Microbots in your blood could help destroy cancer 

Shape-shifting, magnetic microbots could become assassins for cancer — destroying tumors without the usual collateral damage on the rest of the body.

This article is an installment of The Future Explored, a weekly guide to world-changing technology. You can get stories like this one straight to your inbox every Thursday morning by subscribing here.

A school of fish-y microbots could one day swim through your veins and deliver medicine to precise locations in your body — and cancer patients may be the first people to benefit from this revolution in nanotechnology. 

How it works: Scientists recently printed teeny tiny microbots in the shape of different animals, like fish, crabs, and even butterflies. But the coolest thing with these bots is that they don’t stay in one shape — they can morph into different shapes because they are 4D-printed. 

4D printing works the same as 3D printing, the only difference is that the printing material allows the object to change shape based on environmental factors. 

In this case, the bots’ hydrogel material allows them to morph into different shapes when they encounter a change in pH levels — and cancer cells, as it happens, are usually more acidic than normal cells.

The microrobots were then placed in an iron oxide solution, to give them a magnetic charge.

This combination of shape-shifting and magnetism means the bots could become assassins for cancer — destroying tumors without the usual collateral damage on the rest of the body.

The results: The researchers placed the bots in a petri dish with artificial blood vessels. They used magnets to steer the bots through the blood vessels toward a part of the solution that was higher in acidity (mimicking cancer cells).

When the microbot “fish” came upon the cancer cells, they opened their mouths and released cancer drugs precisely on target, killing the cells. 

And the other design — micro-crabs — didn’t disappoint, either. When they came upon the cancer cells, they released the cancer drugs that had been clasped in their micro-claws.

Why it matters: Right now, we don’t have many good ways to deliver medication only to the part of the body that needs it. 

For example, chemotherapy is often our best approach to cancer, but it has a major drawback: it’s like carpet bombing a city, when what’s really needed is a sniper to take out the bad guys. 

In its quest to kill the unhealthy cells, chemotherapy often kills the healthy ones, too, which can be really dangerous to cancer patients. Treatment sometimes has to be interrupted to give patients a break, allowing the cancer to grow again.

While scientists have developed numerous microrobots before to attempt to solve this problem, most can’t change shapes to complete a complex task, like releasing drugs, or can’t be remotely guided.

These microbots would allow for that to happen. Theoretically, these bots could be inserted into our bloodstream in a very minimally invasive manner and be guided to the tumor via an external magnet. 

Next steps: This is just a proof of concept right now — petri dishes aren’t live animals, let alone humans. 

But there’s more engineering work to do even before we get to animal or human studies. If these microbots are going to become a usable treatment, they’ll need to be made even smaller. And, according to New Atlas, we still need to develop a tracking system for the little bots — we wouldn’t want to lose them in the body!

We’d love to hear from you! If you have a comment about this article or if you have a tip for a future Freethink story, please email us at tips@freethink.com.

Related
How intestinal viruses could help you live to be 100
People who live past age 100 have a greater diversity of bacteriophages (that is, viruses that infect bacteria) in their intestines.
Model human embryo, created from stem cells, survives past two weeks
A model human embryo capable of developing past day 14 could revolutionize our understanding of human development.
New “AI doctor” predicts risk of death with 85% accuracy
A new AI was able to make accurate predictions about patients’ risk of death, readmittance, and more by analyzing medical notes.
Have we got the brain all wrong? Study shows its shape is more important than its wiring
Neural activity may be more influenced by the shape of the brain – its grooves, contours, and folds – than by its complex interconnections.
Visiting space likely won’t cause permanent brain damage, says NASA study
Spending months in space has a major impact on astronauts’ brains, but three years back on Earth appears to reverse the change.
Up Next
Subscribe to Freethink for more great stories