Applying Biomarker Research.Public health and environmental professionals have generally focused on monitoring the ambient environment to assess exposures to the public. To understand exposures and effects and predict onset or course of disease, it is also important to look inside the (human) organism. Biomarkers--measurable internal indicators of changes in organisms at the molecular or cellular level--offer great potential to understand environmentally mediated disease and to improve the process of risk assessment. A valid biomarker could also be considered a key event linking a specific environmental exposure to a health outcome. A molecular biomarkers paradigm has its origins in the National Research Council's (NRC NRC abbr. 1. National Research Council 2. Nuclear Regulatory Commission Noun 1. NRC - an independent federal agency created in 1974 to license and regulate nuclear power plants ) 1983 "Red Book," Risk Assessment in the Federal Government (1). In 1989, the NRC published monographs on Biologic Markers in Pulmonary Toxicology (2) and Biologic Markers in Reproductive Toxicology (3) in which biomarkers of exposure, effect, and susceptibility were discussed as they may relate to disease. In Figure 1, the exposure-to-disease paradigm has been drawn to emphasize the application of biomarkers in assessing dose, mode-of-action, and disease etiology. Biomarkers of susceptibility may influence the magnitude of each sequential element in the pathway. Biomarkers useful for disease prevention and intervention may appear anywhere along the pathway. Earlier markers (to the extent that they are measurable at low exposure or dose) have the greatest potential utility to avert disease; later markers are most closely related to the disease. [Figure 1 ILLUSTRATION OMITTED] Over the last decade the biomarker model has resulted in considerable research enterprise and nourished and challenged the emerging field of molecular epidemiology molecular epidemiology Molecular medicine An evolving field that combines the tools of standard epidemiology–case studies, questionnaires and monitoring of exposure to external factors with the tools of molecular biology–eg, restriction endonucleases, . The National Institute of Environmental Health Sciences The National Institute of Environmental Health Sciences (NIEHS) is one of 27 Institutes and Centers of the National Institutes of Health (NIH),which is a component of the Department of Health and Human Services (DHHS). The Director of the NIEHS is Dr. David A. Schwartz. (NIEHS NIEHS National Institute of Environmental Health Sciences (NIH, DHHS) ) and the U.S. Environmental Protection Agency Environmental Protection Agency (EPA), independent agency of the U.S. government, with headquarters in Washington, D.C. It was established in 1970 to reduce and control air and water pollution, noise pollution, and radiation and to ensure the safe handling and (U.S. EPA EPA eicosapentaenoic acid. EPA abbr. eicosapentaenoic acid EPA, n.pr See acid, eicosapentaenoic. EPA, n. ), in both their intramural intramural /in·tra·mu·ral/ (-mu´r'l) within the wall of an organ. in·tra·mu·ral adj. Occurring or situated within the walls of a cavity or organ. and extramural extramural /ex·tra·mu·ral/ (-mur´il) situated or occurring outside the wall of an organ or structure. extramural situated or occurring outside the wall of an organ or structure. research programs, have targeted biomarkers for a greater role in human health risk assessment and have worked for their validation in the field and their extension into the clinical environment. At the same time, much of the biomarker research has remained confined to the laboratory, with the promise of successful applications to improve public health or mitigate disease largely unmet. A biomarker should allow better measurements of exposure or earlier identification of health effects. Biomarkers can provide data needed for assessing progress in improving the Nation's health, such as the Healthy People 2010 objectives (4). In summary, biomarkers may break open the black box between exposure and disease and show what individual factors make a difference. Recognizing their substantial investments in intramural and extramural research on biomarkers, the NIEHS and the U.S. EPA held "Biomarkers: Taking Stock, An EPA/NIEHS In-House Workshop on Applying Biomarker Research" on 30-31 August 1999 in Chapel Hill, North Carolina Chapel Hill is a town in North Carolina and the home of the University of North Carolina at Chapel Hill (UNC-CH), the oldest state-supported university in the United States. As of the 2000 census, it had a population of 48,715. As of 2004 its estimated population was 52,440. . Approximately 90 