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Blast trauma and human brain

Date Time Blast trauma and human brain A University of Texas at Arlington researcher has received an Office of Naval Research (ONR) grant to examine the mechanics of how blast-like events cause damage to the brain. Ashfaq Adnan, professor of mechanical and aerospace engineering, has received a three-year, $944,845 grant to study the potential link between blast-like trauma and cellular and tissue damage in the brain. By using ultra-high-speed cameras to capture dynamic events within a simulated brain, he will be able to look at rapid acceleration and deceleration to investigate what happens during such events. Previous research has suggested that blast-like trauma has great potential to create cavitation, or bubbles, and cause damage to brain cells, with some studies showing their presence inside realistic head models. Adnan wants to track the entire process of bubble formation, evolution and collapse to observe how it affects brain cells.

Erian armaniosTimothy bentleyAshfaq adnanJeremy agorDefense university research instrumentation programOffice of naval researchCollege of engineeringNational institutes of healthHealth protection programA university of texas at arlingtonAerospace engineering departmentNaval researchForce health protection programAerospace engineeringNational institutesUniversity of texas at arlington

AFOSR advances science of wound-healing technology > U S Air Force > Article Display

By Matthew D. Peters, Virginia Tech Applied Research Corporation / Published January 28, 2021 ARLINGTON, Va. (AFNS) The Air Force Research Laboratory’s cutting-edge research creates future warfighting technologies for the Air and Space Forces, protecting the lives of those that put themselves in harm’s way. Ground-breaking research into cellular reprogramming, made possible in part with funding from AFRL’s Air Force Office of Scientific Research, is leading to technology that could heal wounds more than five times faster than the human body can heal naturally, vastly improving long-term health care outcomes for warfighters and veterans. Dr. Indika Rajapakse, associate professor of Computational Medicine & Bioinformatics and associate professor of Mathematics at the University of Michigan, is researching ways to reprogram a person’s own cells to heal wounds faster. In order to get high-resolution views inside live cells to better understand the woun

United statesIndika rajapakseRajesh naikShery welshFariba fahrooDefense university research instrumentation programResearch laboratoryOffice of scientific researchDisruptive technology teamUniversity of michiganDisruptive technologyAir force research laboratorySpace forcesForce officeScientific researchComputational medicine

AFOSR advances science of wound-healing technology > United States Air Force Academy > Air Force Academy News

AFOSR advances science of wound-healing technology > United States Air Force Academy > Air Force Academy News
af.mil - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from af.mil Daily Mail and Mail on Sunday newspapers.

United statesIndika rajapakseRajesh naikShery welshFariba fahrooDefense university research instrumentation programResearch laboratoryOffice of scientific researchDisruptive technology teamUniversity of michiganDisruptive technologyAir force research laboratorySpace forcesForce officeScientific researchComputational medicine

AFOSR advances science of wound-healing technology > Air Mobility Command > Article Display

AFOSR advances science of wound-healing technology > Air Mobility Command > Article Display
af.mil - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from af.mil Daily Mail and Mail on Sunday newspapers.

AFOSR advances science of wound-healing technology

Date Time AFOSR advances science of wound-healing technology The Air Force Research Laboratory‘s cutting-edge research creates future warfighting technologies for the Air and Space Forces, protecting the lives of those that put themselves in harm’s way. Ground-breaking research into cellular reprogramming, made possible in part with funding from AFRL’s Air Force Office of Scientific Research, is leading to technology that could heal wounds more than five times faster than the human body can heal naturally, vastly improving long-term health care outcomes for warfighters and veterans. Dr. Indika Rajapakse, associate professor of Computational Medicine & Bioinformatics and associate professor of Mathematics at the University of Michigan, is researching ways to reprogram a person’s own cells to heal wounds faster. In order to get high-resolution views inside live cells to better understand the wound-healing process, Rajapakse submitted a Defense University Research Instrumen

United statesIndika rajapakseRajesh naikShery welshFariba fahrooDefense university research instrumentation programResearch laboratoryDisruptive technology teamUniversity of michiganDisruptive technologyUs air forceOffice of scientific researchAir force research laboratorySpace forcesForce officeScientific research