Downstream Processing

Accelerating Purification Process Development of an Early Phase MAb with High-Throughput Automation

    Monoclonal antibodies (MAbs) are the fastest growing segment in the biopharmaceutical industry because they are potentially efficacious in the treatment of diseases such as cancer and autoimmune disorders (1,2). With steadily increasing demand for efficient and affordable therapies, speed to clinic/market is important, and biopharmaceutical companies push multiple drugs into development each year to ensure business sustainability (3,4,5,6). Downstream purification process development for therapeutic MAbs is a critical step on their path to reach clinical trials and beyond…

IgM Purification with Hydroxyapatite

Hydroxyapatite (HA) has a long and successful history in the field of antibody purification, and it has worked well for immunoglobulin M (IgM) monoclonal antibodies (MAbs) (1,2,3,4,5,6,7,8). Applications range from initial capture to intermediate purification to final polishing. HA is best known for its superior ability to reduce antibody aggregates, but it also supports excellent reduction of DNA, viruses, and endotoxins. As IgM MAbs exhibit increasing potential in the fields of cancer and infectious disease and in stem-cell therapies, HA’s…

Nucleic Acid Impurity Reduction in Viral Vaccine Manufacturing

Commercial-scale viral vaccine manufacturing requires production of large quantities of virus as an antigenic source. To deliver those quantities, a number of systems are used for viral replication based on mammalian, avian, or insect cells. To overcome the inherent limitations in production outputs with serial propagation of cells, mammalian cells can be immortalized, which increases the number of times they can divide in culture. Modifications that immortalize cells are typically accomplished through mechanisms similar to those converting normal cells to…

Analysis By Size and Charge

An early BPI Lab article addressed the power of liquid chromatographic separations for biopharmaceutical laboratory use (1). Such techniques separate biomolecules based on a number of different properties: size, solubility, hydrophobicity/-philicity, binding affinity. The next most powerful means of separation — and thus high-resolution identification — of nucleic acids and proteins/peptides is based primarily on electrostatic properties: electrophoresis. Although it doesn’t really work in a process or preparative setting, it is a fundamental technique in modern biopharmaceutical laboratories, where it…

Accounting for the Donnan Effect in Diafiltration Optimization for High-Concentration UFDF Applications

The biopharmaceutical industry is targeting high-concentration protein formulations to enable subcutaneous administrations. Such administration can provide better patient convenience than intravenous administration. One challenge associated with high-concentration formulations is increased electrostatic interaction between proteins and excipients. That is a result of increased protein-charge density at high protein concentrations. Such interactions can create an offset between excipient levels in final products and diafiltration buffers in ultrafiltration processes. The effect of such electrostatic interactions in a membrane process is known as the…

Process Improvements Increase Production Capacity of a Legacy Product

Implementation of postlicensure process improvements in the biopharmaceutical industry can benefit patients and drug manufacturers alike. Here we demonstrate through a case study how a change to the cell culture medium and process can be taken from proof of concept through scale-up to demonstration of feasibility. We further illustrate the scope and complexity of implementing a change in commercial manufacturing to realize significant benefits such as increased production capacity over an existing legacy process. The Importance of Postapproval Improvements Drug…

Impact of Process Interruption on Virus Retention of Small-Virus Filters

Manufacturers of biopharmaceuticals using mammalian cell culture must have processes in place to minimize the likelihood of virus contamination of their products. Regulatory agencies provide guidelines for testing strategies and best practices to assure raw-material safety and control of the manufacturing process. Safety assurance relies on an interdependent matrix of managed risks, including characterization and control of raw materials, extensive testing of process intermediates, and demonstration of the virus removal capabilities of purification unit operations Figure 1:  () A dedicated…

Effects of Pressure Sensor Calibration Offset on Filter Integrity Test Values

Food and Drug Administration (FDA) and European good manufacturing practices (GMPs) require integrity testing of sterilizing-grade filters for producing injectables and other biologics. The diffusion test (also called the forward-flow test) and bubble-point test (also called the disk test) of a sterilizing-grade filter are both filter-integrity tests. The accuracy of both relies on calibration of a pressure sensor in the respective integrity test unit. Calibration of the pressure sensor of a filter-integrity testing device is an essential part of quality…

Progress On A Fully Disposable Downstream Platform: A Simple, Risk-Free, Plug-in Solution To Solve The DSP Bottleneck

Natrix HD Membrane technology features a polymeric hydrogel formed within a flexible porous support matrix. The support matrix provides mechanical strength, while the hydrogel properties determine the separation chemistry of the product. An advantage of the Natrix chemistry is the ability to place virtually any functional group chemistry throughout the hydrogel polymer. Natrix HD membrane technology combines the superior binding capacity of conventional resinbased columns with the high throughput of membranes in a single-use format that eliminates costly packing, cleaning,…

Semi-automated, Single-use TFF Systems With an ‘Open Architecture’ Design Maximize Flexibility and Allow Supply Chain Security

Cross flow filtration used in bioprocesses is typically either microfiltration to clarify process streams or ultrafiltration to concentrate and diafilter the biopharmaceutical molecule. Single-use cross flow operations provide a number of advantages over traditional stainless steel systems. These include: • Flexibility during process development • Reduced capital investment • Avoidance of cross contamination and faster product change overs • Elimination of steaming and cleaning utilities Parker domnick hunter’s innovative SciFlex® TFF system utilizes propriety technology allowing the sterile processing of…