These are the 16 Houston startups coming out of UH's RED Labs and Rice's OwlSpark

Best in class

CALI, a wearable physical therapy device for those with vertigo, pitched at the annual event. Photo via getcalibalance.com

For the sixth year, the University of Houston and Rice University have joined forces to give their student entrepreneurs a program to thrive in. RED Labs and OwlSpark, the two universities' accelerator programs, just concluded their seventh class with a presentation from the companies.

Over the past 12 weeks, these 16 startups and their teams of entrepreneurs have worked on their company, developing it, learning how to fundraise for it, and engaging with all sorts of other valuable resources and mentors through the program.

"With an emphasis on experimentation and rapid iteration, we teach disciplined startup strategies that help (students) have an eye for reducing risks and increasing odds," says Kerri Smith, managing director of OwlSpark.

This summer's cohort was hosted out of Station Houston this year, but the two universities have worked together since year two of each of their programs.

"We're very proud of our partnership, because in most other cities, two universities like this would probably be rivals, but we're interested in camaraderie and collaboration in this cohort because they are the future generation of entrepreneurs of Houston," says Kelly McCormick, director of RED Labs. "We really think that this sets an example of how working together produces better results than working against each other."

Adren

While the invention of the EpiPen and other compact anaphylaxis solutions have saved lives, the products are still too large to be constantly available to those who need it. Adren's co-founders created a collapsible autoinjector that can be work as a wristband.

"A functioning drug is only one piece of the puzzle," says Jacob, co-founder of Adren. (He didn't state his last name.) "Medication is only effective if it is accessible to the patient."

The company plans to continue on and patent their product with hopes to enter the marketplace by the next few years.

CookLab

Anyone can find a recipe for anything with the tap of a few keys and the click of of few buttons, but once you add in dietary restrictions, things get tricky. Not to mention the fact that so many healthy recipes aren't even that good for you.

The team at CookLab wants to eliminate this unregulated and confusing corner of the internet. CookLab's first product is a web tool that can determine whether or not a recipe is healthy by the user dropping in the URL. This product is in beta right now.

Down the road, CookLab wants to create a tool for users to be able to submit a recipe they want to make, then have CookLab generate a modified version that follows any dietary needs.

INSU

In a state of emergency where electricity is out, the diabetic population is forced to gamble with their lives when it comes to keeping their insulin insulated and cool.

INSU has a solution. The startup has created a battery operated cooler that can keep insulin from spoiling for 30 days. The battery can be charged by wall outlet or even solar panel.

The company plans to market directly to consumers as well as make strategic partnerships with emergency and health organizations.

auggie

Merchandise lines at concerts are quite possibly the single-most buzzkill of any show. In the age of UberEats and order-ahead apps, auggie sees a solution.

While you're at a show, you can easily order your favorite merch items on the app and choose to have it set aside for pickup that day or even get it mailed to you. The app is live on some downloading stores.

LilySpec

The speculum OB/GYNs use on their patients hasn't changed in 150 years, and, while effective, can be uncomfortable to patients during use. But this doesn't have to be the case.

LilySpec is a speculum designed with the patient in mind. The device is silently deployed, silicon coated for comfort, and adjustable for all women.

The LilySpec team will finish its clinical product this year, and the company's medical partners here in Texas will be able to use it on patients.

Myze

How do you staff a team for an unpredictable job? Emergency rooms face this challenge every single shift. Too many staffers makes the establishment bleed money, while too few causes burnout and even sacrifices quality of care.

Myze is developing a software platform that can use artificial intelligence and predictive analytics to help ERs better staff their teams.

CALI

Those suffering from Vertigo feel like the whole world has turned upside down. CALI is a device that helps those people turn it right back around.

The wearable device allows for users to do balance exercises and claim back control of their own situation.

DASH Innovations

For those relying on a catheter, changing it out requires 150 monthly procedures on average. Each one is another opportunity for infection.

DASH Innovations has created UrinControl, a urethral valve for pediatric patients that can be installed once a month and operated with a remote to control the bladder.

Get-A-Grip

Holding onto a cup is something most everyone takes for granted. For arthritis or muscle damage patients, it's a daunting daily task.

Get-A-Grip is designed to distribute the weight of the cup along the grip and make it easier and more comfortable to hold. While originally designed with these patients in mind, the grip comes in four sizes, with the smallest being perfect for babies grabbing at bottles or small children holding cups.

Everest Security

Preparing for and preventing phishing email-originated data breaches is the new normal for companies, but it's impossible to prevent employees from accidentally opening suspicious emails without thinking.

While there are plenty software protection companies out there, Everest Security couples their software solution with education, a core component for the company.

