National Academies Press: OpenBook
Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
×

HEALTH RISKS FROM EXPOSURE TO LOW LEVELS OF IONIZING RADIATION

BEIR VII PHASE 2

Committee to Assess Health Risks from Exposure to Low Levels of Ionizing Radiation

Board on Radiation Effects Research

Division on Earth and Life Studies

NATIONAL RESEARCH COUNCIL OF THE NATIONAL ACADEMIES

THE NATIONAL ACADEMIES PRESS
Washington, D.C.
www.nap.edu

Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
×

THE NATIONAL ACADEMIES PRESS
500 Fifth Street, N.W. Washington, DC 20001

NOTICE: The project that is the subject of this report was approved by the Governing Board of the National Research Council, whose members are drawn from the councils of the National Academy of Sciences, the National Academy of Engineering, and the Institute of Medicine. The members of the committee responsible for the report were chosen for their special competences and with regard for appropriate balance.

This study was supported by Environmental Protection Agency Grant #X-826842-01, Nuclear Regulatory Commission Grant #NRC-04-98-061, and U.S. Department of Commerce, National Institute of Standards and Technology Grant #60NANB5D1003. Any opinions, findings, conclusions, or recommendations expressed in this publication are those of the author(s) and do not necessarily reflect the views of the organizations or agencies that provided support for the project.

Library of Congress Cataloging-in-Publication Data

Health risks from exposure to low levels of ionizing radiation : BEIR VII, Phase 2 / Committee to Assess Health Risks from Exposure to Low Levels of Ionizing Radiation, Board on Radiation Effects, Research Division on Earth and Life Studies, National Research Council of the National Academies.

p. cm.

This is the seventh in a series of reports from the National Research Council prepared to advise the U.S. government on the relationship between exposure to ionizing radiation and human health.

Includes bibliographical references and index.

ISBN 0-309-09156-X (pbk.)—ISBN 0-309-53040-7 (pdf) 1. Ionizing radiation—Toxicology. 2. Ionizing radiation—Physiological effect. 3. Ionizing radiation—Dose-response relationship. I. National Research Council (U.S.). Committee to Assess Health Risks from Exposure to Low Levels of Ionizing Radiation.

RA1231.R2H395 2006

363.17′99—dc22

2006000279

Additional copies of this report are available from the
National Academies Press,
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Copyright 2006 by the National Academy of Sciences. All rights reserved.

Printed in the United States of America.

Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
×

THE NATIONAL ACADEMIES

Advisers to the Nation on Science, Engineering, and Medicine


The National Academy of Sciences is a private, nonprofit, self-perpetuating society of distinguished scholars engaged in scientific and engineering research, dedicated to the furtherance of science and technology and to their use for the general welfare. Upon the authority of the charter granted to it by the Congress in 1863, the Academy has a mandate that requires it to advise the federal government on scientific and technical matters. Dr. Ralph J. Cicerone is president of the National Academy of Sciences.


The National Academy of Engineering was established in 1964, under the charter of the National Academy of Sciences, as a parallel organization of outstanding engineers. It is autonomous in its administration and in the selection of its members, sharing with the National Academy of Sciences the responsibility for advising the federal government. The National Academy of Engineering also sponsors engineering programs aimed at meeting national needs, encourages education and research, and recognizes the superior achievements of engineers. Dr. Wm. A. Wulf is president of the National Academy of Engineering.


The Institute of Medicine was established in 1970 by the National Academy of Sciences to secure the services of eminent members of appropriate professions in the examination of policy matters pertaining to the health of the public. The Institute acts under the responsibility given to the National Academy of Sciences by its congressional charter to be an adviser to the federal government and, upon its own initiative, to identify issues of medical care, research, and education. Dr. Harvey V. Fineberg is president of the Institute of Medicine.


