Short stories

New coworking space to open, Houston to host Accenture's health tech awards, and more innovation news

Spaces plans to open a new location in Houston this month, Chevron Technology Ventures invests in autonomous vehicle tech, and more Houston innovation news. Courtesy of Spaces

A lot is happening in the Houston innovation ecosystem — so much that you may have missed a few key news items. Let's hit the highlights, shall we?

Applications are open for major health tech awards program that is coming to town, a Houston corporate venture fund doles out cash to self-driving cars, new coworking space to deliver, a diversity-focused partnership launches, and more Houston innovation news.

Chevron Technology Ventures invests in self-driving cars

Voyage is growing its fleet of self-driving vehicles with the help of a Houston corporate VC fund. Photo via voyage.auto

Silicon Valley's Voyage, a self-driving car technology company, closed its series B round at $31 million. Houston-based Chevron Technology Ventures contributed to the round.

The round's funds will go toward expanding the company's fleet of G2 autonomous vehicles in California and Florida, as well as introduce Voyage's G3 self-driving car, Oliver Cameron, co-founder and CEO at Voyage, writes in a release.

"Chevron has been supporting the public's transportation needs for over 100 years. As our customers' mobility needs and preferences change, we want to continue to be part of their journeys. Our investment in Voyage affirms this commitment," says Barbara Burger, CTV president, in a release. "We established the Future Energy Fund in 2018 with an initial commitment of $100 million to invest in breakthrough technologies that enable the ongoing energy transition. The fund looks for technologies that lower emissions and support low carbon value chains. Our investment in Voyage fits well within the objectives of the Future Energy Fund while also informing our perspective on the changing energy landscape."

Accenture to close out health tech challenge in Houston

accenture

The national challenge will conclude in Houston. Courtesy of Accenture

Applications are open for the fourth annual Accenture HealthTech Innovation Challenge and close on September 22. Finalists will present to judges from global health companies at one of two regional events — in Boston on Nov. 7 or in San Francisco on Dec. 5. The final judging event will take place in Houston on February 6, 2020.

"We look forward to this year's submissions as we continue to identify bold ideas from startups that deliver new solutions for health organizations to improve the lives of consumers, clinicians and employees," says Brian Kalis, managing director of digital health and innovation at Accenture, in a release. "Since its inception, the Accenture HealthTech Innovation Challenge has brought healthcare organizations and startups together to tackle the world's biggest health issues where we have received more than 2,200 applications, invited more than 90 startups to compete and who have benefitted from the guidance of nearly 1,000 executive judges from the healthcare industry."

The submission form, including additional details about the challenge's criteria, eligibility, and requirements, is available at: Accenture HealthTech Innovation Challenge-Health.

GotSpot wins pitch competition

Reda Hicks claimed the win at a military spouse pitch event. Trish Alegre-Smith/Military.com

Reda Hicks, who founded Houston-based GotSpot Inc., won a $15,000 check from the StreetShares Foundation and Samuel Adams' Brewing the American Dream at the Great American Military Entrepreneur at the Military Influencer Conference in Washington, D.C.

GotSpot is a website that allows for people with commercial space — a commercial kitchen, conference room, spare desks, etc. — to list it. Then, space seekers — entrepreneurs, nonprofits, freelancers, etc. — can rent it.

"This award is a game-changer for me," Hicks says to Military.com. "This will allow me to hire more incredible military spouses and help GotSpot on its path to go global."

Rice University launches new sports business course

Rice University

Rice University has a new sports business program. Photo courtesy of Rice University

Rice University, along with the Houston Texans, is introducing a new program for the university's sport management students. Pro Sports: Management is a course designed to teach the business side of the sports world.

"We are thrilled to partner with Rice University on a curriculum that will provide their best and brightest students with insight into the real-world opportunities and challenges facing today's sports teams," says Houston Texans President Jamey Rootes in a release from Rice. "This program is rather unique because our leading executives will work alongside Rice professors to teach current best practices in franchise management across every discipline. We believe that this type of practical industry exposure is the best way to prepare the next generation of leaders in the field of sports management and a valuable contribution to the level of professionalism within our industry."

