The need for lyophilization services is growing as a burgeoning pipeline of new biologics matures.
The trend toward personalized medicines includes more complex manufacturing cycles that can benefit from advanced process modeling early on in the therapeutics’ development.
The production of viral vectors for use in gene therapy benefits from being able to use similar cell-culture processes as mAbs, but it faces limitations under current cell-culture technologies.
Developers need to transcend the limits of existing separation technologies, to maximize vector recovery while preserving therapeutic potency.
Temperature-sensitive biologics are lyophilized to preserve therapeutic viability, but the process presents complexities and challenges that are as yet not fully understood.
Industry experts debate the pros and cons of “going bigger” than the 2000-L industry norm in a single vessel.
The innovative spirit of biotech startups is a driving force behind the development of new therapeutic products, but building a successful biopharmaceutical company from the ground up has its risks and challenges.
Limitations in traditional flu vaccine manufacturing methods underline the need for shifting to modern technologies.
Manufacturing differences between traditional mAb therapies and newer biotherapeutics dictate whether processes should be scaled up, scaled out, or use an alternate approach for commercial production.
The use of scale-down models allows for the theoretical optimization of processes and for troubleshooting problems during the developmental stage.