Author Archives: Angelo DePalma

Biopharmaceutical Fill and Finish: Technical and Operating Challenges for the Latest Formulations and Devices

Because they occur after two highly engineering, and science-driven phases of biomanufacturing – expression and purification – biopharmaceutical fill and finish processes have not received the respect traditionally that they deserve. Yet of all competencies associated with bringing biopharmaceuticals to market, fill and finish arguably are the most specialized. This eBook reports on the technical and operating challenges impacting the latest formulations and devices including: outsourcing, contamination, standardization (pre-filled syringes), lyophilization, and serialization. Get informed on the current state-of-the-art technologies…

Special Report on Antibody-Drug Conjugates: Technical Challenges and Opportunities

Among the emerging targeted therapies in biotechnology, antibody–drug conjugates (ADCs) hold a unique position. An ADC consists of a monoclonal antibody (MAb) with affinity to tumor cells, a cytotoxic small-molecule payload, and a linker connecting the two. Together the MAb, conjugation chemistry, and cytotoxin increase the complexity of ADCs several-fold relative to unmodified MAbs — and exponentially relative to chemotherapies. Viewing ADCs as hybrids of antibody- and chemotherapy-based cancer therapies is tempting. That description applies chemically and structurally, but ADCs’…

Special Report on Continuous Bioprocessing: Upstream, Downstream, Ready for Prime Time?

Once an engineering curiosity and smallscale laboratory technique, continuous bioprocessing has evolved in just a few short years to a topic of intense and increasing interest to most bioprocessors. Critics point to a steep learning/adoption curve, but that is nothing new in biomanufacturing.Andrew Zydney is a distinguished professor of chemical engineering at Pennsylvania State University. He has noted these challenges facing continuous processing: commercially unproven unit operations (especially downstream), a lack of equipment robustness, sterility concerns, and uncertain development timelines…

Cancer Immunotherapies: Fulfilling the Promise of Protein and Cell Therapies

With few exceptions, both small-molecule and biological cancer treatments have contributed only incrementally towards achieving long-term responses or outright cures. In this regard, emerging cell- and protein-based cancer immunotherapies represent game-changing strategies for treating even refractory cancer. With long-term responses now possible, medical science may be on the verge of delivering on the long-unfulfilled promise of making cancer a manageable disease. But impediments to commercializing cancer immunotherapies are substantial. Producing cell-based treatments entails substantial hands-on manipulation and perfecting the logistics…

Special Report: Turning Discoveries into Products — Developability Assessments and Highly Efficient Process Design

High costs and long timelines for biopharmaceutical development are cause for reflecting on how best to allocate resources from the earliest discovery stage through critical go–no-go junctures. With inputs ranging from science, engineering, and economics, the coined term developability becomes the synthesis of answers to such questions as How well does the target represent a disease state? Does manipulating that state bring about improvement? Does the molecule behave as expected in living systems? What can be done about the emergence of independent safety, toxicology, and/or immunogenicity warning signs? Can the molecule…