The National Research Council was organized by the National Academy of Sciences in 1916 to associate the broad community of science and technology with the Academy’s purposes of furthering knowledge and advising the federal government. Functioning in accordance with general policies determined by the Academy, the Council has become the principal operating agency of both the National Academy of Sciences and the National Academy of Engineering in providing services to the government, the public, and the scientific and engineering communities. The Council is administered jointly by both Academies and the Institute of Medicine. Dr. Ralph J. Cicerone and Dr. Wm. A. Wulf are chair and vice chair, respectively, of the National Research Council.


www.national-academies.org

Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
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COMMITTEE TO ASSESS HEALTH RISKS FROM EXPOSURE TO LOW LEVELS OF IONIZING RADIATION

RICHARD R. MONSON (chairman),

Harvard School of Public Health, Boston, MA

JAMES E. CLEAVER (vice chairman),

University of California, San Francisco, CA

HERBERT L. ABRAMS,

Stanford University, Stanford, CA

EULA BINGHAM,

University of Cincinnati, Cincinnati, OH

PATRICIA A. BUFFLER,

University of California, Berkeley, CA

ELISABETH CARDIS,

International Agency for Research on Cancer, Lyon, France

ROGER COX,

National Radiological Protection Board, Chilton, Didcot, Oxon, United Kingdom

SCOTT DAVIS,

University of Washington and Fred Hutchinson Cancer Research Center, Seattle, WA

WILLIAM C. DEWEY,

University of California, San Francisco, CA

ETHEL S. GILBERT,

National Cancer Institute, Rockville, MD

ALBRECHT M. KELLERER,

Ludwig-Maximilians-Universität, München, Germany

DANIEL KREWSKI,

University of Ottawa, Ottawa, Ontario, Canada

TOMAS R. LINDAHL,

Cancer Research UK London Research Institute, United Kingdom

KATHERINE E. ROWAN,

George Mason University, Fairfax, VA

K. SANKARANARAYANAN,

Leiden University Medical Centre, Leiden, The Netherlands

DANIEL W. SCHAFER,

Oregon State University, Corvallis, OR (from May 2002)

LEONARD A. STEFANSKI,

North Carolina State University, Raleigh, NC (through May 2002)

ROBERT L. ULLRICH,

Colorado State University, Fort Collins, CO

CONSULTANTS

JOHN D. BOICE, JR.,

International Epidemiology Institute, Rockville, MD

KIYOHIKO MABUCHI,

National Cancer Institute, Rockville, MD

Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
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NATIONAL RESEARCH COUNCIL STAFF

RICK JOSTES, Study Director

EVAN B. DOUPLE, BRER Director

DONALD A. PIERCE, Research Adviser Radiation Effects Research Foundation

COURTNEY GIBBS, Program Assistant

DORIS E. TAYLOR, Staff Assistant

CATHIE BERKLEY, Financial Officer

BOARD ON RADIATION EFFECTS RESEARCH

S. JAMES ADELSTEIN (chairman),

Harvard Medical School, Boston, MA

HAROLD L. BECK,

Department of Energy Environmental Laboratory (retired), New York, NY

JOEL S. BEDFORD,

Colorado State University, Fort Collins, CO

JAMES E. CLEAVER,

University of California San Francisco Cancer Center, San Francisco, CA

SARAH C. DARBY,

University of Oxford, Oxford, United Kingdom

SHARON L. DUNWOODY,

University of Wisconsin, Madison, WI

C. CLIFTON LING,

Memorial Sloan-Kettering Cancer Center, New York, NY

DANIEL KREWSKI,

University of Ottawa, Ottawa, Ontario, Canada

THEODORE L. PHILLIPS,

University of California, San Francisco, CA

ANDREW M. SESSLER,

E.O. Lawrence Berkeley National Laboratory, Berkeley, CA

JOHN C. VILLFORTH,

Food and Drug Law Institute (retired), Derwood, MD

PAUL L. ZIEMER,

Purdue University, West Lafayette, IN

NATIONAL RESEARCH COUNCIL STAFF

EVAN B. DOUPLE, Director,

Board on Radiation Effects Research

ISAF AL-NABULSI, Senior Program Officer

RICK JOSTES, Senior Program Officer

CATHERINE S. BERKLEY, Administrative Associate

COURTNEY GIBBS, Program Assistant

DORIS TAYLOR, Staff Assistant

Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
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Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
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Preface

