Nitrate intake does not influence bladder cancer risk: the Netherlands Cohort Study.OBJECTIVES: N-nitroso compounds, endogenously en·dog·e·nous adj. 1. Produced or growing from within. 2. Originating or produced within an organism, tissue, or cell: endogenous secretions. formed from nitrate-derived nitrite nitrite Any salt or ester of nitrous acid (HNO2). The salts are inorganic compounds with ionic bonds, containing the nitrite ion (NO2−) and any cation. , are suspected to be important bladder carcinogens Carcinogens Substances in the environment that cause cancer, presumably by inducing mutations, with prolonged exposure. Mentioned in: Colon Cancer, Rectal Cancer . However, the association between nitrate exposure from food or 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. and bladder cancer bladder cancer Malignant tumour of the bladder. The most significant risk factor associated with bladder cancer is smoking. Exposure to chemicals called arylamines, which are used in the leather, rubber, printing, and textiles industries, is another risk factor. has not been substantially investigated in epidemiologic studies epidemiologic study A study that compares 2 groups of people who are alike except for one factor, such as exposure to a chemical or the presence of a health effect; the investigators try to determine if any factor is associated with the health effect . METHODS: We evaluated the associations between nitrate exposure and bladder cancer in the Netherlands Cohort Study A cohort study is a form of longitudinal study used in medicine and social science. It is one type of study design. In medicine, it is usually undertaken to obtain evidence to try to refute the existence of a suspected association between cause and disease; failure to refute , conducted among 120,852 men and women, 55-69 years of age at entry. Information on nitrate from diet was collected via a food frequency questionnaire in 1986 and a database on nitrate content of foods. Individual nitrate exposures from beverages prepared with tap water were calculated by linking the postal code Noun 1. postal code - a code of letters and digits added to a postal address to aid in the sorting of mail postcode, ZIP code, ZIP code - a coding system used for transmitting messages requiring brevity or secrecy of individual residence at baseline to water company data. After 9.3 years of follow-up and after excluding subjects with incomplete or inconsistent dietary data, 889 cases and 4,441 subcohort members were available for multivariate The use of multiple variables in a forecasting model. analyses. We calculated incidence rate ratios (RR) and corresponding 95% confidence intervals confidence interval, n a statistical device used to determine the range within which an acceptable datum would fall. Confidence intervals are usually expressed in percentages, typically 95% or 99%. (CIs) using Cox regression analyses. We also evaluated possible effect modification effect modification Epidemiology An interaction among multiple possible cause-and-effect relationships, where the estimate of the effect of one factor on a disease process depends on other factors in the study of dietary intake of vitamins C and E (low/high) and cigarette smoking (never/ever). RESULTS: The multivariate RRs for nitrate exposure from food, drinking water, and estimated total nitrate exposure were 1.06 (95% CI, 0.81-1.31), 1.06 (95% CI, 0.82-1.37), and 1.09 (95% CI, 0.84-1.42), respectively, comparing the highest to the lowest quintiles Quintiles Transnational Corp. is a contract research organization which serves the pharmaceutical, biotechnology and healthcare industries. History Quintiles was founded in 1982 by Dennis Gillings and as of 2007 it has 18,000 employees. of intake. Dietary intake of vitamins C and E (low/high) and cigarette smoking (never/ever) had no significant impact on these results. CONCLUSION: Although the association between nitrate exposure and bladder cancer risk is biologically plausible, our results in this study do not support an association between nitrate exposure and bladder cancer risk. KEY WORDS: bladder cancer, cohort study, epidemiology, etiology, nitrate. Environ Health Perspect 114:1527-1531 (2006). doi:10.1289/ehp.9098 available via http://dx.doi.org/ [Online 13 July 2006] ********** Nitrate is a natural compound of green vegetables, such as lettuce and spinach, and root vegetables, such as beets. Nitrate is also present in drinking water (Gangolli et al. 1994; McKnight et al. 1999; van Loon loon, common name for migratory aquatic birds found in fresh- and saltwater in the colder parts of the Northern Hemisphere. Its strange, laughing call carries for great distances. Like the grebes, loons float low in the water and their legs are placed far back. et al. 1997, 1998). In the late 1990s, the concentration of nitrate in the Netherlands increased in vegetables and drinking water due to cultivation and the use of artificial fertilizers (van Loon et al. 1998), and these nitrate concentrations have remained stable to date (Versteegh et al. 2004). This continued high concentration causes growing concern because of the potential health risks of the metabolites Metabolites Substances produced by metabolism or by a metabolic process. Mentioned in: Interactions of nitrate and because of their potential relationship with cancer. There is still a relative deficit of epidemiologic data addressing the association between nitrate exposure and cancer risk. Most of the epidemiologic studies that are available have focused on gastric cancer gastric cancer Stomach cancer, see there risk (Boeing et al. 1991; Buiatti et al. 1990; Cantor 1997; Forman 1989; Hansson et al. 1994; Risch et al. 1985; van Loon et al. 1997), but showing little support for the supposed relationship between nitrate and gastric cancer risk. However, an association between nitrate exposure and bladder cancer risk is biologically plausible. After ingestion ingestion /in·ges·tion/ (-chun) the taking of food, drugs, etc., into the body by mouth. in·ges·tion n. 1. The act of taking food and drink into the body by the mouth. 2. , approximately 20% of nitrate is endogenously transformed to nitrite by the bacterial flora The bacterial flora is the whole system of bacteria in body cavities that have contact with the outside world. Every place shows another biochemical environment:
