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
Explore a structured approach to optimizing and scaling plasmid DNA production using E. coli, with insights into key growth parameters, benchtop feasibility, and pilot-scale performance.
Examine high-quality, GMP-compliant lipids that are engineered for pharmaceutical and gene therapy applications, with options ranging from standard formulations to custom blends for improved stability.
Develop RNA-lipid nanoparticles (LNPs) in under 10 seconds for drug discovery and early preclinical development. The NanoAssemblr®️ Spark™ instrument enables rapid µL formulations to conserve limited and expensive ingredients with minimal waste.
Achieving cost-effective manufacturing while maintaining high quality standards today is one of the biggest challenges facing companies outsourcing mRNA/RNA development. In turn, panelists Qian Ruan, Andy Geall, and Alex Aust reflect on how and where they’ve seen the costs of mRNA-LNP manufacturing evolving/fluctuating in recent years.
ARTICLES, APP NOTES, CASE STUDIES, & WHITE PAPERS
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![GettyImages-1194781834-cell]( "mRNA-Lipid Nanoparticles Circumvent Viral Vector Limitations")
Both physical and chemical nonviral gene delivery systems for ex vivo genetic modification offer advantages over viral vectors, including smaller scale production and the low risk of immunogenicity.
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![GettyImages-1269045566-rna]( "Standardize Scale-Up And Reduce Time To Market With Mixing Cartridges")
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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![Digital DNA technology-GettyImages-1414458419]( "Achieving Speed And Scale With Optimized Synthesis Solutions")
Realize optimal coupling efficiency and increase your productivity for oligonucleotide drugs by selecting the right synthesizer and prioritizing automation to define and tweak synthesis methods.
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![GettyImages-970394878-genetic-engineering-gene-editing-dna]( "Genome Editing Using mRNA-Lipid Nanoparticles For CAR T Cell Therapy")
Gene delivery platforms must support a diversity of genetic engineering strategies for genomic medicine development. Learn how lipid nanoparticles can accelerate development from discovery to scale-up.
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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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![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-1317697233-cancer-t-cells]( "A Novel RNA Lipid Nanoparticle Platform: Gene-Edited CAR T Cells For Off-The-Shelf Cancer Therapy")
We report on the use of a novel lipid nanoparticle (LNP) reagent in a validated protocol to achieve successful complex gene editing in primary T cells with high efficiency while maintaining high cell viability.
