Press Release

Startups Launching Innovative R&D on SpaceX CRS-20 to Improve Patient Care on Earth

By SpaceRef Editor
March 6, 2020
Filed under , , ,

What if the next breakthrough to improve patient care on Earth came from research off of Earth—in space? Three biotechnology startups are launching research to the International Space Station (ISS) U.S. National Laboratory, tackling a broad range of patient care objectives—from next-generation diagnostic tools to drug discovery and improved devices for drug delivery.
These three entrepreneurial projects, identified through the MassChallenge startup accelerator program, are launching on SpaceX’s upcoming 20th commercial resupply services mission to the space station, slated for liftoff no earlier than Friday, March 6 at 11:50 p.m. EST from Cape Canaveral Air Force Station in Florida. Over the years, Boeing and the ISS National Lab have partnered to fund more than 15 separate MassChallenge-identified startup concepts that could be advanced through the unique space-based environment of the orbiting laboratory.
On this mission, one startup is working on a portable device that can run diagnostic tests using a single drop of blood. Another is studying protein complexes to aid in drug development for metabolic disorders. The third is developing a new patch-like device that delivers medications such as insulin through the skin—reducing the need for multiple injections and improving patient quality of life.
Developing Portable Diagnostic Devices
Currently, most medical diagnostics are done at centralized labs and require bulky, expensive equipment. 1Drop Diagnostics is developing a portable, affordable, easy-to-use diagnostic device that can be used in any setting—which would save time and costs for patients and doctors and potentially enable medical diagnostics for patients in remote environments on Earth.
The device functions using specially designed microfluidic chips that can detect multiple biomarkers using a single drop of blood from a patient. The drop triggers a cascade of events driven by fluid flow through small channels in the chips. Onboard the ISS National Lab, microgravity-driven changes in fluid dynamics should allow the team to better illuminate aspects of fluid flow through microchannels to improve chip design and function.
Crystallizing Proteins for Drug Development
On the treatment end of the spectrum, Dover Lifesciences is trying to develop new protein-based drugs to treat metabolic disorders and obesity, which affects millions of people across the U.S.
Proteins in the human body play a central role in health and disease—and they can also be used as biological agents to treat disease. By using protein crystallization to understand the structure of proteins alone and in complex with other molecules, scientists can better design therapeutics to prevent and treat disease. In microgravity, protein crystals can grow larger and with fewer imperfections than on Earth, revealing more detailed protein structures.
The investigation from Dover Lifesciences will crystallize enzyme complexes involved in the storage of glucose (in the form of glycogen) in the liver and muscle, toward better drug design. Drugs capable of inhibiting the process that converts glucose to glycogen for storage could be used to treat obesity and several rare genetic disorders. Such drugs could also possibly be used jointly with chemotherapeutic agents to slow the rapid growth of cancer cells.
Improving a Novel Drug Delivery Patch
Also related to treatment, Cam Med Inc. is developing a small patch-like pump, the Evopump, that adheres to a patient’s skin and provides a precise, controlled, continuous infusion of drugs. This pump could one day replace the need for frequent injections involved in the treatment of conditions such as diabetes, which would substantially improve patient quality of life.
The Evopump utilizes electrolysis (a technique that uses electric current to drive a reaction) to generate bubbles on an electrode. These bubbles produce differences in pressure within the device that enable precise, controlled drug delivery. An improved understanding of bubble growth and evolution on the electrode could help Cam Med improve dosage control in the Evopump, and microgravity provides an altered environment to study the physics involved in this process.
Supporting Entrepreneurial Use of Station
These projects and many others from pioneering startups result from a partnership between the ISS National Lab, The Boeing Company, and the MassChallenge accelerator program. The ISS National Lab and Boeing partner on an annual “Technology in Space Prize” that supports entrepreneurs with ideas for leveraging science in space to improve their business models and Earth-based product development. Collectively, the ISS National Lab and Boeing have awarded more than $4.5 million in funding through the prize since its inception.
“By bringing the creative power of entrepreneurs with cutting-edge medical technologies to space, biomedical research in microgravity promises to unlock new pathways for understanding, preventing and treating human disease,” said ISS National Lab Interim Chief Scientist Michael Roberts.
To learn more about the Technology in Space Prize, which is currently open for 2020 applications, see the Upward feature “Attracting Entrepreneurs to Space: MassChallenge Grantees Move Early-Stage Innovations Forward.”

# # #

About the International Space Station (ISS) U.S. National Laboratory: In 2005, Congress designated the U.S. portion of the ISS as the nation’s newest national laboratory to optimize its use for improving quality of life on Earth, promoting collaboration among diverse users, and advancing science, technology, engineering, and mathematics (STEM) education. This unique laboratory environment is available for use by non-NASA U.S. government age

SpaceRef staff editor.