KickedOC

There are 2 million homes supposedly dedicated for off-campus housing for students, but no one-stop shop to find them. KickedOC is attempting to be that one-stop shop and make it easier for students to find their semester homes.

With listings already up in Houston, the startup hopes to expand its platform to College Station and other Texas college towns next.

Mismo Minds

Creating a creative team can be difficult if you don't have the connections already. Mismo Minds is a platform for artists, videographers, directors, etc. to join forces with others who share their creative vision. It's a social networking tool, project management platform, and job board all rolled into one.

Sports Betz

Typically for sports betting, you have two options: Impersonal bets with large pools or friendly wagers that might not ever pay off. Sports Betz is a platform where the competitive gamblers can casually bet with friends and family — but the money is pulled up front.

CIND

Chivalry is not dead, argues CIND, a new dating app. The app allows for potential matches to introduce themselves with a gift — which range from $2 to $100. Though, the recipient doesn't just walk away with the cash. The money actually goes to the recipient's nonprofit of choice. Only after the donation is made can matches start chatting.

CIND (pronounced like "Cindy") is basically digital donation dating, and everyone wins.

PCATCopycat

The Pharmacy College Admission Test isn't easy — and preparation isn't cheap.

PCATCopycat puts the power back into the hands of students. The online course is only $200 — way cheaper and easier for future pharmacists to navigate.

Second Act

Second Act is the startup that isn't. The non-company started the program with the idea of matching retirees with short-term work at various startups with the thought being that they have a lot of experience and a lot of time on their hands. While a great idea in theory, Second Act hit some walls and the company and idea are no more. The team, however, has a bright future in Houston innovation at other startups and companies.

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Houston wearable biosensing company closes $13M pre-IPO round

fresh funding

Wellysis, a Seoul, South Korea-headquartered wearable biosensing company with its U.S. subsidiary based in Houston, has closed a $13.5 million pre-IPO funding round and plans to expand its Texas operations.

The round was led by Korea Investment Partners, Kyobo Life Insurance, Kyobo Securities, Kolon Investment and a co-general partner fund backed by SBI Investment and Samsung Securities, according to a news release.

Wellysis reports that the latest round brings its total capital raised to about $30 million. The company is working toward a Korea Securities Dealers Automated Quotations listing in Q4 2026 or Q1 2027.

Wellysis is known for its continuous ECG/EKG monitor with AI reporting. Its lightweight and waterproof S-Patch cardiac monitor is designed for extended testing periods of up to 14 days on a single battery charge.

The company says that the funding will go toward commercializing the next generation of the S-Patch, known as the S-Patch MX, which will be able to capture more than 30 biometric signals, including ECG, temperature and body composition.

Wellysis also reports that it will use the funding to expand its Houston-based operations, specifically in its commercial, clinical and customer success teams.

Additionally, the company plans to accelerate the product development of two other biometric products:

  • CardioAI, an AI-powered diagnostic software platform designed to support clinical interpretation, workflow efficiency and scalable cardiac analysis
  • BioArmour, a non-medical biometric monitoring solution for the sports, public safety and defense sectors

“This pre-IPO round validates both our technology and our readiness to scale globally,” Young Juhn, CEO of Wellysis, said in the release. “With FDA-cleared solutions, expanding U.S. operations, and a strong AI roadmap, Wellysis is positioned to redefine how cardiac data is captured, interpreted, and acted upon across healthcare systems worldwide.”

Wellysis was founded in 2019 as a spinoff of Samsung. Its S-Patch runs off of a Samsung Smart Health Processor. The company's U.S. subsidiary, Wellysis USA Inc., was established in Houston in 2023 and was a resident of JLABS@TMC.

Elon Musk vows to launch solar-powered data centers in space

To Outer Space

Elon Musk vowed this week to upend another industry just as he did with cars and rockets — and once again he's taking on long odds.

The world's richest man said he wants to put as many as a million satellites into orbit to form vast, solar-powered data centers in space — a move to allow expanded use of artificial intelligence and chatbots without triggering blackouts and sending utility bills soaring.

To finance that effort, Musk combined SpaceX with his AI business on Monday, February 2, and plans a big initial public offering of the combined company.

“Space-based AI is obviously the only way to scale,” Musk wrote on SpaceX’s website, adding about his solar ambitions, “It’s always sunny in space!”

But scientists and industry experts say even Musk — who outsmarted Detroit to turn Tesla into the world’s most valuable automaker — faces formidable technical, financial and environmental obstacles.

Feeling the heat

Capturing the sun’s energy from space to run chatbots and other AI tools would ease pressure on power grids and cut demand for sprawling computing warehouses that are consuming farms and forests and vast amounts of water to cool.

But space presents its own set of problems.