participants explored biomarker research through presentations by invited plenary speakers, posters on individual research projects, and breakout discussion groups. Participants focused on both scientific and organizational objectives. Scientifically, they sought to understand the state of the art and current applications of biomarkers of exposure, effect, and susceptibility; to discern research directions that are likely to make the promise of usable biomarkers a reality; and to explore the role of biomarkers in understanding environmentally-induced disease and in assessing human health risk. Organizational objectives were to increase communication among NIEHS and U.S. EPA staff, including those involved in clinical studies; to complement the ongoing environmental genome research Genome Research is the title of a peer-reviewed scientific journal published by Cold Spring Harbor Laboratory Press. The focus of the journal is on genome-wide studies in any organism, including single gene studies that are placed in a genomic context. at NIEHS and the planned NIEHS workshops on exposure assessment and environmental epidemiology; and to lay the groundwork for a possible extramural conference on biomarkers in spring 2001. Workshop Discussion Themes Biomarkers in risk assessment. There is a need to move toward biologically based risk assessments. Biologically based risk assessments will refine estimates of dose to relevant targets through the use of biomarkers of exposure. They will improve hazard characterization through the use of biomarkers of response or effect with mechanistic linkage to end points of concern. They will strengthen inferences regarding the shape of dose--response curves outside the range of observation and identify targets of opportunity for further study in potentially sensitive human populations. Biomarkers of exposure, effect, and susceptibility are intimately linked; conceptually it may be helpful to pull them apart but in reality they are integrated. Recognizing this linkage allows for directly tying biomarkers to testable hypotheses. This requires creative study design, most often drawing on researchers from several disciplines. The U.S. EPA, in its Proposed Guidelines for Carcinogen carcinogen: see cancer. carcinogen Agent that can cause cancer. Exposure to one or more carcinogens, including certain chemicals, radiation, and certain viruses, can initiate cancer under conditions not completely understood. Risk Assessment (5), and more recently the International Programme for Chemical Safety, with its generic "Framework for Risk Assessment" (6), have developed similar frameworks for bringing a greater variety of scientific information into risk assessment. The basic framework is applicable to all end points--cancer as well as noncancer. In this framework the concepts of mode of action and key events play central roles. We must distinguish mode of action from mechanism of action. Mechanism of action is defined as the detailed molecular description of the events involved in the induction of cancer or other health end points. Mode of action links key events and sequential processes, starting with the interaction of an agent with a cell, through functional and anatomical changes, and resulting in cancer or other health end points. Consideration of mode of action raises three questions: How does the chemical produce its effect? Are there mechanistic data to support this hypothesis? Have other mechanistic hypotheses been considered and rejected? To show that a postulated mode of action is operative, it is generally necessary to outline the sequence of events leading to the toxicologic or disease end point and to identify key events that can be measured, often through biomarkers. Then it is necessary to weigh the available information to determine whether the key events are on the pathway to causality. A key event is defined as an empirically observable precursor step that is a necessary element of the mode of action or is a marker for such an element. Examples of key events include metabolism, receptor--ligand changes, increased cell growth and organ weight, hormone or other physiologic perturbations, hyperplasia, and cellular proliferation. It is also important to understand the background for dose--response analyses. When we estimate risk from exposures we look at incremental exposures--the impact of a specific exposure on overall risk. Therefore, we must know something about the background level of the chemical to which the increment added, as well as the background of similar chemicals that operate by the same mode of action. Finally, we must know the background of disease so that we can understand where we are on the dose--response