The University of Houston College of Medicine can now enroll its inaugural class. Photo courtesy of University of Houston

The University of Houston has received the green light to move forward with its recruiting and enrolling its first class of 30 medical students for the first new medical school in Houston in over 50 years.

The University of Houston College of Medicine has received its preliminary accreditation from the Liaison Committee on Medical Education, the authority on medical education in the United States and Canada that is sponsored by the American Medical Association and the American Association of Medical Colleges.

This accreditation means the school can begin enrolling its inaugural class of 30 students and begin classes on July 20. Each of these new students will receive a $100,000 four-year scholarship thanks to an anonymous donor.

"Today is a historic day for the University of Houston, city of Houston, and the state of Texas because we are building this dream together," says Renu Khator, president and chancellor of the university, in a news release. "By training the next generation of compassionate physicians who understand how to provide quality health care at a reasonable cost, we are expanding our capabilities to serve the people and neighborhoods too often left behind."

Khator announced her plans to create the new school in 2014, with the goal being to address the shortage of 4,800-plus primary care physicians in Texas, according to the release.

For now, the school will operate out of UH's Health 2 Building, but the university plans to break ground this summer a new $80 million College of Medicine building. Completion is expected in 2022.

The school will focus its curriculum on primary care, behavioral and mental health, and preventive care, per the release, and create a household-centered care program that involves connecting a student with a family in an underserved community. According to the release, UH med students will be required to spend four weeks in a clinic in a rural part of the state.

"At full staffing we will have 65 full-time faculty teaching on campus, but there will be also be a large number of community-based faculty teaching in the outpatient and inpatient clinical settings," says Dr. Stephen Spann, founding dean of the medical school, in the release. "It is imperative that we place our medical students and faculty directly in the communities with the most need."

The school will still need fill accreditation from LCME, and, according to the release, this level of approval is usually granted within the fourth year of operation as long as the school meets the standards set by the organization.

"We are extremely grateful to receive LCME accreditation, but now the real work begins because we want to be accountable for improving the overall health and health care of the region," Spann says in the release.

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Houston researchers tap into tech to provide new brain-related health care solutions

research roundup

Research, perhaps now more than ever, is crucial to expanding and growing innovation in Houston — and it's happening across the city right under our noses.

In InnovationMap's latest roundup of research news, three Houston institutions are working on brain-related health care solutions thanks to technologies.

University of Houston research team focused on brain injury treatment through computation

Badri Roysam and his team at the University of Houston are working with the National Institute of Health to develop tools to treat concussions and brain injuries. Photo via uh.edu

A University of Houston researcher is tapping into technology to better treat brain injuries and conditions that scientists have not yet figured out treatment for. Badri Roysam, the current chair of electrical and computer engineering at UH and a Hugh Roy and Lillie Cranz Cullen University Professor, and his team have created a new computational image analysis methods based on deep neural networks.

"We are interested in mapping and profiling unhealthy and drug-treated brain tissue in unprecedented detail to reveal multiple biological processes at once - in context," Roysam says in a UH press release about his latest paper published in Nature Communications. "This requires the ability to record high-resolution images of brain tissue covering a comprehensive panel of molecular biomarkers, over a large spatial extent, e.g., whole-brain slices, and automated ability to generate quantitative readouts of biomarker expression for all cells."

Roysam's system, which was developed at the the National Institute of Neurological Disorders and Stroke, analyzes the images on UH's supercomputer automatically and can reveal multiple processes at once – the brain injury, effects of the drug being tested and the potential side effects of the drug, per the release.

"Compared to existing screening techniques, using iterative immunostaining and computational analysis, our methods are more flexible, scalable and efficient, enabling multiplex imaging and computational analysis of up to 10 – 100 different biomarkers of interest at the same time using direct or indirect IHC immunostaining protocols," says Roysam in the release.

The open-source toolkit, which was developed thanks to a $3.19 million grant from the National Institute of Health, is also adaptable to other tissues.

"We are efficiently overcoming the fluorescence signal limitations and achieving highly enriched and high-quality source imagery for reliable automated scoring at scale," says Roysam. "Our goal is to accelerate system-level studies of normal and pathological brains, and pre-clinical drug studies by enabling targeted and off-target drug effects to be profiled simultaneously, in context, at the cellular scale."

