Research aimed at improving long-term outlook for stroke patients

The long-term consequences of a stroke often are more severe than the attack itself, a medical reality that researcher Shaohua Yang, PhD, MD, hopes to alter.

"A stroke is like an earthquake," said Dr. Yang, Associate Professor of Pharmacology and Neuroscience at UNTHSC. "It triggers a lot of other problems downstream."

Brain damage, loss of motor function and long-term disability are among the problems suffered by more than 800,000 stroke patients each year. About 25 percent to 30 percent of stroke survivors develop dementia, often within the first year of recovery. Having a stroke doubles the risk of developing dementia.

Dr. Yang, who recently received a $1.6 million grant from the National Institute of Neurological Disorders and Stroke, hopes to improve the long-term outlook for stroke patients by studying how a specific molecule called  a neuroglobin makes the brain less susceptible to stroke.

Studies have shown that an increase in neoglobin in the brain leads to less damage in an ischemic stroke, which occurs when an artery to the brain is block and accounts for 88 percent of all strokes.

"We believe that this molecule plays a major role in brain metabolism," he said. "By manipulating this molecule, we hope to find new treatments that could slow down or prevent dementia and other functional deficits following a stroke."

Over the last two decades, the treatment for ischemic stroke has improved with the delivery of the drug tPA. It is the only drug approved to dissolve blood clots that cause most strokes. But tPA must be administered intravenously and only works if given within three hours after the onset of stroke symptoms.

"Few patients get to the hospital in time to qualify for the drug," Dr. Yang said.

Patients are often disqualified from receiving the drug because they delayed going to the hospital or failed to recognize the symptoms of a stroke.

As part of Dr. Yang’s research, he is trying to identify a neuropathway that may prevent or at least provide protection against both the primary and secondary brain damage triggered by a stroke.

"If we can identify the pathway, we can develop new drugs to treat strokes and improve recovery," he said. "Our hope then is to expand treatment to other diseases."

Recent News

Hill Signing 6627
  • Education
|Sep 6, 2024

HSC and Hill College partner to expand educational opportunities

The University of North Texas Health Science Center at Fort Worth and Hill College on Thursday announced a new partnership aimed at creating pathways to success for students in the region. Hill College is a comprehensive community college with campuses in Hillsboro, Cleburne and Burleson, with a str...
Amany Hassan
  • Research
|Sep 4, 2024

TCOM faculty and staff receive AACOM grant to study innovative AI curriculum integration

The emergence of artificial intelligence is undeniable and the Texas College of Osteopathic Medicine at The University of North Texas Health Science Center at Fort Worth is receiving a grant from the American Association of Colleges of Osteopathic Medicine to study an innovative way of merging AI in...
Img 6647
  • Patient Care
|Sep 3, 2024

Individualization is key: Collaborative care makes all the difference for older adults

Nina Cox was never a cook – her husband did most of the cooking in their household. That was until she was diagnosed with type 2 diabetes and tasked with lowering her A1C to be cleared for knee surgery. With a clear goal in mind, Cox got serious about her health and found support with The Universi...
HSC Sign
  • Education
|Aug 29, 2024

HSC elevates focus with new college names, addition of Graduate School

The University of North Texas Health Science Center at Fort Worth today announced it would launch a new Graduate School to enhance graduate education and rename three of its schools to better clarify their focuses. Effective Sept. 1, HSC will establish a new Graduate School under the leaders...