FORMULATION ARTICLES
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![GettyImages-1447956737]( "Why RNAi-Based Oncology Must Move Beyond Single-Target Thinking")
Why RNAi-Based Oncology Must Move Beyond Single-Target ThinkingRNAi therapeutics may help oncology move beyond single-target drugs by disrupting adaptive tumor survival networks driving resistance in solid tumors.
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![Green Business-GettyImages-2179499504]( "What Makes An RNA Platform Investable? Lessons From The Last Wave Of Biotech Financing")
What Makes An RNA Platform Investable? Lessons From The Last Wave Of Biotech FinancingRNA investing has shifted from hype to scalability, forcing companies to prove manufacturability, delivery strength, and platform-wide value.
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![Ribosome, biological cell constructing mRNA molecule-GettyImages-1352440366]( "Beyond Hairpins: A New Translational Repression Assay Expands RNA-Binding Protein Research")
Beyond Hairpins: A New Translational Repression Assay Expands RNA-Binding Protein ResearchResearchers expanded translational repression assays beyond RNA hairpins, enabling scalable study of linear RNA-protein interactions in living cells.
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![Molecular biology, mRNA strands, genetics-GettyImages-2198118160]( "Engineering RNA Payload Distribution In LNPs To Unlock Higher In Vivo Gene Editing Efficiency")
Engineering RNA Payload Distribution In LNPs To Unlock Higher In Vivo Gene Editing EfficiencyNew research shows RNA payload distribution inside LNPs — not just encapsulation efficiency — may be key to unlocking stronger in vivo gene editing performance.
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![Scientist observing colorful liquid in test tubes-GettyImages-2158013158]( "Beyond Guanidine: Scientists Discover A Mysterious Riboswitch Variant With A Different Biological Target")
Beyond Guanidine: Scientists Discover A Mysterious Riboswitch Variant With A Different Biological TargetScientists identified a mysterious riboswitch variant that resembles guanidine sensors but likely evolved to detect an entirely different metabolite.
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![Virus, pathogen, bacteria, biotechnology, bacterium, biolaboratory, new X disease, brain illness-GettyImages-1955429813]( "RNA Modification-Mediated Translational Control In Immune Cells")
RNA Modification-Mediated Translational Control In Immune CellsExploring how m6A RNA modifications control immune cell translation, influencing inflammation, tumor immunity, T cell activation, and future immunotherapies.
FORMULATION VIDEOS
Discover how advanced ionizable LNP formulations and scalable manufacturing strategies can accelerate the development and clinical translation of personalized cancer vaccines.
In this Advancing RNA Live clip, NanoVation’s Dominik Witzigmann and Stealth Co’s John Zuris break down the scientific advancements we’re seeing for each of an LNP’s components (i.e., the ionizable lipid, helper lipid, and PEG), albeit with the caveat that, with these advancements, Freedom to Operate (FTO) continues to grow increasingly complicated.
Developing new delivery routes is essential for creating more effective treatments. Nanoforming enables new routes to simplify dosing, enhance patient comfort, and reduce healthcare costs.
In this video, Russell Johnson, VP Formulation Research for RVAC Medicines, and Aalok Shah, Director of Formulation & Drug Delivery, Strand Therapeutics, share their thoughts on the scientific-research and CMC-related reasons that have made the lipid nanoparticle the “darling” of the delivery world for mRNA/RNA products today.
ARTICLES, APP NOTES, CASE STUDIES, & WHITE PAPERS
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![GettyImages-1275317360-lab-cell-gene-research-scientist-development-discovery]( "Scale-Up And Manufacturing Of Self-Amplifying RNA-LNPs")
This poster shows the work to scale up COVID-19 self-amplifying RNA-Lipid nanoparticle using PNI developed ionizable lipid and formulation from 0.2, to 50 mg scale using PNI’s Manufacturing Platform.
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![GettyImages-1307980860-dna-rna-vial-gene]( "Optimizing Lipid Formulations For Targeted RNA-LNP Applications")
Learn about the considerations and challenges of using ionizable lipids, including the 5 types of lipids used for RNA delivery.
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![GettyImages-1358868801 antibodies]( "How mRNA Technology Engineers Next-Generation Antibodies")
Monoclonal antibodies (mAbs) stand as pivotal drug products and biochemical reagents in the 21st century. Explore how mRNA-encoded antigens could revolutionize antibody discovery.
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![Stabilization Of RNA-Loaded Lipid Nanoparticles By Lyophilization]( "Stabilization Of RNA-Loaded Lipid Nanoparticles By Lyophilization")
Discover how lyophilization enhances RNA-based therapeutics by enabling storage at higher temperatures, which simplifies cold-chain logistics while preserving nanoparticle integrity and biological activity.
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![GettyImages-1409578453-mRNA-LNP-lipid-nanoparticle-RNA therapy]( "An Introduction And Brief History Of mRNA-LNPs")
With adjustable components and increased stability during bloodstream circulation, LNPs are significantly advancing drug development and delivery, particularly for mRNA vaccines.
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![GettyImages-96310150-microfluidics.jpg]( "Getting Genomic Medicines Ready For Prime Time")
Explore the benefits of building a manufacturing process early, how research into LNPs in nucleic acid therapeutics will contribute to the development of future drugs, and more.
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![GettyImages-1437856375-lnp-lipid-nanoparticle]( "Nanomedicine Modalities Find Path To Clinic Through Analytics")
Lipid nanoparticles have revolutionized drug delivery, ushering in a new era of nanomedicine. Discover how advanced analytical tools are accelerating next-generation LNP therapeutics.