n. The part of the mouth behind the teeth and gums that is bounded above by the hard and soft palates and below by the tongue and the mucous membrane connecting it with the inner part of the mandible. (Weyer et al. 2001). Nitrite can react in the stomach with foodborne secondary amines amines (  mēnz´),n.pl organic compounds that contain nitrogen. or amides to form N-nitroso compounds (NOCs), depending on the availability of nitrate in the stomach (Mirvish et al. 1987; van Loon et al. 1998; Walker 1990; Weyer et al. 2001). Because approximately 70% of the orally ingested in·gest tr.v. in·gest·ed, in·gest·ing, in·gests 1. To take into the body by the mouth for digestion or absorption. See Synonyms at eat. 2. nitrate is excreted in the urine, nitrosation may also occur in the bladder (Gulis et al. 2002; Preston-Martin and Correa 1989; Weyer et al. 2001). Several lifestyle-related factors can influence nitrosation. Food components, such as vitamins C and E, may inhibit the conversion of nitrate into nitrite or block nitrosation (Council of Europe Council of Europe, international organization founded in 1949 to promote greater unity within Europe and to safeguard its political and cultural heritage by promoting human rights and democracy. The council is headquartered in Strasbourg, France. 1995), whereas other factors, such as smoking cigarettes, can promote nitrosation (Ward et al. 2003; Weyer et al. 2001). Smokers appear to have a lower concentration of nitrate in the blood because of the higher thiocyanate thiocyanate /thio·cy·a·nate/ (-si´ah-nat) a salt analogous in composition to a cyanate, but containing sulfur instead of oxygen. concentration, which can be up to four times higher than in nonsmokers (Council of Europe 1995; Mirvish et al. 1987). It is not nitrate per se but its metabolites that are potent rodent rodent, member of the mammalian order Rodentia, characterized by front teeth adapted for gnawing and cheek teeth adapted for chewing. The Rodentia is by far the largest mammalian order; nearly half of all mammal species are rodents. carcinogens (Tricker and Preussmann 1991), inducing several types of cancer including cancer of the stomach, colon, and lymphatic lymphatic /lym·phat·ic/ (lim-fat´ik) 1. pertaining to lymph or to a lymphatic vessel. 2. a lymphatic vessel. lym·phat·ic adj. and hematopoietic system hematopoietic system n. The blood-making organs, principally the bone marrow and lymph nodes. Hematopoietic system The system in the body which is responsible for the production of blood cells. , and possibly bladder (Bogovski and Bogovski 1981; Gulis et al. 2002; Mirvish et al. 1987). Previous epidemiologic studies focused on nitrate exposure and bladder cancer risk are sparse; also, they have addressed nitrate intake only from drinking water and have used ecologic (Gulis et al. 2002; Morales-Suarez-Varela et al. 1995) or case-control (Ward et al. 2003) designs. Only one prospective study on drinking-water nitrate intake and bladder cancer risk has been published so far (Weyer et al. 2001). In that study of the prospective Iowa Women's Health Women's Health Definition Women's health is the effect of gender on disease and health that encompasses a broad range of biological and psychosocial issues. Study, Weyer et al. (2001) found an increased risk of bladder cancer among older women exposed to relatively low drinking-water levels of > 2.46 mg/L/day nitrate, compared with women using < 2.46 mg/L/day [incidence rate ratios (RR), 2.83; 95% confidence interval (CI), 1.11-7.19]. Weyer et al. (2001), however, could not provide data on men (Kantoff 1992). In the present study, the prospective design, the possibility of investigating nitrate in both food and drinking water, the large study population including both men and women, and the possibility of studying confounding confounding when the effects of two, or more, processes on results cannot be separated, the results are said to be confounded, a cause of bias in disease studies. confounding factor and effect modification by environmental characteristics allowed us to study the association between nitrate intake and bladder cancer incidence in more detail in the Netherlands Cohort Study. Materials and Methods Study population. The design of the Netherlands Cohort Study (NLCS NLCS National League Championship Series (baseball) NLCS North Lawrence Community Schools (various locations, USA) NLCS National Landscape Conservation System ) has been reported in detail elsewhere (van den Brandt et al. 1990). Briefly, the NLCS was initiated in September 1986 and includes 58,279 men and 62,573 women 55-69 years of age at baseline. Ethical approval was obtained from the University Hospital Maastricht (Maastricht, the Netherlands) and TNO TNO Tamarindo, Costa Rica (Airport code) TNO Nederlandse Organisatie voor Toegepast Natuurwetenschappelijk Onderzoek TNO Trans-Neptunian Object TNO The New Order (paramilitary street gang) TNO Trust No One . This study population originated from 204 municipal registries throughout the country. All cohort members consented to participation by completing a mailed, self-administered questionnaire on risk factors for cancer. For reasons of efficiency in data processing data processing or information processing, operations (e.g., handling, merging, sorting, and computing) performed upon data in accordance with strictly defined procedures, such as recording and summarizing the financial transactions of a and analysis, we used the case-cohort approach (Prentice 1986). Cases were derived from the entire cohort (providing numerator numerator the upper part of a fraction. numerator relationship see additive genetic relationship. numerator Epidemiology The upper part of a fraction information for calculation of cancer incidence rates), and accumulated person-years at risk in the total cohort were estimated using a random subcohort sample (providing denominator information for the rates). The subcohort was sampled directly after identification of all cohort members and has been followed up biennially