BACKGROUND

This is the seventh in a series of reports from the National Research Council (NRC) prepared to advise the U.S. government on the relationship between exposure to ionizing radiation and human health. In 1996 the National Academy of Sciences (NAS) was requested by the U.S. Environmental Protection Agency to initiate a scoping study preparatory to a new review of the health risks from exposure to low levels of ionizing radiations. The main purpose of the new review would be to update the Biological Effects of Ionizing Radiation V (BEIR V) report (NRC 1990), using new information from epidemiologic and experimental research that has accumulated during the 14 years since the 1990 review. Analysis of those data would help to determine how regulatory bodies should best characterize risks at the doses and dose rates experienced by radiation workers and members of the general public. BEIR VII—Phase 1 was the preliminary survey to evaluate whether it was appropriate and feasible to conduct a BEIR VII—Phase 2 study. The Phase 1 study determined that it was appropriate and feasible to proceed to Phase 2. The Phase 1 study, Health Effects of Exposure to Low Levels of Ionizing Radiations: Time for Reassessment?, published in 1998, also provided the basis for the Phase 2 Statement of Task that follows.

BEIR VII—PHASE 2 STATEMENT OF TASK

The primary objective of the study is to develop the best possible risk estimate for exposure to low-dose, low linear energy transfer (LET) radiation in human subjects. In order to do this, the committee will (1) conduct a comprehensive review of all relevant epidemiologic data related to the risk from exposure to low-dose, low-LET radiation; (2) define and establish principles on which quantitative analyses of low-dose and low-dose-rate effects can be based, including requirements for epidemiologic data and cohort characteristics; (3) consider relevant biologic factors (such as the dose and dose-rate effectiveness factor, relative biologic effectiveness, genomic instability, and adaptive responses) and appropriate methods to develop etiologic models (favoring simple as opposed to complex models) and estimate population detriment; (4) assess the current status and relevance to risk models of biologic data and models of carcinogenesis, including critical assessment of all data that might affect the shape of the response curve at low doses, in particular, evidence for or against thresholds in dose-response relationships and evidence for or against adaptive responses and radiation hormesis; (5) consider, when appropriate, potential target cells and problems that might exist in determining dose to the target cell; and (6) consider any recent evidence regarding genetic effects not related to cancer. In performing the above tasks, the committee should consider all relevant data, even if obtained from high radiation exposures or at high dose rates.

With respect to modeling, the committee will (1) develop appropriate risk models for all cancer sites and other outcomes for which there are adequate data to support a quantitative estimate of risk, including benign disease and genetic effects; (2) provide examples of specific risk calculations based on the models and explain the appropriate use of the risk models; (3) describe and define the limitations and uncertainties of the risk models and their results; (4) discuss the role and effect of modifying factors, including host (such as individual susceptibility and variability, age, and sex), environment (such as altitude and ultraviolet radiation), and life-style (such as smoking history and alcohol consumption) factors; and (5) identify critical gaps in knowledge that should be filled by future research.

WHAT HAS CHANGED SINCE THE LAST BEIR REPORT ON THE HEALTH EFFECTS OF LOW LEVELS OF LOW-LET IONIZING RADIATION

In the 15 years since the publication of the previous BEIR report on low-LET radiation (BEIR V), much new informa-

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Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
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tion has become available on the health effects of ionizing radiation. Since the 1990 BEIR V report, substantial new information on radiation-induced cancer has become available from the Hiroshima and Nagasaki survivors, slightly less than half of whom were alive in 2000. Of special importance are cancer incidence data from the Hiroshima and Nagasaki tumor registries. The committee evaluated nearly 13,000 incidences of cancer and approximately 10,000 cancer deaths in contrast to fewer than 6000 cancer deaths available to the BEIR V committee. Also, since completion of the 1990 report, additional evidence has emerged from studies of the Hiroshima and Nagasaki atomic bomb survivors suggesting that other health effects, such as cardiovascular disease and stroke, can result from radiation exposure.

A major reevaluation of the dosimetry at Hiroshima and Nagasaki has recently been completed that lends more certainty to dose estimates and provides increased confidence in the relationship between radiation exposure and the health effects observed in Japanese A-bomb survivors. Additional new information is also available from radiation worker studies, medical radiation exposures, and populations with environmental exposures.

Although the cancer risk estimates have not changed greatly since the 1990 report, confidence in the estimates has risen because of the increase in epidemiologic and biological data available to the committee.

