ust imagine you have to find

a tumor cell in a milliliter of

blood. One stray cell among many

millions of healthy ones; one cell that

you have to recognize and isolate

so you can further investigate it.

Sure, there are tools out there to

help you. But now researchers are

developing a chip-sized detective that

may find the cells you’re looking for

faster and cheaper than ever before.

Moreover, this new diagnosis tool will

be much more compact than existing

tools, and much easier to use. The

secret: a smart combination of silicon

technology, lens-free microscopy, and

ultrasmall steam bubbles.

Scanning everything from

tumor cells to stem cells

The evolution in chip technology

has given us smartphones that far

outcompute the room-sized servers

of a few decades ago. In a few

seconds, e.g., anyone anywhere can

now take their smartphone, find out

who first detected the HIV virus,

and download the latest articles

on the subject. This thanks to the

enormous miniaturization of computer

processors, image sensors, memory

chips, wireless communication chips

and high-resolution screens, all

packed into an elegant and compact

‘box’, also known as your smartphone.

What would happen if we could also

apply this extreme miniaturization

of systems also on tools for medical

diagnosis? To make tools that would

allow any medical doctor to do

complicated tests on the fly, e.g.

screening blood cells in a patient’s

blood sample. Think of a cancer

specialist, who would immediately

be able to see if a patient has tumor

cells roaming in his blood, a potential

sign of metastatic cancer. Who would

check after a patient’s chemotherapy

if the number of tumor cells in the

blood has diminished and if the

treatment has to be continued or

modified. A tool also that would make

it possible to see if a patient’s blood

is contaminated by specific bacteria,

allowing to start a targeted treatment

immediately.

Such a high-throughput ‘cell sorter’

chip would not only lead to faster

diagnosis. It could also allow a very

fast way to isolate tumor cells in order

to sequence their DNA and start a

treatment based on the characteristics

of the specific tumor type. Or used

in stem cell therapy, it could be

deployed to check if a colony does not

contain any bad cells. In the process

of culturing cells, something may go

wrong, resulting in cells that may be

dangerous for patients.

So a compact, fast, and easy-to-

use cell sorter chip would open up

many possibilities for practitioners in

J

This chip can find the needle in a haystack

(and examine it)

Liesbet Lagae, Imec

30 l New-Tech Magazine Europe