Biological reactivity tests of elastomerics, plastics and other polymeric materials that have direct or indirect contact with the patient were designed to determine the biological in vitro , in vivo response. Based on different plastics class various tests need to be conducted according to Table 1: Classification of Plastics of USP <88> , USP <87>.

Test protocols for biological reactivity testing are well defined by the U.S. Pharmacopeia, General Chapters <87> and <88>. These test protocols involve in vitro reactivity testing with mammalian cells and in vivo reactivity testing in animals, respectively. However, many Biopharmaceutical companies require only a Certificate of Compliance (COC) from equipment manufacturers that states the plastics, elastomers (or any other material) potentially in contact with the biopharmaceutical process meet U.S. Pharmacopeia Class VI Testing. It is the opinion of the Author that U.S. Pharmacopeia Testing per Class VI (one part of USP <88> testing), is not alone sufficient in determining the biological reactivity to that material. Additionally, the materials should be tested in accordance with USP <87>, in vitro testing with mammalian cells, to better determine potential reactivity that may decrease cell growth and, therefore, limit profit per batch.

Biological reactivity testing has been performed to further increase yield. It is obvious that any material that reduces cell or microbial growth will affect yield. One such biological reactivity test applicable to and often requested by the Biotech Industry is the testing of elastomers, plastics, polymeric materials and their extracts as described in the U.S. Pharmacopeia General Chapter <88>. This in vivo testing consists of three (3) tests: Systemic, Intracutaneous, and Implantation. The materials and their extracts are then classified according to the test results as meeting Plastics Class I through Class VI. A summary of the tests are as follows:

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