for vital status information. Follow-up. The follow-up for incident bladder cancer in the entire cohort was established by computerized record linkage Record linkage (RL) refers to the task of finding entries that refer to the same entity in two or more files. Record linkage is an appropriate technique when you have to join data sets that do not have a unique database key in common. with the cancer registries in the Netherlands and the Dutch national database of pathology reports (PALGA PALGA Pathologisch Anatomisch Landelijk Geautomatiseerd Archief ). Completeness of follow-up of cancer has been estimated to be at least 96% (Goldbohm et al. 1994). The analysis is restricted to cancer incidence in 9.3 years of follow up, from September 1986 through December 1995. During this follow-up, 955 bladder cancer cases were registered. Nitrate intake. Each participant's usual consumption of food and beverages F&B is a common abbreviation in the United States and Commonwealth countries, including Hong Kong. F&B is typically the widely accepted abbreviation for "Food and Beverage," which is the sector/industry that specializes in the conceptualization, the making of, and delivery of foods. during the year preceding the start of the study was assessed at baseline with a 150-item semiquantitative food frequency questionnaire specifically developed to measure nutrient contents such as nitrate. This questionnaire has been validated against a 9-day diet record (Goldbohm et al. 1994). Food composition values for nitrate were derived from the databank on contaminants in food from the State Institute for Quality Control of Agricultural Products (RIKILT; Wageningen, the Netherlands) (van Loon 1997 et al. 1998). Estimations were based on the mean nitrate contents between 1985 and 1989, in which distinction for some vegetables (e.g., endive, lettuce) was made between summer and winter. Furthermore, information on nitrate losses during preparation (washing, cutting, cooking) were considered. For several vegetables (endive, spinach, cabbage) and for potatoes, experimental data were available regarding nitrate losses during preparation (Driessen 1989; van de Worp 1987). For other vegetables, nitrate losses were estimated to be 40%. For water, we combined information about nitrate ([NO.sub.3.sup.-]]/L) content in drinking water from all 364 pumping stations in the Netherlands in 1986 [Vereniging van Exploitanten van Waterleiding bedrijven in Nederland (VEWIN) 1989]. In this way, we could determine the nitrate concentration in drinking water for each home address by postal code. If more pumping stations delivered drinking water to a single residence, a weighted mean was calculated. To calculate the nitrate intake from water, we used the information about the amount of water, coffee, tea, and soup consumed, which where derived from the questionnaire. Statistical analysis. Subjects with incomplete or inconsistent dietary data were excluded from the analyses (Goldbohm et al. 1994), leaving 889 cases and 4,441 subcohort members available for analyses. Because of additional missing values In statistics, missing values are a common occurrence. Several statistical methods have been developed to deal with this problem. Missing values mean that no data value is stored for the variable in the current observation. for chemical water quality, 871 cases and 4,359 subcohort members were available for analyses on nitrate exposure from drinking water and total nitrate exposure. Incidence rate ratios (RRs) and corresponding 95% confidence intervals (CIs) for bladder cancer were estimated in age-and sex-adjusted and multivariable case-cohort analyses using the Cox proportional hazards model (Cox 1972) processed with the Stata statistical software package (Cleves et al. 2002). We estimated SEs using the robust Huber-White sandwich estimator to account for additional variance introduced by sampling from the cohort (Lin and Wei 1989). The proportional hazards assumption was tested using the scaled Schoenfeld residuals (Schoenfeld 1982). Tests for dose-response trends in risk of bladder cancer were assessed by fitting ordinal (mathematics) ordinal - An isomorphism class of well-ordered sets. exposure variables as continuous terms. All p-values presented are two-sided. Statistical tests for interaction were based on Wald statistics of interaction product terms. The following variables have been considered as potential confounding factors, based on earlier analyses (Zeegers et al. 2001a, 2001b, 2001c, 2001d, 2002a, 2002b): age (years), alcohol consumption (grams per day), coffee consumption (cups per day), tea consumption (cups per day), water consumption (liters per day), vegetable consumption (grams per day), fruit consumption (grams per day), dietary vitamin C vitamin C or ascorbic acid Water-soluble organic compound important in animal metabolism. Most animals produce it in their bodies, but humans, other primates, and guinea pigs need it in the diet to prevent scurvy. and E intake (milligrams per day), cigarette smoking (never/ever), current cigarette smoking (percentage yes), smoking amount (cigarettes per day), smoking duration (years of cigarette smoking), first degree family history of bladder cancer (percentage yes), and high-risk occupational exposure to dye, rubber, leather or vehicle fumes fumes odorous gases and other volatile materials; inhalation of irritating fumes causes coughing and, if sufficiently severe, irreversible pulmonary edema. (percentage ever). Furthermore, other variables were tested as possible effect modifiers between nitrate exposure from diet and drinking water (low/high exposure) and bladder cancer risk: intake of dietary vitamins C and E (low/high) and smoking of cigarettes (never/ever). Noninvasive tumors [carcinoma in situ carcinoma in situ n. A neoplasm whose cells are localized in the epithelium and show no tendency to invade or metastasize to other tissues. Carcinoma in situ (Tis), noninvasive papillary carcinoma papillary carcinoma n. A malignant neoplasm characterized by the formation of many irregular, fingerlike projections of fibrous stroma covered with a layer of neoplastic epithelial cells. (Ta), and submucosal submucosal /sub·mu·co·sal/ (-mu-ko´sal) 1. pertaining to the submucosa. 