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5/3 UPDATE: 5/3 11:48 PM PDT launch for Kidney on a Chip project to the International Space Station!

Updated May 3, 11:29 am Pacific: NASA has pushed back the launch to Friday, May 3 at 11:48 PM Pacific time…weather dependent.  

PHOTO DATE: July 06, 2018 LOCATION: Bldg. 2 Lobby SUBJECT: NIH Tissue Chip. PHOTOGRAPHER: Josh Valcarcel
Photo credit: Josh Valcarcel Photo: Josh Valcarcel

May 3 update:

Welp. It seemed like it was going to go and then about 15 minutes before launch, the flight was scrubbed. It’s rescheduled for tonight 11:48 PM Pacific Time. Here is an update on NASA’s blog.

May 2 update:

The International Space Station crew fixed the power problem and is ready to catch the SpaceX rocket. What we don’t know right now is if the weather with abide and allow for lift off at 12:11 am Pacific time. We will be live tweeting tonight with our fingers crossed. Follow here.

–End May 2 update

Want even more detail about the precautions being taken to ensure a successful mission? Get out your electrical engineering hat, and read more/view schematics here: “Electrical issue on Station delays Dragon launch

The launch date may be subject to change, again. We will continue to update this page as we get more news!

A kidneys-on-a-chip experiment is being readied at Cape Canaveral, Florida, to fly aboard a SpaceX Dragon C19/Falcon 9 supply shuttle to the International Space Station.  At an altitude of 250 miles, the chip technology will be used to study reduced gravity and other space flight conditions on kidney physiology.

The unmanned SpaceX mission CRS17, contracted with NASA, was slated for late April and is delayed until May 1. The launch date will not be official until after the Flight Readiness Review

Three other organs-on-chips will be on-board for studies of lung host defenses, the blood-brain barrier, and musculoskeletal diseases. Developed by research groups nationwide, the four projects are part of the Tissue Chips in Space program. This will be the second time that National Institute of Health tissue chips have been flown into space.  The first study was on aging and the immune system.

The National Center for Advancing Translational Sciences at the National Institutes of Health spawned the creation of these small, bioengineered tissue chips, which model the physiology of human organs on a living, 3-D microscale.  They have been developed to speed the search for new drugs and therapies and get these treatments to patients faster. Researchers use the tissue chip systems to study healthy and diseased states, and to test medications and other treatments.

Scientists at UW Medicine and the University of Washington School of Pharmacy, with collaborators in industry and other agencies, designed the kidney-on-a-chip component.

Pharmaceutics PhD student Kendan Jones-Isaac working on the Kidney on a Chip project in Ed Kelly's lab
Pharmaceutics PhD student Kendan Jones-Isaac working on the Kidney on a Chip project in Ed Kelly’s lab Photo: Alex Levine

Several of them are at Cape Canaveral now preparing the devices.

The credit-card size chips contain fluid microchambers lined with human-derived kidney cells. For this space mission, these chips will simulate one type of kidney tubule.

In actual kidneys, similar anatomical structures regulate absorption and release of substances in the blood, among them medications and toxins.  Vitamin D metabolism, important for bone strength, takes place in kidneys.  Kidneys also protect against fluid retention and other biochemical imbalances.

Aboard the International Space Station, where they will be exposed to microgravity for about two weeks, the organs-on-a-chip might reveal why kidney problems occur often and quickly among astronauts.

The chief scientists are Ed Kelly, associate professor of pharmaceutics, UW School of Pharmacy; Jonathan Himmelfarb, kidney disease specialist at UW Medicine and professor of medicine, Division of Nephrology, UW School of Medicine; and Cathy Yeung, research assistant professor of pharmacy.

They noted that this space study could provide insights into the development and overall health implications of kidney diseases on Earth, in less time than is possible with terrestrial research in humans.

The Tissue Chips in Space program findings may help protect astronaut health during longer space explorations.
The Tissue Chips in Space program findings may help protect astronaut health during longer space explorations. Photo: Alice Gray

Kidney disease occurs in about 10 percent of adults. Treatment can diminish quality of life. New tools, like the kidney chips, could help find ways to prevent or treat kidney problems in astronauts, as well as in people who will never venture into space.

“Certain conditions related to poor kidney health appear more rapidly in space and could have life-long consequences,” Himmelfarb said. These include protein in the urine, bone loss, and kidney stones.

“Aging of cells accelerates in space,” he added, indicating that organ-on-a-chip space research could uncover medical knowledge useful beyond a specific disease.

“We’ll be able to see in a matter of days what might take months on Earth,” the researchers said.

