This week, Atelerix teamed up with Cherry Biotech to explore a simple but powerful question:
What if organoids could be delivered globally, ready to use, without relying on traditional cold chain logistics?
In our joint webinar, we discussed how advanced organoid platforms can be combined with Atelerix’s non-cryogenic hydrogel technology to enable reliable, extended-duration shipment at ambient temperature while maintaining performance, reproducibility and scientific integrity.
Rethinking Organoid Logistics
Cold chain transport has long been considered essential for complex biological models. However, it introduces cost, operational risk and logistical constraints that can slow research down.
During the session, we explored how ambient preservation strategies can:
Reduce reliance on dry ice and specialist shipping
Minimise delays and temperature excursion risk
Improve accessibility for international collaborators
Support scalable, ready-to-use workflows
The focus was clear. Accelerating time-to-data without compromising quality.
From Transport to Immediate Use
Cherry Biotech shared insights into their advanced organoid systems and how preserving them in a non-cryogenic format opens new possibilities for distribution. By maintaining structural integrity and functional performance during shipment, organoids can arrive ready for immediate integration into experimental workflows.
For researchers, that means less recovery time, fewer logistical bottlenecks and a more streamlined path from delivery to data generation.
The Bigger Picture
Ambient transport is not simply a logistical improvement. It represents a shift in how biological materials can move between labs, organisations and countries.
As organoid research continues to expand across drug discovery, disease modelling and personalised medicine, scalable and reliable distribution will become increasingly important.
Removing cold chain dependency is one practical step towards making advanced biological models more accessible worldwide.
If you missed the live session, you can watch the webinar on demand here: Webinar
Because breakthrough science should not be held back by logistics.