2. beneath a mucous membrane. invasion (T1)] were evaluated separately from invasive tumors [invasion of muscle (T2)-invasion of prostate, uterus, vagina vagina: see reproductive system. vagina Genital canal in females. Together with the cavity of the uterus, it forms the birth canal. In most virgins, its external opening is partially closed by a thin fold of tissue (hymen), which has various forms, , pelvic wall, or abdominal wall (T4)] to test whether bladder cancer progression is associated with nitrate intake. Results Table 1 presents the average baseline nitrate levels from food and drinking water and the estimated total nitrate intake per day among bladder cancer cases and the subcohort members. Although exposure to nitrate from food was comparable between cases and subcohort members, nitrate exposure from drinking water and estimated total nitrate intake appeared to be somewhat higher among cases. Of the potential confounders, age, alcohol intake, coffee consumption, water consumption, dietary vitamin E vitamin E or tocopherol Fat-soluble organic compound found principally in certain plant oils and leaves of green vegetables. Vitamin E acts as an antioxidant in body tissues and may prolong life by slowing oxidative destruction of membranes. intake, cigarette smoking amount, and smoking duration were somewhat higher among cases than among subcohort members, whereas tea consumption, dietary vitamin C intake, and fruit and vegetable consumption were higher among subcohort members. Most differences, however, were nonsignificant non·sig·nif·i·cant adj. 1. Not significant. 2. Having, producing, or being a value obtained from a statistical test that lies within the limits for being of random occurrence. . As expected, men were overrepresented o·ver·rep·re·sent·ed adj. Represented in excessive or disproportionately large numbers: "Some groups, and most notably some races, may be overrepresented and others may be underrepresented" among cases (86.2%), whereas the male/female distribution was about equal among subcohort members. Most of the cases (87.8%) had smoked cigarettes, compared to only 64.1% of the subcohort members. This contrast was stronger for current smoking at baseline, when 44.2% of the cases and 28.2% of the subcohort members smoked. The frequency of having first degree family members with bladder cancer or having worked in a high risk occupation were very low among both cases and subcohort members (Table 1). Cox regression analyses showed that only age, sex, and cigarette smoking were confounders; therefore, we adjusted for these in subsequent multivariate analyses. The RRs for nitrate exposure from food, drinking water, and estimated total nitrate exposure are presented in Table 2. When adjusted for age and sex, the RR for nitrate exposure from food was 1.01 (95% CI, 0.79-1.29; p-trend = 0.72), comparing the highest quintile quin·tile n. 1. The astrological aspect of planets distant from each other by 72° or one fifth of the zodiac. 2. Statistics The portion of a frequency distribution containing one fifth of the total sample. with the lowest quintile. After adjustment for cigarette smoking, the RR increased slightly to 1.06 (95% CI, 0.81-1.37; p-trend = 0.96). Additional adjustment for nitrate from drinking water did not change these estimates substantially. When comparing the highest quintile with the lowest quintile of nitrate exposure from drinking water, the RR was 1.11 (95% CI, 0.87-1.41; p-trend = 0.14), after adjusting for age and sex. When adjusted for age, sex and smoking, the RR decreased to 1.06 (95% CI, 0.82-1.37; p-trend = 0.23). This RR did not change further after additional adjustment for nitrate exposure from food. The age-and sex-adjusted RR for estimated total nitrate exposure was 1.03 (95% CI, 0.80-1.32; p-trend = 0.86), when comparing the highest quintile with the lowest quintile of exposure. When adjusted for age, sex and smoking, this RR increased to 1.06 (95% CI, 0.82-1.38; p-trend = 0.77). These results were similar for men and women for nitrate from food (p = 0.62), nitrate from water (p = 0.14) and total nitrate (p = 0.74) (data not shown). Vitamin C (p = 0.63), vitamin E (p = 0.62), and cigarette smoking (p = 0.11) did not appear to be significant effect modifiers in the association between nitrate exposure from food and bladder cancer risk (Table 3). Smoking was also not an effect modifier (programming) modifier - An operation that alters the state of an object. Modifiers often have names that begin with "set" and corresponding selector functions whose names begin with "get". when nitrate exposure from drinking water was evaluated (Table 4). Table 5 presents the association between nitrate exposure and transitional cell carcinoma tran·si·tion·al cell carcinoma n. A malignant neoplasm derived from transitional epithelium and occurring primarily in the urinary bladder, ureters, or renal pelvises. transitional cell carcinoma Bladder cancer, see there , with respect to tumor tumor: see neoplasm. invasiveness. The relative risks for high versus low nitrate intake from food and/or drinking water did not differ between invasive and noninvasive tumors (Table 5). Discussion In the present study, we examined the association between nitrate exposure and the risk of developing bladder cancer in a prospective cohort study. Although the association between nitrate exposure and bladder cancer risk is biologically plausible, our results do not show a statistically significant association for baseline nitrate exposure from food or drinking water or on the basis of total nitrate exposure. To our knowledge, this is the first study to investigate nitrate exposure and bladder cancer risk with respect to tumor invasiveness. In these analyses, we found no significant results. The main source of dietary nitrate intake is vegetables. However, vegetables may contain certain vitamins that can act as inhibitors of endogenous endogenous /en·dog·e·nous/ (en-doj´e-nus) produced within or caused by factors within the organism. en·dog·e·nous adj. 1. Originating or produced within an organism, tissue, or cell. nitrosation. As a consequence, dietary intake of nitrate may not