While microgravity alone might harm kidneys, the scientists also pointed out that astronauts are confined to a closed environment, are exposed to questionable chemicals, eat an unusual diet, and conserve and recycle water for drinking. Any of these could be rough on already vulnerable kidneys.

Research Assistant Professor Cathy Yeung (center) and the BioServe team work out how to pack an experiment for a space flight.
Research Assistant Professor Cathy Yeung (center) and the BioServe team work out how to pack an experiment for a space flight. Photo: Alex Levine

According to Kelly, the kidney-on-a-chip technology will evaluate how diminished gravity affects the ability of tubules, in both males and females, to conduct the basic work of kidneys.  He explained that kidney cells sense gravitational forces in ways that direct the cells to carry out their activities.

“Kidney tubules are polarized,” explained Yeung, “and have an inside and outside. We are curious to see if the cells still stay polarized without Earth’s gravity, and what effect this might have on kidney cell function and on disease progression.“

The cells’ shape, spatial orientation and response to fluid flow could be disrupted in space. This distortion could alter how the cells that line the tubules transport water, electrolytes, vitamins and toxins, and could make tubules prone to damage from proteins or other biochemicals.

The researchers plan to send 24 Nortis Triplex Chips to the International Space Station in temperature and carbon dioxide pump assemblies.

While intergalactic space missions are still a stargazer's dream, kidney studies in Earth's orbit will likely make better treatment a reality on our planet.
While intergalactic space missions are still a stargazer’s dream, kidney studies in Earth’s orbit will likely make better treatment a reality on our planet. Photo: Alice C. Gray

After berthing, these will be placed in incubators and later put in a Life Sciences Glovebox. At the end of the experiment, they will be preserved and cooled to await transport back to Earth.

“We had to shrink the size of our usual equipment to fit the tight quarters of the space station,” Himmelfarb said.  It was like shoehorning a refrigerator into a microwave oven, while maintaining proper environmental conditions for the experiment.

“We had to make some 270 modifications to fit the setting of the International Space Station,” the researchers explained.  Precautions were taken to keep the chips from shattering and creating a free-floating fragment hazard.

“On Earth, studies can be repeated. On the ISS, we have only one shot to get this experiment right. It will be a tense time for us,” Himmelfarb said.

The set up took into account the realities of working in orbit. The astronauts will perform experiments while wearing cumbersome gloves and space suits. Miniaturization and automation, however, should simplify their tasks – and provide new ideas for making such experiments easier to perform on Earth.

“One of the cool things about being at Cape Canaveral is that we can watch the astronauts do the experiments in real time,” Himmelfarb said.

Meanwhile, in normal gravity on Earth, a UW team will conduct the same protocols on kidney chip cells from the same donors, to obtain comparative, control data.

This summer, a second tissue chip launch to the ISS will test potential drug therapies for the biological changes observed during this mission.

Future research, led by UW bioengineering associate professor Deok-Ho Kim, will send hearts-on-chips to the International Space Station.  Those studies will look at the influence of extended periods in space on heart muscle contractions. Besides causing kidney changes, space flight reduces cardiovascular fitness.

The National Center for Advancing Translational Sciences at the National Institutes of Health and the International Space Station United States National Laboratory, are funding Tissue Chips in Space, in collaboration with the National Aeronautics and Space Administration.

Kim and Kelly are scientists at the UW Medicine Institute for Stem Cell and Regenerative Medicine Research. Kelly and Himmelfarb are investigators at the Kidney Research Institute, a collaboration of Northwest Kidney Centers and UW Medicine.

Kelly also admits he is a sci-fi space exploration nerd who has a Star Trek Next Generation Borg Cube in his office.

 

Learn more about the NIH’s NCATS Tissues in Space Program

https://ncats.nih.gov/research/research-activities/tissue-chip/projects/space

Additional information on the Space X cargo resupply mission flight 17 to the ISS, as well as  information on its live webcasts and YouTube viewings is available at its website, www.spacex.com

NASA astronaut Jack Fischer tweeted this photograph from the International Space Station on June 3, 2017
NASA astronaut Jack Fischer tweeted this photograph from the International Space Station on June 3, 2017. Photo: NASA

Read more about the Kidney on a Chip project

To study with researchers like Pharmaceutics’ Associate Professor Ed Kelly and Pharmacy’s Research Assistant Professor Cathy Yeung, click on the links for more information about our Graduate Programs in Medicinal Chemistry, Pharmaceutics, Pharmaceutical Outcomes Research and Policy, and Biomedical Regulatory Affairs.

Link to Pharmaceutics archived news