University of Houston receives $20M donation, renames nursing school

gift of health care

The University of Houston's nursing program has received a significant gift to address the nursing industry's workforce shortage. Photo via UH.edu

A University of Houston alumnus and his wife have donated a historic gift to strengthen nursing education and research at his alma mater.

Andy and Barbara Gessner's $20 million gift to the UH College of Nursing was announced this week during National Nurses Week. The contribution will go toward scholarships and fellowships for students, as well as support programming and research to address the shortage of nurses in the workforce. The college has been renamed in honor of the gift to the Andy and Barbara Gessner College of Nursing.

The Gessners’ support of the College of Nursing is inspired by the many caring and giving nurses they know, including their late mothers, who were both nurses. Gertrude Smith Gessner and Mildred Roberson Pottenger dedicated their lives to delivering compassionate health care to their patients and serving their communities with distinction.

“We believe in nurses and we need more of them right now,” Andy Gessner, whose mother and mother-in-law were both nurses, says in a news release. “We’re all going to need a nurse at some time in our lives, and there's just not enough in the workforce or being educated for the future. The primary intent of our gift is to make more nurses available when we need them, now and in the future.”

By 2025, according to the Bureau of Labor Statistics, there will be a shortage of almost 200,000 registered nurses and a rise in demand of 12 percent between now and 2029.

“The silver tsunami is coming,” says Barbara Gessner in the release. “We are certainly going to need more nurses as the population gets older, so the medical profession will be put to the test. It's always been an honorable profession, and we believe in that tender, compassionate care that nurses provide.”

The donation will create three endowed professorships, two of the which will be matched one-to-one as part of the University’s “$100 Million Challenge” for chairs and professorships. Additional endowments funded by the gift, according to UH, will go toward research, nursing education, clinical learning, scholarships, graduate student fellowships, adjunct faculty support and and more.

“Our college of Nursing has been a leader in preparing highly skilled nurses for the workforce, and this comprehensive gift from Andy and Barbara Gessner will take it to the next level,” says UH President Renu Khator. “We are forever grateful to the Gessners for their vision, commitment and passion for nursing education so that we can educate more nurses who will make a positive impact on the lives of patients and in the health care industry.”

Kathryn Tart is the founding dean of the Gessner College of Nursing, and she believes the gift will have a significant impact on the university as well as the industry as a whole.

“This gift will have a lasting impact on the nursing profession and our great city, state and beyond for many years to come,” she says. “We will be able to attract more top faculty and students and increase our research endeavors to further the University’s mission of becoming a top 50 public university. We are so grateful to the Gessners for their support and vision to address the severe nursing shortage.”

In 2019, the Gessner Family Nursing Scholarship was established. To date, the scholarship has provided full tuition to 19 students in the Traditional BSN program.

“Our legacy will not be about what we did, it's what this gift will do,” says Andy Gessner. “We hope that in the coming years, the Gessner College of Nursing will be recognized for excellence and for creating more nurses.”

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Houston-based HPE wins $931M contract to upgrade military data centers

defense data centers

Hewlett Packard Enterprise (HPE), based in Spring, Texas, which provides AI, cloud, and networking products and services, has received a $931 million contract to modernize data centers run by the federal Defense Information Systems Agency.

HPE says it will supply distributed hybrid multicloud technology to the federal agency, which provides combat support for U.S. troops. The project will feature HPE’s Private Cloud Enterprise and GreenLake offerings. It will allow DISA to scale and accelerate communications, improve AI and data analytics, boost IT efficiencies, reduce costs and more, according to a news release from HPE.

The contract comes after the completion of HPE’s test of distributed hybrid multicloud technology at Defense Information Systems Agency (DISA) data centers in Mechanicsburg, Pennsylvania, and Ogden, Utah. This technology is aimed at managing DISA’s IT infrastructure and resources across public and private clouds through one hybrid multicloud platform, according to Data Center Dynamics.

Fidelma Russo, executive vice president and general manager of hybrid cloud at HPE, said in a news release that the project will enable DISA to “deliver innovative, future-ready managed services to the agencies it supports that are operating across the globe.”

The platform being developed for DISA “is designed to mirror the look and feel of a public cloud, replicating many of the key features” offered by cloud computing businesses such as Amazon Web Services (AWS), Microsoft Azure and Google Cloud Platform, according to The Register.

