What Is an Electronic Hydrogel Bandage

With the introduction of the ehealth services in Zimbabwe I can safely say we are very soon going to be out of the third world country zone. I would love to commend the Zimbabwe Ministry of Health and Child Care and the ITU International Telecommunications Union and POTRAZ for making strides in order to see that people get access to health services as quick as possible.

The introduction of e-health in Zimbabwe comes at a time when other countries are a gazillion miles from where we are health and technology related.

A team of MIT engineers have developed the smart bandage of the future, and it’s made of tech’s new favorite polymer: hydrogel. The flexible, soft material of the bandage can be enhanced with electronics and sensors to measure vital signs or administer medication, and since hydrogel is naturally stretchy, the smart bandage is perfect for knees and elbows, where regular old Band-Aids just don’t do the trick.

Are we at such a stage of hydrogel Band-Aids in Zimbabwe yet we are barely at any stage in the e-health era. Rather we are still in the pilot stage therefore this can be far-fetched however it can be of importance to just know what a hydrogel bandage is and how it can help us.

Xuanhe Zhao and his MIT team have successfully embedded the hydrogel polymer with conductive wires, semiconductor chips, LED lights, and temperature sensors. The team’s most promising combination of tech capabilities allows the bandage to administer medication when the wearer’s body temperature changes.
When the bandage’s sensors detect a significant change, tiny drug reservoirs and delivery pathways release medication directly to the person’s body. LED light panels embedded in the hydrogel can even be used to indicate when stores of drugs within the reservoirs are running low.

The hydrogel material itself is made of mostly water, combined with flexible biopolymers that keep the bandage flexible and soft. While maintaining this pliability, the hydrogel still forms a strong bond with surfaces as varied as human skin, titanium, silicon, glass and ceramic.

The flexibility of the hydrogel enables the smart bandage to last longer, all while protecting the integrity of the bandage’s technological components. Electronic wires and heat sensors embedded in the bandage were able to withstand repeated stretching during lab testing.

Beyond the skin-level smart bandage, Zhao’s technology could also be used for internal medical applications. Implanted glucose sensors and neural probes are often rejected by the body as foreign objects, but this kind of internal monitoring would be easier than ever if electronic components were embedded in a hydrogel that mimics local human tissues.

Embedding time-release medication reservoirs, heat sensors, and wires in smart implantable hydrogels would be a powerful tool for the field of medicine.

Leave a Reply

%d bloggers like this: