@article {Barone191, author = {Paul W. Barone and Stephen Avgerinos and Rob Ballard and Audrey Brussel and Philip Clark and Chris Dowd and Lionel Gerentes and Ian Hart and Flora J. Keumurian and Johanna Kindermann and James C. Leung and Nguyen Ly and Sheldon Mink and Stefan Minning and J{\"u}rgen Mullberg and Marie Murphy and Kerstin N{\"o}ske and Sandi Parriott and Bonnie Shum and Michael E. Wiebe and Stacy L. Springs}, title = {Biopharmaceutical Industry Approaches to Facility Segregation for Viral Safety: An Effort from the Consortium on Adventitious Agent Contamination in Biomanufacturing}, volume = {73}, number = {2}, pages = {191--203}, year = {2019}, doi = {10.5731/pdajpst.2018.008862}, publisher = {Parenteral Drug Association (PDA)}, abstract = {Appropriate segregation within manufacturing facilities is required by regulators and utilized by manufacturers to ensure that the final product has not been contaminated with (a) adventitious viruses, (b) another pre-/postviral clearance fraction of the same product, or (c) another product processed in the same facility. However, there is no consensus on what constitutes appropriate facility segregation to minimize these risks. In part, this is due to the fact that a wide variety of manufacturing facilities and operational practices exist, including single-product and multiproduct manufacturing, using traditional segregation strategies with separate rooms for specific operations that may use stainless steel or disposable equipment to more modern ballroom-style operations that use mostly disposable equipment (i.e., pre- and postviral clearance manufacturing operations are not physically segregated by walls). Further, consensus is lacking around basic definitions and approaches related to facility segregation. For example, given that several unit operations provide assurance of virus clearance during downstream processing, how does one define pre- and postviral clearance and at which point(s) should a viral segregation barrier be introduced? What is a {\textquotedblleft}functionally closed{\textquotedblright} system? How can interventions be conducted so that the system remains functionally closed? How can functionally closed systems be used to adequately isolate a product stream and ensure its safety? To address these issues, the member companies of the Consortium on Adventitious Agent Contamination in Biomanufacturing (CAACB) have conducted a facility segregation project with the following goals: define {\textquotedblleft}pre- and postviral clearance zones{\textquotedblright} and {\textquotedblleft}pre- and postviral clearance materials{\textquotedblright}; define {\textquotedblleft}functionally closed{\textquotedblright} manufacturing systems; and identify an array of facility segregation approaches that are used for the safe and effective production of recombinant biologics as well as plasma products. This article reflects the current thinking from this collaborative endeavor.LAY ABSTRACT: Operations in biopharmaceutical manufacturing are segregated to ensure that the final product has not been contaminated with adventitious viruses, another fraction of the same product, or with another product from within the same facility. Yet there is no consensus understanding of what appropriate facility segregation looks like. There are a wide variety of manufacturing facilities and operational practices. There are existing facilities with separate rooms and more modern approaches that use disposable equipment in an open ballroom without walls. There is also no agreement on basic definitions and approaches related to facility segregation approaches. For example, many would like to claim that their manufacturing process is functionally closed, yet exactly how a functionally closed system may be defined is not clear. To address this, the member companies of the Consortium on Adventitious Agent Contamination in Biomanufacturing (CAACB) have conducted a project with the goal of defining important manufacturing terms relevant to designing an appropriately segregated facility and identifying different facility segregation approaches that are used for the safe and effective production of recombinant biologics as well as plasma products.}, issn = {1079-7440}, URL = {https://journal.pda.org/content/73/2/191}, eprint = {https://journal.pda.org/content/73/2/191.full.pdf}, journal = {PDA Journal of Pharmaceutical Science and Technology} }