Houston universities earn top marks for research and student opportunity

top of class

Five Houston universities were named among the Carnegie Foundation's top tier of research institutions. Photo courtesy UH.

The American Council on Education and the Carnegie Foundation for the Advancement of Teaching recently released its new Research Activity Designations, which named several Houston universities to its Very High Research Spending and Doctorate Production, or R1, tier.

The R1 status means that universities meet $50 million in total annual research spending and 70 research doctorates awarded annually. This year, 187 institutions were given the designation, according to the Carnegie Foundation.

The 2025 categorizations were made using an updated methodology to be "more reflective of the wide range of higher education institutions across America and how well they serve their students," according to a release. Until now, research activity was included in the foundations' Basic Classifications. This year was the first year the Research Activity Designations were published separately.

“These updates to the Carnegie Classifications are the first step to bring a decades-old system into the 21st century. We are expanding our recognition of the range of ways colleges and universities engage in research and development,” Timothy F.C. Knowles, president of the Carnegie Foundation, said in the release. “And we are taking the guesswork out of what it takes to be recognized as an R1 institution. Over time, this will be good for the sector, for scholarship, for policymakers and for students.”

Here are the Houston institutions to receive the R1 designation:

  • Baylor College of Medicine
  • Rice University
  • The University of Texas Health Science Center at Houston
  • The University of Texas MD Anderson Cancer Center
  • University of Houston

The foundation also released new Student Access and Earnings Classifications, which honor colleges that serve a student body representative of their local community and help achieve competitive post-graduation earnings.

UH was the only Houston college to earn the Opportunity College & University – Higher Access, Higher Earnings (OCU) designation, and was one of only 21 universities in the country to earn it in addition to the R1 status for research.

“Maintaining our new Opportunity College and University designation reflects our unwavering commitment to access and economic mobility for all students, while our R1 research status speaks to the strength of our faculty and the transformative scholarship happening on our campus,” UH president Renu Khator said in a news release.

Just 16 percent of U.S. colleges and universities received the OCU designation. The classification comes from publicly available data from the U.S. Department of Education’s College Scorecard, the Integrated Postsecondary Education Data System and the U.S. Census Bureau. The classification considers the percentage of Pell Grant recipients, the number of underrepresented students enrolled, the median undergraduate earnings eight years after enrollment and other factors.

“These recognitions help tell the full story of our institution’s impact,” Diane Z. Chase, senior vice president for academic affairs and provost at UH, added in the release. “UH is a powerhouse for ideas, innovation and opportunity. We are changing lives through discovery, access and economic mobility—not only for our students, but for the communities we serve.”

Comparatively, Rice earned a Lower Access, Higher Earnings designation. The other Houston universities were not classified in the Student Access and Earnings Classifications.

In 2024, Rice University was one of 25 U.S. colleges and universities to receive the first Carnegie Leadership for Public Purpose Classification. The classification highlights colleges that have committed to “campus-wide efforts to advance leadership in pursuit of public goods like justice, equity, diversity and liberty.” Read more here.

From Your Site Articles
Researchers from Baylor College of Medicine and the University of Houston have developed a new blood-filtering machine that poses fewer risks to pediatric patients with hyperleukocytosis. Photo courtesy UH.

UH, Baylor researchers make breakthrough with new pediatric leukemia treatment device

childhood cancer

A team of Houston researchers has developed a new microfluidic device aimed at making treatments safer for children with hyperleukocytosis, a life-threatening hematologic emergency often seen in patients with leukemia.

Dr. Fong Lam, an associate professor of pediatrics at Baylor College of Medicine and a pediatric intensive care physician at Texas Children’s Hospital, partnered with Sergey Shevkoplyas, a professor of biomedical engineering at UH, on the device that uses a large number of tiny channels to quickly separate blood cells by size in a process called controlled incremental filtration, according to a news release from UH.