curve. This is an area where biomarkers can be applied quite well. Clearly, this new framework will require substantial basic and applied research to provide the information needed for risk assessment. It also provided a useful construct for consideration of applications of biomarkers at the workshop. Biomarkers of susceptibility. An individual's susceptibility to environmentally mediated disease may arise from genetic causes or from nongenetic factors such as age, disease state, diet, or dietary supplementation. Most of the discussion at the workshop centered on understanding genetic susceptibility. Polymorphisms may be markers of susceptibility. The rapid advances of the Human Genome The human genome is the genome of Homo sapiens, which is composed of 24 distinct pairs of chromosomes (22 autosomal + X + Y) with a total of approximately 3 billion DNA base pairs containing an estimated 20,000–25,000 genes. and Environmental Genome projects are generating a long list of genes and their variants (polymorphisms). Research is helping us to understand which genes are perturbed per·turb tr.v. per·turbed, per·turb·ing, per·turbs 1. To disturb greatly; make uneasy or anxious. 2. To throw into great confusion. 3. on the pathway to disease. Many of these genes are quite general in their function and broadly applicable to the assessment of susceptibility. Such genes or groups of genes will, for example, influence or control cell differentiation Cell differentiation The mechanism by which cells in a multicellular organism become specialized to perform specific functions in a variety of tissues and organs. Specialized cells are the product of differentiation. , apoptosis, cell cycle kinetics, or DNA repair DNA repair refers to a collection of processes by which a cell identifies and corrects damage to the DNA molecules that encode its genome. In human cells, both normal metabolic activities and environmental factors such as UV light can cause DNA damage, resulting in as many as 1 . Receptor-mediated pathways involving alterations in signal transduction Signal transduction The transmission of molecular signals from a cell's exterior to its interior. Molecular signals are transmitted between cells by the secretion of hormones and other chemical factors, which are then picked up by different cells. can influence a variety of health outcomes. There is a spectrum of human genetic variability such that a distribution of responses to a given exposure can sometimes be predicted. New technologies such as microchip arrays allow researchers to explore patterns of gene expression. In the face of this burgeoning information and data being gathered in National Institutes of Health and other databases, the challenge for researchers interested in environmentally mediated disease or risk assessment is to understand the functionality of genetic polymorphisms and to relate this to disease. We may gain this understanding in humans, particularly by relating laboratory, clinical, and epidemiologic findings. To date, most genetic susceptibility studies have looked at cancers as an end point, although research on other diseases such as asthma is beginning to grow. As our understanding of functionality grows, so will our need for understanding of the ethical implications of our knowledge to individuals and society. Biomarkers of exposure. Advancing the utility of biomarkers of exposure requires a multidisciplinary effort. Biomarkers of exposure may relate external exposure to internal dose, provide measurable events in dose--response assessment, and document exposures in epidemiologic studies and clinical evaluations. Biomarkers that integrate exposures from different pathways or media, thereby integrating dose, are of great interest, particularly with regard to mixtures. Microarray technology has the potential to identify common patterns of gene expression thus potentially confirming exposures even to mixtures, but studies of functionality of protein products must also be carried out. Biomarkers are of value in site-specific assessment, such as at Superfund sites. Clearly biomarkers have value and have been used in assessing acute exposures and acting as triggers for action, for example in responding to accidental mercury or methylparathion exposures. Lead in blood, plasma, or bone is an excellent biomarker of exposure and potentially of effects. Lead biomarkers also illustrate a challenge in understanding the value of information. If we measure lead in blood in a small population of children on or near a site and find high blood lead concentrations, there is clearly cause for concern and action. If, however, blood lead concentrations are not elevated compared to national statistical measures