Progress has also been made since the 1990 report in areas of science that relate to the estimation of genetic (hereditary) effects of radiation. In particular, (1) advances in human molecular biology have been incorporated into the conceptual framework of genetic risk estimation, and (2) it has become possible to project risks for all classes of genetic diseases (i.e., those with more complex as well as simple patterns of inheritance).

Advances in cell and molecular biology have also contributed new information on the mechanisms through which cells respond to radiation-induced damage and to the close associations between DNA damage response and cancer development.

ORGANIZATION OF THE STUDY

The NRC appointed a committee comprised of scientists and educators. Some had particular expertise in conducting research on ionizing radiation, while others were experienced in fields relevant to the committee’s charge. The NRC vetted all potential members to ensure that each was free from any apparent or potential conflict of interest. The work of the committee was conducted with the assistance of the Board of Radiation Effects Research of the Division on Earth and Life Sciences.

The committee held 11 meetings over a period of 4.5 years. The long duration of the committee was due largely to a period of reduced activity while awaiting completion of the update of the dosimetry and exposure estimates to atomic bomb survivors of Hiroshima and Nagasaki, Japan (the so-called DS02: Dosimetry System 2002).

Six of the meetings included participation of the public for a portion of the meeting, and five of the meetings were conducted exclusively in executive session. Each meeting included extensive deliberations involving the committee as a whole; in addition, two major subcommittees were formed that were termed “biology” and “epidemiology.” Dr. Monson convened the epidemiology sessions and Dr. Cleaver convened the biology sessions. Also, a number of loosely organized and nonpermanent working groups were formed to discuss the many issues before the committee. This enabled biologists and nonbiologists to work together and evaluate each other’s work.

ORGANIZATION OF THE REPORT

As noted under its STATEMENT OF TASK, the committee’s focus was to develop the best possible risk estimate for exposure to low-dose, low-LET radiation in human subjects. Accordingly, Chapters 14 discuss basic aspects of radiation physics and radiation biology, including the known interaction between radiation exposure and genetic material, cellular structures, and whole organisms. Chapters 59 discuss basic principles of epidemiology as well as substantive data relating to exposure from the atomic bombs, medical radiation, occupational radiation, and environmental radiation. Chapters 1012, to the extent possible, integrate the information from biology and epidemiology and develop risk estimates based on this information. Three summary sections provide different levels of description of the report. Chapter 13 is an overall scientific summary and lays out the research needs identified by the committee. The Executive Summary is an abbreviated and reorganized version of Chapter 13 that provides an overview of the report. The Public Summary addresses the findings of the committee and the relevance of the report to public concerns about exposure to ionizing radiation.

Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
×

Reviewers

This report has been reviewed in draft form by persons chosen for their diverse perspectives and technical expertise in accordance with procedures approved by the National Research Council’s Report Review Committee. The purposes of this review are to provide candid and critical comments that will assist the institution in making the published report as sound as possible and to ensure that the report meets institutional standards of objectivity, evidence, and responsiveness to the study charge. The review comments and draft manuscript remain confidential to protect the integrity of the deliberative process. We wish to thank the following for their participation in the review of this report:

Seymour Abrahamson, University of Wisconsin, Madison, WI

John F. Ahearne, Sigma Xi, The Scientific Research Society, Research Triangle Park, NC

Allan Balmain, University of California, San Francisco, CA

Michael Cornforth, University of Texas, Galveston, TX

James F. Crow, University of Wisconsin, Madison, WI

John Easton, University of Chicago Hospitals, Chicago, IL

Eric J. Hall, Columbia University College of Physicians and Surgeons, New York, NY

Richard D. Hichwa, University of Iowa, Iowa City, IA

Hedvig Hricak, Memorial Sloan-Kettering Cancer Center, New York, NY

Glenn F. Knoll, University of Michigan, Ann Arbor, MI

Jack S. Mandel, Emory University Rollins School of Public Health, Atlanta, GA

John P. Murnane, University of California, San Francisco, CA

Hooshang Nikjoo, National Aeronautics and Space Administration, Houston, TX

Jonathan M. Samet, Johns Hopkins University, Baltimore, MD

Susan S. Wallace, University of Vermont, Burlington, VT

Chris G. Whipple, ENVIRON International Corporation, Emeryville, CA

Although the reviewers listed above have provided many constructive comments and suggestions, they were not asked to endorse the conclusions or recommendations, nor did they see the final draft of the report before its release. The review of this report was overseen by George M. Hornberger, Ernest H. Ern Professor of Environmental Sciences and Associate Dean for the Sciences, University of Virginia, and John C. Bailar III, Professor Emeritus, University of Chicago. Appointed by the National Research Council, they were responsible for making certain that an independent examination of this report was carried out in accordance with institutional procedures and that all review comments were carefully considered. Responsibility for the final content of this report rests entirely with the authoring committee and the National Research Council.

