VA Awards $8 Million in Adaptive Sport Grants to Aid Disabled Veterans

Grants promote rehabilitation, health and wellness and community reintegration

WASHINGTON, September 17, 2015 – Secretary of Veterans Affairs Robert A. McDonald today announced the awarding of up to $8 million in grants to eligible recipients with experience managing large scale adaptive sports programs for disabled Veterans and disabled Service members of the Armed Forces.

The grant recipients may use these funds for planning, developing, managing and implementing adaptive sports programs.

The VA is awarding the Grants to national governing bodies, which prepare high-level athletes for Paralympic competition; Veterans service organizations; city and regional municipalities; and other community groups to provide a wide range of adaptive sports opportunities for eligible Veterans and Service members.

The Grants will support sports ranging from rowing, cycling and skiing to golf, fly fishing and equestrian sports.

“Adaptive sports help Veterans heal both physically and emotionally,” said Secretary McDonald. “We are proud to partner with organizations nationwide to provide these rehabilitative opportunities for America’s Veterans.”

VA will distribute the grants to 89 national, regional and community programs serving all 50 states, the District of Columbia, Puerto Rico, the Virgin Islands and Guam. Approximately 10,000 Veterans and Service members are expected to benefit.

Information about the awardees and details of the program may be found at www.va.gov/adaptivesports . 

For Veterans with Gulf War Illness, an Explanation for the Unexplainable Symptoms

Newswise , September 14, 2015)—One in four Gulf War veterans suffers from Gulf War Illness (GWI). New preliminary research to be presented at Physiological Bionergetics: From Bench to Bedside shows for the first time direct evidence of greater mitochondrial damage in Gulf War veterans.

The condition is characterized by unexplainable chronic fatigue, muscle pain and cognitive dysfunction and may be associated with exposure to chemicals, many identified as genotoxins, during deployment.

Previous studies suggest that the symptoms of GWI are due to dysfunction of the mitochondria, the site in cells where molecules that power the body’s processes are produced. Not producing enough energy slows down the body and leaves the individual feeling tired.

The mitochondrion has its own DNA, separate from the cell’s, that encodes the proteins needed to produce the molecules that power the body’s processes.

Damage to the mitochondrial DNA (mtDNA) directly affects the mitochondria’s ability to function and produce energy. Increases in the amount of mtDNA have been associated with disease.

In this study, researchers measured the mtDNA amount and degree of mtDNA damage in blood cells from blood samples from veterans with GWI. Compared with healthy non-deployed controls, Gulf War veterans had more mtDNA content and greater mtDNA damage.

According to the researchers, these findings further support that mitochondrial dysfunction may be involved in GWI. “Future studies are necessary to confirm these findings and determine their association with mitochondrial function. Work in this area may guide new diagnostic testing and treatments for veterans suffering from GWI,” the researchers wrote.

Yang Chen, MS, doctoral researcher at Rutgers Biomedical and Health Sciences, will present “Mitochondrial DNA is damaged in military veterans with fatiguing conditions” as part of the symposium “Translational Bioenergetics” on Thursday, Sept. 10, at 5:05 PM EDT in the Harbour Island Ballroom of the Westin Tampa Harbour Island.

This work was conducted with funding from Veteran Affairs (VA) Clinical Science Research & Development Service awarded to Michael J. Falvo, PhD, at the War Related Illness and Injury Study Center at VA-New Jersey Health Care System in East Orange, N.J.

About the American Physiological Society
Physiology is the study of how molecules, cells, tissues and organs function in health and disease. Established in 1887, the American Physiological Society (APS) was the first U.S. society in the biomedical sciences field. The Society represents more than 11,000 members and publishes 14 peer-reviewed journals with a worldwide readership.