Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More
Proposed design of a 1mm catheter-based ultrasound device designed to simultaneously measure plaque composition, artery structure, and hemodynamics in 3D in coronary arteries. The device minimizes disturbances to blood flow from the catheter itself. Assistant Professor Brooks Lindsey is leading a new $2.5 million project to develop the device, which will help doctors assess whether patients need aggressive treatment to prevent a heart attack. (Image Courtesy: Brooks Lindsey)
July 22, 2021

Lindsey Receives $2.5M to Develop Interventional Cardiology Imaging System

min read
Read More

In the News

June 5, 2026
11 Alive
June 4, 2026
Georgia Public Broadcasting
June 3, 2026
13 Action News
June 3, 2026
Forbes
June 2, 2026
Assembly Magazine
June 2, 2026
Yahoo
June 1, 2026
11 Alive
June 1, 2026
Bloomberg News
June 1, 2026
Yahoo News
June 1, 2026
Bloomberg
May 29, 2026
WXIA-TV
May 28, 2026
WANF-TV
May 28, 2026
Screen Rant
May 28, 2026
Futurity
May 27, 2026
MSN
May 25, 2026
WXIA-TV
May 22, 2026
Nature
May 22, 2026
Nature
May 21, 2026
Fortune
May 21, 2026
Yahoo! News