GENERAL ACKNOWLEDGMENTS

The committee thanks the directors and staff of the Radiation Effects Research Foundation (RERF), Hiroshima, Japan, for providing the most current Life Span Study data on the Japanese atomic bomb survivors. These data continue to be the primary source of epidemiologic information on the relationship between exposure to ionizing radiation and its effects on human health. In particular, Dr. Donald Pierce was especially helpful in communication between RERF and the committee; he also added his insightful experience to the work of the committee.

The committee was aided in the consideration of its charge not only by comments from the public but also by formal presentations by experts from a number of fields. The following presentations were made as part of the public portion of the meetings (in order of appearance):

Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
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Presentations by Sponsors

Jerome Puskin, Ph.D.

Environmental Protection Agency

Vincent Holahan, Ph.D.

U.S. Nuclear Regulatory Commission

Bonnie Richter, Ph.D.

U.S. Department of Energy

Scientific Speakers

John Boice, Ph.D.

International Epidemiology Institute

Epidemiology that should be considered by BEIR VII

Charles Waldren, Ph.D.

Colorado State University

Adaptive effects, genomic instability, and bystander effects

John Ward, Ph.D.

University of California, San Diego

Differences between ionizing radiation-induced DNA damage and endogenous oxidative damage

Antone Brooks, Ph.D.

Washington State University Tri-cities

Overview of projects funded by the Department of Energy low-dose program

Charles Land, Ph.D.

National Institutes of Health (NIH)

National Cancer Institute’s update of the 1985 NIH Radioepidemiologic Tables

L.B. Russell, Ph.D.

Oak Ridge National Laboratory

Early information derived from radiation-induced mutations in mice

R. Chakraborty, Ph.D.

University of Texas School of Public Health

Mini- and microsatellite mutations and their possible relevance for genetic risk estimation

Allan Balmain, Ph.D.

University of California, San Francisco

High- and low-penetrance genes involved in cancer incidence

Al Fornace, Ph.D.

Harvard School of Public Health

Functional genomics and informatics approaches to categorize radiation response

Steve Wing, Ph.D.

University of North Carolina

Relevance of occupational epidemiology to radiation risk assessment

Edward Calabrese, Ph.D.

University of Massachusetts

Radiation hormesis

David Utterback, Ph.D.

National Institute of Occupational Safety and Health

Exposure assessment and radiation worker studies

Sharon Dunwoody, Ph.D.

University of Wisconsin

Challenges in the communication of scientific uncertainties

Suresh Moolgavkar, Ph.D., M.B.B.S.

School of Public Health and Community Medicine, University of Washington and Fred Hutchinson Cancer Research Center

Biology-based models

We thank these presenters and all other members of the public who spoke on issues related to ionizing radiation.

The committee thanks Dr. Isaf Al-Nabulsi for her assistance at the beginning of this study and Doris Taylor and Cathie Berkley for their administrative assistance in assuring that its members showed up at the right place at the right time. The committee was also aided in its work by a talented group of program assistants. We thank Courtney Gibbs for her assistance in the preparation of this manuscript. We thank Courtney Slack, a Christine Mirzayan Science and Technology Policy Graduate Fellow, who provided additional valuable assistance to NRC staff.

We thank Dr. Evan Douple for pulling us in and holding us together. His wise and patient counsel along with his gentle encouragement, when needed, kept the committee focused on its charge.

Finally, special thanks are due to Dr. Rick Jostes, the study director. His scientific expertise, persistence, equanimity, and organizational skills were essential to our staying the course.

RICHARD MONSON, Chairman

Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
×

Units Used to Express Radiation Dose

Radiation exposures are measured in terms of the quantity absorbed dose, which equals the ratio of energy imparted to the mass of the exposed body or organ. The unit of absorbed dose is joules per kilogram (J/kg). For convenience this unit has been given the special name gray (Gy).

