FORMULATION ARTICLES
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How Targeted Nanoparticles And Circular RNA Are Advancing CAR-T Development
To overcome the short duration of therapeutic protein expression associated with mRNA, Sail Biomedicine has developed novel endless RNA constructs. Michael Lam, Ph.D., discusses its delivery mechanisms and an outlook for future applications.
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Enhancing Gene And Cell Therapies With Circular RNA-Based Gene Expression
While circular RNA platforms can enhance protein expression, developing effective delivery strategies remains the key challenge to achieving therapeutic efficacy.
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The Missing Partners In microRNA Silencing: What QKI Reveals About RNA Regulatory Complexity
New research suggests microRNA silencing depends on RNA-binding protein partners like QKI, revealing a more complex regulatory network shaping gene expression.
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RNA Therapeutics: Why CMC Strategy Will Define The Next Decade
As RNA matures into an industrial platform, long-term success will depend less on discovery and more on scalable CMC systems, integration, and execution.
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Rethinking The Oligonucleotide Backbone: Why RNA Therapeutics May Need A New Molecular Design Framework
New backbone chemistries could unlock greater control over delivery, specificity, and safety, expanding the molecular design space for RNA medicines.
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RNA Platforms: What Transfers And What Breaks
A practical framework for distinguishing reusable RNA platform knowledge from biology-specific unknowns as therapeutics expand into new tissues and indications.
ARTICLES, APP NOTES, CASE STUDIES, & WHITE PAPERS
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Discover how self-replicating RNA (srRNA) can revolutionize vaccine development with sustained protein expression, lower doses, and fewer side effects to advance next-gen RNA therapeutics.
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Learn how lipid nanoparticles are enabling a new generation of engineered cell therapies with a push toward more complex cell engineering and gene editing for allogeneic therapies.
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Despite the momentum of the RNA-LNP therapeutic market, significant manufacturing challenges remain. However, the right mixing could solve three of these key challenges regarding instrumentation.
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Cryopreservation should be integrated across the entire supply chain to ensure traceability, reduce risk at handoffs, and support consistent, scalable therapy development and delivery.
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Compared to traditional protein-based therapies, mRNA drugs exhibit unique pharmacokinetic profiles and can be rapidly developed, making overcoming their challenges critical for the industry.
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Fast-track RNA-LNP development, streamline screening with off-the-shelf ionizable lipid mixes, and utilize validation strategies to generate reproducible and scalable LNPs for lead candidates.
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Lipid nanoparticles enable precise, non-viral gene editing in T cells to achieve high HDR efficiency and viability in scalable workflows. Explore how this approach overcomes viral vector limitations.