They tested whether performing cell separation with a high-throughput microfluidic device could alleviate the limitations of traditional conventional blood-filtering machines, which pose risks for pediatric patients due to their large extracorporeal volume (ECV), high flow rates and tendency to cause significant platelet loss in the patient. The results of their study, led by Mubasher Iqbal, a Ph.D. candidate in biomedical engineering at UH, were published recently in the journal Nature Communications.

“Continuously and efficiently separating leukocytes from recirculating undiluted whole blood — without device clogging and cell activation or damage — has long been a major challenge in microfluidic cell separation,” Shevkoplyas said in a news release. “Our study is the first to solve this problem.”

Hyperleukocytosis is a condition that develops when the body has an extremely high number of white blood cells, which in many cases is due to leukemia. According to the release, up to 20 percent to 30 percent of patients with acute leukemia develop hyperleukocytosis, and this places them at risk for potentially fatal complications.

The new device utilizes tiny channels—each about the width of a human hair—to efficiently separate blood cells through controlled incremental filtration. According to Lam, the team was excited that the new device could operate at clinically relevant flow rates.

The device successfully removed approximately 85 percent of large leukocytes and 90 percent of leukemic blasts from undiluted human whole blood without causing platelet loss or other adverse effects. It also operates with an ECV that’s about 1/70th of conventional leukapheresis machines, which makes it particularly suitable for infants and small children.

“Overall, our study suggests that microfluidics leukapheresis is safe and effective at selectively removing leukocytes from circulation, with separation performance sufficiently high to ultimately enable safe leukapheresis in children,” Shevkoplyas said in the release.

Fram2, operated by SpaceX, is targeting to launch Monday, March 31. The crew will conduct six TRISH experiments on board. Photo courtesy TRISH.

Houston space org to launch experiments aboard first mission into polar orbit

all aboard

Houston's Translational Research Institute for Space Health, or TRISH, will send its latest experiments into space aboard the Fram2 mission, the first all-civilian human spaceflight mission to launch over the Earth’s polar regions.

Fram2, operated by SpaceX, is targeting to launch Monday, March 31, at NASA’s Kennedy Space Center in Florida. The crew of four is expected to spend several days in polar orbit aboard the SpaceX Dragon spacecraft in low Earth orbit. TRISH’s research projects are among 22 experiments that the crew will conduct onboard.

The crew's findings will add to TRISH's Enhancing eXploration Platforms and ANalog Definition, or EXPAND, program and will be used to help enhance human health and performance during spaceflight missions, including missions to the moon and Mars, according to a release from TRISH.

“The valuable space health data that will be captured during Fram2 will advance our understanding of how humans respond and adapt to the stressors of space,” Jimmy Wu, TRISH deputy director and chief engineer and assistant professor in Baylor’s Center for Space Medicine, said in the release. “Thanks to the continued interest in furthering space health by commercial space crews, each human health research project sent into orbit brings us closer to improving crew member well-being aboard future spaceflight missions.”

The six TRISH projects on Fram2 include:

  • Cognitive and Physiologic Responses in Commercial Space Crew on Short-Duration Missions, led by Dr. Mathias Basner at the University of Pennsylvania Perelman School of Medicine. The crew will wear a Garmin smartwatch and a BioIntelliSense BioButton® medical grade device to track cognitive performance, including memory, spatial orientation, and attention before, during, and after the mission.
  • Otolith and Posture Evaluation II, led by Mark Shelhamer at Johns Hopkins University. The experiment will look at how astronauts’ eyes sense and respond to motion before and after spaceflight to better understand motion sickness in space.
  • REM and CAD Radiation Monitoring for Private Astronaut Spaceflight, led by Stuart George at NASA Johnson Space Center. This experiment will test space radiation exposure over the Earth’s north and south poles and how this impacts crew members.
  • Space Omics + BioBank, led by Richard Gibbs and Harsha Doddapaneni at Baylor College of Medicine. The experiment will use Baylor’s Human Genome Sequencing Center's Genomic Evaluation of Space Travel and Research program to gain insights from pre-flight and post-flight samples from astronauts.
  • Standardized research questionnaires, led by TRISH. The test asks a set of standardized research questionnaires for the crew to collect data on their sleep, personality, health history, team dynamics and immune-related symptoms.
  • Sensorimotor adaptation, led by TRISH. The project collects data before and after flight to understand sensorimotor abilities, change and recovery time to inform future missions to the moon.

