Elevated Bladder Cancer in Northern New England: The Role of Drinking Water and Arsenic

Bladder cancer mortality rates have been elevated in northern New England for at least five decades. Incidence rates in Maine, New Hampshire, and Vermont are about 20% higher than the United States overall. We explored reasons for this excess, focusing on arsenic in drinking water from private wells...

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Published in	JNCI : Journal of the National Cancer Institute Vol. 108; no. 9
Main Authors	Baris, Dalsu, Waddell, Richard, Beane Freeman, Laura E., Schwenn, Molly, Colt, Joanne S., Ayotte, Joseph D., Ward, Mary H., Nuckols, John, Schned, Alan, Jackson, Brian, Clerkin, Castine, Rothman, Nathaniel, Moore, Lee E., Taylor, Anne, Robinson, Gilpin, Hosain, GM Monawar, Armenti, Karla R., McCoy, Richard, Samanic, Claudine, Hoover, Robert N., Fraumeni, Joseph F., Johnson, Alison, Karagas, Margaret R., Silverman, Debra T.
Format	Journal Article
Language	English
Published	United States Oxford University Press 01.09.2016
Subjects	Adult Aged Arsenic - analysis Case-Control Studies Drinking Drinking Water - chemistry Female Humans Incidence Maine - epidemiology Male Middle Aged New Hampshire - epidemiology Risk Factors United States - epidemiology Urinary Bladder Neoplasms - epidemiology Urinary Bladder Neoplasms - mortality Vermont - epidemiology Water Wells
Online Access	Get full text
ISSN	0027-8874 1460-2105 1460-2105
DOI	10.1093/jnci/djw099

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Abstract	Bladder cancer mortality rates have been elevated in northern New England for at least five decades. Incidence rates in Maine, New Hampshire, and Vermont are about 20% higher than the United States overall. We explored reasons for this excess, focusing on arsenic in drinking water from private wells, which are particularly prevalent in the region. In a population-based case-control study in these three states, 1213 bladder cancer case patients and 1418 control subjects provided information on suspected risk factors. Log transformed arsenic concentrations were estimated by linear regression based on measurements in water samples from current and past homes. All statistical tests were two-sided. Bladder cancer risk increased with increasing water intake (Ptrend = .003). This trend was statistically significant among participants with a history of private well use (Ptrend = .01). Among private well users, this trend was apparent if well water was derived exclusively from shallow dug wells (which are vulnerable to contamination from manmade sources, Ptrend = .002) but not if well water was supplied only by deeper drilled wells (Ptrend = .48). If dug wells were used pre-1960, when arsenical pesticides were widely used in the region, heavier water consumers (>2.2 L/day) had double the risk of light users (<1.1 L/day, Ptrend = .01). Among all participants, cumulative arsenic exposure from all water sources, lagged 40 years, yielded a positive risk gradient (Ptrend = .004); among the highest-exposed participants (97.5th percentile), risk was twice that of the lowest-exposure quartile (odds ratio = 2.24, 95% confidence interval = 1.29 to 3.89). Our findings support an association between low-to-moderate levels of arsenic in drinking water and bladder cancer risk in New England. In addition, historical consumption of water from private wells, particularly dug wells in an era when arsenical pesticides were widely used, was associated with increased bladder cancer risk and may have contributed to the New England excess.
