Targeting Extracellular Vesicles 2026 presents a new vision of medicine where extracellular vesicles connect mitochondria, microbiota, and immunity, shaping the future of precision intervention.
The agenda follows this vision in a clear and logical way. It starts with the basic biology of EVs, moves to their role in mitochondrial and microbial communication, and then advances to engineered solutions and clinical applications.
By bringing together fundamental science and practical innovation, the meeting creates a direct path from discovery to real medical impact.
Day 1
Decoding Intelligent Vesicle Systems
Session 1
The Intelligence of EVs: Coding, Cargo and Context
Molecular mechanisms of EV biogenesis
Selective cargo loading and RNA programming
Lipid identity and membrane dynamics
Single-vesicle analytics and high-resolution profiling
Session 2
Mitochondrial Signaling Beyond the Organelle
Mitovesicles and mitochondrial-derived EVs
mtDNA transfer and inflammatory signaling
Metabolic stress and vesicular export
Redox-driven communication pathways
Session 3
Microbial Vesicles and Cross-Kingdom Communication
Bacterial extracellular vesicles
Host–microbiota vesicle exchange
EVs in gut–brain–liver axes
Dysbiosis and vesicle-mediated inflammation
Day 2
Engineering the Future of Cellular Communication
Session 4
Designing Intelligent EVs
Engineered EVs for precision targeting
Surface functionalization and tissue tropism
Hybrid synthetic–biological vesicles
Control of biodistribution and safety
Session 5
EVs in Longevity, Repair and Immune Reprogramming
Senescence modulation through EVs
EVs in tissue regeneration
Immune recalibration and inflammaging
Cell-free therapeutic platforms
Innovation Showcase
EV Innovation Arena — Live Technology & Start-up Showcase
AI-powered single-vesicle analytics
Next-generation EV engineering platforms
GMP manufacturing and scalability solutions
Diagnostic and therapeutic applications
Investor–scientist interactive forum
Strategic Closing Forum
Are EVs the Operating System of Cellular Intelligence?
From biomarkers to biological actuators
From observation to intervention
From isolated pathways to integrated systems
Defining the next decade of vesicle science