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U of T team hacking health care in a refugee camp

Photo of Alphonsus Ng running blood tests for lap on a chip
Researcher Alphonsus Ng running blood tests for measles and rubella on the Wheeler Lab's diagnostic platform called the MR Box at the Kakuma Refugee Camp (photo by Ryan Fobel)

They hadn鈥檛 even been at the refugee camp a whole day when the first of only two power adapters blew up.

Researchers Ryan Fobel, his brother Christian Fobel, Alphonsus Ng and Julian Lamanna had been feverishly working toward this day for months. They鈥檇 pulled all-nighters, designed, redesigned and debugged circuits, mixed reagents and buffers, put out literal fires, built their portable lab, taken it apart and built it again. They and their lab mates were still making changes the night before boarding the plane.

Now the four members of Chemistry Professor Aaron Wheeler鈥檚 research group 鈥 collectively dubbed the 鈥淎way Team鈥 鈥 were finally on the ground in a four-room hospital in Kakuma, a camp in remote northwestern Kenya. They were ready to test whether the group鈥檚 portable lab-on-a-chip could handle running 600 laboratory-quality tests for measles and rubella in less than three weeks.

Vaccine-preventable diseases, such as measles and rubella, have long been a threat in the developing world due to low vaccination rates 鈥 in 2014 measles killed 115,000 children, and rubella infection among pregnant women can cause fetal death or congenital defects. Diagnostic tests for both measles and rubella must be very sensitive and are therefore usually conducted in remote, centralized labs 鈥 not much help if you are a pregnant woman in a refugee camp.

The Away Team had no time or equipment to waste. They鈥檇 only brought two transformers, and one was now smoking in the corner of their makeshift lab 鈥 without the transformers, they couldn鈥檛 plug their 110-volt MR Boxes into the 220-volt sockets in Kenya.

鈥淚t made us nervous,鈥 says Ryan. 鈥淲e had a backup, but we weren鈥檛 expecting to need it on the first day.鈥

With no Plan B, the Away Team was forced to become true health-care hackers, testing the limits of what lab-based research can deliver in the field.


A research team from the Wheeler Lab worked at the Kakuma Refugee Camp in Kenya, running 600 tests for measles and rubella using its portable lab-on-a-chip technology (photo by Ryan Fobel)

A grand challenge

Wheeler doesn鈥檛 back away from the seemingly impossible. A professor in the University of Toronto鈥檚 department of chemistry and Institute for Biomaterials & Biomedical Engineering, he and his research group are international leaders in the field of microfluidics.

Wheeler and his lab are particularly known for their contributions to 鈥渄igital microfluidics,鈥 a technique used to move, split, recombine and mix miniscule droplets all on a tiny 鈥渃hip.鈥 The chip is made using some of the same methods for making computer chips. The droplets are controlled by applying electrical signals to different electrodes.

This lab-on-a-chip technology allows Wheeler and his students to shrink diagnostic tests that once required rooms full of laboratory equipment down to the size of a credit card.

In 2014, the Wheeler Lab landed a grant from Grand Challenges Canada, in addition to funding from the Natural Sciences and Engineering Research Council, to create the world鈥檚 first lab-quality field-deployable diagnostic test for measles and rubella viruses using only finger-prick amounts of blood and to test it in Kenya.

鈥淥ur aim was to build a generic instrument that you can recalibrate on the fly 鈥 a true lab on a chip,鈥 says Wheeler. 鈥淲e use a lot of the tools that makers and hackers are using: 3D-printed components, ink-jet printed electronics, all of our software and hardware is open source. We built in all this flexibility and we needed to validate it in an unpredictable environment.鈥

The Wheeler Lab dubbed its hackable diagnostic platform the MR Box, pronounced 鈥渕ister box,鈥 because it tests for measles and rubella, M and R.

To execute on this international deployment, the group teamed up with the Centers for Disease Control and Prevention (CDC) in Atlanta, and the International Rescue Committee (IRC), a non-governmental humanitarian organization delivering aid in Kakuma. Working with the CDC and IRC, the team made plans to take their MR Boxes to Kakuma at the same time as a massive public measles and rubella immunization campaign.

They set an ambitious schedule for themselves. They would test 75 children and 75 caregivers 鈥 mothers, community members, etc. 鈥 four times each, for a total of 600 individual tests in less than three weeks.

Screening for both diseases separately, they would first test the caregivers, who were expected to have been previously vaccinated and therefore have measles and rubella antibodies. In a second round of tests two weeks later, they would test the children that had been vaccinated since the antibodies produced in response to vaccination mimic an infectious response.

