CHARLOTTESVILLE, Va., Sept. 29, 2016 (GLOBE NEWSWIRE) -- Diffusion Pharmaceuticals Inc. (OTCQX:DFFN), a clinical stage biotechnology company focused on the development of novel small molecule therapeutics for the treatment of cancer and various hypoxia-related conditions, today announced the establishment of a new Scientific Advisory Board (“SAB”) of distinguished scientists and clinicians. The SAB will serve as a resource to Diffusion in the continued development of its lead drug candidate, trans sodium crocetinate (TSC), in its many areas of therapeutic use for indications involving hypoxic conditions.
David G. Kalergis, Diffusion’s Chairman and Chief Executive Officer, said, “The newly assembled SAB is comprised of distinguished leaders in their respective fields, all of whom share the common objective of developing therapeutics to treat hypoxia-induced maladies and address selected unmet medical needs. The SAB includes expertise in brain cancer, stroke, peripheral artery disease, and Alzheimer’s disease. The composition of this board demonstrates the high level of interest in the significant therapeutic potential of TSC from scientific leaders across a wide array of disciplines.”
The newly formed SAB consists of the following distinguished members:
Guy M. Chisolm, PhD, Chair of Diffusion Pharmaceuticals’ SAB
Guy M. Chisolm III, Ph.D. was Professor in the Department of Cellular and Molecular Medicine and Vice Chair of the Lerner Research Institute at Cleveland Clinic prior to his recent retirement. He also previously served on Cleveland Clinic’s Board of Governors and Board of Trustees. He also held an appointment as Professor of Biomedical Engineering at Case Western Reserve University. He served on numerous editorial boards and peer review study sections at NIH and American Heart Association. He received a BS from the University of Pennsylvania, MS and PhD from the University of Virginia and postdoctoral research training from the Karolinska Institute (Stockholm) and MIT. He has published over 100 articles on vascular cell biology and atherosclerosis.
Gene H. Barnett, MD., MBA, FACS
Dr. Gene H. Barnett serves as Director, Rose Ella Burkhardt Brain Tumor and Neuro-Oncology Center of the Cleveland Clinic Neurological Institute. He has authored more than 210 articles published in leading medical journals and has a particular interest in the areas of neuro-oncology, computer-assisted surgery and stereotactic radiosurgery. Dr. Barnett created the Center for Computer-Assisted Neurosurgery at Cleveland Clinic, and established Cleveland Clinic's innovative neurosurgery program. He holds several patents and continues work on the development of technology in neurosurgery including laser lesioning systems for brain tumors. He graduated summa cum laude from Case Western Reserve University with a B.A. in Biology and Chemistry, and received his M.D. from Case Western Reserve University School of Medicine. He did his residency in neurosurgery and a fellowship in neurology at Cleveland Clinic, served as an honorary registrar at the University of Edinburgh in Scotland, and completed a clinical and research fellowship at Harvard Medical School and Massachusetts General Hospital. In addition, he completed the executive MBA program at the Weatherhead School of Management of Case Western Reserve University.
Connie Hess, MD, MHS
Dr. Hess is an interventional Cardiologist at the University of Colorado where she serves as an Assistant Professor of Medicine. She also serves as a Clinician Scientist for CPC Clinical Research, a university-affiliated, non-profit cardiovascular and clinical trials research organization. Previously, Dr. Hess was an Assistant Professor in the Department of Medicine, Division of Cardiology at Duke University Medical Center and was a faculty member of the Duke Clinical Research Institute (DCRI). She received her medical degree from Harvard Medical School and completed her internship and residency in internal medicine at Massachusetts General Hospital. Dr. Hess completed fellowships in cardiology and interventional cardiology at Duke University Medical Center, where she also earned a Master of Health Science degree.
William R. Hiatt, MD
Dr. Hiatt is an endowed professor for cardiovascular research at the University of Colorado School of Medicine, Division of Cardiology with a clinical and research focus in vascular medicine. He is president of CPC Clinical Research, a university-affiliated, non-profit cardiovascular and clinical trials research organization. Research activities include studies evaluating the pathophysiology and epidemiology of peripheral artery disease and related disorders. He received his medical degree cum laude from the University of Colorado School of Medicine, and was elected to the Alpha Omega Alpha medical society. Dr. Hiatt completed his residency training at Boston University Hospital and the University of Colorado Health Sciences Center. He was a fellow in internal medicine and vascular medicine at the University of Colorado before joining the University of Colorado faculty. CPC Clinical Research currently is running several large cardiovascular outcome trials.
Karen C. Johnston, MD, MSc
Dr. Johnston is the Harrison Distinguished Professor and Chair of Neurology and Professor of Public Health Sciences at the University of Virginia. Dr. Johnston’s research has focused on the design and execution of middle phase and phase III clinical trials. She is currently leading the NIH-NINDS funded Phase III Stroke Hyperglycemia Insulin Network Effort (SHINE) trial in acute ischemic stroke. Dr. Johnston graduated AOA from the University of Rochester School of Medicine, where she also did her internal medicine and neurology residency training. She did a vascular neurology fellowship at UVA and obtained a master’s degree in outcomes and clinical investigation at UVA.