Houston Methodist and Rice University launch new collaboration to use robotics for clinical solutions

Rice University's Behnaam Aazhang and Marcia O'Malley are two of the people at the helm of the new center along with Houston Methodist's Dr. Gavin Britz. Photos via Rice.edu

Rice University and Houston Methodist have teamed up to create a new partnership and to launch the Center for Translational Neural Prosthetics and Interfaces in order to bring together scientists, clinicians, engineers, and surgeons to solve clinical problems with neurorobotics.

"This will be an accelerator for discovery," says the new center's co-director, Dr. Gavin Britz, chair of the Houston Methodist Department of Neurosurgery, in a news release. "This center will be a human laboratory where all of us — neurosurgeons, neuroengineers, neurobiologists — can work together to solve biomedical problems in the brain and spinal cord. And it's a collaboration that can finally offer some hope and options for the millions of people worldwide who suffer from brain diseases and injuries."

The center will have representatives from both Rice and Houston Methodist and also plans to hire three additional engineers who will have joint appointments at Houston Methodist and Rice.

"The Rice Neuroengineering Initiative was formed with this type of partnership in mind," says center co-director Behnaam Aazhang, Rice's J.S. Abercrombie Professor of Electrical and Computer Engineering, who also directs the neuroengineering initiative. "Several core members, myself included, have existing collaborations with our colleagues at Houston Methodist in the area of neural prosthetics. The creation of the Center for Translational Neural Prosthetics and Interfaces is an exciting development toward achieving our common goals."

The team will have a presence on the Rice campus with 25,000 square feet of space in the Rice Neuroengineering Initiative laboratories and experimental spaces in the university's BioScience Research Collaborative. The space at Houston Methodist is still being developed.

"This partnership is a perfect blend of talent," says Rice's Marcia O'Malley, a core member of both the new center and university initiative. "We will be able to design studies to test the efficacy of inventions and therapies and rely on patients and volunteers who want to help us test our ideas. The possibilities are limitless."

ExxonMobil announces $100B carbon-capture hub for Houston area

greener thinking

In a move that would be a gamechanger for Houston, oil and gas giant ExxonMobil envisions creating a $100 billion carbon-capture hub along the Houston Ship Channel.

ExxonMobil foresees the Houston Ship Channel being the site of an "innovation zone" for carbon capture and storage. In a blog post on the ExxonMobil website, Joe Blommaert, the Houston-based president of ExxonMobil Low Carbon Solutions, says Houston would be "the perfect place" for the project because:

  • The ship channel is home to dozens of refineries and petrochemical plants.
  • The geological formations in the Gulf of Mexico could "safely, securely, and permanently" store tons of carbon emissions under the sea floor, according to the blog post. The U.S. Department of Energy estimates the storage capacity along the U.S. Gulf Coast could handle 500 million metric tons of CO2.

Irving-based ExxonMobil, which employs more than 12,000 people in the Houston area, says the project could capture and store about 50 million metric tons of CO2 annually by 2030. By 2040, that number could rise to 100 million metric tons.

"We could create an economy of scale where we can reduce the cost of the carbon dioxide mitigation, create jobs, and reduce the emissions," Blommaert tells the Reuters news service.

In a news release, Houston Mayor Sylvester Turner applauds the ExxonMobil plan.

"This proposal by ExxonMobil is the type of bold ambition and investment we will need to meet our climate goals and protect our communities from climate change," Turner says. "ExxonMobil's proposal represents a significant step forward for the energy industry, and I hope it brings more companies to the table to help Houston lead a global energy transition."

Turner notes that the Houston area is home to some of the largest emitters of carbon in the U.S., adding that everyone has "a responsibility and role to play in decarbonization."

Blommaert says the project would require public and private funding, along with "enhanced regulatory and legal frameworks that enable investment and innovation." According to Politico, ExxonMobil wants the federal government to kick in tax breaks or to set carbon-pricing policies to help get the project off the ground.

Politico reports that the Biden administration isn't considering ExxonMobil's idea as it prepares a climate-change package.