Ionizing radiation can consist of electromagnetic radiation, such as X-rays or gamma rays (γ-rays), or of subatomic particles, such as protons, neutrons, and α-particles. X- and γ-rays are said to be sparsely ionizing, because they produce fast electrons, which cause only a few dozen ionizations when they traverse a cell. Because the rate of energy transfer is called linear energy transfer (LET), they are also termed low-LET radiation; low-LET radiations are the subject of this report. In contrast, the heavier particles are termed high-LET radiations because they transfer more energy per unit length as they traverse the cell.

Since the high-LET radiations are capable of causing more damage per unit absorbed dose, a weighted quantity, equivalent dose, or its average over all organs, effective dose, is used for radiation protection purposes. For low-LET radiation, equivalent dose equals absorbed dose. For high-LET radiation—such as neutrons, α-particles, or heavier ion particles—equivalent dose or effective dose equals the absorbed dose multiplied by a factor, the quality factor or the radiation weighting factor (see Glossary), to account for their increased effectiveness. Since the weighting factor for radiation quality is dimensionless, the unit of equivalent dose is also joules per kilogram. However, to avoid confusion between the two dose quantities, the special name sievert (Sv) has been introduced for use with equivalent dose and effective dose.

Although the BEIR VII report is about low-LET radiation, the committee has had to consider information derived from complex exposures—especially from atomic bomb radiation—that include a high-LET contribution in addition to low-LET radiation. A weighted dose, with a weight factor that differs from the quality factor and the radiation weighting factor, is employed in these computations. The unit sievert is likewise used with this quantity.

Whenever the nature of the quantity is apparent from the context, the term dose is used equally in this report for absorbed dose, equivalent dose, effective dose, and weighted dose. With regard to risk assessment, reference is usually to the equivalent dose to specified organs or to the effective dose. The unit sievert is then used, although absorbed dose and equivalent dose are equal for low-LET radiation. In experimental radiation biology and radiotherapy, exact specification of absorbed dose is required and the dose values are frequently larger than in radiation protection considerations. With reference to those fields, therefore, use is made of absorbed dose and the unit is gray.

The Public Summary refers to radiation protection, and the dose therefore is given as sieverts throughout that chapter (for a more complete description of the various dose quantities and units used in this report, see the Glossary and the table below).

TABLE 1 Units of Dose

Unita

Symbol

Conversion Factors

Becquerel (SI)

Bq

1 disintegration/s = 2.7 × 10−11 Ci

Curie

Ci

3.7 × 1010 disintegrations/s = 3.7 × 1010 Bq

Gray (SI)

Gy

1 J/kg = 100 rads

Rad

rad

0.01 Gy = 100 erg/g

Sievert (SI)

Sv

1 J/kg = 100 rem

Rem

rem

0.01 Sv

NOTE: Equivalent dose equals absorbed dose times Q (quality factor). Gray is the special name of the unit (J/kg) to be used with absorbed dose; sievert is the special name of the unit (J/kg) to be used with equivalent dose.

aInternational Units are designated SI.

Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
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Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
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2

 

MOLECULAR AND CELLULAR RESPONSES TO IONIZING RADIATION

 

43

   

 General Aspects of Dose-Response Relationships,

 

43

   

 Induction of Chromosome Aberrations,

 

45

   

 Induction of Gene Mutations in Somatic Cells,

 

46

   

 Radiation-Induced Genomic Instability,

 

47

   

 Cell Cycle Effects,

 

49

   

 Adaptive Response,

 

50

   

 Bystander Effects,

 

53

   

 Hyper-Radiation Sensitivity at Low Doses,

 

55

   

 Observed Dose-Response Relationships at Low Doses,

 

57

   

 Summary,

 

62

3

 

RADIATION-INDUCED CANCER: MECHANISMS, QUANTITATIVE EXPERIMENTAL STUDIES, AND THE ROLE OF GENETIC FACTORS

 

65

   

 Introduction,

 

65

   

 Mechanisms of Tumorigenesis,

 

66

   

 Radiation-Induced Genomic Instability in Radiation Tumorigenesis,

 

70

   

 Quantitative Studies in Experimental Tumorigenesis,

 