result in a substantial formation of NOCs (Ward et al. 2003), although conflicting results have been reported on this issue (Vermeer et al. 1999). On the other hand, cigarettes also contain NOCs, which could further promote the endogenous nitrosation in the body and therefore result in a substantial formation of NOCs. We have investigated both of these aspects in this study. Although plausible, interaction analyses between dietary nitrate intake and dietary intake of vitamins C and E did not yield significant results. Although vitamin C intake decreased the risk of bladder cancer marginally in this population, high vitamin E intake did not appear to decrease the risk (data not shown). Because nitrate from water is often assumed to pose a greater cancer risk than nitrate from foods that contain antioxidants Antioxidants Substances that reduce the damage of the highly reactive free radicals that are the byproducts of the cells. Mentioned in: Aging, Nutritional Supplements antioxidants, n. and other protective nutrients, we also evaluated the effects of nitrate-contaminated water on smokers in a separate analysis. In stratified stratified /strat·i·fied/ (strat´i-fid) formed or arranged in layers. strat·i·fied adj. Arranged in the form of layers or strata. analyses, we found that smoking cigarettes did not significantly change the association between nitrate intake from either food or water and bladder cancer risk. However, our never-smoking stratum stratum /stra·tum/ (strat´um) (stra´tum) pl. stra´ta [L.] a layer or lamina. stratum basa´le was small because of relatively high European smoking rates. It is possible that a larger nonsmoking non·smok·ing adj. 1. Not engaging in the smoking of tobacco: nonsmoking passengers. 2. Designated or reserved for nonsmokers: the nonsmoking section of a restaurant. population would yield a different answer. A null association for nitrate from drinking water may be explained by the rather low levels of nitrate in Dutch drinking water. We assessed the intake of nitrate in drinking water from regular drinking water supplies by combining information on nitrate contents in drinking water from all water companies in the Netherlands (VEWIN 1989) with information about the distribution for the baseline year 1986. The average level of nitrate in Dutch drinking water is 1.68 mg/L (VEWIN 1989). Approximately 5% of the pumping stations have supplied drinking water with a nitrate level between 25 and 50 mg/L (van Duyvenbooden and van Matthysen 1989). Unfortunately, no information was available about dietary and water nitrate intake during follow-up. However, in a reproducibility study, Goldbohm et al. (1995) demonstrated that the single food frequency questionnaire measurement could characterize dietary habits for a period of at least 5 years. Furthermore, data from the National Institute for Public Health and the Environment (Bilthoven, the Netherlands) showed no substantial differences in average nitrate concentrations in drinking water within the last decade (Versteegh et al. 2004). Our results are consistent with those of van Loon et al. (1997) concerning nitrate intake from food and the lack of an association between drinking water nitrate intake and cancer: van Loon et al. (1997) found no associations between nitrate intake from Dutch drinking water and gastric cancer. Some factors may have influenced the results of the present study. A possible weakness of this study is that we were not able to control for bladder infections bladder infection 1 Cystitis, see there 2 Urinary tract infection, see there , a possible risk factor for bladder cancer. Also, the results could have been influenced by misclassification of exposure. Dietary nitrate intake was assessed by combining information on food intake with nitrate contents in food, and intake of food was estimated with a semiquantitative food frequency questionnaire. This method has been validated against urinary measurement: the adjusted partial correlation Noun 1. partial correlation - a correlation between two variables when the effects of one or more related variables are removed statistics - a branch of applied mathematics concerned with the collection and interpretation of quantitative data and the use of coefficient of intake verses urinary excretion was 0.59, indicating that a self-administered dietary questionnaire can be used to measure usual nitrate intake (van den Brandt et al. 1989). To account for the relatively large variation in nitrate levels in vegetables over seasons, we calculated mean nitrate contents in vegetables from average nitrate levels in summer and winter. The prospective nature of a cohort study, together with completeness of follow-up, as has been achieved in this study, reduced the potential for recall and selection bias to a minimum. Information bias was also largely avoided because dietary habits were reported before bladder cancer was diagnosed. Our finding of no association with bladder cancer is consistent with some of the earlier studies conducted in Slovakia (Gulis et al. 2002) and in Iowa (USA) (Ward et al. 2003). The first ecologic study, conducted in Slovakia (Gulis et al. 2002), showed no association overall; the highest standardized incidence ratio (1.22; 95% CI, 0.90-1.64) was reported among people exposed to 0-10 mg/L nitrate from drinking water. The second ecologic study, conducted in Spain (Morales-Suarez-Varela et al. 1995), reported an association with bladder cancer among males 55-75 years of age and exposed to > 50 mg/L of nitrates in drinking water (RR = 1.4; 95% CI, 0.8-2.48). A case-control study case-control study, n an investigation employing an epidemiologic approach in which previously existing incidents of a medical condition are used in lieu of gathering new information from a randomized population. in Iowa (Ward et al. 2003) found no association with bladder cancer and nitrate levels in water supplies. The highest quartile Quartile A statistical term describing a division of observations into four defined intervals based upon the values of the data and how they compare to the entire set of observations. Notes: Each quartile contains 25% of the total observations. odds ratio (OR) for women exposed to [greater than or equal to] 2.48 mg/L nitrate in drinking water was 0.8 (95% CI, 0.4-1.3). The highest quartile OR for men exposed to [greater than or equal to] 3.09 mg/L nitrate in drinking water was 0.5 (95% CI, 0.4-0.8). 