FORMULATION ARTICLES
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![molecular scissors, manipulation of molecular biology, RNA molecule-GettyImages-2213997299]( "Structure-Guided siRNA Design: How Chemistry, Context, And Constraint Are Shaping The Next Phase Of RNAi Therapeutics")
Structure-Guided siRNA Design: How Chemistry, Context, And Constraint Are Shaping The Next Phase Of RNAi TherapeuticsAs siRNA design matures, the next breakthroughs will depend on balancing chemical optimization, delivery challenges, and expanding beyond established design rules.
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![GettyImages-1487902757]( "Following The Data To The Heart: Atrium's Quest For Next-Gen Targeted RNA Delivery")
Following The Data To The Heart: Atrium's Quest For Next-Gen Targeted RNA DeliveryIn this two-part series, Gallagher shares more about her goals for Atrium following its spin-out from Novartis, articulating what it looks like and means to “pave a path” to greater patient access in rare cardiomyopathies. Here in part one, we start with a look into the formation of Atrium, sharing the “why” behind the company’s formation and what’s next for the company’s targeted delivery platform.
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![RNA, siRNA, mRNA, CRISPR-GettyImages-1409578455]( "Scaling RNA Therapeutics: Purification, LNP Formulation, And GMP Manufacturing (Pt. 2)")
Scaling RNA Therapeutics: Purification, LNP Formulation, And GMP Manufacturing (Pt. 2)Part 2 explores the downstream technologies that turn RNA into a therapeutic product, from impurity removal and LNP formulation to GMP infrastructure and scalable manufacturing.
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![NeurExone_coverphoto]( "From Exosomes To Nanodrugs: Advancing Therapeutic Delivery For CNS Repair")
From Exosomes To Nanodrugs: Advancing Therapeutic Delivery For CNS RepairExosomes are biological vesicles used for cellular communication that can overcome CNS barriers, delivering therapeutic cargo for CNS and optic nerve injuries.
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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.
FORMULATION VIDEOS
In this video, Russell Johnson, VP Formulation Research for RVAC Medicines, and Aalok Shah, Director of Formulation & Drug Delivery, Strand Therapeutics, unpack which learnings can be adapted from ASO-LNPs to mRNA/LNPs and from mRNA vaccines to mRNA therapeutics. They also touch upon which learnings cannot be neatly carried over from these previous success stories.
Explore an overview of the development and scale-up activities needed to develop high quality lipid nanoparticles and progress this saRNA vaccine to the clinic.
This webinar is presented by Dr. John P. Cooke, Chair of the Department of Cardiovascular Sciences at the Houston Methodist Research Institute, Director of the Center for Cardiovascular Regeneration, and Medical Director of the RNA Therapeutics Program in the Houston Methodist DeBakey Heart and Vascular Center.
It goes without saying that achieving cell-specific delivery is the most often discussed challenge facing the RNA-LNP field near- and long-term. However, as these three LNP experts share in this Advancing RNA Live clip, they have a whole list of additional R&D and CMC priorities we must address/accomplish to improve RNA-LNPs’ efficacy in personalized and gene therapy approaches.
ARTICLES, APP NOTES, CASE STUDIES, & WHITE PAPERS
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![Lipid Nanoparticle mRNA Vaccine GettyImages-1418152448]( "Lipid Nanoparticle Compositional Analysis By UHPLC-CAD")
Explore results generated from an internal study using a proprietary mRNA-LNP formulation and UHPLC-CAD, a powerful technique for the analysis of compounds that do not contain chromophores.
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![Lipid Nanoparticles GettyImages-1437855772]( "Rethink Cell Therapy With LNPs")
Explore how lipid nanoparticles are revolutionizing cell therapy workflows to enable the precise delivery of mRNA and gene editing tools for next-generation treatments like CAR T and HSC therapies.
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![RNA abbreviation of ribonucleic acid-GettyImages-1453953422]( "Navigating Challenges In Progressing Breakthrough RNA Therapeutics")
RNA therapeutics hold immense promise for precision treatment, but their development faces challenges. A CDMO with adaptable platforms and flexible timelines can help reduce time and costs.
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![GettyImages-1405590436-lab-perfusion-cleanroom]( "Laminar And Turbulent Mixing Techniques For LNP Formulations Scale Up")
Explore the critical factors in scaling up lipid nanoparticle (LNP) formulation, comparing the advantages and limitations of both laminar (microfluidic) and turbulent (tee and jet) mixing technologies.
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![Cleanroom Scientists Using Tablet GettyImages-1341292153]( "High-Throughput Platform Propels Gene Editing Therapy Research")
Explore the potential of polymeric nanoparticles (PNPs) as an alternative to viral vectors. PNPs offer design flexibility, enabling larger payloads, targeted release, and minimized side effects.
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![Scientist In Lab GettyImages-1354172647]( "Boost LNP Drug Potency With Optimized Delivery Formulations")
Lipid nanoparticles (LNPs) function as a drug delivery system for nucleic acids. Learn about the biomedical applications of LNPs as well as the anatomy, formulation optimization, and safety of LNPs.
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![Lipid Nanoparticles GettyImages-1437855772]( "How Lipid Nanoparticles Enable Next-Gen Delivery")
Cell therapy’s future depends on smarter gene delivery. Learn how lipid nanoparticles offer a scalable, cell-friendly alternative to electroporation and viral vectors for manufacturing efficiency.