The study was designed to evaluate their tool鈥檚 capabilities for both monitoring the rate of vaccine coverage and for identifying disease outbreaks. This would leave them with two days to visit the Kenyan Medical Research Institute (KEMRI) national laboratory in Nairobi, the institution that would test their samples and validate their lab-on-a-chip technology 鈥 or not 鈥 before returning to Toronto.


Blood sample collection tubes representing about half of those collected during the study (photo by Ryan Fobel)

Clock is ticking

One week into the three-week field trial, the Away Team was waiting for the remaining samples. Even down to one transformer, all four MR Boxes had held up, and they had successfully run 300 tests on blood samples from the caregivers and children.

Now public health workers were starting to collect samples from the children after they鈥檇 been vaccinated, but these wouldn鈥檛 be available to test until the final two days of their testing window. To finish the remaining tests in just two days, they would need to have all four MR Boxes running 鈥 they couldn鈥檛 afford to have a single thing break.


Members of the "Away Team" at the Kakuma refugee camp (photo by Ryan Fobel)

It takes a village to test a village

While the Away Team was sweating in Kakuma, a tight-knit crew of at least nine post-doctoral fellows, graduate students and undergrads were back in Toronto, hustling to solve problems as they arose 鈥 early in the trip, they had to manufacture and ship a jug of their custom assay solution with a special UN flight after the Away Team鈥檚 container leaked on the way over. PhD candidate Darius Rackus was leading the crew. Over the course of improving their platform in preparation for Kenya, Rackus estimates that the group fabricated more than 1,000 chips themselves on campus.

鈥淭his is by far the biggest test of our system that we鈥檝e ever attempted,鈥 said Rackus. 鈥淎nd more than that, we鈥檝e got this motley crew of researchers out in the field with this health-care device we鈥檝e built from scratch. We鈥檙e really pushing what we can do as academics.鈥

Back in the field, it was time for the Away Team to push through the final 48 hours of testing 鈥 with half of their tests still to run. They needed to have all four MR Boxes hold up and run at full capacity in order to get through the remaining 300 tests.

Ryan鈥檚 mind casts back to the night before they boarded their flight to Kenya, when he and Christian had been frantically trying to redesign a circuit that kept going up in flames. They knew then that without having that circuit board working, the team could only run two machines at a time.

鈥淲e got to the very last component we were testing, and we said, 鈥業f it isn鈥檛 this thing, we don鈥檛 know what it is,鈥欌 said Christian.

They got the circuit working and three weeks later in Kakuma, their hustle was paying off. All four MR Boxes cooperated through that last 48 hours and the Away Team successfully ran the final 300 tests.

鈥淚f we hadn鈥檛 fixed it, I don鈥檛 think we would have finished,鈥 said Lamanna.


Christian Fobel (left) Alphonsus Ng and Julian Lamanna (right) running blood tests on MR Boxes (photo by Ryan Fobel)

Gold standard 

Exhausted but elated, the Away Team left the refugee camp and set out on the long and bumpy road back to Nairobi to deliver their samples to KEMRI.

Not only does KEMRI handle all diagnostics for Kenya, it鈥檚 also the destination for high-reliability tests from five neighbouring countries. Expecting a state-of-the-art robotic instrument capable of handling an extremely high volume of tests, the Away Team was shocked to find two people at a lab bench, processing tests by hand.

鈥淲e were very impressed with the quality of the staff, but to see how limited the resources are that they have to work with, knowing that all the surrounding countries are sending their samples there鈥t was sobering,鈥 said Christian.

The KEMRI lab currently processes approximately 2,400 samples in a year. The MR Box can handle the same number in a month. 鈥淲e realized that for around $1,000, our hacked-together platform could potentially improve this lab that鈥檚 serving half a continent,鈥 said Wheeler. 鈥淓ven a modest investment could make a big difference in this institutional setting.鈥


Dusk falls on the main gates to the health clinic in the Kakuma Refugee Camp in Kenya where a research team from the Wheeler Lab worked each day. The researchers ran 600 tests for measles and rubella using their portable lab-on-a-chip technology (photo by Ryan Fobel)

Force of will

鈥淚f you had told me four years ago that we were going to process two tests for two diseases for 150 people in the span of three weeks, I would have said it was impossible,鈥 said Wheeler. 鈥淭he only way to make this happen was to have this core group of 15 people, from young undergrads through post-docs, working together. This happened organically because this group wanted it to happen so badly.鈥

With all 600 tests now awaiting comparison against KEMRI鈥檚 results, the Wheeler Lab is reunited and working on the next challenge: introducing more automation into their platform.

鈥淲hat we really want is to make the instruments so robust that you can hand them off to locals, who can jump on a motorbike and ride miles into the bush and operate them by themselves off solar power,鈥 said Wheeler.

Don鈥檛 think they won鈥檛 do it.

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