The classes will be held weekly in the executive offices of the Texans. The course will cover ticketing, public relations, event management, human resources and more.

Spaces plans to open second coworking location in Houston

Spaces, an Amsterdam-based coworking space company that entered the Houston market with a lease in Kirby Grove announced in 2017, plans to open its newest location this month. Courtesy of Spaces

The new Spaces CityCentre One location is planned to open on Monday, September 30. It's the Amsterdam-based company's second coworking space in Houston, with a third already in the works. The first location was in Kirby Grove in 2017, and Spaces Galleria at Post Oak will be opening in the second quarter of 2020.

The CityCentre One location will have over 60,000 square-feet of workspace with perks, including a business club, dedicated desk space, private offices, and seven fully-equipped meeting rooms. Plus, the building is just steps away from CityCentre, a mixed-use development with restaurants, entertainment, housing, and more. Membership pricing starts at $111 a month at the new location.

Cemvita Factory receives more backing from oil and gas industry

Cemvita Factory Cemvita Factory

Houston-based Cemvita Factory, a biotech company that can mimick photosynthesis and convert CO2 into glucose and other substances, has received equity investment from BHP. The amount of the investment was not disclosed.

The investment will help Cemvita Factory continue to develop its biomimicry technology for oil and gas applications to reduce the volume of greenhouse gas emissions.

"This strategic investment fits well with BHP's vision of the future: reducing operational greenhouse gas emissions, reducing environmental impact and the development of low-emissions technology, including increased application of carbon capture, utilization and storage technology," says BHP's chief geoscientist, Laura Tyler, in a release.

Last month, Occidental Petroleum's low carbon subsidiary, Oxy Low Carbon Ventures LLC, announced it invested an undisclosed amount of funds into Cemvita Factory.

Two organizations join forces to promote diversity in the Houston Startup Scene

Impact Hub Houston and The Cannon have teamed up to grow programming and events surrounding diversity. Photo courtesy of The Cannon

In an effort to promote diversity and inclusion within the Houston innovation ecosystem, The Cannon and Impact Hub Houston have teamed up. The collaboration will drive programming and events geared at growing the conversation and resources for startups and entrepreneurs.

"One of Houston's best differentiating qualities is that we are truly a melting pot," says Lawson Gow, founder and CEO of The Cannon, in a news release. "We want our community to reflect the amazing diversity across our city, so we have to move beyond simply discussing diversity and work to create an environment where innovation can thrive and real change can happen. We are confident Impact Hub will be the perfect partner to bring those aspects to our community."

Gow, who is the son of InnovationMap's parent company's CEO, opened the doors to its new 120,000-square-foot facility in July. Impact Hub Houston will have a presence in the space.

"Over the past few years, Lawson and I have brainstormed how we could work together to connect and grow our region's innovation ecosystem and demonstrate how organizations can evolve from competition to true collaboration," says Grace Rodriguez, CEO and Executive Director of Impact Hub Houston, in the release. "I'm so excited that those talks have developed into this partnership: Through The Cannon and Impact Hub Houston, we'll be able to effectively 'meet people where they are' geographically, socially, and culturally, helping diverse entrepreneurs and startups at the myriad intersections of place, purpose, demographics, psychographics, and business growth stages."

Houston innovator nominated for prestigious Silicon Valley award

Alley Lyles is up for an award for her work in digital transformation.

Alley Lyles, digital transformation manager at Direct Energy and Houston startup mentor, was nominated for a Women in IT - Silicon Valley award as Transformation Leader of the Year. The awards event is on October 9.

She is up against Emily Dunn at Anaplan, Windy Garrett at Atos, Manju Abraham at Delphix, Aashima Gupta at Google, Patricia Grant at ServiceNow, and Nataliya Anon at Svitla Systems.

"I am proud to represent Houston in Silicon Valley. The Houston hustle is real. I see it amongst my colleagues who got me here. The hustle isn't always glamorous, so I appreciate the moment when a kid from the East End can shine."

