What is the new nanoinjection platform developed by IIT Madras researchers?

It's a drug delivery system using nanoarchaeosomes and silicon nanotubes to precisely deliver anti-cancer drugs directly into breast cancer cells.

How effective is the IIT Madras nanoinjection for breast cancer?

It showed 23 times higher potency than free doxorubicin, significantly reducing drug dosage and minimizing damage to healthy cells.

When can patients expect this new breast cancer technology?

Researchers expect the patented drug delivery technology to translate to clinical use within the next five years.

Home / Health / New Nanoinjection Fights Breast Cancer Smarter

New Nanoinjection Fights Breast Cancer Smarter

23 Dec

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Summary

A nanoinjection platform precisely targets breast cancer cells.
It uses 23 times less drug than traditional methods.
The technology is biocompatible and non-toxic silicon nanotubes.

New Nanoinjection Fights Breast Cancer Smarter

Scientists have developed a groundbreaking nanoinjection drug delivery platform aimed at revolutionizing breast cancer treatment. This innovative system, created by researchers from IIT Madras, Monash University, and Deakin University, precisely targets cancerous cells, thereby minimizing harm to healthy tissues. The platform encapsulates anti-cancer drugs within nanoarchaeosomes and delivers them via silicon nanotubes.

Experimental results have shown remarkable efficacy, with the nanoinjection platform exhibiting 23 times lower inhibitory concentration compared to free doxorubicin. This suggests a potential for significantly higher potency at much lower doses, which could lead to reduced treatment costs and fewer adverse side effects for patients. The use of silicon nanotubes ensures the platform is inherently biocompatible and non-toxic.

This advancement holds particular promise for low- and middle-income countries where access to advanced cancer therapies is often limited by cost. Researchers anticipate the patented technology could see translation within the next five years, with ongoing work focused on in vivo validation and its effectiveness against different cancer types.