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
Dr. John Lewis, Founder and CEO, Entos Pharmaceuticals, presents RNA Vaccine Development to Phase I.
As both Advancing RNA Live speakers point out in this segment, the MHRA guidance focuses deeply on the critical role bioinformatics and AI/ML approaches will play in the development of personalized immunotherapies. Here, Eliquent Life Sciences’ Tiffany Lucas and CureVac’s Ulrike Jägle address the biggest challenges they anticipate companies will face in meeting the agencies’ recommendations.
We end each Cell & Gene Live by answering our audience’s questions in real time. Here, Nathaniel Wang, CEO and Co-Founder, Replicate Bioscience and Sam Deutch, EVP of Research and Early Development at Nutcracker Therapeutics provide detailed responses to questions regarding managing manufacturing, scalability, and more.
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.
ARTICLES, APP NOTES, CASE STUDIES, & WHITE PAPERS
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![GettyImages-1339300422 CAR T-Cell Immunotherapy]( "How To Successfully Isolate Your T Cells")
Explore the results of a study focusing on the early stages of the CAR T cell workflow, specifically the initial washing of leukapheresis followed by the isolation of T cells.
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![iStock-1140779660-drug-development-lab]( "Enabling Continuous Manufacturing For CAR-T And LNP-Based Therapies")
Breakthrough therapies are challenged by complex, batch-based manufacturing. A novel, integrated system enables continuous processing, improving consistency and reducing manual handling for advanced modalities.
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![GettyImages-1310857892-dna-genetic-gene]( "Unlocking The Full Potential Of Genomic Medicine")
There are two key challenges to realizing the potential of genomic medicines, but potential technological solutions are on the horizon, and we examine each.
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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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![GettyImages-1209614664-cell-gene-dna-research-development]( "Quantification Of Large Oligonucleotides Using High Resolution MS/MS")
Explore how to achieve sensitive, high-resolution analysis of large oligonucleotides, with the opportunity to perform both qualitative and quantitative analysis in a single run.
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![171026-101024_MDA_F61_12673_FINAL]( "Integrated Approach In Managing CPV And APQR")
Many companies continue to manually collect data. Utilizing digital technologies can greatly improve productivity and efficiency by enabling real-time monitoring and streamlining regulatory reporting.
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![laboratory scientist data iStock-1209661942]( "Ultrafiltration Devices And Plates Offer Higher-Throughput Options For Cloning And PCR Workflows")
Learn how ultrafiltration devices in various steps of the cloning workflow can provide a more streamlined process compared to traditional methods of subcloning PCR-generated fragments.
