MANUFACTURING ARTICLES
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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.
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![vacation-GettyImages-1430503053]( "New Group Wants 'Phase-Appropriate' Thinking To Retire")
New Group Wants 'Phase-Appropriate' Thinking To RetireDecisions in cell and gene therapy are not about aligning with arbitrary clinical phases but about balancing risk.
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![Creative problem solving, skill, solution-GettyImages-2184276582]( "The Case for Process Simplification in mRNA Manufacturing")
The Case for Process Simplification in mRNA ManufacturingHere, I wanted to share a few additional details from Parrella’s presentation about the efforts he and his team at Kernal Biologics made to improve their overall mRNA-LNP COGS. Though he emphasized the amount of opportunity that exists to improve our utilization of costly raw materials/reagents, as he revealed, there are also opportunities for process simplification.
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![cars driving on a bridge-GettyImages-1167795076]( "The RNA Synthesis Spectrum: Between Solid-Phase Roots & A Hybrid Enzymatic Future")
The RNA Synthesis Spectrum: Between Solid-Phase Roots & A Hybrid Enzymatic FutureThere were two additional takeaways I had following my conversation with Kuchimanchi, each of which depicts where there still exists quite a bit of dynamism for an industry which can claim an “established” manufacturing paradigm.
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![Athletic Jump-GettyImages-130409478]( "Beyond Solid-Phase Synthesis: The Momentum of Oligonucleotide Manufacturing")
Beyond Solid-Phase Synthesis: The Momentum of Oligonucleotide ManufacturingOverall, there were three main takeaways I gleaned from our conversation that suggest the oligo sector, though more established than its mRNA cousin, is not comfortable with the status quo and is actively trying to grow beyond the limits of its current manufacturing paradigm. Here in part 1, we’ll start with my number one takeaway, which also comes equipped with a bit of history as to how we find ourselves at our current juncture.
MANUFACTURING VIDEOS
Struggling with mRNA integrity? Discover essential strategies to boost stability in mRNA manufacturing with innovative endonuclease-free DTT and Spermidine chemicals.
During this first segment of Cell & Gene Live, Major Trends in Next-Gen RNA Engineering, hosted by Cell & Gene’s Chief Editor, Erin Harris, Nathaniel Wang, CEO and Co-Founder, Replicate Bioscience and Sam Deutch, EVP of Research and Early Development at Nutcracker Therapeutics discuss the two major trends developing in the next generation RNA space. They cover how to more accurately target tissues to reduce off-target effects or to cross a therapeutic threshold for protein expression. In addition, they discussed how to improve the amount, quality, and longevity of expressed protein to expand the use cases for RNA.
In this segment from the Surge Manufacturing for Biopharma Resilience live event, University of Sheffield’s Dr. Zoltán Kis shares the work he’s doing on the Wellcome Leap RNA R3 program.
Experts in the pharmaceutical industry share insights on how to effectively implement a strong, integrated CPV and APQR framework. Watch now and learn how automation enhances efficiency.
ARTICLES, APP NOTES, CASE STUDIES, & WHITE PAPERS
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![Financial Graph GettyImages-913219882]( "mRNA Process And Cost Modeling: A Tool To Optimize Process Development")
Demand for mRNA-based medicine production continues to increase, as do investments in prophylactic and therapeutic indications. Explore a cost-model that compares all modalities.
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![GettyImages-532549174-lab-bioreactor-development]( "From Good To Great: Innovative Biopharmaceutical Manufacturing Is Key")
Advanced manufacturing can produce new technology like mRNA within cGMP requirements and demanding timelines. What does this mean for scalability and continuous manufacturing?
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![iStock-1087219198-lab-computer-cleanroom-research-development-production]( "GMP-Source® And Phase-Appropriate Use For Early-Stage Clinical Trials")
GMP-Source is a more robust, less rigid alternative to full cGMP production that mirrors nearly all of the oversight and quality standards of full cGMP production while relaxing certain commercial standards, helping companies overcome the hurdles that can stall early development.
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The concept of optionality is key to staying flexible in biomanufacturing by keeping your options open and having multiple pathways to take while navigating through this highly uncertain environment.
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![injecting vaccine vaccination-GettyImages-665515600]( "21st Century Manufacturing Of Injectable Pharmaceuticals")
Discover how rising competition, niche patient populations, and evolving therapies are reshaping sterile injectable drug development with cutting-edge technologies.
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![GettyImages-2165310987-chromosome-nucleotide-gene]( "Research-Scale Oligonucleotide Workflow")
Get a clear view of oligonucleotide development from synthesis to purification and filtration with practical insights to help you streamline workflows and stay ahead in the fight against disease.
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![GettyImages-1354171846-lab-research-development]( "Identifying Sustainable Pathways Toward Oligonucleotide Therapeutics")
What sustainable manufacturing processes best address Oligonucleotide environmental impact while maintaining scalability?