AbstractList	Background: Bladder cancer mortality rates have been elevated in northern New England for at least five decades. Incidence rates in Maine, New Hampshire, and Vermont are about 20% higher than the United States overall. We explored reasons for this excess, focusing on arsenic in drinking water from private wells, which are particularly prevalent in the region. Methods: In a population-based case-control study in these three states, 1213 bladder cancer case patients and 1418 control subjects provided information on suspected risk factors. Log transformed arsenic concentrations were estimated by linear regression based on measurements in water samples from current and past homes. All statistical tests were two-sided. Results: Bladder cancer risk increased with increasing water intake ( P trend = .003). This trend was statistically significant among participants with a history of private well use ( P trend = .01). Among private well users, this trend was apparent if well water was derived exclusively from shallow dug wells (which are vulnerable to contamination from manmade sources, P trend = .002) but not if well water was supplied only by deeper drilled wells ( P trend = .48). If dug wells were used pre-1960, when arsenical pesticides were widely used in the region, heavier water consumers (>2.2 L/day) had double the risk of light users (<1.1 L/day, P trend = .01). Among all participants, cumulative arsenic exposure from all water sources, lagged 40 years, yielded a positive risk gradient ( P trend = .004); among the highest-exposed participants (97.5th percentile), risk was twice that of the lowest-exposure quartile (odds ratio = 2.24, 95% confidence interval = 1.29 to 3.89). Conclusions: Our findings support an association between low-to-moderate levels of arsenic in drinking water and bladder cancer risk in New England. In addition, historical consumption of water from private wells, particularly dug wells in an era when arsenical pesticides were widely used, was associated with increased bladder cancer risk and may have contributed to the New England excess. Bladder cancer mortality rates have been elevated in northern New England for at least five decades. Incidence rates in Maine, New Hampshire, and Vermont are about 20% higher than the United States overall. We explored reasons for this excess, focusing on arsenic in drinking water from private wells, which are particularly prevalent in the region. In a population-based case-control study in these three states, 1213 bladder cancer case patients and 1418 control subjects provided information on suspected risk factors. Log transformed arsenic concentrations were estimated by linear regression based on measurements in water samples from current and past homes. All statistical tests were two-sided. Bladder cancer risk increased with increasing water intake (Ptrend = .003). This trend was statistically significant among participants with a history of private well use (Ptrend = .01). Among private well users, this trend was apparent if well water was derived exclusively from shallow dug wells (which are vulnerable to contamination from manmade sources, Ptrend = .002) but not if well water was supplied only by deeper drilled wells (Ptrend = .48). If dug wells were used pre-1960, when arsenical pesticides were widely used in the region, heavier water consumers (>2.2 L/day) had double the risk of light users (<1.1 L/day, Ptrend = .01). Among all participants, cumulative arsenic exposure from all water sources, lagged 40 years, yielded a positive risk gradient (Ptrend = .004); among the highest-exposed participants (97.5th percentile), risk was twice that of the lowest-exposure quartile (odds ratio = 2.24, 95% confidence interval = 1.29 to 3.89). Our findings support an association between low-to-moderate levels of arsenic in drinking water and bladder cancer risk in New England. In addition, historical consumption of water from private wells, particularly dug wells in an era when arsenical pesticides were widely used, was associated with increased bladder cancer risk and may have contributed to the New England excess. Bladder cancer mortality rates have been elevated in northern New England for at least five decades. Incidence rates in Maine, New Hampshire, and Vermont are about 20% higher than the United States overall. We explored reasons for this excess, focusing on arsenic in drinking water from private wells, which are particularly prevalent in the region.BACKGROUNDBladder cancer mortality rates have been elevated in northern New England for at least five decades. Incidence rates in Maine, New Hampshire, and Vermont are about 20% higher than the United States overall. We explored reasons for this excess, focusing on arsenic in drinking water from private wells, which are particularly prevalent in the region.In a population-based case-control study in these three states, 1213 bladder cancer case patients and 1418 control subjects provided information on suspected risk factors. Log transformed arsenic concentrations were estimated by linear regression based on measurements in water samples from current and past homes. All statistical tests were two-sided.METHODSIn a population-based case-control study in these three states, 1213 bladder cancer case patients and 1418 control subjects provided information on suspected risk factors. Log transformed arsenic concentrations were estimated by linear regression based on measurements in water samples from current and past homes. All statistical tests were two-sided.Bladder cancer risk increased with increasing water intake (Ptrend = .003). This trend was statistically significant among participants with a history of private well use (Ptrend = .01). Among private well users, this trend was apparent if well water was derived exclusively from shallow dug wells (which are vulnerable to contamination from manmade sources, Ptrend = .002) but not if well water was supplied only by deeper drilled wells (Ptrend = .48). If dug wells were used pre-1960, when arsenical pesticides were widely used in the region, heavier water consumers (>2.2 L/day) had double the risk of light users (<1.1 L/day, Ptrend = .01). Among all participants, cumulative arsenic exposure from all water sources, lagged 40 years, yielded a positive risk gradient (Ptrend = .004); among the highest-exposed participants (97.5th percentile), risk was twice that of the lowest-exposure quartile (odds ratio = 2.24, 95% confidence interval = 1.29 to 3.89).RESULTSBladder cancer risk increased with increasing water intake (Ptrend = .003). This trend was statistically significant among participants with a history of private well use (Ptrend = .01). Among private well users, this trend was apparent if well water was derived exclusively from shallow dug wells (which are vulnerable to contamination from manmade sources, Ptrend = .002) but not if well water was supplied only by deeper drilled wells (Ptrend = .48). If dug wells were used pre-1960, when arsenical pesticides were widely used in the region, heavier water consumers (>2.2 L/day) had double the risk of light users (<1.1 L/day, Ptrend = .01). Among all participants, cumulative arsenic exposure from all water sources, lagged 40 years, yielded a positive risk gradient (Ptrend = .004); among the highest-exposed participants (97.5th percentile), risk was twice that of the lowest-exposure quartile (odds ratio = 2.24, 95% confidence interval = 1.29 to 3.89).Our findings support an association between low-to-moderate levels of arsenic in drinking water and bladder cancer risk in New England. In addition, historical consumption of water from private wells, particularly dug wells in an era when arsenical pesticides were widely used, was associated with increased bladder cancer risk and may have contributed to the New England excess.CONCLUSIONSOur findings support an association between low-to-moderate levels of arsenic in drinking water and bladder cancer risk in New England. In addition, historical consumption of water from private wells, particularly dug wells in an era when arsenical pesticides were widely used, was associated with increased bladder cancer risk and may have contributed to the New England excess.
