Drinking-water nitrate, methemoglobinemia, and global burden of disease: a discussion.On behalf of the World Health Organization (WHO), I have undertaken a series of literature-based investigations examining the global burden of disease related to a number of environmental risk factors associated with 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. . In this article I outline the investigation of drinking-water nitrate concentration and methemoglobinemia Methemoglobinemia Definition When excessive hemoglobin in the blood is converted to another chemical that cannot deliver oxygen to tissues, called methemoglobin. . The exposure assessment was based on levels of nitrate in drinking water greater than the WHO guideline value of 50 mg/L. No exposure-response relationship, however, could be identified that related drinking-water nitrate level to methemoglobinemia. Indeed, although it has previously been accepted that consumption of drinking water high in nitrates causes methemoglobinemia in infants, it appears now that nitrate may be one of a number of co-factors that play a sometimes complex role in causing the disease. I conclude that, given the apparently low incidence of possible water-related methemoglobinemia, the complex nature of the role of nitrates, and that of individual behavior, it is currently inappropriate to attempt to link illness rates with drinking-water nitrate levels. Key words: burden of disease, drinking water, methemoglobinemia, nitrates. Environ Health Perspect 112:1371-1374 (2004). doi: 10.1289/ehp.7216 available via http://dx.doi.org/[Online 22 July 2004] ********** The Global Burden of Disease project, coordinated by the World Health Organization (WHO), is an attempt to quantify and compare the level of illness at both world and regional levels. This can be done on a disease-by-disease basis (Murray and Lopez 1996) or in relation to various risk factors such as malnutrition; exposure to poor water, sanitation, and hygiene; or indoor air pollution (Murray and Lopez 1996; Pruss et al. 2002; WHO 2002). Information relating to relating to relate prep → concernant relating to relate prep → bezüglich +gen, mit Bezug auf +acc environmental risk factors, such as the amount of illness attributable to lead in the environment (Fewtrell et al. 2004), can be very powerful in terms of informing policy decisions. Disease burden, in relation to environmental risk factors, is generally determined by establishing the exposure of the population (on a regional basis) to the chosen risk factor and combining these data with exposure-response relationships for the selected health outcomes to estimate the number of people affected with each outcome. This may then be converted into disability-adjusted life years Disability-adjusted life years (DALY) is a measure for the overall "burden of disease." Originally developed by the World Health Organization, it is becoming increasingly common in the field of public health and health impact assessment (HIA). , accounting for the severity and duration of each health outcome. Nitrate pollution of drinking water (which has been linked with certain health outcomes) is known to be increasing (Croll and Hayes 1988; Tandia et al. 2000; WHO 1985; Young and Morgan-Jones 1980). WHO therefore considered it useful to determine whether it was possible to establish a disease burden estimate. Health Outcomes Nitrate is a naturally occurring ion, which makes up part of the nitrogen cycle. The nitrate ion (N[O.sub.3]-) is the stable form of combined nitrogen for oxygenated systems. Although it is chemically unreactive, it can be microbially reduced to the reactive 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. ion. Nitrate has been implicated im·pli·cate tr.v. im·pli·cat·ed, im·pli·cat·ing, im·pli·cates 1. To involve or connect intimately or incriminatingly: evidence that implicates others in the plot. 2. in methemoglobinemia and also a number of currently inconclusive health outcomes. These include proposed effects such as cancer (via the bacterial production of N-nitroso compounds), hypertension, increased infant mortality (hardware) infant mortality - It is common lore among hackers (and in the electronics industry at large) that the chances of sudden hardware failure drop off exponentially with a machine's time since first use (that is, until the relatively distant time at which enough mechanical , central nervous system birth defects birth defects, abnormalities in physical or mental structure or function that are present at birth. They range from minor to seriously deforming or life-threatening. A major defect of some type occurs in approximately 3% of all births. , diabetes, spontaneous abortions, respiratory tract infections, and changes to the immune system immune system Cells, cell products, organs, and structures of the body involved in the detection and destruction of foreign invaders, such as bacteria, viruses, and cancer cells. Immunity is based on the system's ability to launch a defense against such invaders. [Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. (CDC See Control Data, century date change and Back Orifice. CDC - Control Data Corporation ) 1996; Dorsch et al. 1984; Gupta et