RNA-LNP Formulation training
Sharing our expertise to accelerate your success
At Inside Therapeutics, our mission is to accelerate the adoption of RNA-LNP technology. Sharing our know-how is central to this vision — through tailored training programs, we equip your team with the skills and confidence to master RNA-LNP formulation and move your projects forward faster.
15+ years of RNA-LNP Formulation experience
Learn best practices in RNA–LNP formulation from experts with deep hands-on experience.
From theory to practice
Master the full workflow, from fundamentals to practical formulation and characterization.
All-in-one
We provide the expertise, systems, and lipids — all you need for effective training.
Fully flexible
1 to 4 days, at our lab or yours — tailored to your specific needs.
How can we assist you ?
Getting started with TAMARA
Looking to get started with our TAMARA RNA-LNP formulation system?
Accelerate your onboarding and get the best out of TAMARA
Access reagents, protocols, and best practices from day one
Tailor the program to your requirements and your expertize
Combine it with IP/OQ/PQ
Getting the basics
Want to understand RNA-LNP application & process?
Choose the format: From theory only to full hands-on training
Apply best practices from day one, backed by 15+ years of RNA–LNP expertise
Quickly connect to real world applications
Learn how to bridge formulation research with process development and GMP requirements.
Training Agenda
Features
Cutting edge & transferable formulation technology
Advanced characterization tools
High quality lipids (GMP-Grade)
Expert support
Frequently Asked Questions
What is an RNA-LNP ?
RNA–lipid nanoparticles (RNA-LNPs) are nanoscale carriers built from four main lipid components: ionizable lipids, cholesterol, phospholipids, and PEGylated lipids. Their design enables the encapsulation and delivery of nucleic acids such as mRNA or siRNA.
Recognized as the current benchmark in nucleic acid delivery, RNA-LNPs offer several advantages:
- Maximize RNA encapsulation
- Shield fragile RNA molecules from enzymatic breakdown
- Promote efficient cellular internalization and release from endosomes
- Allow fine-tuning of particle size, charge, and composition to balance safety, efficacy, and biodistribution
These attributes made RNA-LNPs the cornerstone technology behind the rapid and successful deployment of mRNA-based COVID-19 vaccines.
What can be encapsulated into LNP?
Lipid nanoparticles (LNPs) are versatile carriers capable of encapsulating a wide range of hydrophilic, charged, or delicate biomolecules and nucleic acids, such as:
- mRNA, saRNA, CircRNA – used in vaccines and protein replacement therapies
- CRISPR-Cas components– including RNP complexes or mRNA combined with gRNA
- siRNA, miRNA, ASO – for gene silencing applications in oncology and rare diseases
- DNA
- Small hydrophilic drugs
- Peptides / proteins
What lipids are available?
As part of the training, you can access our LNP starter kits—developed with CordenPharma—that replicate established RNA-LNP formulations, allowing you to start formulating right away
| Kit name | ALC-0315 (Acuitas – BioNTech/Pfizer) | SM-102 (Moderna – Moderna) | LP-01 (Novartis – Intellia) |
|---|---|---|---|
| Ionizable lipid | ALC-0315 (46.3%) | SM-102 (50%) | LP-01 (45%) |
| Phospholipid | DSPC (9.4%) | DSPC (10%) | DSPC (9%) |
| Sterol Lipid | Cholesterol (42.7%) | Cholesterol (38.5%) | Cholesterol (44%) |
| PEG-Lipid | ALC-0159 (1.6%) | MPEG-2000-DMG (1.5%) | MPEG-2000-DMG (2%) |
| Typical applications | mRNA-LNP | mRNA-LNP | Gene editing / CRISPR-Cas9 |
Does the training cover targeting strategies for RNA-LNPs?
During the training, we provide an introduction to strategies for optimizing RNA-LNP specificity and biodistribution. Two main approaches are discussed:
- Active targeting – In more advanced designs, LNPs can be functionalized with targeting moieties (e.g., antibodies, peptides, or aptamers) to guide delivery toward specific tissues or cell types. Although this strategy requires additional design, characterization, and validation steps, it enables greater precision and tissue selectivity.
- Passive targeting – By tuning intrinsic LNP parameters such as particle size, lipid composition, and lipid ratios, it is possible to influence how nanoparticles naturally distribute within the body. This approach is relatively straightforward and widely used, though it generally relies on extensive screening to identify the most effective formulation profiles.
Do you provide IQ/OQ/PQ?
Yes. We can provide full support for Installation Qualification (IQ), Operational Qualification (OQ), and Performance Qualification (PQ) on top of TAMARA training. This ensures your TAMARA system is installed correctly, operates according to specifications, and performs reliably under real experimental conditions. Our team can guide you through the qualification process so you can integrate the system into your workflows with confidence and meet regulatory requirements.
What does it look like to work with us ?
Getting started is simple. The typical workflow follows five steps:
- Get in touch — Share the context of your request and your training objectives.
- Consult with our RNA-LNP specialist — We’ll review your goals in detail and propose an action plan
- Receive a quotation — Tailored to your project scope
- Start the training — We execute the program according to your request.
Looking to get started with RNA-LNP formulation?
Reach out to us to learn how we can help!