FORMULATION ARTICLES
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The Great Cell Therapy Reset: Solving The Industrial Math Of Living Drugs
The cell therapy sector is experiencing a paradigm shift in manufacturing: from bioreactor (ex vivo) to body (in vivo).
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Oligonucleotide Therapeutics At Scale: Bottlenecks, Breakthroughs, And What Comes Next
Oligonucleotide therapies have proven clinical value, but scaling beyond rare disease remains hard. William Soliman, Ph.D., BCMAS, breaks down the manufacturing, delivery, and CMC realities shaping what comes next.
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In Vivo LNP-Engineered Cytokine-Armored CAR Cells For Solid Tumors
By injecting lipid-based nanoparticles encapsulating mRNA and encoding the CAR directly into the bloodstream, developers can effectively reprogram the patient's own immune cells in situ.
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Powering Cell Therapies With RNA: A New Code For Engineered Immunity
RNA is redefining cell therapy engineering—enabling transient, programmable control of immune and stem cells while simplifying manufacturing, improving safety, and accelerating scalable, virus-free workflows.
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Why RNA Tech Transfer Is So Hard — And How the Field Can Fix It
A closer look at why RNA tech transfer remains one of the field’s toughest bottlenecks — and the practical steps developers and CDMOs can take to finally streamline the path to GMP.
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Four Reasons You Should Choose Lyophilization for Your Next Project
Lyophilization ensures product stability, extends shelf life, supports sensitive formulations, and simplifies storage and transport, making it a critical choice for modern drug development projects.
ARTICLES, APP NOTES, CASE STUDIES, & WHITE PAPERS
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Cell therapies, using reprogrammed immune cells, offer innovative treatments for diseases. Discover how lipid nanoparticles (LNPs) enhance these therapies by delivering RNA for gene modulation and next-gen treatments.
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As pharma companies aim to overcome development obstacles, it is important to incorporate GMP expertise alongside novel technologies that can enhance the properties of APIs and dosage forms.
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A platform that harnesses microfluidic mixing has been demonstrated as a simple, robust, and scalable production method for LNPs encapsulating various types of nucleic acids.
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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.
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Explore challenges to the successful development of RNA-based drugs and vaccines as well as the advantages of utilizing lipid nanoparticle technology as a delivery platform for saRNA.
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Here, we highlight three important process considerations across the RNA-LNP manufacturing workflow which includes limit size behavior, in-line dilution and downstream tangential flow filtration (TFF).
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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.