or a local control group, does this mean that the site presents no problem and there is no need to act? In this case questions of both representativeness of samples and population statistics become paramount. The U.S. EPA National Human Exposure Assessment Survey (NHEXAS NHEXAS National Human Exposure Assessment Survey ) (7) is one example of a large exposure-based experimental design on a community or regional level. We begin with blood, urine, and breath measurements and then return to look at what people had been exposed to by measuring the contents of their drinking water drinking water supply of water available to animals for drinking supplied via nipples, in troughs, dams, ponds and larger natural water sources; an insufficient supply leads to dehydration; it can be the source of infection, e.g. leptospirosis, salmonellosis, or of poisoning, e.g. , food, and ambient air to see whether there are correlations. NHEXAS data are now being analyzed and should yield informative results. We need to take a public health approach to demonstrate the relationship of biomarkers to human disease. Advances in molecular biology molecular biology, scientific study of the molecular basis of life processes, including cellular respiration, excretion, and reproduction. The term molecular biology was coined in 1938 by Warren Weaver, then director of the natural sciences program at the Rockefeller have improved the linkage of biomarkers of effects with biomarkers of exposure, making a top-down public health approach more feasible, facilitating attribution of causality, and providing guidance for decision-making and intervention. Biomarkers of effect. Biomarkers of effect may be either early events on the direct pathway to disease or toxic end points or predictors of disease or toxicity outside the direct pathway, i.e., they covary with the toxic process or disease (Figure 2). [Figure 2 ILLUSTRATION OMITTED] The challenge is to link biomarkers to human disease both through human and animal studies. Some approaches would begin with exposures or highly exposed populations and look for biomarkers associated with effects or disease end points. Others would look for early biomarkers of the disease itself and then work backward to look at populations that have exposures to various agents to see if the biomarker rises as their exposure rises. In either case establishing linkage between exposure and disease is critical. For studying biomarkers in a human population, imaging technologies such as magnetic resonance magnetic resonance, in physics and chemistry, phenomenon produced by simultaneously applying a steady magnetic field and electromagnetic radiation (usually radio waves) to a sample of atoms and then adjusting the frequency of the radiation and the strength of the or positron emission tomography positron emission tomography: see PET scan. positron emission tomography (PET) Imaging technique used in diagnosis and biomedical research. are particularly interesting because they are noninvasive and measure change at a molecular scale. Successful use of biomarkers of effect, and in some cases biomarkers of exposure, requires knowing what they mean in terms of health and disease. Most have yet to be validated for ascertainment of health or disease. Biomarkers in susceptibility evaluation and disease intervention. Development of biomarkers for environmental agents should be based on knowledge of metabolism, product formation, and general mechanisms of action. Validation requires parallel experimental and human studies. Figure 3 illustrates a systematic approach for the validation and application of chemical-specific biomarkers to human studies (8). The two end points for this process are validated markers of exposure and markers of risk. The paths to the end points pass through hazard identification, developing reliable methodologies for measuring biomarkers, parallel studies in animals and exposed humans, and epidemiologic studies and clinical trials. The approach could be applied to noncancer end points as well to cancer. [Figure 3 ILLUSTRATION OMITTED] This validation approach has been applied in exhaustive studies relating a) exposures to aflatoxin [B.sub.1], b) the etiology of human hepatocellular carcinoma hep·a·to·cel·lu·lar carcinoma n. A carcinoma derived from parenchymal cells of the liver. Also called hepatocarcinoma, malignant hepatoma. (HCC HCC Hepatocellular Carcinoma (liver cancer) HCC Hertfordshire County Council (administrative region of south eastern England UK) HCC Harford Community College (Maryland) ), and c) intervention with oltipraz as a chemo-preventive agent for HCC (8). Biomarkers included aflatoxin--albumin adducts in serum and aflatoxin--mercapturic acid excreted in urine. Given the multistage mul·ti·stage adj. 1. Functioning in more than one stage: a multistage design project. 