Custom RNA-LNP Formulation
Expert LNP encapsulation for all nucleic acid payload
From proof-of-concept to preclinical scale-up, our team specializes in formulating high-quality lipid nanoparticles (LNPs) for a wide range of nucleic acids — including mRNA, siRNA, saRNA, ASOs, and CRISPR-Cas9 systems. We ensure quality, efficiency, and consistency at every step of your development journey.
15+ years RNA-LNP formulation
Deep, hands-on expertise for optimal outcomes
Broad GMP-grade lipid portfolio
Top suppliers for scalable, high-performance formulations
Comprehensive physicochemical characterization
Size, encapsulation efficiency, stability, zeta potential, etc.
Agile, transferable workflows
Flexible, license-free; full knowledge transfer
How can we support you ?
Proof of concept
Not sure where to begin with RNA-LNP ?
We’ll help you define the optimal LNP strategy
Get access to 15+ years of experience in RNA-LNP
Work with your RNA payload—or let us provide it
All-in-one service: from raw materials to ready-to-use formulations.
Optimization study
Looking to fine-tune RNA-LNP performance or targeting ?
Small volume screening with high quality formulation systems
Passive targeting optimization (active targeting option available)
Access to tailored lipid libraries for flexibility.
High quality formulation system and reagents
Preclinical batches
Planning for in-vivo study ?
Get access to advanced RNA-LNP formulation system
GMP-grade lipids for best performances and consistency
Full Physico Chemical characterization of your RNA-LNP
Flexible batch sizes—up to 100 mL.
Our Workflow
Features
Cutting edge & transferable formulation technology
Advanced characterization tools
High quality lipids (GMP-Grade)
Expert support
Characterization capabilities
| Quality Attribute | Equipment | Standard Characterization | Advanced Characterization |
|---|---|---|---|
| Size | DLS | ✓ | ✓ |
| PDI | DLS | ✓ | ✓ |
| Zeta potential | DLS | ✓ | ✓ |
| Particle concentration | DLS | ✓ | ✓ |
| Encapsulation Efficiency (EE%) / Encapsulation Yield (EY%) | Ribogreen Fluorescence Assay | ✓ | ✓ |
| Final RNA concentration | Ribogreen Fluorescence Assay | ✓ | ✓ |
| Osmolarity | ✓ | ||
| RNA integrity | ✓ | ||
| pH | pH paper | ✓ | |
| Composition* | HPLC | Optional | |
| Morphology* | CRO-TEM | Optional |
*: through partners
Frequently asked questions
What is an RNA-LNP ?
RNA-LNPs (RNA–lipid nanoparticles) are nanoscale delivery systems composed of four key lipid components: ionizable lipids, cholesterol (sterol), phospholipids, and PEG-lipids. They are specifically engineered to encapsulate and deliver nucleic acids such as mRNA or siRNA.
RNA-LNPs are considered the gold standard for nucleic acid delivery because they:
- Protect sensitive RNA cargo from enzymatic degradation
- Facilitate efficient cellular uptake and endosomal escape
- Can be tailored in size, charge, and composition to optimize efficacy, safety, and biodistribution
These unique features positioned RNA-LNPs as the critical enabler of the unprecedented success of mRNA COVID-19 vaccines
What can be encapsulated into LNP?
LNPs can encapsulate hydrophilic, charged, or fragile biomolecules or nucleic acids, including:
- mRNA, saRNA, CircRNA (vaccines, protein replacement therapies)
- siRNA, miRNA, ASO (gene silencing, oncology, rare diseases)
- DNA (gene editing, gene therapy)
- CRISPR-Cas components (RNPs or mRNA + gRNA)
- Small hydrophilic drugs
- Peptides / proteins
What lipids are available?
Thanks to our partnership with Corden Pharma, we have access to a broad range of GMP-grade lipids including
- Ionizable/Cationic Lipids: ALC-0315 (Acuitas/BioNTech – Pfizer), SM-102 (Moderna), LP-01 (Novartis – Intellia), DOTAP, DODMA & more.
- Phospholipid: DSPC, DOPE
- Sterol Lipids: Cholesterol, β-Sitosterol
- PEG-lipid: MPEG-2000-DMG, ALC-0159
How to optimize RNA-LNP specificity and biodistribution
Optimizing the biodistribution and tissue specifity of RNA-LNPs can be achieved through two main strategies:
1. Passive targeting
By tuning intrinsic LNP properties—such as particle size, lipid composition, and lipid ratios—the natural distribution of RNA-LNPs in the body can be influenced.
It’s the most straightforward approach but requires broad screening of lipid formulations to identify optimal profiles
2. Active targeting
By decorating LNPs with targeting ligands (e.g., antibodies, peptides, aptamers), delivery can be directed toward specific tissues or cell types.
It’s an overall more complex design and validation process but enables a more precise, tissue-specific delivery.
Active targeting
If I start working with you, can I then internalize the process ?
Yes. Our team works exclusively with widely available lipid mixes and our cutting-edge formulation equipment, ensuring that the process is fully reproducible in your lab.
We can then provide:
- Training sessions for your team
- Protocols and documentation
- Equipment and materials
This way, you can seamlessly internalize and scale the process once the initial collaboration is complete.
What does it look like to work with us ?
Getting started is simple. The typical workflow follows four steps:
- Contact us — Share the context of your request and your goals
- Meet our RNA-LNP formulation specialist — We’ll discuss your project in detail and suggest an action plan according to your target
- Receive a quotation — Tailored to your project scope
- Project launch — Execution following your request with our equipment and expertise
- Quick Delivery — Results, data, and/or equipment provided as agreed
Looking to advance your RNA-LNP formulation projects?
Reach out to us to learn how we can help!