Disposables: Single-use technology has arguably been the biggest “story” of the past 10 years in bioprocessing. And for many people, implementation of disposable elements began soon after the turn of the century with a Wave bioreactor (1,2), first developed by Wave Biotech in 1996, now a mainstay of many an upstream process development laboratory and sold by GE Healthcare. BPI identified the significance of such technologies early on, making them the subject of a supplement in its second year. By the fourth installment of what became an annual tradition, there were even more disposable bioreactor options available than I could pack into an overview article (3), as I heard from a few readers after it was published. A 2009 update by two Swiss academics narrowed down the field to two main categories: static and dynamic bioreactors (4). Among the latter, mechanically driven (rotating, shaken, stirred, and wave-mixed) options outnumber the pneumatically or hydraulically mixed options, and hybrid systems were already being seen. Skimming the tables of contents in our most recent supplements covering single-use technology, you'll see that disposable bioreactors are well entrenched these days.

Cell-Line Engineering: As our popular 2009 wallchart showed, animal cell culture and microbial fermentation dominate the field of biopharmaceutical protein expression. Another big story in our first decade of publication relates to cell line engineering. After a manufacturing capacity shortage was predicted in the late 1990s, upstream process engineers took it upon themselves to address the problem (5). Resulting improvements in production titers and product quality are still reverberating throughout the industry, where the new “bottleneck” is seen in downstream processing. (More on that next month.) This month's vendor-voice article exemplifies the continuing achievements of cell-line engineering.

Culture Media: Concern about transmissible spongiform encephalopathies around the turn of the century didn't begin the trend toward eliminating animal-sourced materials from bioprocessing, but in addition to some viral contamination incidents since then it certainly pushed it along. As a result, media supplementation and optimization have not only risen to prominence, they've played a significant role alongside cell line engineering in the unprecedented production improvements over the past decade. We've covered the topic of media from all angles — from historical overviews (6) and how-to papers (7) to detailed case studies and technical reports to an article on metabolic process engineering right here in this issue. One of my favorite stories to follow began as a mere “vendor voice” early in our second year (8), exciting to me partly because it was our first article from Australia. I was pleased to see that particular supplement later licensed by Novozymes, then SAFC, as seen in our Global Marketplace section. I revisited the story once again while working on this year's special Asia–Pacific issue (9).

Process Analytical Technology: Another early vendor voice article — this one in our very first issue — typifies the supplier side of an important regulatory trend (10). Though unheard-of in our first issues, quality by design (QbD) has become pervasive in bioprocessing. And process analytical technology (PAT) is evolving to support it. BPI has documented the industry's steps along the way — from the appearance of Aber Instruments Ltd. in “Volume 1 Number 1” to Genentech's evaluation of a PreSens system from Precision Sensing GmbH here in this issue.

Early on, we had a hard time convincing some people that these things would be important — just as our sales staff had to talk us editors into devoting a whole supplement to disposables in 2004! But with the 2011 release of the FDA's new process validation guidance document, few doubters remain. Analytical instrumentation isn't “too researchy for BPI,” an argument I've been making ever since the appearance of well-characterized biologicals over a decade ago. Now everyone knows it's vital to the success of every product and every biopharmaceutical company.

Transgenics is one subject on which I've been proven wrong so far. With my love of both animals and gardening — thanks, perhaps, to farmers on both sides of my family tree — I was keenly interested in this topic from the beginning. It represented the intersection of my two greatest passions: nature and science fiction. So understandably I was excited by the idea of animals or plants that could “better” produce what factories did.