Passings
Donald Ray Chandler
April 14, 1937 — January 21, 2025
Donald R. Chandler, age 87, of Huntingtown, Maryland passed away Tuesday, January 21, 2025, at his home. Don was born April 14, 1937, in Alton WV, son of the late Ralph and Cozbi Chandler. He is survived by his wife of 63 years, Sandra. In addition to his wife, he is survived by his three children, Mark, Lisa, and Sandee, nine grandchildren, and nine great-grandchildren. He is also survived by siblings, Danny and Kathy and preceded in death by three siblings, Dick, Helen, and Judy.
He was a career Navy veteran, career government employee and a previous Executive Director of the Undersea and Hyperbaric Medical Society. His lifetime passion was his 49 years as a devoted minister.
He had many accomplishments with one being the "Undersea and Hyperbaric Medical Society, 1967 – 2007, A History of 40 Years" to capture our UHMS history. If you've never read it, it's available here: https://lnkd.in/gYmx8yUQ
Dr. John Hallenbeck, UHMS president from 1982-83, passed on 9 Feb. 
Dr. Hallenbeck was an internationally renowned basic and translational neurologist and an esteemed member of the NINDS family. He was the founder and chief of the Stroke Branch in the NINDS intramural program, where he served for nearly three decades through his outstanding research, mentorship, and leadership. Upon his retirement from civil service in 2018, he was honored with the title of Scientist Emeritus.
A pioneer in the field of neurovascular inflammation and stroke protection mechanisms, Dr. Hallenbeck was among the first to recognize the importance of vascular inflammation and neuroinflammation in stroke, and the potential of ischemic tolerance to prevent cell death. His groundbreaking work significantly advanced the understanding of stroke pathology and highlighted inflammation as a critical area of research in neurodegenerative diseases.
Dr. Hallenbeck's seminal research on ground squirrels illuminated how the process of hibernation protects the brain by activating SUMOylation, a cellular mechanism crucial for protein function regulation. His further studies demonstrated that SUMOylation also protects the rodent brain from stroke.
Together with the members of his Clinical Investigations Section, Dr. Hallenbeck studied ways to prevent the development of spontaneous brain infarcts in hypertensive, stroke-prone rats. With his team, he explored endogenous neuroprotective mechanisms that induce tolerance to hypoxia and ischemia in brain cells. His research into E-selectin, a cell adhesion molecule expressed exclusively on endothelial cells, highlighted the potential of immunization through mucosal tolerization as a viable therapeutic approach. He demonstrated that intranasal administration of recombinant E-selectin can suppress both thrombotic and hemorrhagic strokes in spontaneously hypertensive, genetically stroke-prone rats. This strategy holds promise for protecting the brain from ischemic injury, autoimmune encephalitis, vasospasm in subarachnoid hemorrhage, white matter damage, and vascular cognitive impairment.
Dr. Hallenbeck earned his BS in medicine from the University of South Dakota in 1964 and his medical degree from the University of Pennsylvania in 1966. Following a medical internship and neurology residency at the University of Michigan, he joined the U.S. Navy. At the Naval Medical Research Institute, his research focused on central nervous system decompression sickness and air embolism, and later, on the inflammatory and immune mechanisms in acute brain ischemia.
In 1983, Dr. Hallenbeck was appointed chief of the Navy’s neurology training program at the National Naval Medical Center. From 1983 to 1991, he served as Professor of Neurology and Physiology at the Uniformed Services University of the Health Sciences, also holding roles as Vice Chairman and Chairman for Research in its Neurology Department. In 1991 he was recruited to lead the newly created Stroke Branch in NINDS Intramural Research, where he served as chief until 2018.
Upon his transition to NINDS, the National Naval Medical Center (now the Walter Reed National Military Medical Center) created the "Hallenbeck Award," annually recognizing an outstanding graduating neurology resident for their dedication and excellence in clinical neurology, research, and professionalism.
Under Dr. Hallenbeck’s leadership, the NINDS Stroke Branch grew into a world class translational stroke research enterprise. He fostered a multidisciplinary research team focused on translating promising innovations into clinical trials, while at the same time creating an atmosphere that encouraged team members to inquire and learn about all aspects of stroke research, including those outside of their primary expertise.
In 1999, with the addition of Dr. Steven Warach to the team, the Stroke Branch developed an acute stroke care program located at Suburban Hospital in Bethesda, MD. Later, the program expanded to Washington Hospital Center in Washington, DC. This A-rated program produced unique research opportunities and has effectively recruited patients to multi-level trials. Additionally, this work established the critical role of imaging biomarkers for managing clinical decisions associated with acute stroke. The program has had an important impact on the quality of stroke care.
Throughout his career, Dr. Hallenbeck received numerous prestigious awards including the American Stroke Association’s highest honor, the Thomas Willis Award. He also received the Stover-Link Award, the Albert Behnke Award, the Mihara Cerebrovascular Disorder Research Prize, as well as several DHHS Special Act or Service Awards and three NIH Director’s Awards.
In a 2011 interview with Medscape, Dr. Hallenbeck reflected, "Life is always better if you choose to do something that you can do fairly well, rather than to struggle with what you do or just be average at what you do," he said. "The other important thing is to be able to tell the difference. You need to know when you really like to do something and have some promise for that line of work. I'm happy with the choice I made. I'm in a field that is right for me."
John’s legacy endures through his monumental contributions to stroke research, treatment, and prevention, and through the many scientists he worked with, mentored, and inspired.