2. Relating to or composed of two or more propulsion units. process and long latency of cancer and other chronic human diseases, it is likely that relatively few individual chemical-specific biomarkers will prove to be validated risk markers. Rather, validated risk markers may turn out to be composites of chemical-specific biomarkers and other markers, each of which contributes in some quantifiable way to determining overall risk (8). Biomarkers in epidemiologic studies. The most frequent applications of biomarkers in molecular epidemiology have been in the assessment of exposure (or dose) and susceptibility due to genetic and nongenetic factors. A recent study of the developmental effects of fetal exposure to polycyclic aromatic hydrocarbons (PAHs) via ambient pollution illustrates the utility of molecular epidemiology in identifying potential etiologic factors in disease (9). The study was intended to generate hypotheses for further research in an area that has proven elusive. To complement and confirm environmental monitoring and questionnaire data, investigators used biomarkers to estimate the individual dose of toxicants to the fetus. In the study, PAH-DNA adducts in leukocytes and plasma cotinine cotinine (kō´tinēn), n a substance that remains in body fluids after nicotine has been used. Presence of this chemical in body fluids is considered proof of recent nicotine use. were the biomarkers measured in umbilical cord blood umbilical cord blood Transplantation A source of primitive and stem cells that can be used to reconstitute BM destroyed by aplastic anemia or by RT or chemotherapy for CA, lymphoproliferative malignancies. See Bone marrow transplantation, Stem cell therapy. as dosimeters of transplacental transplacental /trans·pla·cen·tal/ (-plah-sen´tal) through the placenta. trans·pla·cen·tal adj. Relating to or involving passage through or across the placenta. PAHs and cigarette smoke, respectively. Cotinine, a nicotine metabolite metabolite, organic compound that is a starting material in, an intermediate in, or an end product of metabolism. Starting materials are substances, usually small and of simple structure, absorbed by the organism as food. , is uniquely associated with cigarette smoke and provides a means to ascertain the relative contribution of smoking to a parameter such as PAH-DNA adducts and any observed outcome. Researchers have not yet realized a goal of molecular epidemiology to develop preclinical markers that are linked closely enough to disease that they are suitable for screening studies, preventative actions, and diagnosis. They have vividly demonstrated the complexity of the multiple factors that determine among those exposed who will get the disease and who will not. Batteries of biomarkers may be needed to characterize this complexity. Historically much of the research in molecular epidemiology has been opportunistic, driven by what populations were available, what samples have been collected, what could be measured in an available sample; out of that one might develop an hypothesis to test. This was appropriate in the early stages of biomarker validation. Our understanding of the science supporting molecular epidemiology has now advanced so that we are prepared to undertake systematic approaches such as the validation model. This will allow us to distinguish a key event on a causal pathway from simply a statistical association. Biomarkers in model development. Risk-assessment models often depend on interpretation at the level of the individual rather than the population. Generally, surrogate markers A surrogate marker (or surrogate end point) is term used in medical research for a change to the human body that is believe to be necessary to an eventual outcome or end point. must be used to represent target tissues. The models facilitate interspecies extrapolation (mathematics, algorithm) extrapolation - A mathematical procedure which estimates values of a function for certain desired inputs given values for known inputs. If the desired input is outside the range of the known values this is called extrapolation, if it is inside then and investigation of the effects of lower doses/exposures. The models also facilitate the integration of epidemiologic and clinical information, in vivo in vivo /in vi·vo/ (ve´vo) [L.] within the living body. in vi·vo adj. Within a living organism. in vivo adv. and in vitro in vitro /in vi·tro/ (in ve´tro) [L.] within a glass; observable in a test tube; in an artificial environment. in vi·tro adj. In an artificial environment outside a living