Faculty Bibliography

Inflammation is commonly cited as a mechanism of delayed effects of acute radiation exposure (DEARE). Confirmation of its presence could provide significant insight to targeted use of treatments or mitigators of DEARE. We sought to quantify the presence of cellular inflammation in kidneys of non-human primates that developed acute and chronic kidney injury after a partial body irradiation exposure. We show herein that cellular inflammation is not found as a component of either acute or chronic kidney injury. Other mechanistic pathways of injury must be sought.

PURPOSE/UNASSIGNED:The hemorrhagic syndrome is a major cause of morbidity and mortality associated with the acute radiation syndrome (ARS). We previously characterized the dose-response relationship for total body irradiation (TBI)-induced ARS in the New Zealand White (NZW) rabbit. Thrombocytopenia, hemorrhage, and anemia were strongly associated with morbidity/mortality during the first three weeks post-TBI. The objective of the current study was to further characterize the natural history of thrombocytopenia, hemostatic dysfunction and hemorrhage in the rabbit model at a TBI dose range to induce ARS. METHODS/UNASSIGNED: 6) were included as a comparator. Animals were treated with minimal supportive care including pain medication, antibiotics, antipyretics for temperature >104.8 °F, and fluids for signs of dehydration. Animals were culled at pre-determined timepoints post-TBI, or for signs of imminent mortality based on pre-defined euthanasia criteria. Hematology parameters, serum chemistry, viscoelasticity of whole blood, coagulation tests, and coagulation factor activities were measured. A gross exam of vital organs was performed at necropsy. RESULTS/UNASSIGNED:Findings in this study include severe neutropenia during the first week post-TBI followed by thrombocytopenia and severe acute anemia with petechial hemorrhages of the skin and hemorrhage of the vital organs during the second to third weeks post-TBI. Abnormalities in whole blood viscoelastometry were observed concurrent with thrombocytopenia and hemorrhage. Antithrombin activity was significantly elevated in animals after exposure to 7.5 Gy, but not 7.0 Gy TBI. CONCLUSIONS/UNASSIGNED:The hemorrhagic syndrome in the rabbit model of TBI recapitulates the pathogenesis described in humans following accidental or deliberate exposures. The rabbit may present an alternative to the rodent model as a small animal species for characterization of the full spectrum of multiorgan injury following TBI and early testing of promising medical countermeasures.

PURPOSE/UNASSIGNED:The purpose if this study was to develop a rabbit model of total body irradiation (TBI) -induced thrombocytopenia and coagulopathy across the dose-range which induces the hematopoietic subsyndrome of the acute radiation syndrome (H-ARS). METHODS/UNASSIGNED:Twenty male New Zealand White rabbits were assigned to arms to receive 6-MV of TBI at a dose of 6.5, 7.5, 8.5 or 9.5 Gy. Animals were treated with moderate levels of supportive care including buprenorphine for pain management, antibiotics, antipyretics for rectal body temperature >104.8 °F, and fluids for signs of dehydration. Animals were closelyfollowed for up to 45 days after TBI for signs of major morbidity/mortality. Hematology and serum chemistry parameters were routinely monitored. Hemostasis parameters were analyzed prior to TBI, 2 and 6 hours post-TBI, and at the time of euthanasia. RESULTS/UNASSIGNED:Animals developed the characteristic signs and symptoms of H-ARS during the first-week post TBI. Animals became thrombocytopenic with signs of severe acute anemia during the second week post TBI. Moribund animals presented with petechia and ecchymosis of the skin and generalized internal hemorrhage. Multiorgan dysfunction characterized by bone marrow failure, gastric ileus, acute renal toxicity, and liver abnormalities were common. Severe abnormalities in coagulation parameters were observed. CONCLUSIONS/UNASSIGNED:The presentation of bone marrow failure and multiorogan injury associated with ARS in the New Zealand White rabbit model is consistent with that described in the canine, swine, non-human primate, and in humans. The hemorrhagic syndrome associated with the ARS in rabbits is characterized by thrombocytopenia and hemostasis dysfunction, which appear to underlie the development of multiorgan dysfunction following TBI to rabbits. Taken together, the rabbit recapitulates the pathogenesis of ARS in humans, and may present an alternative small animal model for medical countermeasure pilot efficacy screening, dose-finding and schedule optimization studies prior to moving into large animal models of TBI-induced ARS.

OBJECTIVES:Reliable biomarkers for renal fibrosis are needed for clinical care and for research. Existing non-invasive biomarkers are imprecise, which has limited their utility. METHODS:We developed a method to quantify fibrosis by subject size-adjusted CT Hounsfield units. This was accomplished using CT measurements of renal cortex in previously irradiated non-human primates. RESULTS:Renal cortex mean CT Hounsfield units that were adjusted for body size had a very good direct correlation with renal parenchymal fibrosis, with an area under the curve of 0.93. CONCLUSIONS:This metric is a promising and simple non-invasive biomarker for renal fibrosis.

The diagnosis of endogenous hypercortisolism (Cushing's syndrome) is extremely challenging. Chronic kidney disease (CKD) increases the activity of the hypothalamic-pituitary-adrenal axis making the diagnosis of Cushing's syndrome even more challenging. This is particularly so since urine free cortisol (UFC) testing is not useful in CKD. The case report by Stroud et al. in this issue of the European Journal of Endocrinology highlights this problem by finding normal UFC in a patient with pituitary ACTH-dependent Cushing's syndrome. Elevated late-night salivary cortisol (LNSC) testing was diagnostic and pituitary adenomectomy was curative. LNSC measurement is the diagnostic test of choice in patients with suspected Cushing's syndrome, particularly in the presence of CKD..