"Meanwhile, environmental groups and many Democrats have slammed carbon-capture proposals as a climate strategy, saying the only way to permanently reduce greenhouse gas pollution is a wholesale switch away from fossil fuels," Politico says.

Meanwhile, the International Energy Agency maintains that carbon capture and storage "are critical for putting energy systems around the world on a sustainable path." Achieving net-zero goals "will be virtually impossible" without carbon capture and storage, the group says.

ExxonMobil announced creation of its Low Carbon Solutions business unit in February as part of its push to invest $3 billion in lower-emission energy initiatives through 2025. Low Carbon Solutions initially will focus on technology for carbon capture and storage. The business unit is exploring opportunities along the Gulf Coast, as well as in Wyoming, Belgium, the Netherlands, Qatar, Scotland, and Singapore.

Last year, ExxonMobil hit the pause button on a $260 million carbon-capture project in Wyoming due to fallout from the COVID-19 pandemic, according to the Bloomberg news service.

In a December report, the Global CCS Institute, a think tank, said 65 commercial carbon-capture projects were in various stages of development around the world.

"Climate ambition, including efforts to decarbonize industry, has not been curtailed despite the adversities faced in 2020," Brad Page, CEO of the institute, says in a news release about the report. "We're continuing to see an upward trajectory in the amount of CO2 capture and storage infrastructure that is being developed. One of the largest factors driving this growth is recognition that achieving net-zero emissions is urgent yet unattainable without CO2 reductions from energy-intensive sectors."

Newly appointed innovation leader calls for more health care collaboration in Houston

HOUSTON INNOVATORS PODCAST EPISODE 80

Allison Post is a professional dot connector for the Texas Heart Institute. Located in the Texas Medical Center and founded in 1962, THI has long had a history of innovation — from Denton Cooley, THI's founder, performing the first artificial heart implementation in 1970.

Now, Post — who was appointed to a newly created position of manager of innovation partnerships — is focused on working with THI's latest generation of cardiac health innovators. She works internally to foster and support THI's brightest inventors as well as externally to make sure the institute is bringing in the best new technologies out there to its patients.

"The whole mission of the Texas Heart Institute is to help our patients. If that means that someone else has an incredible idea we want to jump onboard and bring it to people," Post says in this week's episode of the Houston Innovators Podcast.

Post, who has a bioengineering background and has worked on both sides of the table as an entrepreneur and a startup mentor, is looking to support breakthrough cardiac innovations within stem cells, pharmaceuticals, medical devices, and more. And unfortunately, the cardiac health space has an increasing need to develop new health care solutions.

"Because of the growing burden of heart disease, heart failure, coronary artery disease, the unfortunately long list of things that can go wrong with someone's heart means the pressing need for therapies is just growing," she says on the show. "We're trying to keep up and break into things that people haven't done a lot of work on, such as women's heart health."

Another factor in Post's role, which she's had since last fall, is to bring THI further into both the TMC's innovation efforts as well as the greater Houston innovation ecosystem — as well as beyond. To her, Houston has a huge opportunity to lead health care innovation.

"It makes no sense that we aren't the health care leaders yet in med tech development. It should not be Boston, San Francisco, or Minneapolis. It should be Houston," Post says. "We have everything we need to do it. We just need to bring it all together."

The key to getting there, she says, is further collaboration. If there's one thing the world has learned about health care innovation from COVID-19, it's that when experts are rallying behind and collaborating on solutions, the speed of development is much faster.

"The more minds we have the better the solutions I going to be," she says.

Post says that she hopes her work at THI can inspire other institutions to collaborate ‚ since everyone has the same goal of helping patients.

"I only see just phenomenal things for Houston, and what I really want is for the Texas Medical Center to become even more interconnected. We've got to be able to transfer ideas and thoughts and intentions seamlessly between these institutions and right now there are a lot of barriers," Post says. "And I really think Texas Heart is hopefully going to serve as an example of how to take down those barriers."

Post shares more about what she's focused on and where THI is headed on the episode. Listen to the full interview below — or wherever you stream your podcasts — and subscribe for weekly episodes.