organism. data, and structure-activity concepts. There is a need for sharing data at the individual level. It is difficult to develop and validate risk assessment models based on the use of data from the literature that consist only of means and standard errors. Modelers need to know what is going on in a variety of situations at the individual human or animal level. This is important for both the scientists designing or conducting studies and the regulatory community trying to apply this information. An intended use of the biomarker may be in the clinical setting, where the focus is on the individual and there is an opportunity to gather substantial detailed information. Frequently, however, the intended use is in the population setting where exposures are diverse and information about the exposure and the population of interest is limited. In the laboratory setting, where in vitro and animal studies are the norm, there is a substantial advantage in experimental control. Factors that influence interindividual variation include physiology, exposure, environment, and genetics. The effects of glutathione glutathione: see coenzyme. transferase transferase /trans·fer·ase/ (trans´fer-as) a class of enzymes that transfer a chemical group from one compound to another. trans·fer·ase n. theta Theta A measure of the rate of decline in the value of an option due to the passage of time. Theta can also be referred to as the time decay on the value of an option. If everything is held constant, then the option will lose value as time moves closer to the maturity of the option. polymorphism polymorphism, of minerals, property of crystallizing in two or more distinct forms. Calcium carbonate is dimorphous (two forms), crystallizing as calcite or aragonite. Titanium dioxide is trimorphous; its three forms are brookite, anatase (or octahedrite), and rutile. on the risk estimates for dichloromethane in humans are an example of the influence of genetics (10). Recommendations Research emphases. Based on the discussions at the workshop, the planning committee planning committee n (in local government) → comité m de planificación identified the following scientific areas for emphasis in NIEHS and U.S. EPA programs: * Conduct more prospective (epidemiologic) studies linking exposure to disease, especially noncancer diseases * Apply new technologies (e.g., microchip arrays) to develop more incisive markers * Make better use of animal models to develop and link biomarkers to disease in humans * Use Bioinformatics to make sense of existing data (12) * Continue efforts to discover genetic basis of risk factors * Conduct phenotypic and functional studies of genetic polymorphisms * Use genetic susceptibility information to evaluate risk distributed across populations * Look for risk factors beyond genetic susceptibility, including age, nutrition, lifestyle, and sex * Develop mechanistic information to link external exposure to internal dose, particularly for cumulative or aggregate exposures * Increase emphasis on interdisciplinary approaches, including cross-training programs and research * Use more biomarkers in exposure and health initiatives * Apply biomarkers to site-specific risk assessment. Enhancing research collaboration. Enhanced research collaboration in areas related to biomarkers is a subject of great interest within the federal government. Looking at exposure assessment alone, before the end of 2000: * The NIEHS will publish its report and recommendations from the workshop on "The Role of Human Exposure Assessment in the Prevention of Environmental Disease" (11). * The U.S. General Accounting Office will issue a report assessing a) the extent to which federal and state agencies collect or use human exposure data on potentially harmful chemicals, including data needed to identify at-risk populations and b) the main barriers that hinder further progress in such efforts. * The Committee on Environment and Natural Resources of the President's Office of Science and Technology Policy Congress established the White House Office of Science and Technology Policy (OSTP) in 1976 with a broad mandate to advise the President and others within the Executive Office of the President on the effects of science and technology on domestic and international affairs. will develop a strategy document for consideration as a fiscal year 2002 budget initiative. This initiative will be interagency and facilitate leveraging of resources across several agencies that have made exposure assessment a priority area. Governmental initiatives in research collaboration will consider the results of all of these activities. As their contribution to these considerations, participants at the biomarkers workshop