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Can hydrogels help mend a broken heart?

“Cancer is a diverse disease and two patients with the same type of cancer will often respond to the same treatment in very different ways,” Prince said. “Tumour organoids are essentially a miniaturized version of an individual patient’s tumour that can be used for drug testing, which could allow researchers to develop personalized therapies for a specific patient.”

As director of the Prince Polymer Materials Lab, Prince designs synthetic biomimetic hydrogels for biomedical applications. The hydrogels have a nanofibrous architecture with large pores for nutrient and waste transport, which affect mechanical properties and cell interaction.

Prince, a professor in Waterloo’s Department of Chemical Engineering, utilized these human-tissue mimetic hydrogels to promote the growth of small-scale tumour replicas derived from donated tumour tissue.

She aims to test the effectiveness of cancer treatments on the mini-tumour organoids before administering the treatment to patients, potentially allowing for personalized cancer therapies. This research was conducted alongside Professor David Cescon at the Princess Margaret Cancer Center.

Prince’s research group at Waterloo is developing similar biomimetic hydrogels to be injectable for drug delivery and regenerative medical applications as Waterloo researchers continue to lead health innovation in Canada.

Her research aims to use injected filamentous hydrogel material to regrow heart tissue damaged after a heart attack. She used nanofibers as a scaffolding for the regrowth and healing of damaged heart tissue.

“We are building on the work that I started during my PhD to design human-tissue mimetic hydrogels that can be injected into the human body to deliver therapeutics and repair the damage caused to the heart when a patient suffers a heart attack,” Prince said.

Prince’s research is unique as most gels currently used in tissue engineering or 3D cell culture don’t possess this nanofibrous architecture. Prince’s group uses nanoparticles and polymers as building blocks for materials and develops chemistry for nanostructures that accurately mimic human tissues.

The next step in Prince’s research is to use conductive nanoparticles to make electrically conductive nanofibrous gels that can be used to heal heart and skeletal muscle tissue.

The research was recently published in the journal Proceedings of the National Academy of Sciences.

As with anything you read on the internet, this article should not be construed as medical advice; please talk to your doctor or primary care provider before changing your wellness routine. This article is not intended to provide a medical diagnosis, recommendation, treatment, or endorsement. These statements have not been evaluated by the Food and Drug Administration. 

Content may be edited for style and length.

References/Sources/Materials provided by:

This article was written at the University of Waterloo

https://uwaterloo.ca/news/media/can-hydrogels-help-mend-broken-heart

https://uwaterloo.ca/

http://dx.doi.org/10.1073/pnas.2220755120

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