TRISH, which is part of BCM’s Center for Space Medicine with partners Caltech and MIT, has launched experiments on numerous space missions to date, including Blue Origin's New Shepard rocket last November and Axiom Space's Ax-3 mission to the International Space Station last January.

A new AI tool from a Baylor College of Medicine Lab could help better diagnose specific types of autism spectrum disorder, epilepsy and developmental delay disorders. Photo via Getty Images.

Houston lab develops AI tool to improve neurodevelopmental diagnoses

developing news

One of the hardest parts of any medical condition is waiting for answers. Speeding up an accurate diagnosis can be a doctor’s greatest mercy to a family. A team at Baylor College of Medicine has created technology that may do exactly that.

Led by Dr. Ryan S. Dhindsa, assistant professor of pathology and immunology at Baylor and principal investigator at the Jan and Dan Duncan Neurological Research Institute at Texas Children’s Hospital, the scientists have developed an artificial intelligence-based approach that will help doctors to identify genes tied to neurodevelopmental disorders. Their research was recently published the American Journal of Human Genetics.

According to its website, Dhindsa Lab uses “human genomics, human stem cell models, and computational biology to advance precision medicine.” The diagnoses that stem from the new computational tool could include specific types of autism spectrum disorder, epilepsy and developmental delay, disorders that often don’t come with a genetic diagnosis.

“Although researchers have made major strides identifying different genes associated with neurodevelopmental disorders, many patients with these conditions still do not receive a genetic diagnosis, indicating that there are many more genes waiting to be discovered,” Dhindsa said in a news release.

Typically, scientists must sequence the genes of many people with a diagnosis, as well as people not affected by the disorder, to find new genes associated with a particular disease or disorder. That takes time, money, and a little bit of luck. AI minimizes the need for all three, explains Dhindsa: “We used AI to find patterns among genes already linked to neurodevelopmental diseases and predict additional genes that might also be involved in these disorders.”

The models, made using patterns expressed at the single-cell level, are augmented with north of 300 additional biological features, including data on how intolerant genes are to mutations, whether they interact with other known disease-associated genes, and their functional roles in different biological pathways.

Dhindsa says that these models have exceptionally high predictive value.

“Top-ranked genes were up to two-fold or six-fold, depending on the mode of inheritance, more enriched for high-confidence neurodevelopmental disorder risk genes compared to genic intolerance metrics alone,” he said in the release. “Additionally, some top-ranking genes were 45 to 500 times more likely to be supported by the literature than lower-ranking genes.”

That means that the models may actually validate genes that haven’t yet been proven to be involved in neurodevelopmental conditions. Gene discovery done with the help of AI could possibly become the new normal for families seeking answers beyond umbrella terms like “autism spectrum disorder.”

“We hope that our models will accelerate gene discovery and patient diagnoses, and future studies will assess this possibility,” Dhindsa added.

Rice and MD Anderson scientists are researching new methods for treating brain cancer by overcoming the blood-brain barrier. Photo via Getty Images.

Rice, MD Anderson receive $1.5 million to further brain cancer research

fresh funding

Rice University chemist Han Xiao, who also serves as director of the university’s Synthesis X Center, and cancer biologist Dihua Yu of The University of Texas MD Anderson Cancer Center have received a three-year, $1.5 million grant from the Robert J. Kleberg Jr. and Helen C. Kleberg Foundation.

The funding will allow them to continue their research on treating brain metastasis by overcoming the blood-brain barrier, or the BBB, according to a news release.