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Vermeer I, Moonen EJC EJC European Journalism Centre (Maastricht, Netherlands) EJC European Jewish Congress EJC European Journal of Cancer EJC Electronic Journal of Communication EJC Equal Justice Coalition EJC European Junior Championships , Dallinga JW, Kleinjans JC, van Maanen JM. 1999. Effect of ascorbic acid and green tea on endogenous formation of N-nitrosodimethylamine and N-nitrosopiperidine in humans. Mutat Res 428:353-361. Versteegh J, Morgenstern P, Biesebeek J. 2004. De drink-waterkwaliteit in Nederland van 1992 tot 2002. [in Dutch] Bilthoven:Rijksinstituut voor volksgezondheid en milieu (RIVM). VEWIN. 1989. Statistiek Wateronderzoek 1986 [in Dutch]. Rijswijk:Vereniging con Exploitanten van Waterleiding bedrijven in Nederland. Walker R. 1990. Nitrates, nitrates and N-nitroso compounds: a review of the occurrence in food and diet and the toxicological implications. Food Addit Contam 7:717-768. Ward M, Cantor KP, Riley D, Merkle S, Lynch CF. 2003. Nitrate in public water supplies and risk of bladder cancer. Epidemiology 14:183-190. Weyer P, Cerhan JR, Kross BC, Hallberg GR, Kantamneni J, Breuer G, et al. 2001. Municipal drinking water nitrate level and cancer risk in older women: the Iowa Women's Health Study. Epidemiology 12:327-338. Zeegers M, Dorant E, Goldbohm RA, van den Brandt PA. 2001a. Are coffee, tea and fluid consumption associated with bladder cancer risk? Results from the Netherlands Cohort Study. Cancer Causes Control 12:231-238. Zeegers M, Goldbohm RA, Bode P, van den Brandt PA. 2002a. Prediagnostic toenail toenail /toe·nail/ (to´nal) the nail on any of the digits of the foot. ingrown toenail see under nail. toe·nail n. selenium selenium (səlē`nēəm), nonmetallic chemical element; symbol Se; at. no. 34; at. wt. 78.96; m.p. 217°C;; b.p. about 685°C;; sp. gr. 4.81 at 20°C;; valence −2, +4, or +6. and risk of bladder cancer. Cancer Epidemiol Biomarkers Prev 11:1292-1297. Zeegers M, Goldbohm RA, van den Brandt PA. 2001b. Are Retinol retinol: see Vitamin A under vitamin. Vitamin C, Vitamin E, Folate folate /fo·late/ (fo´lat) 1. the anionic form of folic acid. 2. more generally, any of a group of substances containing a form of pteroic acid conjugated with l-glutamic acid and having a variety of substitutions. and Caretenoids Intake associated with Bladder Cancer Risk? Results from Netherlands Cohort Study. Br J Cancer 28:977-983. Zeegers M, Goldbohm RA, van den Brandt PA. 2001c. Occupational risk factors for male bladder cancer: results from a population based case cohort study in the Netherlands. Occup Environ Med 58:590-596. Zeegers M, Goldbohm RA, van den Brandt PA. 2002b. A prospective study on active and environmental tobacco smoking and bladder cancer risk. Cancer Causes Control 13:83-90. Zeegers M, Volovics A, Dorant E, Goldbohm RA, van den Brandt PA. 2001d. Alcohol consumption and bladder cancer risk: results from the Netherlands Cohort study. Am J Epidemiol 153:38-41. Maurice P. Zeegers, (1,2,3) Roel F.M. Selen, (3) Jos C.S. Kleinjans, (4) R. Alexandra Goldbohm, (5) and Piet A. van den Brandt (3) (1) Department of Public Health and Epidemiology, University of Birmingham Due to Birmingham's role as a centre of light engineering, the university traditionally had a special focus on science, engineering and commerce, as well as coal mining. It now teaches a full range of academic subjects and has five-star rating for teaching and research in several , Birmingham, United Kingdom; (2) Comprehensive Cancer Institute Limburg, Department of General Practice, Catholic University of Leuven The Catholic University of Leuven is the largest and most prominent university in Belgium. It was founded in 1425 by Pope Martin V, which makes it the oldest Catholic university still active. , Leuven, Belgium; (3) Department of Epidemiology, and (4) Department of Health Risk Analysis and Toxicology toxicology, study of poisons, or toxins, from the standpoint of detection, isolation, identification, and determination of their effects on the human body. Toxicology may be considered the branch of pharmacology devoted to the study of the poisonous effects of drugs. , Maastricht University, Maastricht, the Netherlands; (5) Department of Food and Chemical Risk Analysis, TNO Quality of Life, Zeist, the Netherlands Address correspondence to M.P. Zeegers, Unit of Genetic Epidemiology, Department of Public Health and Epidemiology, University of Birmingham, Public Health Building, Edgbaston, Birmingham, B15 2TT, United Kingdom. Telephone: 44 (121) 414-7878. Fax: 44 (121) 414-7878. E-mail: m.p.zeegers@bham.ac.uk We thank the participants, the cancer registries (IKA, IKL IKL Iklin (postal locality, Malta) IKL Isänmaallinen Kansallis-Liitto (Finnish: Patriotic National Alliance) IKL Industrija Kotrljajucih Lezaja (Jugoslavija) , IKMN IKMN Integraal Kankercentrum Midden Nederland (cancer center; Netherlands) , IKN IKN I Know Nothing , IKO IKO International Kiteboarding Organization IKO International Karate Organization IKO Integraal Kankercentrum Oost (Dutch) IKO Instituut voor Katholiek Onderwijs (Dutch) , IKR IKR Integraal Kankercentrum Rotterdam (Dutch) IKR I Know Right , IKST IKST Integraal Kankercentrum Stedendriehoek Twente (Dutch) , IKW IKW Industrieverband Körperpflege- und Waschmittel eV (German industrial union of detergents and cosmetics) , IKZ IKZ Integrale KwaliteitsZorg (Dutch) and VIKC VIKC Vereniging van Integrale Kankercentra (Dutch) VIKC Van Integrale KankerCentra (Netherlands) ), and the Netherlands nationwide registry of pathology (PALGA). We also thank A. Volovics and A. Kester for statistical advice; L. Schouten, S. van de Crommert, H. Brants, J. Nelissen, C. de Zwart, M. Moll, W. van Dijk van Dijk can refer to:
The Netherlands Cohort Study was supported in part by the Dutch Cancer Society. M.P.Z. is partly funded by Cancer Research UK. The authors declare they have no competing financial interests. Received 14 February 2006; accepted 13 July 2006.
