Vascular Mechanotransduction: Redox Regulation and Beyond
Hanjoong Jo, Ph.D. - Emory University
10th Meeting of the International 4-Hydroxynonenal (HNE) Club
Nashville, Tennessee, USA
25th Annual Conference of the Society for Redox Biology & Medicine
Hilton Palmer House
Chicago, Illinois, USA
Established in 1987, the SOCIETY FOR REDOX BIOLOGY AND MEDICINE is a professional organization comprised of scientists and clinicians investigating redox biology, a unifying theme in the pathophysiology of human diseases.
Publication date: December 2018 Source: Free Radical Biology and Medicine, Volume 129 Author(s): Shijun Ma, Afu Fu, Sierin Lim, Geraldine Giap Ying Chiew, Kathy Qian Luo AbstractCirculation of cancer cells in the bloodstream is a vital step for distant metastasis, during which cancer cells are expos ...
Publication date: December 2018 Source: Free Radical Biology and Medicine, Volume 129 Author(s): Lucilla Ribeiro Ávila, Clayson Moura Gomes, Pollyana Guimarães Oliveira, Rodrigo Saar Gomes, Marina Clare Vinaud, Miriam Leandro Dorta, Silvia Reni Bortolin Uliana, Fátima Ribeiro-Di ...
Publication date: October 2018 Source: Redox Biology, Volume 19 Author(s): Ge Chenxu, Xu Minxuan, Qin Yuting, Gu Tingting, Lv Jinxiao, Wang Mingxing, Wang Sujun, Ma Yongjie, Lou Deshuai, Li Qiang, Hu Linfeng, Tan Jun AbstractParticulate matter (PM2.5) is a risk factor for organ injury and disease pr ...
Publication date: October 2018 Source: Redox Biology, Volume 19 Author(s): Priya K. Prasai, Bandana Shrestha, A. Wayne Orr, Christopher B. Pattillo AbstractThe angiogenic capacity of local tissue critically regulates the response to ischemic injury. Elevated reactive oxygen species production, commo ...
July 15, 2018
SfRBM's Senior Awards Committee has announced that the recipient of the 2018 Lifetime Achievement Award is Daret St. Clair, Ph.D., of the University of Kentucky.
November 15, 2017
A recent breakthrough by Dr. Thomas Michel of Harvard School of Medicine has shown that insulin impacts the body in a unique way. The study, recently published in FRBM, unveiled an entirely unexpected mechanism whereby insulin-dependent generation of hydrogen peroxide (H2O2) in cardiac myocytes controls heart contractility and critical cell signaling pathways. These research findings have direct implications for our understanding of diabetic cardiomyopathy, which is a major cause of morbidity and mortality for patients with diabetes.
July 26, 2017
This special issue contains a collection of state-of-the art review articles and an updated overview of HNE involvement in human pathophysiology. It will be a valuable resource for researchers in the field, graduate and post-graduate students as well as grant awarding agencies. The issue is dedicated to the discovery of HNE and leading scientist Hermann Esterbauer on the occasion of the 20th anniversary of his death.