The aim of this Emerging Technology Initiative is to inspire and nurture research initiatives on the novel concept of Reconfigurable Intelligent Surfaces (RISs).
Study provides new insights into the mechanism of bone marrow tissue
Imagine a day when clinicians treating people with blood diseases such as leukemia or multiple myeloma can send in requests for laboratories to custom-produce specific types of blood cells to replace those affected by the disease.
That day became one step closer to reality with a new study led by experts at Cincinnati Children s that provides powerful new insights into how bone marrow tissue works.
The study, published Feb. 10, 2021 in
Nature, was led by senior author Daniel Lucas, PhD, and first authors Jizhou Zhang, MD, and Qingqing Wu, PhD, from the Division of Experimental Hematology and Cancer Biology. Co-authors include a team of scientists from Cincinnati Children s and the University of Cincinnati, plus collaborators in Colorado, Texas and Michigan.
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IMAGE: These maps pinpoint the location of blood progenitors and their differentiating offspring in the mouse bone marrow. This is the first study to image blood production at this level of. view more
Credit: Cincinnati Children s
CINCINNATI Imagine a day when clinicians treating people with blood diseases such as leukemia or multiple myeloma can send in requests for laboratories to custom-produce specific types of blood cells to replace those affected by the disease.
That day became one step closer to reality with a new study led by experts at Cincinnati Children s that provides powerful new insights into how bone marrow tissue works.