In the 1990s, DISA consolidated 194 data centers into 16. According to The Register, these are the U.S. military’s most sensitive data centers.

More recently, in 2024, the Fort Meade, Maryland-based agency laid out a five-year strategy to “simplify the network globally with large-scale adoption of command IT environments,” according to Data Center Dynamics.

Astros and Rockets launch new streaming service for Houston sports fans

Sports Talk

Houston sports fans now have a way to watch their favorite teams without a cable or satellite subscription. Launched December 3, the Space City Home Network’s SCHN+ service allows consumers to watch the Houston Astros and Houston Rockets via iOS, Apple TV, Android, Amazon Fire TV, or web browser.

A subscription to SCHN+ allows sports fans to watch all Astros and Rockets games, as well as behind-the-scenes features and other on-demand content. It’s priced at $19.99 per month or $199.99 annually (plus tax). People who watch Space City Network Network via their existing cable or satellite service will be able to access SCHN+ at no additional charge.

As the Houston Chronicle notes, the Astros and Rockets were the only MLB and NBA teams not to offer a direct-to-consumer streaming option.

“We’re thrilled to offer another great option to ensure fans have access to watch games, and the SCHN+ streaming app makes it easier than ever to cheer on the Rockets,” Rockets alternate governor Patrick Fertitta said in a statement.

“Providing fans with a convenient way to watch their favorite teams, along with our network’s award-winning programming, was an essential addition. This season feels special, and we’re committed to exploring new ways to elevate our broadcasts for Rockets fans to enjoy.”

Astros owner Jim Crane echoed Feritta’s comments, adding, “Providing fans options on how they view our games is important as we continue to grow the game – we want to make it accessible to as large an audience as possible. We are looking forward to the 2026 season and more Astros fans watching our players compete for another championship.”

SCHN+ is available to customers in Texas; Louisiana; Arkansas; Oklahoma; and the following counties in New Mexico: Dona Ana, Eddy, Lea, Chaves, Roosevelt, Curry, Quay, Union, and Debaca. Fans outside these areas will need to subscribe to the NBA and MLB out-of-market services.

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This article originally appeared on CultureMap.com.

Rice University researchers unveil new model that could sharpen MRI scans

MRI innovation

Researchers at Rice University, in collaboration with Oak Ridge National Laboratory, have developed a new model that could lead to sharper imaging and safer diagnostics using magnetic resonance imaging, or MRI.

In a study recently published in The Journal of Chemical Physics, the team of researchers showed how they used the Fokker-Planck equation to better understand how water molecules respond to contrast agents in a process known as “relaxation.” Previous models only approximated how water molecules relaxed around contrasting agents. However, through this new model, known as the NMR eigenmodes framework, the research team has uncovered the “full physical equations” to explain the process.

“The concept is similar to how a musical chord consists of many notes,” Thiago Pinheiro, the study’s first author, a Rice doctoral graduate in chemical and biomolecular engineering and postdoctoral researcher in the chemical sciences division at Oak Ridge National Laboratory, said in a news release. “Previous models only captured one or two notes, while ours picks up the full harmony.”

According to Rice, the findings could lead to the development and application of new contrast agents for clearer MRIs in medicine and materials science. Beyond MRIs, the NMR relaxation method could also be applied to other areas like battery design and subsurface fluid flow.

“In the present paper, we developed a comprehensive theory to interpret those previous molecular dynamics simulations and experimental findings,” Dilipkumar Asthagiri, a senior computational biomedical scientist in the National Center for Computational Sciences at Oak Ridge National Laboratory, said in the release. ”The theory, however, is general and can be used to understand NMR relaxation in liquids broadly.”

The team has also made its code available as open source to encourage its adoption and further development by the broader scientific community.

“By better modeling the physics of nuclear magnetic resonance relaxation in liquids, we gain a tool that doesn’t just predict but also explains the phenomenon,” Walter Chapman, a professor of chemical and biomolecular engineering at Rice, added in the release. “That is crucial when lives and technologies depend on accurate scientific understanding.”

The study was backed by The Ken Kennedy Institute, Rice Creative Ventures Fund, Robert A. Welch Foundation and Oak Ridge Leadership Computing Facility at Oak Ridge National Laboratory.

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