Brain metastasis is the leading form of brain cancer, with survival rates below 20 percent within a year of diagnosis, according to the National Library of Medicine. It commonly originates from breast, lung and melanoma cancers.

The BBB typically acts as a protective barrier for the brain. However, it prevents most drugs from being able to directly reach the brain. According to Rice, only 2 percent of FDA-approved small molecule drugs can penetrate the BBB, limiting treatment options.

Xiao and Yu’s approach to dealing with the BBB includes a light-induced brain delivery (LIBD) platform. The advanced system employs nanoparticles that are embedded with a near-infrared dye for the transport of therapeutic agents across the BBB. The research will evaluate the LIBD’s ability to improve the delivery of small-molecule drugs and biological therapies. Some therapies have shown potential for reducing cancer growth in laboratory studies, but they have struggled due to limited BBB penetration in animal models.

“Our LIBD platform represents a novel strategy for delivering drugs to the brain with precision and efficiency,” Xiao said in a news release. “This technology could not only improve outcomes for brain metastasis patients but also pave the way for treating other neurological diseases.”

The Kleberg Foundation looks for groundbreaking medical research proposals from leading institutions that focus on “innovative basic and applied biological research that advances scientific knowledge and human health” according to the foundation.

“This research is a testament to the power of collaboration and innovation,” Xiao said in a news release. “Together, we’re pushing the boundaries of what’s possible in treating brain metastasis and beyond.”

Rice launched the Synthesis X Center, or Synth X, last spring. It was born out of what started about eight years ago as informal meetings between Xiao's research group and others from the Baylor College of Medicine’s Dan L Duncan Comprehensive Cancer Center. It aims to turn fundamental research into clinical applications through collaboration.

“This collaboration builds on the strengths of both research teams,” Xiao said in the release. “By combining SynthX Center's expertise in chemistry with Dr. Yu's expertise in cancer biology and brain metastases, we aim to create a transformative solution.”

Houston hospitals and universities have been granted millions from the CPRIT to advance cancer research and bring leading scientists to the state. Photo by Dwight C. Andrews/Greater Houston Convention and Visitors Bureau.

Texas institute grants $12M to bring leading cancer researchers to Houston

cha-ching

Rice University has recruited a prominent Swedish cancer researcher thanks to a $6 million grant from the Cancer Prevention and Research Institute of Texas.

It’s among $68 million in research grants recently awarded by the state agency, and six recruitment grants totaling $16 million to bring leading cancer researchers to Texas.

A news release from the Cancer Prevention and Research Institute of Texas (CPRIT) describes Pernilla Wittung-Stafshede of the Chalmers University of Technology in Gothenburg, Sweden, as “an accomplished and highly gifted biophysical scientist tackling complicated biological questions regarding the role of metals and metal dysregulation in various diseases. She pioneered a new research field around the role of metal ions in the folding and function of metalloproteins.”

Metalloproteins account for nearly half of all proteins in biology, according to the National Institutes of Health. They “catalyze some of the most difficult and yet important functions in [nature], such as photosynthesis and water oxidation,” the federal agency says.

Wittung-Stafshede, a professor of chemical biology and life sciences at Chalmers, is a former professor at Rice.

Aside from the money for Wittung-Stafshede, Houston recruitment grants also went to:

  • University of Texas M.D. Anderson Cancer Center: $2 million to recruit Rosalie Griffin of the Mayo Clinic
  • Baylor College of Medicine: $2 million to recruit Dr. Nipun Verma of the Yale University School of Medicine
  • Baylor College of Medicine: $2 million to recruit Xin “Daniel” Gao of Harvard University and the Massachusetts Institute of Technology

In Houston, cancer research grants were given to:

  • Baylor College of Medicine: $7.8 million
  • M.D. Anderson Cancer Center: $20.7 million
  • Rice University: $ 1 million
  • University of Houston: $1.2 million
  • University of Texas Health Science Center at Houston: $4.5 million

“The awards … represent the depth and diversity of CPRIT funding for cancer research in Texas,” says Kristen Doyle, CEO of CPRIT. “These grants develop new approaches to preventing, diagnosing, treating, and surviving cancer for all Texans.”

