by Dirk Hoffman
Published May 29, 2018 This content is archived.
UB’s Clinical and Translational Science Institute (CTSI) has awarded new grants that support promising translational research projects in Western New York.
Using local institutional support and an award from the National Center for Advancing Translational Sciences (NCATS), National Institutes of Health, the CTSI has funded two projects involving researchers from the School of Engineering and Applied Sciences.
Developing diagnostics that aid the discovery of stroke origin would represent a major advance in stroke workup.
The advent of endovascular thrombectomy devices has enabled the investigation of freshly retrieved thrombi after stroke treatment.
The researchers are proposing to develop biomarkers to characterize the origin of the stroke from characteristics of the blood clot.
Such biomarkers could be implemented at the point-of-care to reduce time and cost of post-stroke workups and could help determine the origin of cryptogenic strokes.
To do this, the researchers will collect resected clots from stroke thrombectomy treatments and use clot characteristics to develop predictive algorithms to classify stroke origin.
Combining analysis of clot histology, gene expression, medical imaging and patient medical information and outcomes, the researchers will characterize stroke cases with different known origins.
Significant differences between etiologies will be incorporated into a machine learning pipeline to develop computational algorithms to classify different types of stroke.
Results from this study will be the springboard for larger efforts in developing biomarkers to aid in the clinical workup of stroke.
The study is a multi-disciplinary effort to develop a novel antibody-based treatment for patients with acute myocardial infarction (MI).
Based on a growing body of evidence that excessive accumulation of inflammatory immune cells can impair cardiac repair after MI, the investigative team has developed a functionblocking monoclonal antibody (mAb) targeting E-selectin, an adhesion molecule that plays an important role in inflammatory cell mobilization and recruitment after cardiac injury.
The central purpose of the study is to complete preclinical studies in swine, while testing the hypothesis that administration of anti-E-selectin mAbs early after MI will improve post-infarction myocardial repair by reducing inflammatory cell infiltration in damaged heart muscle, thereby attenuating adverse cardiac remodeling and preventing the development of heart failure.
Ultimately, clinical translation of this new therapeutic strategy would significantly improve the treatment of millions of people who suffer from MI each year.