developed specific ideas to enhance collaborations between the U.S. EPA and the NIEHS (and others) to promote innovative biomarkers research and application. Examples of these collaborations include: * Supporting postdoctoral investigators who are employed on projects that involve investigators from both institutions * Jointly planning intramural and extramural requests for applications/requests for proposals that will encourage the U.S. EPA and the NIEHS (and others) to collaborate on innovative biomarkers research * Joining the exposure expertise of the U.S. EPA and the NIEHS with epidemiologic, toxicologic, and biomarkers expertise of both institutions * Establishing joint NIEHS/U.S. EPA workshops, working groups, or seminars on topics of mutual concern, such as epidemiologic studies being planned or in progress, microarray technology, or genotyping methods * Using the World-Wide Web (World-Wide Web, networking, hypertext) World-Wide Web - (WWW, W3, The Web) An Internet client-server hypertext distributed information retrieval system which originated from the CERN High-Energy Physics laboratories in Geneva, Switzerland. creatively through the NIEHS and the U.S. EPA home pages or a separate Web site that could identify ongoing epidemiologic and toxicologic studies and seminars, or support interest groups, e-mail list servers, discussion groups, etc., to stimulate collaborations * Looking for Looking for In the context of general equities, this describing a buy interest in which a dealer is asked to offer stock, often involving a capital commitment. Antithesis of in touch with. specific opportunities for collaboration in existing/developing research programs, e.g., NHEXAS (7) the National Cancer Institute/NIEHS/U.S. EPA Agricultural Health Study (13); the National Toxicology Program National Toxicology Program Environment A program that conducts toxicologic tests on substances frequently found at the EPA's National Priorities List sites, which have the greatest potential for human exposure study design including animal/sample sharing (14); and site-specific risk assessment (opportunity to apply biomarkers in the field) * Sharing resources, especially specialized equipment, between the two institutions. Invited Speakers William Farland National Center for Environmental Assessment U.S. EPA Washington, DC John Groopman Department of Environmental Health Sciences Johns Hopkins Noun 1. Johns Hopkins - United States financier and philanthropist who left money to found the university and hospital that bear his name in Baltimore (1795-1873) Hopkins 2. School of Hygiene and Public Health Baltimore, Maryland "Baltimore" redirects here. For the surrounding county, see Baltimore County, Maryland. For other uses, see Baltimore (disambiguation). Baltimore is an independent city located in the state of Maryland in the United States. Christopher Portier National Institute of Environmental Health Sciences Environmental Toxicology Program Research Triangle Park Research Triangle Park, research, business, medical, and educational complex situated in central North Carolina. It has an area of 6,900 acres (2,795 hectares) and is 8 × 2 mi (13 × 3 km) in size. Named for the triangle formed by Duke Univ. , NC Paul Schulte Paul Schulte OMI (1896-1975), was a German priest and missionary, known as the "Flying Priest", who founded MIVA ("Missionary International Vehicular Association") to provide automobiles, boats and airplanes for the service of missions throughout the world. National Institute for Occupational Safety and Health National Institute for Occupational Safety and Health, n.pr an institute of the Centers for Disease Control and Prevention that is responsible for assuring safe and healthful working conditions and for developing standards of safety and health. Education and Information Division Cincinnati, Ohio “Cincinnati” redirects here. For other uses, see Cincinnati (disambiguation). Cincinnati is a city in the U.S. state of Ohio and the county seat of Hamilton County. Robin Whyatt Columbia Center
