Past and Future Work on Radiobiology Mega-studies: a Case Study at Argonne National Laboratory

Overview

Journal Health Phys

Specialties Environmental Health
Nuclear Medicine

Date 2011 Oct 19

PMID 22004930

Citations 11

Authors

Benjamin Haley

Qiong Wang

Beau Wanzer

Stefan Vogt

Lydia Finney

Ping Liu Yang

Tatjana Paunesku

Gayle Woloschak

Affiliations

Soon will be listed here.

Abstract

Between 1952 and 1992, more than 200 large radiobiology studies were conducted in research institutes throughout Europe, North America, and Japan to determine the effects of external irradiation and internal emitters on the lifespan and tissue toxicity development in animals. At Argonne National Laboratory, 22 external beam studies were conducted on nearly 700 beagle dogs and 50,000 mice between 1969 and 1992. These studies helped to characterize the effects of neutron and gamma irradiation on lifespan, tumorigenesis, and mutagenesis across a range of doses and dosing patterns. The records and tissues collected at Argonne during that time period have been carefully preserved and redisseminated. Using these archived data, ongoing statistical work has been done and continues to characterize quality of radiation, dose, dose rate, tissue, and gender-specific differences in the radiation responses of exposed animals. The ongoing application of newly-developed molecular biology techniques to the archived tissues has revealed gene-specific mutation rates following exposure to ionizing irradiation. The original and ongoing work with this tissue archive is presented here as a case study of a more general trend in the radiobiology megastudies. These experiments helped form the modern understanding of radiation responses in animals and continue to inform development of new radiation models. Recent archival efforts have facilitated open access to the data and materials produced by these studies, and so a unique opportunity exists to expand this continued research.

Citing Articles

Analyses of cancer incidence and other morbidities in neutron irradiated B6CF1 mice.

Zander A, Paunesku T, Woloschak G PLoS One. 2021; 16(3):e0231511.

PMID: 33657093 PMC: 7928494. DOI: 10.1371/journal.pone.0231511.

Neutron Radiobiology and Dosimetry.

Stricklin D, VanHorne-Sealy J, Rios C, Scott Carnell L, Taliaferro L Radiat Res. 2021; 195(5):480-496.

PMID: 33587743 PMC: 8182974. DOI: 10.1667/RADE-20-00213.1.

Effects of low dose and low dose rate low linear energy transfer radiation on animals - review of recent studies relevant for carcinogenesis.

Paunesku T, Stevanovic A, Popovic J, Woloschak G Int J Radiat Biol. 2020; 97(6):757-768.

PMID: 33289582 PMC: 9216178. DOI: 10.1080/09553002.2020.1859155.

Analyses of cancer incidence and other morbidities in gamma irradiated B6CF1 mice.

Zander A, Paunesku T, Woloschak G PLoS One. 2020; 15(8):e0231510.

PMID: 32818954 PMC: 7440931. DOI: 10.1371/journal.pone.0231510.

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.

Chua H, Plett P, Fisher A, Sampson C, Vemula S, Feng H Health Phys. 2019; 116(4):546-557.

PMID: 30789496 PMC: 6388630. DOI: 10.1097/HP.0000000000000950.

References

THOMSON J, WILLIAMSON F, Grahn D, AINSWORTH E . Life shortening in mice exposed to fission neutrons and gamma rays II. Duration-of-life and long-term fractionated exposures. Radiat Res. 1981; 86(3):573-9. View

Paunesku D, Paunesku T, Wahl A, Kataoka Y, Murley J, Grdina D . Incidence of tissue toxicities in gamma ray and fission neutron-exposed mice treated with Amifostine. Int J Radiat Biol. 2008; 84(8):623-34. DOI: 10.1080/09553000802241762. View

Nikula K, Muggenburg B, Griffith W, Carlton W, Fritz T, Boecker B . Biological effects of 137CsCl injected in beagle dogs of different ages. Radiat Res. 1996; 146(5):536-47. View