Table 1. Description of mean daily intake of nitrate in food and
drinking water and estimated total nitrate intake, as well as the
distribution of potential confounding factors: the Netherlands Cohort
Study, 1986-1995.
Exposure variable Cases Subcohort
Nitrate from food (mg/day) 104.5 [+ or -] 104.5 [+ or -]
43.4 44.0
Nitrate from drinking water (mg/day) 5.3 [+ or -] 4.9 [+ or -]
6.2 6.2
Total nitrate intake 109.8 [+ or -] 109.4 [+ or -]
44.3 45.2
Potential risk factors
Age (years) 62.5 [+ or -] 61.4 [+ or -]
4.1 4.2
Alcohol intake (g/day) 15.8 [+ or -] 10.4 [+ or -]
17.9 14.4
Coffee consumption (cups/day) 5.9 [+ or -] 5.4 [+ or -]
3.0 2.7
Tea consumption (cups/day) 3.0 [+ or -] 3.5 [+ or -]
2.5 2.5
Water consumption (L/day) 2.1 [+ or -] 2.1 [+ or -]
0.5 0.5
Total vegetable consumption (g/day) 190.8 [+ or -] 193.4 [+ or -]
79.4 83.0
Total fruit consumption (g/day) 154.3 [+ or -] 175.5 [+ or -]
122.4 119.5
Vitamin C intake (mg/day) 98.7 [+ or -] 103.3 [+ or -]
43.8 43.8
Vitamin E intake (mg/day) 14.1 [+ or -] 13.4 [+ or -]
6.3 6.2
Smoking amount (cigarettes/day) (a) 17.8 [+ or -] 15.2 [+ or -]
11.1 10.2
Smoking duration (years) (a) 37.1 [+ or -] 31.7 [+ or -]
11.6 12.3
Sex (% male) (b) 766 (86.2) 2,166 (49.1)
Cigarette smoking (% ever) (b) 780 (87.7) 2,827 (64.1)
Current cigarette smoking (% yes) (b) 393 (44.2) 1,250 (28.1)
Family history of bladder cancer 10 (1.1) 85 (1.9)
(% yes) (b)
High risk occupation (% yes) (b) 7 (0.8) 17 (0.4)
Values shown are mean [+ or -] SD, except where indicated.
(a) Among ever smokers only. (b) Values shown are number (%).
Table 2. RRs (95% CIs) for bladder cancer in relation to quintiles of
nitrate exposure in age- and sex-adjusted and multivariable analyses:
the Netherlands Cohort Study, 1986-1995.
Nitrate exposure Subcohort
[range (median), mg/day] Cases (PY) RR (95% CI) (a)
Food
2.0-69.0 (57.4) 168 8,512 1.00 (Reference)
69.0-88.0 (78.6) 186 8,652 1.14 (0.89-1.45)
88.0-107.5 (97.8) 181 8,706 1.00 (0.78-1.27)
107.5-135.3 (119.5) 180 8,707 1.02 (0.80-1.30)
135.3-451.1 (158.9) 174 8,564 1.01 (0.79-1.29)
p-Trend 0.72
Increment in 10 mg/day 1.00 (0.98-1.01)
Drinking water
0-0.9 (0.5) 167 8,421 1.00 (Reference)
0.9-2.4 (1.4) 147 8,386 0.86 (0.66-1.10)
2.4-4.4 (3.4) 185 8,476 1.10 (0.86-1.40)
4.4-7.7 (5.6) 179 8,530 1.05 (0.82-1.34)
7.7-92.7 (10.6) 193 8,515 1.11 (0.87-1.41)
p-Trend 0.14
Increment in 10 mg/day 1.10 (0.98-1.23)
Total nitrate
2.4-72.7 (60.5) 159 8,297 1.00 (Reference)
72.7-92.9 (83.2) 179 8,496 1.20 (0.93-1.53)
92.9-112.7 (102.4) 189 8,606 1.11 (0.87-1.42)
112.7-140.8 (125.0) 174 8,530 1.08 (0.84-1.39)
140.8-525.4 (165.4) 170 8,399 1.03 (0.80-1.32)
p-Trend 0.86
Increment in 10 mg/day 1.00 (0.98-1.02)
Nitrate exposure
[range (median), mg/day] RR (95% CI) (b) RR (95% CI) (c)
Food
2.0-69.0 (57.4) 1.00 (Reference) 1.00 (Reference)
69.0-88.0 (78.6) 1.16 (0.90-1.50) 1.15 (0.89-1.50)
88.0-107.5 (97.8) 1.04 (0.80-1.34) 1.05 (0.81-1.37)
107.5-135.3 (119.5) 1.06 (0.82-1.37) 1.05 (0.81-1.37)
135.3-451.1 (158.9) 1.06 (0.81-1.37) 1.04 (0.80-1.36)
p-Trend 0.96 0.96
Increment in 10 mg/day 1.00 (0.98-1.02) 1.00 (0.98-1.02)
Drinking water
0-0.9 (0.5) 1.00 (Reference) 1.00 (Reference)
0.9-2.4 (1.4) 0.84 (0.64-1.11) 0.84 (0.64-1.11)
2.4-4.4 (3.4) 1.11 (0.86-1.44) 1.11 (0.86-1.44)
4.4-7.7 (5.6) 1.08 (0.84-1.40) 1.08 (0.84-1.40)
7.7-92.7 (10.6) 1.06 (0.82-1.37) 1.06 (0.82-1.38)
p-Trend 0.23 0.24
Increment in 10 mg/day 1.09 (0.96-1.24) 1.09 (0.96-1.24)
Total nitrate
2.4-72.7 (60.5) 1.00 (Reference)
72.7-92.9 (83.2) 1.26 (0.97-1.64)
92.9-112.7 (102.4 1.18 (0.91-1.53)
112.7-140.8 (125.0) 1.17 (0.89-1.52)
140.8-525.4 (165.4) 1.09 (0.84-1.42)
p-Trend 0.77
Increment in 10 mg/day 1.00 (0.99-1.02)
PY, person-years.
