Streamlined life cycle assessment of single use technologies in biopharmaceutical manufacture.

The rapid growth of biologics as the preferred modality in several therapeutic areas has led to changes in the environmental profile of pharmaceutical manufacturing for some companies. The increased use of single use technologies (SUT) in biologics manufacturing has been accompanied by a greater public awareness of plastics waste, but the full life cycle environmental impacts of SUT have had limited study. Therefore, a segment of American Chemical Society Green Chemistry Institute Pharmaceutical Roundtable member companies undertook a streamlined cradle-to-gate life cycle assessment on a biological bulk drug substance (BDS) manufacturing process utilizing SUT at the 2000 L scale. The goal of this study was to highlight where pharmaceutical companies, and biologics producers in particular, can reduce the environmental impact of their drug substance manufacturing. The results have shown that the largest contribution to the life cycle environmental impact for SUT was found to be the electricity used to operate the plant. Interestingly, across all impact categories, the contribution to the environmental footprint from end-of-life due to the use of plastic SUT was extremely small. Although not quantified in this study, these findings and others suggest operational changes that increase process efficiency and decrease time in plant are among the best strategies for reducing the life cycle environmental impact of biologics manufacturing.

Introduction of a process mass intensity metric for biologics.

Biopharmaceuticals (or biologics), large molecule therapeutics typically produced using biotechnology, are a rapidly growing segment of the pharmaceutical market. As such, the environmental footprint of the production of these molecules is coming under scrutiny from various stakeholders such as healthcare providers, investors, and even employees. Process mass intensity (PMI), originally adopted for small molecules by the Green Chemistry Institute Pharmaceutical Roundtable, is a simple metric that can also be applied to evaluate the process efficiency of biopharmaceutical production. PMI for biologics is defined as the total mass input in kg of water, raw materials and consumables, required to make 1 kg of active pharmaceutical ingredient. Six large pharmaceutical companies participated in a benchmarking exercise to calculate the PMI for monoclonal antibody (mAb) production. On average, 7700 kg of input is required to produce 1 kg of mAb. Over 90% of the mass is due to water use, highlighting the water-intensive nature of biologics production.