Student startups pitch out-of-this-world tech at Houston competition

space tank

Seven student-founded startups pitched their business plans at an annual NASA event. Photo via NASA.gov

Several groups of students from all over the United States tapped into technology developed by NASA to create business plans. The teams competed in Houston last week for thousands of dollars, and one team went home with the win.

NASA’s Minority University Research and Education Project, or MUREP, hosted its annual "Space Tank" pitch event, MUREP Innovation and Technology Tech Transfer Idea Competition, or MITTIC, last week at Space Center Houston. Seven teams from across the country — including three Texas teams — pitched business plans based on NASA-originated technology.

“Students and faculty members of MITTIC are notably engaging with our agency, but they are helping to fulfill our mission to make the earth a better, safer place creating products and services that will shape the future," says Donna Shafer, associate director at Johnson Space Center.

All seven teams — each led by a minority student — went home with at least $5,000 as a prize for making it to the finals, but one team from the University of Massachusetts at Boston took home first place and a $10,000 prize. The winning team is also invited to join Team Piezo Pace from the University of St. Thomas, Houston, in a visit to NASA’s Ames Research Center in Silicon Valley, California, for additional look in the innovation and entrepreneurial space.

The judges for the event included: Hope Shimabuku, director of the U.S. Patent and Trademark Office for the Texas Region; Megan Ortiz, project manager at NASA; Lawrence Cosby, vice president of IP strategy at JPMorgan Chase & Co; Terik Tidwell, director of inclusive innovation at VentureWell; Jorge Valdes, program advisor on STEM education and intellectual property at the United States Patent and Trademark Office; Walt Ugalde, economic development executive at NASA; and Laura Barron, autonomous systems technology deputy project manager at NASA.

The seven finalist teams — and the technology they are working on — are as follows:

  • Lone Star College - CyFair’s team Aquarius Solutions, which pitched its water purification product, ClearFlow, based off an ammonia removal system developed at NASA
  • Fayetteville State University in North Carolina’s ASAPA team pitched their Autonomous Solar Array Assembly drone technology that’s based on NASA’s Print-assisted Photovoltaic Assembly system for automated printing of solar panels.
  • University of Houston-Clear Lake’s team AstroNOTS has identified a technology to address the safety of wildfire rescue teams. The PyroCap is a emergence fire shelter based on NASA’s Lightweight Flexible Thermal Protection System.
  • Santa Monica College in California’s team, BREATHE, pitched a noninvasive technology to replace traditional mammograms. The device can analyze breath through a NASA-designed sensor.
  • University of Massachusetts-Boston’s winning team, LazerSense Solutions, is working on a technology for smoke and gas detection. The PartaSense device can detect everything from carbon monoxide to black mold. It’s based on NASA’s MPASS IP.
  • Hartnell College in California’s team PanterBotics is working on an zero-emission electric vehicle, the OmniZero, to address climate change. The technology, a modular robotic vehicle, originated at NASA.
  • University of Texas at Austin’s Longhorn Innovators, who pitched a thinking cap technology to increase and enhance focus. The wearable device is based on NASA technology ZONE, or Zeroing Out Negative Effects, an analysis from EEG sensors.

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Rice University lands $18M to revolutionize lymphatic disease detection

fresh funding

An arm of the U.S. Department of Health and Human Services has awarded $18 million to scientists at Rice University for research that has the potential to revolutionize how lymphatic diseases are detected and help increase survivability.

The lymphatic system is the network of vessels all over the body that help eliminate waste, absorb fat and maintain fluid balance. Diseases in this system are often difficult to detect early due to the small size of the vessels and the invasiveness of biopsy testing. Though survival rates of lymph disease have skyrocketed in the United States over the last five years, it still claims around 200,000 people in the country annually.

Early detection of complex lymphatic anomalies (CLAs) and lymphedema is essential in increasing successful treatment rates. That’s where Rice University’s SynthX Center, directed by Han Xiao and Lei Li, an assistant professor of electrical and computer engineering, comes in.

Aided by researchers from Texas Children’s Hospital, Baylor College of Medicine, the University of Texas at Dallas and the University of Texas Southwestern Medical Center, the center is pioneering two technologies: the Visual Imaging System for Tracing and Analyzing Lymphatics with Photoacoustics (VISTA-LYMPH) and Digital Plasmonic Nanobubble Detection for Protein (DIAMOND-P).

Simply put, VISTA-LYMPH uses photoacoustic tomography (PAT), a combination of light and sound, to more accurately map the tiny vessels of the lymphatic system. The process is more effective than diagnostic tools that use only light or sound, independent of one another. The research award is through the Advanced Research Projects Agency for Health (ARPA-H) Lymphatic Imaging, Genomics and pHenotyping Technologies (LIGHT) program, part of the U.S. HHS, which saw the potential of VISTA-LYMPH in animal tests that produced finely detailed diagnostic maps.

“Thanks to ARPA-H’s award, we will build the most advanced PAT system to image the body’s lymphatic network with unprecedented resolution and speed, enabling earlier and more accurate diagnosis,” Li said in a news release.

Meanwhile, DIAMOND-P could replace the older, less exact immunoassay. It uses laser-heated vapors of plasmonic nanoparticles to detect viruses without having to separate or amplify, and at room temperature, greatly simplifying the process. This is an important part of greater diagnosis because even with VISTA-LYMPH’s greater imaging accuracy, many lymphatic diseases still do not appear. Detecting biological markers is still necessary.

According to Rice, the efforts will help address lymphatic disorders, including Gorham-Stout disease, kaposiform lymphangiomatosis and generalized lymphatic anomaly. They also could help manage conditions associated with lymphatic dysfunction, including cancer metastasis, cardiovascular disease and neurodegeneration.

“By validating VISTA-LYMPH and DIAMOND-P in both preclinical and clinical settings, the team aims to establish a comprehensive diagnostic pipeline for lymphatic diseases and potentially beyond,” Xiao added in the release.

The ARPA-H award funds the project for up to five years.

Houston doctor wins NIH grant to test virtual reality for ICU delirium

Virtual healing

Think of it like a reverse version of The Matrix. A person wakes up in a hospital bed and gets plugged into a virtual reality game world in order to heal.

While it may sound far-fetched, Dr. Hina Faisal, a Houston Methodist critical care specialist in the Department of Surgery, was recently awarded a $242,000 grant from the National Institute of Health to test the effects of VR games on patients coming out of major surgery in the intensive care unit (ICU).

The five-year study will focus on older patients using mental stimulation techniques to reduce incidences of delirium. The award comes courtesy of the National Institute on Aging K76 Paul B. Beeson Emerging Leaders Career Development Award in Aging.

“As the population of older adults continues to grow, the need for effective, scalable interventions to prevent postoperative complications like delirium is more important than ever,” Faisal said in a news release.

ICU delirium is a serious condition that can lead to major complications and even death. Roughly 87 percent of patients who undergo major surgery involving intubation will experience some form of delirium coming out of anesthesia. Causes can range from infection to drug reactions. While many cases are mild, prolonged ICU delirium may prevent a patient from following medical advice or even cause them to hurt themselves.

Using VR games to treat delirium is a rapidly emerging and exciting branch of medicine. Studies show that VR games can help promote mental activity, memory and cognitive function. However, the full benefits are currently unknown as studies have been hampered by small patient populations.

Faisal believes that half of all ICU delirium cases are preventable through VR treatment. Currently, a general lack of knowledge and resources has been holding back the advancement of the treatment.

Hopefully, the work of Faisal in one of the busiest medical cities in the world can alleviate that problem as she spends the next half-decade plugging patients into games to aid in their healing.

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