5 QMS Blind Spots You Should Know About

Companies often underestimate the complexity of standing up an eQMS. These are five of the most common issues that lead to regulatory and GMP exposure risk.

New MIT Consortium Links Innovation With Real-World Biomanufacturing

In one area, the Initiative for New Manufacturing is exploring whether microfactories, championed by the EV industry, can help biopharma iterate facility design faster.

Comparing Process Development Approaches For Recombinant Proteins

Explore how adding a traceless tag enables streamlined affinity purification for recombinant proteins, and how this approach compares with a conventional process in development time, recovery, and purity.

Host Cell Protein (HCP) Removal Post Virus Inactivation In mAb Processing

Clarifying post–virus inactivation streams with a charged depth filter can remove precipitates while significantly reducing HCPs. See how a dual‑layer filtration approach supports stronger impurity control.

Reducing Plastic Waste Using Syringeless Filters

A streamlined approach to HPLC sample preparation can cut plastic waste by up to 79%. Find out how reducing consumables simplifies workflows and supports more sustainable, efficient lab operations.

Microbial Recovery And Flow Performance With Membranes

Compare membrane materials and pore sizes to assess their impact on flow rate and microbial recovery. See how fast filtration and ≥90% organism recovery offer guidance for selecting reliable membranes.

The Hidden Engineering Behind Successful Upstream Bioprocessing

In upstream biopharmaceutical production, manufacturing is inseparable from biology, engineering, contamination control, and quality science.

A Practical Look At Modern Downstream Processing For Biologics

Part 2 in a series about current bioprocessing practices explores the latest in separation, purification, sterile filtration and aseptic filling.

Efficient Protein Purification Strategies

Examine two rapid, high‑throughput strategies for small‑scale protein separation, using either multimodal resins or ion exchange membranes to achieve efficient, low‑volume purification.

Quick Detection Of Microorganisms With Membrane Filtration

The membrane filter technique offers a cost‑effective way to detect microbial contamination. See how it enables rapid detection and allows precise species identification using selective media.

Extraction, Isolation, And Purification Of DNA And RNA

Efficient DNA and RNA purification is essential as sequencing and expression studies scale. Discover a multi‑well format that enables reliable binding across plasmid, genomic, and total RNA workflows.

Protect Your Columns And Your Peaks

Learn how thoughtful filter selection can protect LC systems, improve protein recovery, and support reliable chromatographic results with key performance data and solvent compatibility insights.

Laboratory Cell Line Development

Efficient cell line development demands reliable clone selection and early removal of candidates. Filtration and sample prep solutions can strengthen sterility, simplify workflows, and support decisions.

How To Choose The Appropriate Filter Material For Every Sample

Membrane compatibility plays a crucial role in reliable sample filtration. Knowing how different filter materials interact helps prevent common workflow issues and supports efficient filtration.

Solutions For Lab Scale Sterile Filtration And Clarification

Filtration strategies help maintain sample integrity by reducing particulates and controlling contaminants. Learn why choosing the right pore size supports consistent, reliable biological workflows.