Breakthrough research on metastatic breast cancer, a new way to turn toxic pollutants into valuable chemicals, and an evolved brain tumor chip are three cancer-fighting treatments coming out of Houston. Getty Inages

Cancer remains to be one of the medical research community's huge focuses and challenges, and scientists in Houston are continuing to innovate new treatments and technologies to make an impact on cancer and its ripple effect.

Three research projects coming out of Houston institutions are providing solutions in the fight against cancer — from ways to monitor treatment to eliminating cancer-causing chemicals in the first place.

Baylor College of Medicine's breakthrough in breast cancer

Photo via bcm.edu

Researchers at Baylor College of Medicine and Harvard Medical School have unveiled a mechanism explains how "endocrine-resistant breast cancer acquires metastatic behavior," according to a news release from BCM. This research can be game changing for introducing new therapeutic strategies.

The study was published in the Proceedings of the National Academy of Sciences and shows that hyperactive FOXA1 signaling — previously reported in endocrine-resistant metastatic breast cancer — can trigger genome-wide reprogramming that enhances resistance to treatment.

"Working with breast cancer cell lines in the laboratory, we discovered that FOXA1 reprograms endocrine therapy-resistant breast cancer cells by turning on certain genes that were turned off before and turning off other genes," says Dr. Xiaoyong Fu, assistant professor of molecular and cellular biology and part of the Lester and Sue Smith Breast Center at Baylor, in the release.

"The new gene expression program mimics an early embryonic developmental program that endow cancer cells with new capabilities, such as being able to migrate to other tissues and invade them aggressively, hallmarks of metastatic behavior."

Patients whose cancer is considered metastatic — even ones that initially responded to treatment — tend to relapse and die due to the cancer's resistance to treatment. This research will allow for new conversations around therapeutic treatment that could work to eliminate metastatic cancer.

University of Houston's evolved brain cancer chip

Photo via uh.edu

A biomedical research team at the University of Houston has made improvements on its microfluidic brain cancer chip. The Akay Lab's new chip "allows multiple-simultaneous drug administration, and a massive parallel testing of drug response for patients with glioblastoma," according to a UH news release. GBM is the most common malignant brain tumor and makes up half of all cases. Patients with GBM have a five-year survival rate of only 5.6 percent.

"The new chip generates tumor spheroids, or clusters, and provides large-scale assessments on the response of these GBM tumor cells to various concentrations and combinations of drugs. This platform could optimize the use of rare tumor samples derived from GBM patients to provide valuable insight on the tumor growth and responses to drug therapies," says Metin Akay, John S. Dunn Endowed Chair Professor of Biomedical Engineering and department chair, in the release.

Akay's team published a paper in the inaugural issue of the IEEE Engineering in Medicine & Biology Society's Open Journal of Engineering in Medicine and Biology. The report explains how the technology is able to quickly assess how well a cancer drug is improving its patients' health.

"When we can tell the doctor that the patient needs a combination of drugs and the exact proportion of each, this is precision medicine," Akay explains in the release.

Rice University's pollution transformation technology

Photo via rice.edu

Rice University engineers have developed a way to get rid of cancer-causing pollutants in water and transform them into valuable chemicals. A team lead by Michael Wong and Thomas Senftle has created this new catalyst that turns nitrate into ammonia. The study was published in the journal ACS Catalysis.

"Agricultural fertilizer runoff is contaminating ground and surface water, which causes ecological effects such as algae blooms as well as significant adverse effects for humans, including cancer, hypertension and developmental issues in babies," says Wong, professor and chair of the Department of Chemical and Biomolecular Engineering in Rice's Brown School of Engineering, in a news release. "I've been very curious about nitrogen chemistry, especially if I can design materials that clean water of nitrogen compounds like nitrites and nitrates."

The ability to transform these chemicals into ammonia is crucial because ammonia-based fertilizers are used for global food supplies and the traditional method of creating ammonia is energy intensive. Not only does this process eliminate that energy usage, but it's ridding the contaminated water of toxic chemicals.

"I'm excited about removing nitrite, forming ammonia and hydrazine, as well as the chemistry that we figured out about how all this happens," Wong says in the release. "The most important takeaway is that we learned how to clean water in a simpler way and created chemicals that are more valuable than the waste stream."