Data centers generate enormous heat. Space seems to offer a solution because it is cold. But it is also a vacuum, trapping heat inside objects in the same way that a Thermos keeps coffee hot using double walls with no air between them.

“An uncooled computer chip in space would overheat and melt much faster than one on Earth,” said Josep Jornet, a computer and electrical engineering professor at Northeastern University.

One fix is to build giant radiator panels that glow in infrared light to push the heat “out into the dark void,” says Jornet, noting that the technology has worked on a small scale, including on the International Space Station. But for Musk's data centers, he says, it would require an array of “massive, fragile structures that have never been built before.”

Floating debris

Then there is space junk.

A single malfunctioning satellite breaking down or losing orbit could trigger a cascade of collisions, potentially disrupting emergency communications, weather forecasting and other services.

Musk noted in a recent regulatory filing that he has had only one “low-velocity debris generating event" in seven years running Starlink, his satellite communications network. Starlink has operated about 10,000 satellites — but that's a fraction of the million or so he now plans to put in space.

“We could reach a tipping point where the chance of collision is going to be too great," said University at Buffalo's John Crassidis, a former NASA engineer. “And these objects are going fast -- 17,500 miles per hour. There could be very violent collisions."

No repair crews

Even without collisions, satellites fail, chips degrade, parts break.

Special GPU graphics chips used by AI companies, for instance, can become damaged and need to be replaced.

“On Earth, what you would do is send someone down to the data center," said Baiju Bhatt, CEO of Aetherflux, a space-based solar energy company. "You replace the server, you replace the GPU, you’d do some surgery on that thing and you’d slide it back in.”

But no such repair crew exists in orbit, and those GPUs in space could get damaged due to their exposure to high-energy particles from the sun.

Bhatt says one workaround is to overprovision the satellite with extra chips to replace the ones that fail. But that’s an expensive proposition given they are likely to cost tens of thousands of dollars each, and current Starlink satellites only have a lifespan of about five years.

Competition — and leverage

Musk is not alone trying to solve these problems.

A company in Redmond, Washington, called Starcloud, launched a satellite in November carrying a single Nvidia-made AI computer chip to test out how it would fare in space. Google is exploring orbital data centers in a venture it calls Project Suncatcher. And Jeff Bezos’ Blue Origin announced plans in January for a constellation of more than 5,000 satellites to start launching late next year, though its focus has been more on communications than AI.

Still, Musk has an edge: He's got rockets.

Starcloud had to use one of his Falcon rockets to put its chip in space last year. Aetherflux plans to send a set of chips it calls a Galactic Brain to space on a SpaceX rocket later this year. And Google may also need to turn to Musk to get its first two planned prototype satellites off the ground by early next year.

Pierre Lionnet, a research director at the trade association Eurospace, says Musk routinely charges rivals far more than he charges himself —- as much as $20,000 per kilo of payload versus $2,000 internally.

He said Musk’s announcements this week signal that he plans to use that advantage to win this new space race.

“When he says we are going to put these data centers in space, it’s a way of telling the others we will keep these low launch costs for myself,” said Lionnet. “It’s a kind of powerplay.”

Johnson Space Center and UT partner to expand research, workforce development

onward and upward

NASA’s Johnson Space Center in Houston has forged a partnership with the University of Texas System to expand collaboration on research, workforce development and education that supports space exploration and national security.

“It’s an exciting time for the UT System and NASA to come together in new ways because Texas is at the epicenter of America’s space future. It’s an area where America is dominant, and we are committed as a university system to maintaining and growing that dominance,” Dr. John Zerwas, chancellor of the UT System, said in a news release.

Vanessa Wyche, director of Johnson Space Center, added that the partnership with the UT System “will enable us to meet our nation’s exploration goals and advance the future of space exploration.”

The news release noted that UT Health Houston and the UT Medical Branch in Galveston already collaborate with NASA. The UT Medical Branch’s aerospace medicine residency program and UT Health Houston’s space medicine program train NASA astronauts.

“We’re living through a unique moment where aerospace innovation, national security, economic transformation, and scientific discovery are converging like never before in Texas," Zerwas said. “UT institutions are uniquely positioned to partner with NASA in building a stronger and safer Texas.”

Zerwas became chancellor of the UT System in 2025. He joined the system in 2019 as executive vice chancellor for health affairs. Zerwas represented northwestern Ford Bend County in the Texas House from 2007 to 2019.

In 1996, he co-founded a Houston-area medical practice that became part of US Anesthesia Partners in 2012. He remained active in the practice until joining the UT System. Zerwas was chief medical officer of the Memorial Hermann Hospital System from 2003 to 2008 and was its chief physician integration officer until 2009.

Zerwas, a 1973 graduate of the Houston area’s Bellaire High School, is an alumnus of the University of Houston and Baylor College of Medicine.

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