FORMULATION ARTICLES
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![biotechnology, Global Networking, Research, Development, Innovation, Advancing Smart Solutions-GettyImages-2123154659]( "Innovations In The Oligonucleotide Supply Chain: Regulatory Considerations For Materials, Manufacturing, And Lifecycle Control")
Innovations In The Oligonucleotide Supply Chain: Regulatory Considerations For Materials, Manufacturing, And Lifecycle ControlOligonucleotide therapeutics have rapidly advanced into late-stage and commercial development, shifting regulatory focus toward the maturity of manufacturing and supply chain control rather than therapeutic novelty. Regulatory success now depends on how effectively sponsors translate innovative chemistries into well-characterized, scalable, and sustainable materials and processes.
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![GettyImages-1459917555-lab-research-development-gene-genetic]( "The mRNA Supply Chain Revolution: Materials, Methods, And Momentum")
The mRNA Supply Chain Revolution: Materials, Methods, And MomentummRNA innovation now hinges as much on manufacturing materials as on molecular design, with novel inputs shaping performance, cost, and scalability. As these less-mature materials move rapidly into production, strategic material selection and supplier alignment are becoming critical to manufacturing resilience and long-term success.
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![genetic research, biotechnology, molecular biology, innovation, healthcare solutions-GettyImages-2234236209]( "A Year Of Separation: Which Advanced Modalities Are Built For Commercial Scale In 2026?")
A Year Of Separation: Which Advanced Modalities Are Built For Commercial Scale In 2026?In 2026, advanced therapies diverge: winners pair proven biology with scalable manufacturing, delivery, and workflow fit, while others advance more slowly under operational and economic limits.
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![Scientist virus research laboratory-GettyImages-1493597834]( "2026 Outlook: How Modality Maturity, Delivery, And Data Will Reshape RNA Therapeutics")
2026 Outlook: How Modality Maturity, Delivery, And Data Will Reshape RNA TherapeuticsAs RNA therapeutics mature, 2026 will reward execution over novelty. Delivery, data-driven design, and modality specialization will determine which RNA platforms scale clinically and commercially.
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![DNA genetic research-GettyImages-2151457031]( "Designing mRNA For The Next Generation Of Therapeutics")
Designing mRNA For The Next Generation Of TherapeuticsmRNA’s next leap goes beyond vaccines. This piece explores how tuning sequence design, structure, and longevity enables controlled protein expression for cancer, rare disease, and regenerative uses.
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![Genetic engineering-GettyImages-1133966737]( "The Great Cell Therapy Reset: Solving The Industrial Math Of Living Drugs")
The Great Cell Therapy Reset: Solving The Industrial Math Of Living DrugsThe cell therapy sector is experiencing a paradigm shift in manufacturing: from bioreactor (ex vivo) to body (in vivo).
FORMULATION VIDEOS
Unlock next-generation nanoparticle and LNP manufacturing. Achieve high throughput, minimal waste, and superior quality with a compact, automated, and contamination-controlled system.
Overcome LNP upscaling challenges by leveraging fluid mechanical principles. Learn how Impingement Jets Mixing achieves reproducible turbulence and consistent LNP quality across all production scales.
Discover how revolutionary and environmentally sustainable nanoparticle technologies coupled with innovative formulation approaches can address drug solubility issues and add value for patients.
Discover the unparalleled flexibility and automation that sets the IJM NanoScaler Pro apart from other lipid nanoparticle systems.
ARTICLES, APP NOTES, CASE STUDIES, & WHITE PAPERS
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![Lipid Nanoparticle mRNA Vaccine GettyImages-1418152448]( "Trends In Next-Generation Delivery Technologies")
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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![Worker Holding Vaccine Vial GettyImages-1403976499]( "LNP Formulation For mRNA Delivery")
Microfluidic mixing is one of the most effective means to formulate LNPs for its scalability and reproducibility. Explore LNP formulation, polishing, sterile filtration of mRNA-LNPs, and more.
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![INFORS Scientist, male]( "Ready To Amplify Plasmid (pDNA) In Bacteria?")
Explore how to use and amplify pDNA from the development of recombinant proteins and viral vectors to advanced bio-therapeutics such as mRNA vaccines.
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![GettyImages-1807380795-analytics-cell-analysis-laboratory]( "Oligonucleotide Purification And Synthesis")
Examine how a 21‑mer oligo was synthesized and purified through systematic resin screening, method optimization, and successful scale‑up to build reliable, high‑purity chromatography workflows.
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![Virus Retention Performance Under Diverse Processing Conditions]( "Virus Retention Performance Under Diverse Processing Conditions")
Virus filtration is robust across a wide range of process parameters, including high protein concentration and flow decay. Discover how retention relies on size exclusion to simplify risk assessment.
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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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![iStock-1213444268-vaccine-virus-syringe]( "PEG In LNP Formulations: Addressing Challenges And Seeking Solutions")
Polyethylene glycol and similar variants have driven innovative research for therapies. However, the continued use of PEG poses significant drawbacks.