73

   

 Genetic Susceptibility to Radiation-Induced Cancer,

 

79

   

 Summary,

 

89

4

 

HERITABLE GENETIC EFFECTS OF RADIATION IN HUMAN POPULATIONS

 

91

   

 Introduction and Brief History,

 

91

   

 General Framework,

 

92

   

 Genetic Diseases,

 

92

   

 Risk Estimation Methods,

 

93

   

 Recent Advances with Respect to the Three Quantities Used with the DD Method of Risk Estimation,

 

94

   

 The Doubling Dose Estimate,

 

101

   

 Mutation Component of Genetic Diseases,

 

101

   

 MC Estimation for Chronic Multifactorial Disease,

 

105

   

 Other Potentially Relevant Data,

 

113

   

 Risk Estimation,

 

114

   

ANNEX 4A: Models of Inheritance of Multifactorial Diseases in the Population,

 

120

   

ANNEX 4B: The Doubling Dose,

 

122

   

ANNEX 4C: Assumptions and Specifications of the Finite-Locus Threshold Model,

 

124

   

ANNEX 4D: Differences Between Spontaneous Disease-Causing Mutations in Humans and Radiation-Induced Mutations in Experimental Systems,

 

124

   

ANNEX 4E: Criteria Used to Assign Human Genes to One of Three Groups from the Standpoint of the Recoverability of Induced Mutations in Live Births,

 

125

   

ANNEX 4F: Radiation Studies with Expanded Simple Tandem Repeat Loci in the Mouse and Minisatellite Loci in Human Germ Cells,

 

125

   

ANNEX 4G: Doubling Doses Estimated from Genetic Data of Children of A-Bomb Survivors,

 

130

5

 

BACKGROUND FOR EPIDEMIOLOGIC METHODS

 

132

   

 Introduction,

 

132

   

 Collection of Epidemiologic Data,

 

133

   

 Analysis of Epidemiologic Data,

 

136

   

 Interpretation of Epidemiologic Data,

 

139

Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
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6

 

ATOMIC BOMB SURVIVOR STUDIES

 

141

   

 Introduction,

 

141

   

 Description of the Cohort,

 

142

   

 Statistical Methods,

 

143

   

 All Solid Cancers,

 

144

   

 Site-Specific Cancers,

 

147

   

 Cancers Resulting from Exposure In Utero,

 

151

   

 Benign Neoplasms,

 

151

   

 Nonneoplastic Disease,

 

152

   

 Life Shortening,

 

153

   

 Summary,

 

154

7

 

MEDICAL RADIATION STUDIES

 

155

   

 Introduction,

 

155

   

 Medical Uses of Radiation,

 

156

   

 Evaluation of Risk for Specific Cancer Sites,

 

173

   

 Discussion,

 

187

   

 Summary,

 

187

8

 

OCCUPATIONAL RADIATION STUDIES

 

189

   

 Introduction,

 

189

   

 Nuclear Industry Workers,

 

190

   

 Workers from the Mayak Facility,

 

201

   

 Chernobyl Cleanup Workers,

 

202

   

 Airline and Aerospace Employees,

 

204

   

 Medical and Dental Occupational Exposures,

 

204

   

 Summary,

 

205

9

 

ENVIRONMENTAL RADIATION STUDIES

 

207

   

 Introduction,

 

207

   

 Populations Living Around Nuclear Facilities,

 

208

   

 Populations Exposed from Atmospheric Testing, Fallout, or Other Environmental Release of Radiation,

 

212

   

 Populations Exposed from the Chernobyl Accident,

 

215

   

 Populations Exposed from Natural Background,

 

228

   

 Children of Adults Exposed to Radiation,

 

228

   

 Exposure to Radioactive Iodine 131,

 

233

   

 Discussion,

 

235

   

 Summary,

 

237

10

 

INTEGRATION OF BIOLOGY AND EPIDEMIOLOGY

 

239

   

 Introduction,

 

239

   

 DNA Damage Response and Cancer Risk,

 

239

   

 Projection of Risks Over Time,

 

239

   

 The Transport of Cancer Risk Between Different Populations,

 

240

   

 Form of the Dose-Response for Radiation Tumorigenesis,

 

245

   

 Dose and Dose-Rate Effects on Tumor Induction,

 

