Abstract

This research involves the development and use of a small animal model to study acute and chronic hepatic radiation injury. Such hepatic injury can be a dose limiting, life threatening complication in patients undergoing treatment of metastatic and primary liver cancers and other neoplasms in the upper abdomen of lower thorax, or after total body or abdominal irradiation prior to bone marrow transplantation. Hepatic radiation injury is a particular problem in patients who have compromised livers due to partial liver resection, administration of hepatotoxic chemotherapeutic agents, or preexisting liver abnormalities at the time of irradiation. The consequences of these co-existing risk factors at the time of liver irradiation will be addressed in this research. Experiments with male Sprague-Dawley rats will be conducted to characterize and quantitate the pathophysiological changes that are produced by localized whole-liver irradiation. This will be studied in intact livers and in livers subjected to partial hepatectomy. At various times after irradiation, liver function, necrosis, steatosis, fibrosis, edema, cholestasis, sepsis, and endotoxemia will be measured using standard histological, microbiological, biochemical, and clinical chemistry procedures. The cellular basis for these pathophysiological changes will be investigated by quantitative isolation of hepatocytes, Kupffer and endothelial cells, followed by study of these individual cell types with respect to number, viability and functional integrity as a function of dose and time after irradiation. The influence of cell proliferation on radiation-induced hepatic injury will be investigated by comparing the rate of injury development in unstimulated intact livers, in livers stimulated to proliferate by partial hepatectomy and in partially hepatectomized livers where proliferation has been inhibited. Radiation dose fractionation studies will be performed to measure time dependent recovery processes (e.g., slow repair), repair capacity and kinetics in the liver.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK035129-04
Application #
3233375
Study Section
Radiation Study Section (RAD)
Project Start
1987-09-01
Project End
1992-08-31
Budget Start
1990-09-01
Budget End
1991-08-31
Support Year
4
Fiscal Year
1990
Total Cost
Indirect Cost

  Institution

Name
University of Washington
Department
Type
Schools of Public Health
DUNS #
135646524
City
Seattle
State
WA
Country
United States
Zip Code
98195

  Publications

Geraci, J P; Mariano, M S (1994) Radiation hepatology of the rat: the effects of the proliferation stimulus induced by subtotal hepatectomy. Radiat Res 140:249-56
Geraci, J P; Mariano, M S; Jackson, K L (1993) Effect of adrenalectomy on the latency of radiation myelopathy in rats. Radiat Res 134:179-86
Geraci, J P; Mariano, M S (1993) Radiation hepatology of the rat: parenchymal and nonparenchymal cell injury. Radiat Res 136:205-13
Geraci, J P; Mariano, M S; Jackson, K L (1993) Amelioration of radiation nephropathy in rats by dexamethasone treatment after irradiation. Radiat Res 134:86-93
Geraci, J P; Mariano, M S; Jackson, K L (1993) Radiation hepatology of the rat: time-dependent recovery. Radiat Res 136:214-21
Geraci, J P; Mariano, M S; Jackson, K L et al. (1992) Effects of dexamethasone on late radiation injury following partial-body and local organ exposures. Radiat Res 129:61-70
Geraci, J P; Mariano, M S; Jackson, K L (1992) Radiation hepatology of the rat: microvascular fibrosis and enhancement of liver dysfunction by diet and drugs. Radiat Res 129:322-32
Geraci, J P; Taylor, D A; Mariano, M S et al. (1992) Effects of dexamethasone on the development of radiation nephropathy in the rat. Radiat Res 131:186-91
Geraci, J P; Mariano, M S; Jackson, K L (1991) Hepatic radiation injury in the rat. Radiat Res 125:65-72