The Columbia Center (formerly the Bank of America Tower, Columbia Center and the Columbia Seafirst Center for Children's Environmental Health New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of , New York REFERENCES AND NOTES (1.) National Research Council. Risk Assessment in the Federal Government: Managing the Process. Washington, DC: National Academy Press, 1983. (2.) National Research Council. Biologic Markers in Pulmonary Toxicology. Washington, DC:National Academy Press, 1989. (3.) National Research Council. Biologic Markers in Reproductive Toxicology. Washington, DC:National Academy Press, 1989. (4.) U.S. Department of Health and Human Services Noun 1. Department of Health and Human Services - the United States federal department that administers all federal programs dealing with health and welfare; created in 1979 Health and Human Services, HHS . Healthy People 2010. Available: http://www.health.gov/healthypeople/ Publications/[cited 3 February 2000]. (5.) U.S. Environmental Protection Agency. Proposed guidelines for carcinogen risk assessment. Fed Reg FED REG Federal Register 51:33992-34003 (1986). (6.) IPCS See AS/400 Integrated PC Server. . IPCS Workshop on Developing a Conceptual Framework for Risk Assessment, 16-18 February 1999, Lyon, France. Final Report. IPCS/99.6. Geneva Geneva, canton and city, Switzerland Geneva (jənē`və), Fr. Genève, canton (1990 pop. 373,019), 109 sq mi (282 sq km), SW Switzerland, surrounding the southwest tip of the Lake of Geneva. :World Health Organization, 1999. (7.) Sexton K, Kleffman DE, Callahan MA. An introduction to the National Human Exposure Assessment Survey (NHEXAS) and related phase-I field studies. J Expo Anal Environ Epidemiol 5(3):229-232 (1995). (8.) Groopman JD, Kensler TW. The light at the end of the tunnel for chemical-specific biomarkers: daylight or headlight? Carcinogenesis car·ci·no·gen·e·sis n. The production of cancer. carcinogenesis production of cancer. biological carcinogenesis viruses and some parasites are capable of initiating neoplasia. 20:1-11 (1999). (9.) Perera FP, Jedrychowski W, Rauh V, Whyatt RM. Molecular epidemiologic research on the effects of environmental pollutants environmental pollutants, n.pl the substances and conditions, including noise, that adversely affect the health and well-being of the people within a community. on the fetus. Environ Health Perspect 107(suppl 3):451-460 (1999). (10.) El-Masri HA, Bell DA, Portier CJ. Effects of glutathione transferase polymorphism on the risk estimates of dichloromethane to humans. Toxicol Appl Pharmacol 158:221-230 (1999). (11.) The NIEHS co-sponsored workshop, The Role of Human Exposure Assessment in the Prevention of Environmental Disease, was held 22-24 September 1999 in Rockville, Maryland. The workshop's goals were to describe current opportunities and challenges in exposure assessment research, to provide usable information on disease-specific chemical exposures that will allow integration of epidemiologic and toxicology studies, and to highlight approaches for further research and effective prevention and intervention strategies. (12) National Center for Biotechnology Information The National Center for Biotechnology Information (NCBI) is part of the United States National Library of Medicine (NLM), a branch of the National Institutes of Health. The NCBI is located in Bethesda, Maryland and was founded in 1988. . What is bioinformatics? Available: http://www.ncbi.nlm.nih.gov/ Education/index.html [cited 26 June 2000]. (13.) National Toxicology Program. Year 2000 current directions and evolving strategies. Available: http://ntp-server .niehs.nih.gov/Main_Pages/PUBS/CurDir2000.html [cited 26 June 2000]. (14.) Alavanja MCR MCR My Chemical Romance (band) MCR Minimum Capital Requirement MCR Minimum Cell Rate MCR Middle Common Room (UK universities) MCR Multivariate Curve Resolution , Sandler DP, McMaster SB, Zahm SH, McDonnell CJ, Lynch CF, Pennybacker M, Rothman N, Dosemeci M, Bond AE, et al. The Agricultural Health Study. Environ Health Perspect 104:362-369 (1996). David A. Bennett(1),(*) and Michael D. Waters(2) (1) Division of Extramural Research and Training, National Institute of Environmental Health Sciences, Research Triangle Park, North Carolina North Carolina, state in the SE United States. It is bordered by the Atlantic Ocean (E), South Carolina and Georgia (S), Tennessee (W), and Virginia (N). Facts and Figures Area, 52,586 sq mi (136,198 sq km). Pop. , USA; (2) National Health and Environmental Effects Research Laboratory, Research Triangle Park, North Carolina, USA Address correspondence to D.A. Bennett, Office of Emergency and Remedial Response (5202G), U S Environmental Protection Agency, 1200 Pennsylvania Ave NW, Washington DC 20460. Telephone: (703) 603-8759. Fax: (703) 603-9146. E-mail: bennett.da@epa.gov (*) On assignment from the U.S. EPA Office of Emergency and Remedial Response. This manuscript has been reviewed by the National Health and Environmental Effects Research Laboratory, U.S. Environmental Protection Agency, and approved for publication. Approval does not signify that the contents necessarily reflect the views and policies of the agency, nor does mention of trade names or commercial products constitute endorsement or recommendation for use. Received 16 March 2000; accepted 22 May 2000. |
|
||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion