Can You Extend a Life Past Six Seconds? - Pulkit Kumar

University of Alberta
2025
diabetes
type 1 diabetes
islet transplantation
Edmonton Protocol
microparticles
drug delivery
immune protection
cell survival
biotechnology
biomedical engineering
autoimmune disease
insulin
transplant innovation
healthcare costs
regenerative medicine
nanotechnology
diabetes treatment
medical research
chronic illness
bioengineering
Alberta

Type 1 diabetes destroys insulin-producing cells, leaving patients dependent on lifelong injections. Islet transplants could provide freedom, but most cells die quickly. This research uses drug-loaded microparticles that protect transplanted islets, boosting survival, insulin production, and diabetes reversal. The approach could cut costs, reduce donor needs, and transform treatment for multiple diseases.

Development and Production of a Stable Encapsulin-Based mRNA Vaccine - Ferdinando Sereno

2024
mRNA vaccines
vaccine stability
encapsulins
protein nanocages
drug delivery
global health
biotechnology
extreme environments
cold-chain limitations
biomedical engineering
vaccine design
infectious disease
pandemic preparedness
molecular biology
public health

This research aims to solve the major weakness of mRNA vaccines—the need for constant cold storage—by packaging them inside ultra-stable protein “boxes” called encapsulins. These naturally robust containers protect mRNA in extreme environments. A working prototype now exists, offering the potential for globally distributable, freezer-free vaccines that remain effective anywhere.

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