Author	Fraumeni, Joseph F. Johnson, Alison Waddell, Richard Jackson, Brian Beane Freeman, Laura E. Schned, Alan Moore, Lee E. Silverman, Debra T. Robinson, Gilpin Ayotte, Joseph D. Ward, Mary H. Schwenn, Molly Nuckols, John Colt, Joanne S. Samanic, Claudine Baris, Dalsu Rothman, Nathaniel McCoy, Richard Taylor, Anne Hosain, GM Monawar Hoover, Robert N. Clerkin, Castine Armenti, Karla R. Karagas, Margaret R.
AuthorAffiliation	Affiliations of authors: Division of Cancer Epidemiology and Genetics, National Cancer Institute, National Institutes of Health, DHHS, Bethesda, MD (DB [formerly], LEBF, JSC, MHW, NR, LEM, CS [formerly], RNH, JFF, DTS); Geisel School of Medicine at Dartmouth, Hanover, NH (RW, AS, MRK); Maine Cancer Registry, Augusta, ME (MS, CC [formerly]); US Geological Survey, Pembroke, NH (JA), Reston, VA (GR); Colorado State University, Fort Collins, CO (JN); Dartmouth College, Hanover, NH (BJ); Information Management Services, Calverton, MD (AT); New Hampshire State Cancer Registry, Concord, NH (GMH); New Hampshire State Occupational Surveillance Program, Concord, NH (KRA); Vermont Department of Health, Burlington, VT (RM, AJ)
AuthorAffiliation_xml	– name: Affiliations of authors: Division of Cancer Epidemiology and Genetics, National Cancer Institute, National Institutes of Health, DHHS, Bethesda, MD (DB [formerly], LEBF, JSC, MHW, NR, LEM, CS [formerly], RNH, JFF, DTS); Geisel School of Medicine at Dartmouth, Hanover, NH (RW, AS, MRK); Maine Cancer Registry, Augusta, ME (MS, CC [formerly]); US Geological Survey, Pembroke, NH (JA), Reston, VA (GR); Colorado State University, Fort Collins, CO (JN); Dartmouth College, Hanover, NH (BJ); Information Management Services, Calverton, MD (AT); New Hampshire State Cancer Registry, Concord, NH (GMH); New Hampshire State Occupational Surveillance Program, Concord, NH (KRA); Vermont Department of Health, Burlington, VT (RM, AJ)
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Copyright	Published by Oxford University Press 2016. This work is written by US Government employees and is in the public domain in the United States. Published by Oxford University Press 2016. This work is written by US Government employees and is in the public domain in the United States. 2016
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Snippet	Bladder cancer mortality rates have been elevated in northern New England for at least five decades. Incidence rates in Maine, New Hampshire, and Vermont are... Background: Bladder cancer mortality rates have been elevated in northern New England for at least five decades. Incidence rates in Maine, New Hampshire, and...
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SubjectTerms	Adult Aged Arsenic - analysis Case-Control Studies Drinking Drinking Water - chemistry Female Humans Incidence Maine - epidemiology Male Middle Aged New Hampshire - epidemiology Risk Factors United States - epidemiology Urinary Bladder Neoplasms - epidemiology Urinary Bladder Neoplasms - mortality Vermont - epidemiology Water Wells
Title	Elevated Bladder Cancer in Northern New England: The Role of Drinking Water and Arsenic
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