We have previously shown significant pathology in the heart and kidney of murine hematopoietic-acute radiation syndrome (H-ARS) survivors of 8.7-9.0 Gy total-body irradiation (TBI). The goal of this study was to determine temporal relationships in the development of vasculopathy and the progression of renal and cardiovascular delayed effects of acute radiation exposure (DEARE) at TBI doses less than 9 Gy and to elucidate the potential roles of senescence, inflammation and oxidative stress. Our results show significant loss of endothelial cells in coronary arteries by 4 months post-TBI (8.53 or 8.72 Gy of gamma radiation). This loss precedes renal dysfunction and interstitial fibrosis and progresses to abnormalities in the arterial media and adventitia and loss of coronary arterioles. Major differences in radiation-induced pathobiology exist between the heart and kidney in terms of vasculopathy progression and also in indices of inflammation, senescence and oxidative imbalance. The results of this work suggest a need for different medical countermeasures for multiple targets in different organs and at various times after acute radiation injury to prevent the progression of DEARE.

Background: genotypes in hypertension-attributed CKD in Kinshasa, Democratic Republic of the Congo. Methods: high-risk genotypes and CKD. Results: genotypes were G1/G1 and G1/G2, whereas G2/G2 was not found in the study population. Conclusions: G2/G2 among individuals of African ancestry in the USA may indicate relaxation of natural selection in a trypanosome-free environment.

It has been speculated that the addition of antioxidants to diet could act as either radioprotectors or as mitigators of radiation injury. In preparation for studies of the mitigation efficacy of antioxidants, rats were placed on a modified version of AIN-76A, the diet typically used in such studies. This AIN-76A diet is refined and has no synthetic antioxidants or isoflavones. Compared to the natural-ingredient Teklad 8904 diet used in previous studies, use of the AIN-76A diet from 1-18 wk after irradiation significantly reduced injury in a radiation nephropathy model. A confirmation study included an additional arm in which the AIN-76A diet was started 2 wk prior to irradiation; again, the switch to AIN-76A postirradiation mitigated radiation nephropathy (p < 0.001), but switching to the AIN-76A diet preirradiation had no effect (p > 0.2). The two diets do not differ in salt content, but the AIN-76A diet is somewhat lower in protein (18% vs. 24%). The protein source (primarily soy in Teklad 8904 vs. casein in AIN-76A) might explain the effects. However, replacing the casein in AIN-76A with soy did not change the mitigation efficacy of the diet (p > 0.2 for comparison of the different AIN-76A diets). A similar study in a rat radiation pneumonitis model also suggested mitigation by postirradiation use of AIN-76A, although the effect was not statistically significant (p = 0.07). In conclusion, base diet alone can have biologically significant effects on organ radiosensitivity, but the mechanistic basis for the effect and its dependence of timing relative to irradiation are unclear.

Acute and chronic kidney injury may occur after accidental prompt radiation exposures. We have modeled their occurrence in a nonhuman primate model. Subjects who are exposed to more than 5-Gy prompt irradiation are apt to show blood cell cytopenias and be treated with granulocyte colony-stimulating factors such as Neupogen® or Neulasta® to mitigate the hematologic injury of the acute radiation syndrome. Neupogen or Neulasta are now approved by the US Food and Drug Administration for this indication. This will significantly increase the number of survivors of acute radiation exposures who will be at risk for delayed effects of radiation exposure, which includes acute and chronic kidney injury. The primary objectives of the present two companion manuscripts were to assess natural history of delayed radiation-induced renal injury in a nonhuman primate model of acute, high-dose, partial-body irradiation with 5% bone marrow sparing to include the clinical and histopathological evidence and the effect of Neupogen administration on morbidity and mortality. In this study, 88 nonhuman primates underwent 10- or 11-Gy partial-body irradiation with 5% bone marrow sparing, of which 36 were treated with Neupogen within 1, 3, or 5 d postirradiation. All animals were followed up to 180 d after irradiation. Renal function and histology end points showed early acute and later chronic kidney injury. These end points were not affected by use of Neupogen. We conclude that use of Neupogen to mitigate against the hematopoietic acute radiation syndrome has no impact on acute or chronic kidney injury.

Male rhesus macaques were subjected to partial-body irradiation at 10, 11, or 12 Gy with 5% bone marrow protection. Animals were euthanized when dictated by prospectively determined clinical parameters or at approximately 180 d following irradiation. Histological sections of kidney were stained with hematoxylin and eosin as well as a battery of histochemical and immunohistochemical stains. Histopathological alterations were centered on glomerular changes and fibrosis of glomeruli and the interstitial compartment. These changes were first noted in animals necropsied approximately 100 d postirradiation and continued in animals necropsied through the observation period. Glomerular changes included congestion, thrombosis, erythrocyte degeneration, capillary tuft dilation, fibrin deposition, altered quantity and dispersion pattern of von Willebrand factor, increased mesangial matrix, and mesangial deposits of material that stained positively with periodic acid-Schiff staining. Areas of interstitial and glomerular fibrosis, as demonstrated by Masson's trichrome staining, were topographically associated with increased immunohistochemical staining for connective tissue growth factor, alpha smooth muscle actin, and collagen 1, but there was little staining for transforming growth factor beta. Fibrotic glomeruli had reduced microvascularity as demonstrated by reduced CD31 immunohistochemical staining. Vascular congestion was commonly noted in the region of the corticomedullary junction, and proteinaceous casts were commonly noted in cortical and medullary tubules. Longitudinal analysis of histopathological alterations provided evidence defining the latency, severity, and progression of delayed radiation-induced kidney injury.