Churchill M, Gemmell M, Woloschak G . Detection of retinoblastoma gene deletions in spontaneous and radiation-induced mouse lung adenocarcinomas by polymerase chain reaction. Radiat Res. 1994; 137(3):310-6. View

Gerber G, Wick R, Watson C, GOSSNER W, Kellerer A . International radiobiology archives of long-term animal studies: structure, possible uses and potential extension. Radiat Environ Biophys. 1999; 38(2):75-9. DOI: 10.1007/s004110050141. View

Carnes B, Fritz T . Responses of the beagle to protracted irradiation. I. Effect of total dose and dose rate. Radiat Res. 1991; 128(2):125-32. View

Carnes B, Fritz T . Continuous irradiation of beagles with gamma rays. Radiat Res. 1993; 136(1):103-10. View

Grahn D, LOMBARD L, Carnes B . The comparative tumorigenic effects of fission neutrons and cobalt-60 gamma rays in the B6CF1 mouse. Radiat Res. 1992; 129(1):19-36. View

THOMSON J, WILLIAMSON F, Grahn D . Life shortening in mice exposed to fission neutrons and gamma rays. III. neutron exposures of 5 and 10 rad. Radiat Res. 1983; 93(1):205-9. View

10.

THOMSON J, Grahn D . Life shortening in mice exposed to fission neutrons and gamma rays. VIII. Exposures to continuous gamma radiation. Radiat Res. 1989; 118(1):151-60. View

11.

THOMSON J, WILLIAMSON F, Grahn D . Life shortening in mice exposed to fission neutrons and gamma rays. VI. Studies with the white-footed mouse, Peromyscus leucopus. Radiat Res. 1986; 108(2):176-88. View

12.

Grdina D, Carnes B, Grahn D, Sigdestad C . Protection against late effects of radiation by S-2-(3-aminopropylamino)-ethylphosphorothioic acid. Cancer Res. 1991; 51(16):4125-30. View

13.

Grdina D, Wright B, Carnes B . Protection by WR-151327 against late-effect damage from fission-spectrum neutrons. Radiat Res. 1991; 128(1 Suppl):S124-7. View

14.

Grahn D, Carnes B, Farrington B . Genetic injury in hybrid male mice exposed to low doses of 60Co gamma-rays or fission neutrons. II. Dominant lethal mutation response to long-term weekly exposures. Mutat Res. 1986; 162(1):81-9. DOI: 10.1016/0027-5107(86)90073-4. View

15.

Tapio S, Schofield P, Adelmann C, Atkinson M, Bard J, Bijwaard H . Progress in updating the European Radiobiology Archives. Int J Radiat Biol. 2008; 84(11):930-6. DOI: 10.1080/09553000802460214. View

16.

Carnes B, Olshansky S, Grahn D . An interspecies prediction of the risk of radiation-induced mortality. Radiat Res. 1998; 149(5):487-92. View

17.

Steppan S, Adkins R, Anderson J . Phylogeny and divergence-date estimates of rapid radiations in muroid rodents based on multiple nuclear genes. Syst Biol. 2004; 53(4):533-53. DOI: 10.1080/10635150490468701. View

18.

THOMSON J, WILLIAMSON F, Grahn D, AINSWORTH E . Life shortening in mice exposed to fission neutrons and gamma rays I. Single and short-term fractionated exposures. Radiat Res. 1981; 86(3):559-72. View

19.

Zhang Y, Woloschak G . Rb and p53 gene deletions in lung adenocarcinomas from irradiated and control mice. Radiat Res. 1997; 148(1):81-9. View

20.

Zhang Y, Woloschak G . Detection of codon 12 point mutations of the K-ras gene from mouse lung adenocarcinoma by 'enriched' PCR. Int J Radiat Biol. 1998; 74(1):43-51. DOI: 10.1080/095530098141717. View