The sponge expands and contracts in response to blood sugar levels to release insulin as needed. The technique could also be used for targeted drug delivery to cancer cells.
"We wanted to mimic the function of health beta-cells, which produce insulin and control its release in a healthy body," says Dr Zhen Gu, lead author of the study by North Carolina State University.
"But what we've found also holds promise for smart drug delivery targeting cancer or other diseases," said Gu.
The sponge-like matrix surrounds a reservoir that contains insulin. The entire matrix sphere is approximately 250 micrometres in diameter and can be injected into a patient.
When a diabetic patient's blood sugar rises, the glucose triggers a reaction that causes the nanocapsules' enzymes to release hydrogen ions.
Those ions bind to the molecular strands of the chitosan sponge, giving them a positive charge. The positively charged chitosan strands then push away from each other, creating larger gaps in the sponge's pores that allow the insulin to escape into the bloodstream.
While this work created hydrogen ions by using enzymes that are responsive to glucose, the technique could be simplified to target cancers by eliminating the enzymes altogether.
Tumours are acidic environments that have high concentrations of hydrogen ions. If the sponge reservoir were filled with anticancer drugs, the drugs would be released when the chitosan came into contact with the hydrogen ions in tumour tissues or cancer cells.
In tests using diabetic laboratory mice, the researchers found the sponge matrix was effective at reducing blood sugar for up to 48 hours.