MANUFACTURING ARTICLES
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![Potter at work-GettyImages-1142834523]( "Beyond The Hype: How 2025's Successes & Realities Will Shape mRNA In 2026")
Beyond The Hype: How 2025's Successes & Realities Will Shape mRNA In 2026Here, in part two of this multi-part series, we hear from Melissa Bonner, CSO of nChroma Bio and Andy Geall, CDO of Replicate Biosciences, who call attention to several developments of the past year they’ve been watching and how they see these developments informing our conversations about and work with mRNA in 2026 and beyond.
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![Medical syringe with blue glass DNA helix-GettyImages-1631239019]( "To Fight Cancer, Gene Editing Needs To Solve Its Delivery Problem")
To Fight Cancer, Gene Editing Needs To Solve Its Delivery ProblemThe choice of delivery dictates the complexity of manufacturing, which in turn determines the eventual cost and accessibility of the therapy.
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![business challenge, risk-GettyImages-2200659695]( "Striking The Right Balance: The Critical Discussions Driving The mRNA Industry's Next Chapter")
Striking The Right Balance: The Critical Discussions Driving The mRNA Industry's Next ChapterNow, I cannot claim that I or any of the panelists at CASSS have or had access to a real crystal ball that will show us the future. However, what did come through these discussions loud and clear is that the future of our industry must include “balance.” Here, I’ll unpack a few ways the theme of “balance” presented itself — and no doubt will continue to present itself in the future — as well as how the panelists see us achieving this necessary balance.
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![path of exponential growth-GettyImages-2229192052]( "Trends In Oligo Scale-Up & Delivery & How They're Impacting Manufacturing")
Trends In Oligo Scale-Up & Delivery & How They're Impacting ManufacturingHere, a panel of experts at the RNA Leaders Conference gives a fantastic overview of where we are today and why, as one expert so nicely put it, “This is one of the most fun times to be an oligo scientist or chemist.”
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![Utility teamwork-GettyImages-2211320040]( "From Misinformation To Medicine: Forging Bipartisan Support to Reverse Anti-mRNA Policy")
From Misinformation To Medicine: Forging Bipartisan Support to Reverse Anti-mRNA PolicyIn this article, I’ll share some of the progress AMM has made and the barriers the organization/our industry is still facing in our efforts to reverse the policy decisions that have been made against mRNA today. Throughout the panel, the speakers also shared their thoughts on the types of messaging we should be considering and/or have started to see making an impact.
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![GettyImages-1493586956-assay-bottles-laboratory-scientist]( "What You Should Know About USP's Bioassay Updates")
What You Should Know About USP's Bioassay UpdatesThe United States Pharmacopeia is overhauling general chapters to align them with current industry standards. One scientist on the project helps us unpack the changes.
MANUFACTURING VIDEOS
Achieving cost-effective manufacturing while maintaining high quality standards today is one of the biggest challenges facing companies outsourcing mRNA/RNA development. In turn, panelists Qian Ruan, Andy Geall, and Alex Aust reflect on how and where they’ve seen the costs of mRNA-LNP manufacturing evolving/fluctuating in recent years.
As Pfizer and Moderna publicly announce work on an mRNA-based universal flu vaccine, what else is on the horizon for mRNA? Tune in to this segment from the Bioprocess Online Live event mRNA Manufacturing: Bright Future, Big Challenges for a discussion with Roberta Duncan, VP of the mRNA program at Seqirus; Duke Human Vaccine Institute Associate Director of Upstream and Downstream Process Development Jason Dickens, Ph.D.; and Jin Zhou, Executive Director of Process Development for mRNA and Protein Biologics at Ultragenyx. In this clip, they share market forecasts for mRNA vaccines and therapeutics and their companies’ go-forward plans to meet those demands.
TFF Pharmaceuticals’ Kayla Hannon and University of Sheffield’s Dr. Zoltán Kis discuss the cost and capacity implications of therapeutic demand surges in this Surge Manufacturing for Biopharma Resilience segment.
Discover key strategies for overcoming challenges in the industrial-scale production of ionizable and PEG lipids to optimize mRNA vaccine formulation and address critical manufacturing requirements.
ARTICLES, APP NOTES, CASE STUDIES, & WHITE PAPERS
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![PNI Feature 2]( "Strategies To Overcome Delays In The Development Of Genomic Medicines")
Learn how optimizing LNPs can help overcome drug-delivery challenges, unlocking potential new genomic medicines in a shorter time.
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![Cytiva-602047-1. Accelerating the Development]( "Accelerating The Development And Scale-Up Of mRNA Vaccines")
Learn how downstream considerations can make the difference between success and failure on the path towards the commercialization of mRNA vaccines.
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![Nanoparticles GettyImages-622777274]( "Unlocking New Possibilities For Treating Rare Genetic Diseases")
With over 7,000 rare diseases, the potential for nanomedicine to revolutionize treatment is immense. While polymer nanoparticles hold great promise, several challenges remain.
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![Gibco sampler]( "The Value Of Premium Gibco Peptones")
Achieve the optimal nutritional balance with diverse supplements tailored for your specific bioprocess that can be added to maintain a nutritionally balanced medium.
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![Covid Vaccine Production Line GettyImages-1336518535]( "Analytics And Bioassays Can Safely Fast-Track mRNA-LNP Drug Development")
One main mRNA technology challenge is the formulation of delivery systems like lipid nanoparticles (LNPs). Learn about evading impurities in lipids, the future of mRNA-based genomic medicines, and more.
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![Gene therapy data GettyImages-1054555460]( "Let The Future Start Today: Development Of Better LNP-Based Genetic Medicines")
Discover how you can accelerate the time to patients for new vaccines and therapies with innovative, streamlined technology that is quicker and more intuitive.
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![GettyImages-1256323645 lab, biotech]( "Genetic Engineering Medium Aiding The Transfection Of MSCs With siRNA")
A newly developed genetic engineering medium is fueling the development of cell- and extracellular vesicle-based therapies.
