- The company will test how well Tetranite works to regenerate bone in microgravity.
- The Houston Methodist Research Institute will test an implantable drug delivery device that can be operated remotely to enable the controlled distribution of therapeutics inside the human body. If successful, the device could allow doctors to remotely control drug delivery in patients in remote areas of Earth, or even in astronauts during spaceflight.
- The University of Florida is launching its latest project in a series of tissue chip investigations funded by the National Institutes of Health. Tissue chips mimic human physiology, allowing researchers to evaluate the safety and efficacy of drugs for patients on Earth. This team seeks to develop a tissue chip system to culture and electrically stimulate human skeletal muscles from young and older adults. If effective, this project could lead to therapeutics to treat age-related muscle loss conditions on Earth.
- The Student Spaceflight Experiments Program, a yearly competition for middle and high school-aged students, will send more than 20 student-led investigations to station. Among them are a fleet of MixStix experiments in the areas of crystal growth, plant biology, physics, and microbial research. Additionally, payloads supported by the Girl Scouts of America and Space Kids Global will look at brine shrimp, ants, and plant growth in low Earth orbit.
Provided by International Space Station U.S. National Laboratory