(a) Adjusted for age (years) and sex. (b) Adjusted for age (years), sex,
current smoking (yes/no), smoking amount (cigarettes/day), and smoking
duration (years). (c) Adjusted for age (years), sex, current smoking
(yes/no), smoking amount (cigarettes/day), smoking duration (years), and
nitrate exposure from food (for drinking water analyses only) or nitrate
exposure from drinking water (for food analyses only).
Table 3. RRs (95% CIs) for bladder cancer in relation to nitrate
exposure from food, with respect to dietary vitamin C and E intake (low/
high intake) and cigarette smoking (never/ever): the Netherlands Cohort
Study, 1986-1995.
Nitrate intake from food
Range (mg/day)
Vitamin C
Low [less than or equal to] 96.5
High > 96.5
Vitamin E
Low [less than or equal to] 12.2
High > 12.2
Cigarette smoking
Never
Ever
Nitrate intake from food
Low ([less than or equal to] 97.9 mg/day)
Cases Subcohort (PY)
Vitamin C
Low 311 14,490
High 141 7,075
Vitamin E
Low 248 12,679
High 204 8,886
Cigarette smoking
Never 64 7,460
Ever 388 14,105
Nitrate intake from food
High (> 97.9 mg/day)
Cases Subcohort (PY) RR (95% CI)
Vitamin C
Low 167 7,063 1.00 (0.78-1.26) (a)
High 270 14,513 0.84 (0.65-1.08) (a)
Vitamin E
Low 154 8,629 0.89 (0.69-1.14) (a)
High 283 12,947 1.00 (0.80-1.26) (a)
Cigarette smoking
Never 45 7,336 0.70 (0.46-1.08) (b)
Ever 392 14,239 0.98 (0.82-1.17) (c)
PY, person-years.
(a) Adjusted for age (years), sex, current smoking, smoking amount
(cigarettes/day), smoking duration (years), and nitrate exposure from
drinking water. (b) Adjusted for age (years), sex, and nitrate exposure
from drinking water. (c) Adjusted for age (years), sex, smoking amount
(cigarettes/day), smoking duration (years), and nitrate exposure from
drinking water.
Table 4. RRs (95% CIs) for bladder cancer in relation to nitrate
exposure from drinking water, with respect to cigarette smoking (never/
ever): the Netherlands Cohort Study, 1986-1995.
Nitrate intake from drinking water
Low ([less than or equal to] 3.4 mg/day)
Cases Subcohort (PY)
Cigarette smoking
Never 58 7,692
Ever 352 13,392
Nitrate intake from drinking water
High (> 3.4 mg/day)
Cases Subcohort (PY) RR (95% CI)
Cigarette smoking
Never 45 6,764 0.99 (0.64-1.53) (a)
Ever 416 14,480 1.13 (0.94-1.35) (b)
PY, person-years.
(a) Adjusted for age (years), sex, and nitrate exposure from drinking
water. (b) Adjusted for age (years), sex, smoking amount (cigarettes/
day), smoking duration (years), and nitrate exposure from food.
Table 5. RRs (95% CIs) for noninvasive and invasive transitional cell
carcinoma of the urinary bladder in relation to nitrate exposure via
food and drinking water and estimated total nitrate exposure: the
Netherlands Cohort Study, 1986-1995.
Nitrate Range Noninvasive (Tis, Ta, T1)
exposure (mg/day) Cases Subcohort (PY)
Food
Low [less than or equal to] 97.9 228 20,557
High > 97.9 223 20,644
Drinking water
Low [less than or equal to] 3.4 214 20,198
High > 3.4 230 20,237
Total nitrate
Low [less than or equal to] 102.4 220 20,157
High > 102.4 224 20,278
Noninvasive
(Tis, Ta, T1) Invasive (T2-4)
Nitrate Subcohort
exposure RR (95% CI) Cases (PY) RR (95% CI)
Food
Low 1.00 (Reference) 246 20,623 1.00 (Reference)
High 0.91 (0.73-1.12) 225 20,527 0.91 (0.74-1.12) (a)
Drinking water
Low 1.00 (Reference) 213 20,143 1.00 (Reference)
High 1.05 (0.85-1.30) 246 20,227 1.14 (0.92-1.41) (a)
Total nitrate
Low 1.00 (Reference) 234 20,187 1.00 (Reference)
High 0.97 (0.79-1.20) 225 20,183 0.96 (0.78-1.19) (b)
PY, person-years.
(a) Adjusted for age (years), sex, current cigarette smoking, smoking
amount (cigarettes/day), smoking duration (years), and nitrate exposure
from food (for drinking water analyses only) or nitrate exposure from
drinking water (for food analyses only).
(b) Adjusted for age (years), sex, current cigarette smoking, smoking
amount (cigarettes/day), and smoking duration (years).
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