cassettes that exhibit a
novel technology based on stabilized cellulose membranes. Such technology en-
ables high flow rates and high product recovery by reducing the fouling effect.
It already showed promising results for adenovirus purification with a recovery of
87% [48]. More recently, this technology has also become available in Sartocon®
ECO format for low shear operations, which is characterized by being extremely
hydrophilic and prone to non-protein binding.
Despite the efforts in developing robust purification processes for viral biother-
apeutics, most of the process development has been focused on chromatographic
steps. However, recently Carvalho et al. developed a fully optimized filtration cascade
process for an influenza vaccine candidate [49]. Several companies are investing
efforts to develop devices suitable for vaccine product candidates, such as Cytiva’s
750 C hollow-fiber membranes. These membranes were optimized to propose a more
open structure, enabling higher removal of host-cell DNA [50].
Another operation mode of ultrafiltration is the single-pass TFF (SPTFF), a
method that enables the concentration of the product of interest in a single pump
pass as an inlet concentration step (Figure 7.4). This technology enables to achieve
high concentration (up to 30 times) and recovery, control, and reduce the in-process
volumes, operating in continuous mode [51]. This technology can be operated either
with cassettes or hollow fibers. In the absence of recirculation, thus applying less
shear stress to the circulating solution, it makes a promising strategy for the fragile
enveloped viruses.
Chromatography is probably the most popular technique of the intermediate
purification step. Separation methods based on chromatography have been used in
the biological field for decades for the purification of recombinant proteins and
(a)
(b)
FIGURE 7.4 Different designs of tangential flow filtration: (a) traditional batch tangential
flow filtration and (b) single-pass tangential flow filtration.
Downstream processing
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