Browsing by Subject "Endothelial Progenitor Cells"

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    Brief report: Endothelial colony-forming cells and inflammatory monocytes in HIV
    (Ovid Technologies (Wolters Kluwer) - Lippincott Williams & Wilkins, 2015-04-15) Hays, Travis R.; Mund, Julie A.; Liu, Ziyue; Case, Jamie; Ingram, David A.; Gupta, Samir K.; Department of Medicine, IU School of Medicine
    The relationships between HIV infection, monocyte activation, and endothelial colony-forming cells (ECFCs) are unknown. We compared ECFC, intermediate monocytes (CD14 CD16), and nonclassical monocytes (CD14 CD16) levels in HIV-infected participants virologically suppressed on antiretroviral therapy, HIV-infected treatment-naive participants, and HIV-uninfected healthy controls. ECFC levels were significantly higher in the HIV-infected virologically suppressed group compared with the uninfected controls. CD14 CD16 percentages (but not CD14 CD16 cells) were significantly higher in both HIV-infected groups vs. uninfected controls. In the HIV-infected groups, ECFCs and CD14 CD16 intermediate monocytes were significantly and inversely correlated. Lower availability of ECFCs may partly explain the relationship between greater intermediate monocytes and atherosclerosis in HIV.
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    Characterization and Assessment of Lung and Bone Marrow Derived Endothelial Cells and their Bone Regenerative Potential
    (2021-12) Valuch, Conner R.; Li, Jiliang; Kacena, Melissa; Marrs, James
    Fracture repair is costly and difficult to treat. One of the main causations of nonunion is a lack of essential blood supply. The needed blood is supplied by the growth of new blood vessels, a process known as angiogenesis, that invade the damaged tissue early in the healing process. We proposed using bone tissue engineering as an effective therapy. This therapy uses stem cells to aid in tissue regeneration. Endothelial progenitor cells (EPCs) were selected due to their ability to form tube-like networks in vitro. EPCs were isolated from murine bone marrow and lung tissue. We tested EPC’s tube forming, proliferative, and wound migration ability in vitro. To test their ability in vivo we created a femoral fracture in young and old mice. EPCs were seeded to the fracture site upon a collagen scaffold. The in vitro studies displayed that the bone marrow and lung-derived endothelial cells presented EPC traits. In the mouse fracture model bone marrow, endothelial cells did not significantly improve the healing process. In the future, we want to improve our cell extraction and purification method, as well as test a new stem cell delivery biomaterial. We also want to select and use a growth factor (GF) that can help to promote bone regeneration in tandem with the EPCs.