who's who

3 Houston innovators to know this week

This week's roundup of Houston innovators includes Armand Paradis of ComboCurve, Matthew Nojoomi of Ictero Medical, and Ryan McCord of McCord Development. Courtesy photos

Editor's note: In this week's roundup of Houston innovators to know, I'm introducing you to three local innovators across industries — from health tech to energy software — recently making headlines in Houston innovation.

Armand Paradis, co-founder of ComboCurve

Armand Paradis joins the Houston Innovators Podcast to discuss how his energy software business is scaling rapidly. Photo courtesy

Houston-based ComboCurve is growing rapidly. The energy software company has raised over $60 million in venture capital investment — $50 million of which was closed in the company’s series B round earlier this year. Since the original product launched in May of 2020, CEO and Co-Founder Armand Paradis says the platform has almost 200 companies on it.

“We built something that resonated with the market — and we were super passionate about the product and taking care of our industry,” Paradis says on the Houston Innovators Podcast. “We don’t want to be the best in oil and gas. We want to be the best software company."Click here to read more.

Matthew Nojoomi, CEO and co-founder of Ictero Medical

This innovative medical device company has closed $6 million for further product development and clinical trials. Image via TMC.edu

Houston-based medical device company Ictero Medical closed its oversubscribed series A at $6 million. The funding round was led by MedTex Ventures, S3 Ventures, and an undisclosed strategic investor. The company's novel cryoablation system was designed to treat high-risk gallstone disease patients and provide a less invasive and lower risk alternative to gallbladder removal surgery — something over 1 million Americans undergo annually.

“Our technology provides an immediate solution for critically ill patients who currently have no good treatment options, and also has the potential to benefit healthier patients who want to avoid surgery,” says Ictero Co-Founder and CEO Matthew Nojoomi in the release. Click here to read more.

Ryan McCord, president of McCord Development

Houston real estate expert shares why he thinks the city is prime for smart city tech and implementation. Photo courtesy

Houston has every tool in its toolkit to be able to emerge as a smart city leader. In a guest column for InnovationMap, Ryan McCord of McCord Development explains the momentum the city already has and the existing smart city opportunities already in town.

"Houston’s diversity, business-friendly environment, and workforce make it a prime candidate to become a smart city. Becoming smarter in our transportation, public safety, sustainability practices, and infrastructure will create a better future for Houstonians." Click here to read more.

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Building Houston

 
 

The ISS houses hundreds of research projects — and the astronauts aboard just got a handful more. Image via NASA.gov

For the 26th time, SpaceX has sent up supplies to the International Space Station, facilitating several new research projects that will bring valuable information to the future of space.

On Saturday at 1:20 pm, the SpaceX Dragon spacecraft launched on the Falcon 9 rocket from NASA’s Kennedy Space Center in Florida — bringing with it more than 7,700 pounds of science experiments, crew supplies, and other cargo. The anticipated docking time is Sunday morning, and the cargo spacecraft will remain aboard the ISS for 45 days, according to a news release from NASA.

Among the supplies delivered to the seven international astronauts residing on the ISS are six research experiments — from health tech to vegetation. Here's a glimpse of the new projects sent up to the scientists in orbit:

Moon Microscope

Image via NASA.gov

Seeing as astronauts are 254 miles away from a hospital on Earth — and astronauts on the moon would be almost 1,000 times further — the need for health technology in space is top of mind for researchers. One new device, the Moon Microscope, has just been sent up to provide in-flight medical diagnosis. The device includes a portable hand-held microscope and a small self-contained blood sample staining tool, which can communicate information to Earth for diagnosis.

"The kit could provide diagnostic capabilities for crew members in space or on the surface of the Moon or Mars," reads a news release. "The hardware also may provide a variety of other capabilities, such as testing water, food, and surfaces for contamination and imaging lunar surface samples."

Fresh produce production

Salads simply aren't on the ISS menu, but fresh technology might be changing that. Researchers have been testing a plant growth unit on station known as Veggie, which has successfully grown a variety of leafy greens, and the latest addition is Veg-05 — focused on growing dwarf tomatoes.

Expanded solar panels

Thanks to SpaceX's 22nd commercial resupply mission in 2021, the ISS installed Roll-Out Solar Arrays. Headed to the ISS is the second of three packages to complete the panels that will increase power for the station by 20 to 30 percent. This technology was first tested in space in 2017 and is a key ingredient in future ISS and lunar development.

Construction innovation

Image via NASA.gov

Due to the difference of gravity — and lack thereof — astronauts have had to rethink constructing structures in space. Through a process called extrusion, liquid resin is used to create shapes and forms that cannot be created on Earth. Photocurable resin, which uses light to harden the material into its final form, is injected into pre-made flexible forms and a camera captures footage of the process, per the news release.

"The capability for using these forms could enable in-space construction of structures such as space stations, solar arrays, and equipment," reads the release. "The experiment is packed inside a Nanoracks Black Box with several other experiments from the Massachusetts Institute of Technology Media Lab and is sponsored by the ISS National Lab."

Transition goggles

It's a bizarre transition to go from one gravity field to another — and one that can affect spatial orientation, head-eye and hand-eye coordination, balance, and locomotion, and cause some crew members to experience space motion sickness, according to the release.

"The Falcon Goggles hardware captures high-speed video of a subject’s eyes, providing precise data on ocular alignment and balance," reads the release.

On-demand nutrients

Image via NASA.gov

NASA is already thinking about long-term space missions, and vitamins, nutrients, and pharmaceuticals have limited shelf-life. The latest installment in the five-year BioNutrients program is BioNutrients-2 , which tests a system for producing key nutrients from yogurt, a fermented milk product known as kefir, and a yeast-based beverage, per the release.

"The researchers also are working to find efficient ways to use local resources to make bulk products such as plastics, construction binders, and feedstock chemicals. Such technologies are designed to reduce launch costs and increase self-sufficiency, extending the horizons of human exploration," reads the release.

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