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Browsing by Subject "Whole body irradiation"
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Item Immune Reconstitution and Thymic Involution in the Acute and Delayed Hematopoietic Radiation Syndromes(Wolters Kluwer, 2020) Wu, Tong; Plett, P. Artur; Chua, Hui Lin; Jacobsen, Max; Sandusky, George E.; MacVittie, Thomas J.; Orschell, Christie M.; Medicine, School of MedicineLymphoid lineage recovery and involution after exposure to potentially lethal doses of ionizing radiation have not been well defined, especially the long-term effects in aged survivors and with regard to male / female differences. To examine these questions, male and female C57BL/6 mice were exposed to lethal radiation at 12 weeks of age in a model of the Hematopoietic-Acute Radiation Syndrome, and bone marrow, thymus, spleen and peripheral blood examined up to 24 months of age for the lymphopoietic Delayed Effects of Acute Radiation Exposure. Aged mice showed myeloid skewing and incomplete lymphocyte recovery in all lymphoid tissues. Spleen and peripheral blood both exhibited a mono-phasic recovery pattern while thymus demonstrated a bi-phasic pattern. Naïve T cells in blood and spleen and all subsets of thymocytes were decreased in aged irradiated mice compared to age-matched non-irradiated controls. Of interest, irradiated males experienced significantly improved reconstitution of thymocyte subsets and peripheral blood elements compared to females. Bone marrow from aged irradiated survivors was significantly deficient in the primitive lymphoid-primed multipotent progenitors and common lymphoid progenitors, which were only 8–10% of levels in aged-matched non-irradiated controls. Taken together, these analyses define significant age- and sex-related deficiencies at all levels of lymphopoiesis throughout the lifespan of survivors of the Hematopoietic-Acute Radiation Syndrome, and may provide a murine model suitable for assessing the efficacy of potential medical countermeasures and therapeutic strategies to alleviate the severe immune suppression that occurs after radiation exposure.Item Lifelong residual bone marrow damage in murine survivors of the hematopoietic acute radiation syndrome (H-ARS): a compilation of studies comprising the Indiana University experience(Lippincott, Williams & Wilkins, 2020-04-01) Chua, Hui Lin; Plett, P. Artur; Fisher, Alexa; Sampson, Carol H.; Vemula, Sasidhar; Feng, Hailin; Sellamuthu, Rajendran; Wu, Tong; MacVittie, Thomas J.; Orschell, Christie M.; Medicine, School of MedicineAccurate analyses of the delayed effects of acute radiation exposure (DEARE) in survivors of the hematopoietic acute radiation syndrome (H-ARS) are hampered by low numbers of mice for examination due to high lethality from the acute syndrome, increased morbidity and mortality in survivors, high cost of husbandry for long-term studies, biological variability, and inconsistencies of models from different laboratories complicating meta-analyses. To address this, a compilation of 38 similar H-ARS studies conducted over a seven-year period in the authors’ laboratory, comprising more than 1,500 irradiated young adult C57BL/6 mice and almost 600 day-30 survivors, was assessed for hematopoietic DEARE at various times up to 30 months of age. Significant loss of long-term repopulating potential of phenotypically-defined primitive hematopoietic stem cells (HSC) was documented in H-ARS survivors, as well as significant decreases in all hematopoietic lineages in peripheral blood, prominent myeloid skew, significantly decreased bone marrow cellularity and numbers of lineage-negative Sca-1+ cKit+ CD150+ cells (KSLCD150+; the phenotype known to be enriched for HSC), and increased cycling of KSLCD150+ cells. Studies interrogating the phenotype of bone marrow cells capable of initiation of suspension cultures and engraftment in competitive transplantation assays documented the phenotype of HSC in H-ARS survivors to be the same as that in non-irradiated age-matched controls. This compilation study adds rigor and validity to our initial findings of persistent hematopoietic dysfunction in H-ARS survivors that arises at the level of the HSC and which affects all classes of hematopoietic cells for the life of the survivor.