246

   

 Other Forms of Cellular and Animal Response to Radiation,

 

250

   

 Genetic Susceptibility to Cancer,

 

251

   

 Heritable Effects of Radiation,

 

252

   

 Summary,

 

252

   

ANNEX 10A: Application of the Moolgavkar and Knudson Two-Stage Clonal Expansion Model to the Transport of Radiation Cancer Risk,

 

253

   

ANNEX 10B: Evidence for the Connection Between Dose Effects and Dose-Rate Effects in Animal Experiments,

 

254

Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
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11

 

RISK ASSESSMENT MODELS AND METHODS

 

259

   

 Risk Assessment Methodology,

 

259

   

 Risk Models,

 

261

   

 Variables That Modify the Dose-Response Relationship,

 

264

12

 

ESTIMATING CANCER RISK

 

267

   

 Introduction,

 

267

   

 Data Evaluated for BEIR VII Models,

 

267

   

 Measures of Risk and Choice of Cancer End Points,

 

268

   

 The BEIR VII Committee’s Preferred Models,

 

269

   

 Use of the Committee’s Preferred Models to Estimate Risks for the U.S. Population,

 

274

   

 Quantitative Evaluation of Uncertainty in Lifetime Risks,

 

278

   

 Results of Risk Calculations,

 

278

   

 Uncertainties in Lifetime Risk Estimates,

 

284

   

 Coherence of Models with Other Studies,

 

286

   

 Summary,

 

290

   

ANNEX 12A: Previous Models for Estimating Cancer Risks from Exposure to Low Levels of Low-LET Ionizing Radiation,

 

291

   

ANNEX 12B: Committee Analyses of Data on the LSS Cohort to Develop BEIR VII Models for Estimating Cancer Risks,

 

296

   

ANNEX 12C: Details of LAR Uncertainty Analysis,

 

308

   

ANNEX 12D: Additional Examples of Lifetime Risk Estimates Based on BEIR VII Preferred Models,

 

310

13

 

SUMMARY AND RESEARCH NEEDS

 

313

   

 Evidence from Biology,

 

313

   

 Genetic Effects of Radiation on Human Populations,

 

316

   

 Epidemiologic Studies of Populations Exposed to Ionizing Radiation,

 

317

   

 Integration of Biology and Epidemiology,

 

321

   

 Models for Estimating the Lifetime Risk of Cancer,

 

322

   

 Conclusion,

 

323

 

 

APPENDIXES

 

325

   

A  BASIC BIOLOGICAL AND GENETIC CONCEPTS

 

327

   

B  COMMENTARY ON “RADIATION FROM MEDICAL PROCEDURES IN THE PATHOGENESIS OF CANCER AND ISCHEMIC HEART DISEASE: DOSE-RESPONSE STUDIES WITH PHYSICIANS PER 100,000 POPULATION”

 

329

   

C  ISSUES RAISED BY THE INSTITUTE FOR ENERGY AND ENVIRONMENT RESEARCH (IEER)

 

330

   

D  HORMESIS

 

332

   

E  FIFTEEN-COUNTRY WORKERS STUDY

 

336

 

 

REFERENCES

 

337

 

 

GLOSSARY

 

373

 

 

COMMITTEE BIOGRAPHIES

 

379

 

 

INDEX

 

385

Suggested Citation:"Front Matter." National Research Council. 2006. Health Risks from Exposure to Low Levels of Ionizing Radiation: BEIR VII Phase 2. Washington, DC: The National Academies Press. doi: 10.17226/11340.
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BEIR VII develops the most up-to-date and comprehensive risk estimates for cancer and other health effects from exposure to low-level ionizing radiation. It is among the first reports of its kind to include detailed estimates for cancer incidence in addition to cancer mortality. In general, BEIR VII supports previously reported risk estimates for cancer and leukemia, but the availability of new and more extensive data have strengthened confidence in these estimates. A comprehensive review of available biological and biophysical data supports a "linear-no-threshold" (LNT) risk model—that the risk of cancer proceeds in a linear fashion at lower doses without a threshold and that the smallest dose has the potential to cause a small increase in risk to humans. The report is from the Board on Radiation Research Effects that is now part of the newly formed Nuclear and Radiation Studies Board.

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