Jeffrey L. Saver, MD, FAHA, FAAN, FANA
Dr. Saver has been Director of the UCLA Stroke Unit since its inception, and Professor and SA Vice-Chair of Neurology at the David Geffen School of Medicine. He is a leader in cerebrovascular research and clinical care. Dr. Saver has published more than 500 original articles, more than 30 book chapters, and two edited volumes and has been the principal investigator of more than 50 clinical research studies. His research focuses on stroke prevention, acute stroke treatment, stroke diagnosis, and neurocognitive and neurobehavioral consequences of stroke. Dr. Saver received his medical degree from Harvard Medical School, and is a graduate of the Harvard-Longwood Neurology Training Program, the University of Iowa Fellowship Program in Behavioral Neurology and Cognitive Neuroscience, and the Brown University Fellowship Program in Vascular Neurology. Dr. Saver did his internship at Brigham & Women's Hospital and his residency at Brigham & Women's Hospital.
Kathleen A. Welsh-Bohmer, Ph.D., ABPP-CN
Dr. Welsh-Bohmer is the Director of the Joseph and Kathleen Bryan Alzheimer’s Disease Research Center (Bryan ADRC) at Duke University Medical Center, which focuses on basic science discovery and clinical care programs for patients with Alzheimer’s disease and other similar memory complaints. Under Dr. Welsh-Bohmer’s leadership, the Bryan ADRC has established broad collaborative ties regionally, nationally and internationally. She also serves as Professor, Department of Psychiatry and Behavioral Sciences, Division of Medical Psychology and has a joint appointment with the Department of Neurology at Duke University. She holds a BS in Psychology from Duke University and a PhD in Psychology from University of Virginia. She completed a postdoctoral clinical training fellowship in Clinical Neuropsychology at University of Iowa. She is board certified through the American Board of Professional Psychologists in the practice of clinical neuropsychology.
About Diffusion Pharmaceuticals
Diffusion Pharmaceuticals is a clinical stage biotechnology company focused on extending the life expectancy of cancer patients by improving the effectiveness of current standard-of-care treatments including radiation therapy and chemotherapy. The Diffusion technology is a paradigm shift in the approach to the treatment of cancer and other diseases involving hypoxia, or oxygen deprivation, in that it facilitates the diffusion of oxygen to hypoxic tissues. Diffusion is developing its lead drug, trans sodium crocetinate (TSC), for use in the many cancer types in which tumor hypoxia is known to diminish the effectiveness of current treatments. TSC targets the cancer’s hypoxic micro-environment, re-oxygenating treatment-resistant tissue and making the cancer cells more vulnerable to the therapeutic effects of treatments such as radiation therapy and chemotherapy, without the apparent addition of any serious side effects.
A Phase 2 clinical program, completed in the second quarter of 2015, evaluated 59 patients with newly diagnosed glioblastoma multiforme (GBM). This open label, historically controlled study demonstrated a favorable safety and efficacy profile for TSC combined with standard of care. The U.S. Food and Drug Administration has guided the design of a Phase 3 trial in newly diagnosed GBM. Additional planned studies, subject to receipt of necessary financing, include a Phase 2 trial in pancreatic cancer and a study in brain metastases. Due to its novel mechanism of action, TSC has safely re-oxygenated a range of tumor types in our preclinical and clinical studies. The Company believes its therapeutic potential is not limited to specific tumors, thereby making it potentially useful to improve standard-of-care treatments of other life-threatening cancers and multiple hypoxia-linked disorders.
To the extent any statements made in this news release deal with information that are not historical facts, these are forward-looking statements under the Private Securities Litigation Reform Act of 1995. Such statements include, but are not limited to, statements about the company’s plans, objectives, expectations and intentions with respect to future operations and products, the potential of the company’s technology and product candidates, the continued development of TSC in GBM, pancreatic cancer and possibly other indications, and other statements that are not historical in nature, including those that utilize terminology such as “would,” “will,” “plans,” “possibility,” “potential,” “future,” “expects,” “anticipates,” “believes,” “intends,” “continue,” “estimates,” “targets,” “projects,” “intends,” and similar expressions, derivations of such words and the use of future dates. Forward-looking statements by their nature address matters that are, to different degrees, uncertain and involve both known and unknown risks. These uncertainties and risks may cause the Company’s actual results to be materially different than those expressed in or implied by such forward-looking statements. Particular uncertainties and risks include: general business and economic conditions; the Company’s need for and ability to obtain additional financing; the Company’s ability to satisfy regulatory requirements with respect to its product candidates; the Company’s ability to maintain and defend its intellectual property; the conduct and success of the Company’s clinical trials, including successful enrollment in those trials; the safety and efficacy of the Company’s product candidates; the Company’s ability to retain and recruit qualified personnel; the difficulty of developing pharmaceutical products, obtaining regulatory and other approvals and achieving market acceptance; and the other factors discussed in the Company’s public filings, including the risk factors included in the Company’s most recent Annual Report on Form 10-K. All forward-looking statements in this news release speak only as of the date of this news release and are based on Company management’s current beliefs and expectations. Investors, potential investors and other readers are urged to consider these factors carefully in evaluating the forward-looking statements and are cautioned not to place undue reliance on such forward-looking statements. The Company undertakes no obligation to update or revise any forward-looking statement, whether as a result of new information, future events or otherwise after the date of this release, except as required by applicable law.GlobeNewswire
Last updated on: 02/10/2016
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