Ushering in Industry 4.0 with the IDMO Model to Solve the CGT Manufacturing Bottleneck
Global scale-up requires developing replicable processes that work the same no matter where they are performed. This can be accomplished with smart factories that utilize fully automated manufacturing platforms.
3d rendering of Human cell or Embryonic stem cell microscope background. | Image Credit: © Anusorn - stock.adobe.com
Despite the tremendous therapeutic promise of cell and gene therapies (CGTs) for patients globally, the space is at a crossroads. Long-standing issues around patient accessibility have contributed to investor pullback, biotech companies shuttering, and even a few life-saving therapies being pulled from markets.
The industry needs to do better to support all patients in need. The biggest obstacle to accessibility has been pharma’s need to effectively reinvent manufacturing for living drugs made from human cells. It has not been possible to develop large-batch manufacturing as is done for most other therapeutic modalities, meaning commercial-scale manufacturing has until now been unrealistic. Finally, the industry is beginning to incorporate Industry 4.0 concepts that have worked well for other types of manufacturing, including automation.
Industry 4.0 is more than just the types of technology that are deployed. Rather, these approaches underscore integration across the end-to-end patient journey. Many biopharmaceutical companies are still thinking about a black box (or several) to swap in for specific manufacturing processes, but that won’t enable the kind of scale most therapies will need to meet total patient demand. Still others are relying on contract development and manufacturing organizations (CDMOs) to enable scale through next-generation end-to-end platforms, which can still be capacity constrained by upstream and downstream processes.
A new model is the integrated development and manufacturing organization (IDMO). As the name implies, this includes fully integrated smart manufacturing facilities for true end-to-end scale. It relies on flexible manufacturing capabilities without requiring changes to hardware, meaning process modifications are entirely managed through software. As a result, technology transfer between smart facilities in any geography is streamlined through the leverage of platform standards. Combined, these aspects will make it easier to scale cell therapies globally and meet total patient demand.
Developing the IDMO
The tenets of the IDMO concept can be viewed from the top down: manufacturing facilities must be standardized and interconnected, technology within each smart factory must ensure end-to-end integration, and the platform technologies themselves must be robust enough to serve multiple functions.
Execution starts from the bottom up. From its beginnings, the biggest choke point in the cell therapy space has been manufacturing, which makes that the first place to start.
Today, commercial cell therapies have progressed toward becoming front-line treatments for certain hematological malignancies, meaning tens of thousands of additional patients may soon be eligible for these therapies. However, that number of batches haven’t even been manufactured yet in aggregate. It likely will not be long before cell therapies are also approved in other indications, including autoimmune diseases. Even with heavy investment from pharma companies and the CDMO sector in new facilities and streamlined processes, traditional manufacturing is years away from meeting total patient demand.
Manufacturing at scale requires reducing the footprint, eliminating manual processes, increasing throughput, and lowering cost of goods. The most robust approach to address these issues is the deployment of fully closed and automated end-to-end manufacturing platforms. These platforms do not require traditional cleanroom spaces because manual process steps are eliminated through robotic orchestration of streamlined and fully integrated manufacturing processes.
“End-to-end” can be misleading. If a therapeutic developer or CDMO has just purchased multiple units with the intent to scale, they will need to develop all new upstream and downstream systems to match the system’s throughput. Even the best manufacturing system, in isolation, might just mask a bottleneck, rather than fix it.
The IDMO smart factory approach incorporates multiple ancillary technologies to enable the fullvalue proposition of end-to-end automated manufacturing. That includes designed-for-purpose infrastructure and facilities, requiring a high degree of engineering expertise.
Read the full article in the Trends in Manufacturing eBook.
About the author
John Tomtishen is senior vice-president and general manager (IDMO Business), Cellares.
Article details
Pharmaceutical Technology®/Pharmaceutical Technology® Europe/BioPharm International®
Trends in Manufacturing eBook
May 2025
Pages: 4–10
Citation
When referring to this article, please cite it as Tomtishen, J. Ushering in Industry 4.0 with the IDMO Model to Solve the CGT Manufacturing Bottleneck. Pharmaceutical Technology®/Pharmaceutical Technology® Europe/BioPharm International®, Trends in Manufacturing eBook, May 2025.
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