Manufacturing

Bridging Polymer Science to Biotechnology Applications: A Single-Use Technology Conference Report

Single-use (SU) technology is used more every year throughout the biotechnology industry. As applications now span from cell banking to drug product, that in turn is raising interest in the interaction of extractables with proteins and cells. The second “Single-Use Technologies†conference organized through Engineering Conference International (ECI) was subtitled “Bridging Polymer Science to Biotechnology Applications†and delved into the science of plastics in bioprocessing applications. On 7–10 May 2017 at the Hotel dos Templários in Tomar, Portugal, people from…

Proposing a Systematic QbD Approach Toward Validated Guidelines for CMO RFI and RFP Processes: Biopharmaceutical Vendor Evaluation and Selection Minimum Standards (BioVesel)

Three major concerns predominate biotechnology executive management in organizations of all sizes and above all other risks: finance (or its absence at critical moments), technological performance, and failures in coordination. Some business functions, such as human resources (HR), are effectively siloed horizontally and therein are more likely to be susceptible to only one of those risks (1). Few functions are subject to this trinity of risks simultaneously; all functions may be exposed to failures in internal coordination, and a smaller…

Using Data and Advanced Analytics to Improve Chromatography and Batch Comparisons

With all the hype surrounding the industrial Internet of Things (IoT), cloud computing, and digital transformations, the most important information technology factors still are data and the connections of sensors, systems, and applications that generate, store, find, and use those data to obtain operational intelligence. Data volumes are increasing rapidly, and they will continue to do so. The ability to find and make sense of data to obtain intelligence that improves process outcomes is more important than ever. For clinical-…

Intensification of Influenza Virus Purification: From Clarified Harvest to Formulated Product in a Single Shift

Influenza is a global respiratory disease with an estimated mortality of up to a half million people per year (1). The majority of traditional influenza vaccines are still produced in eggs. Downstream processing typically consists of clarification by centrifugation, concentration by ultrafiltration, and purification by ultracentrifugation (2). Recombinant vaccines are most often purified by chromatography. Chromatographic purification of viruses already has achieved major improvements in recovery and scalability (3), but it also is important because it enables virus purification to…

Rational Selection of Sugars for Biotherapeutic Stabilization: A Practitioner’s Perspective

Biotherapeutics from recombinant DNA technology include diverse modalities such as peptides; enzymes, antibodies, and other proteins; nucleic acids; and cellular therapies. Such products present physical, chemical, and biophysical challenges. Excipients used in stabilization of these biotherapeutics can be broadly classified into the following classes (subgroups) that have been reviewed carefully elsewhere (1–4) : Buffers (e.g., phosphate, acetate, and histidine) Tonicity agents/stabilizers (sugars such as sucrose, polyols such as sorbitol) Bulking agents (lyoprotectants such as mannitol) Surfactants (e.g., polysorbates) Antioxidants (e.g.,…

Sticking In or Standing Out? Dichotomy in Vaccine Purification By Chromatography

A general vaccine purification strategy can be divided into three stages, with one or more steps for each stage. The first stage is to concentrate and isolate the target molecule quickly to remove it from conditions that could lead to its inactivation or loss. Intermediate purification seeks to remove remaining contaminants, typically using an orthogonal approach. That is followed by a polishing step in which trace impurities are removed through high-efficiency steps because those impurities usually are similar to the…

Process Analytics and Intermediate Purification of Bispecific Antibodies with a Non-Affinity Platform

The therapeutic benefits of monoclonal antibodies (MAbs) have been demonstrated in recent decades with uncontestable success as treatments for human disease. Despite MAbs’ key features such as specificity, selectivity, and safety, the format has limitations (1, 2). Bispecific antibodies may overcome number of difficulties (3). Multiple formats of bispecific antibodies have been developed, although only the κλ-body is fully human and devoid of linkers or mutations. It requires no genetic modifications of heavy and light chains and results in bispecific antibodies…

Improving Bioreactor Performance Measuring Dissolved Oxygen to Determine kLa

In recent years the biopharmaceutical industry has significantly increased the demands it makes on bioreactor systems. Efficient and reproducible production of active pharmaceuticals of high quality and in large quantities is of highest priority. However, bioprocessing is a complex topic. Numerous factors affect growth of cells in culture but are difficult to determine and interpret reliably. One of the most relevant performance parameters is the volumetric mass transfer coefficient (kLa). It describes the efficiency of gas transfer (e.g., oxygen) from…

Computational Science Changes Biolaboratory Design

Until relatively recently, life-science research was characterized by test tubes, Petri dishes, and centrifuges. Now, as with many industries, the life sciences are undergoing a digital transformation. Computational science is changing laboratory design. The healthcare industries always have generated large amounts of data. What has changed is the available information technology. With the growth of cloud computing, large data sets — and the high-speed tools for analyzing them — are available increasingly to a degree not possible with traditional servers…

Single-Use Sensors and Control and Data Acquisition Tools to Streamline Bioprocess Development

Process development and biomanufacturing in the biopharmaceutical industry have evolved extensively over the past 10 years. More tools are available to study process variables to enable more efficient and productive processes, speed development, and reduce costs. High powered microcontrollers are embedded in laboratory devices to carry out complex tasks. Recently, users have started working with microcontrollers such as Raspberry Pi for personal projects. As personal computer power has accelerated multiplefold,leading to high processing power and compact, high-capacity memory readily available…