See the full list of awards here.

Ad Placement 300x100
Ad Placement 300x600

CultureMap Emails are Awesome

Property Showcase

Houston team develops innovative soft skeleton for kids with cerebral palsy

health tech

A team from the NSF University of Houston Building Reliable Advances and Innovation in Neurotechnology (UH BRAIN) Center and TIRR Memorial Hermann has introduced the MyoStep soft exoskeleton for children with cerebral palsy, according to a news release from UH.

The soft skeleton aims to address motor impairments caused by cerebral palsy that impact children’s ability to participate in physical activities, self-care and academics.

“The MyoStep project represents a significant advancement in the field of pediatric mobility aids, particularly for children with cerebral palsy,” Jose Luis Contreras-Vidal, director of UH BRAIN and the Hugh Roy and Lillie Cranz Cullen Distinguished Professor of Electrical and Computer Engineering, said in a news release.

The next-generation lightweight, soft exoskeleton was funded by the IEEE Electron Devices Society (EDS) Award.

The MyoStep is made to be lightweight and discreetly fit under clothes. It includes a wireless sensor network embedded inside the smart and flexible fabrics that is the backbone of the suit and collects and sends real-time data about the user’s movements It also includes safety features with temperature monitoring and emergency shut-off mechanisms.

“By integrating cutting-edge technologies such as artificial muscles, smart fabrics, and a comprehensive sensor network, MyoStep offers a promising solution to the challenges faced by existing exoskeletons,” Contreras-Vidal said in a news release.

Cerebral palsy is a neurological disorder that impacts motor skills. It occurs in one to four out of every 1,000 births worldwide.

“What makes the MyoStep project so compelling is that it’s not just about the technology: it’s about restoring confidence, function, and hope,” Dr. Gerard Francisco, a clinical partner on the technology, The Wulfe Family Chair of Physical Medicine and Rehabilitation at UTHealth Houston and medical officer at TIRR Memorial Hermann, said in a news release. “This kind of innovation has the potential to dramatically improve quality of life, helping children move through the world with greater ease and dignity.”

Houston's 11 best places to work and more innovation news to know

Trending Topics

Editor's note: It's time to look back at the top business and innovation news for the first half of June 2025. Get the details on InnovationMap's most-read stories from June 1-13 below.

1. 11 Houston companies named best places to work by U.S. News

Chevron is one of the best places to work. Courtesy photo

Nearly a dozen public and private Houston-based companies have been hailed among the best places to work in 2025 by U.S. News and World Report.

The annual report examines thousands of companies around the world to determine the best employers based on six metrics including work-life balance and flexibility; quality of pay and benefits; job and company stability; career opportunities and professional development; and more. U.S. News included seven publicly-traded companies and four privately owned companies in Houston on the lists. Continue reading.

2. 2 Houston suburbs named among 10 best places to live by U.S. News & World Report

Pearland is the No. 2 best place to live in the U.S. Photo via pearlandedc.com

The Houston suburbs of Pearland and League City have landed among the top 10 best places to live in 2025, according to U.S. News & World Report.

Pearland ranked No. 3 nationwide, earning a 7.0 score alongside No. 1-winning Johns Creek, Georgia and No. 2 winner Carmel, Indiana. Pearland also landed on top of U.S. News separate rankings of the best places to live in Texas for 2025-2026. Continue reading.

3. Texas Space Commission doles out $5.8 million to Houston companies

Axiom Space and FluxWorks are the latest Houston-area companies to receive funding from the Texas Space Commission. Photo via Getty Images.

Two Houston-area companies have landed more than $5.8 million in funding from the Texas Space Commission. The commission granted up to $5.5 million to Houston-based Axiom Space and up to $347,196 to Conroe-based FluxWorks.

Axiom Space, a commercial spaceflight company, said the new funding will go toward the development of its orbital data center capabilities. Continue reading.

