The framework of modern pharmaceutical manufacturing is evolving as new technologies, advanced therapeutic modalities, and more sophisticated process control reshape how medicines are developed. While biologics, peptides, and other emerging therapies continue to expand the industry's capabilities, advances in engineering, automation, and continuous manufacturing are also transforming small molecule manufacturing. These shifts are redefining the skills, technologies, and manufacturing strategies needed to deliver high-quality medicines more efficiently and reliably.
In this episode of Off Script, we spoke with Thomas Roper, PhD, co-director of pharmaceutical engineering at Virginia Commonwealth University’s Center for Pharmaceutical Engineering and Sciences and graduate program director for chemical and life science engineering, about how pharma manufacturing has evolved over the course of his career and where it's headed. Roper draws on decades of experience to discuss the significance of chemical engineering in small molecule manufacturing, the growing significance of quality by control, the promise and challenges of continuous manufacturing, and how emerging catalytic technologies and automation are advancing process development. He also shares why preparing the next generation of pharmaceutical scientists and engineers will be critical as traditional boundaries between small molecules, biologics, and emerging modalities continue to disappear.
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