4. 3 Houston startups named most innovative in Texas by LexisNexis

Sage Geosystems is the No. 3 most innovative startup in Texas. Photo via sagegeosystems.com

Three Houston companies claimed spots on LexisNexis's 10 Most Innovative Startups in Texas report, with two working in the geothermal energy space.

Sage Geosystems claimed the No. 3 spot on the list, and Fervo Energy followed closely behind at No. 5. Fintech unicorn HighRadius rounded out the list of Houston companies at No. 8. Continue reading.

5. 9 can't-miss Houston business and innovation events for June

Don't miss these June events—from lightning pitches to a female-focused AI summit. Photo by Scott Halleran/Getty Images

From lightning pitches to a female-focused AI summit and energy conferences, there's still plenty to do as Houston settles into the summer. Here are the Houston business and innovation events you can't miss in June and how to register. Continue reading.

Houston universities launch summer 2025 accelerators for student ventures

summer session

OwlSpark, a startup and small business accelerator for Rice University-affiliated ventures, has named the latest 11 companies to its program that focus on challenges across technology, health care, consumer products and other sectors. The program is hosted in tandem with the University of Houston’s RED Labs and will take place at the Ion.

The early-stage accelerator runs for 12 weeks and culminates at The Bayou Startup Showcase on July 31.

According to a news release from Rice, “the accelerator cultivates a vibrant environment where founders are empowered to build, test, and scale their ideas in a setting built for entrepreneurship.”

The program is divided into two tracks: one for high-growth tech startups and another for small businesses.

The latest OwlSpark class includes:

  • Web and mobile platform EasilyBEE, which boosts family and community engagement in K-12 schools
  • Diagnos, a wearable-integrated wellness platform that monitors health and prevents injuries in college athletes
  • Johnnie, an AI-powered records management software for rural and midsize first responder agencies
  • JustKindHumility, which offers faith-based travel journals
  • Klix, whichautomates early-stage clinical trial management from document screening to AI-driven patient outreach and eligibility checks
  • Lizzy’s Gourmet Gains, which offers high-protein, flavor-forward dips and dressings
  • NextStep, an AI-powered multilingual assistant helping underserved communities navigate resources for health care
  • A catheter-integrated sensor device PeriShield, which detects early infection in peritoneal dialysis patients
  • Right Design, which connects creatives with vetted employers, mentors and projects via job matching and commissions
  • UCoreAlly, which provides business support for biotech startups in marketing, business development, customer support, human resources and accounting
  • Ultrasound-based ablation system VentriTech that treats ventricular arrhythmias

The Owl Spark accelerator has supported 229 founders and launched 104 ventures with participants raising more than $116 million in funding since 2013, according to Rice.

UH also shared the 9 teams that will participate in RED Labs' latest cohort.

The latest RED Labs class includes:

  • BLEED, an art agency that helps artists commercialize their work by connecting art collectors to original artwork and artists
  • Brain Haven, which is developing nasal inhalers designed to stimulate the emotional and memory processing centers to preserve neuroplasticity and delay cognitive decline
  • Candi Wands Automated Cotton Candy, which has developed a continuously operating cotton candy machine to help entertainment venues boost passive revenue
  • ChériCollectible, a series of in-person events where Gen Z and collectors can buy, sell, and trade modern collectibles
  • JobRadar, a job board that uses AI to analyze and categorize positions in real-time and then apply candidates instantly
  • Stage Select LLC, a supplementary talent booking service that partners with multi-stage venues to help fill gaps in programming and increase profitability by finding and booking local talent for their "second stage."
  • P-LEGS, a pediatric lower-limb exoskeleton that reduces physical strain on therapists while delivering customizable gait training.
  • Roll ‘N’ Reel Photo Booth, an interactive event-based equipment rental business
  • Stayzy, which automates guest communication and handles maintenance issues with an AI-powered software for short-term rental companies that manage 20-plus rentals
View All Listings