al. 2000; Hill 1999; Kostraba et al. 1992; Kozliuk et al. 1989; Malberg et al. 1978; Morton 1971; Super et al. 1981]. Although the role of N-nitroso compounds and nitrite in the promotion of cancer would appear to be incontrovertible in·con·tro·vert·i·ble adj. Impossible to dispute; unquestionable: incontrovertible proof of the defendant's innocence. in·con , the evidence relating to the role of nitrates is less clear (Pobel et al. 1995). Thus, methemoglobinemia was the only health outcome I considered further in this investigation. Methemoglobin methemoglobin /met·he·mo·glo·bin/ (met-he´mo-glo?bin) a hematogenous pigment formed from hemoglobin by oxidation of the iron atom from the ferrous to the ferric state. (MetHb) is formed when nitrite (for our purposes, formed from the endogenous bacterial conversion of nitrate from drinking water) oxidizes the ferrous iron in hemoglobin (Hb) to the ferric ferric (fĕr`ĭk), iron in the +3 valence state. See ferrous. form (Fan et al. 1987). MetHb cannot bind oxygen, and the condition of methemoglobinemia is characterized by cyanosis cyanosis (sī'ənō`sĭs), bluish coloration of the skin, mucous membranes, and nailbeds, resulting from a lack of oxygenated hemoglobin in the blood. , stupor stupor /stu·por/ (stoo´per) [L.] 1. a lowered level of consciousness. 2. in psychiatry, a disorder marked by reduced responsiveness.stu´porous stu·por n. , and cerebral anoxia Anoxia Definition Anoxia is a condition characterized by an absence of oxygen supply to an organ or a tissue. Description Anoxia results when oxygen is not being delivered to a part of the body. (Fan et al. 1987). Under normal conditions, < 2% of the total Hb circulates as MetHb (Fan et al. 1987). Signs of methemoglobinemia appear at 10% MetHb or more, as shown in Table 1 [Craun et al. 1981; Kross et al. 1992; National Academy of Sciences (NAS (1) See network access server. (2) (Network Attached Storage) A specialized file server that connects to the network. A NAS device contains a slimmed-down operating system and a file system and processes only I/O requests by supporting the popular ) 1981]. Symptoms include an unusual bluish blu·ish also blue·ish adj. Somewhat blue. blu  ish·ness n. gray or brownish gray skin color,
irritability, and excessive crying in children with moderate MetHb
levels and drowsiness drows·i·nessn. A state of impaired awareness associated with a desire or inclination to sleep. Also called hypnesthesia. drowsiness Medtalk Semiconsciousness; grogginess, sleepiness and lethargy at higher levels (Brunning-Fann and Kaneene 1993). Diagnosis is through the observation of chocolate-colored blood or a laboratory test showing the presence of elevated MetHb levels (Brunning-Fann and Kaneene 1993). Infant methemoglobinemia was first linked to nitrates in drinking water by Hunter Comly in the United States in 1945. He reported on two cases and concluded that methemoglobinemia may occur in an infant 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. of water high in nitrates, especially if the infant was suffering from a gastrointestinal disturbance (Comly 1945). Fan et al. (1987) have noted since then that microbially poor water (i.e., high in microbes) and high drinking-water nitrate levels often go "hand in hand," and gastrointestinal illness, as a result of exposure to poor water quality, may play a role in methemoglobinemia. Nitrate-related drinking-water methemoglobinemia is principally a disease of young children, with bottle-fed or weaned wean tr.v. weaned, wean·ing, weans 1. To accustom (the young of a mammal) to take nourishment other than by suckling. 2. infants < 4 months of age being the most susceptible. This age group is the most susceptible because of a combination of factors (Ayebo et al. 1997), including: * A higher gastric pH, which allows greater bacterial invasion of the stomach and hence an enhanced conversion of 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 to nitrite * A greater fluid intake relative to body weight * A higher proportion of fetal Hb (which may be more rapidly oxidized oxidized having been modified by the process of oxidation. oxidized cellulose see absorbable cellulose. to MetHb than adult Hb) * Lower NADH-dependent MetHb reductase reductase /re·duc·tase/ (-tas) a term used in the names of some of the oxidoreductases, usually specifically those catalyzing reactions important solely for reduction of a metabolite. activity (the enzyme that converts MetHb to Hb). However, although the gastric pH in infants may be higher than that seen in adults, L'hirondel and L'hirondel (2002) have suggested that the general stomach conditions are still not really suitable for the microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. conversion of nitrate to nitrite. Exposure Assessment Methemoglobinemia has several causes, as shown in Table 2, including exposure to nitrite or nitrate through the diet (although high dietary nitrate levels are generally accompanied by high nitrite levels). The principal area of interest in this study, however, was drinking water; therefore, the exposure assessment was based on the concentrations of nitrate in drinking water. Guidelines and regulatory limits relating to the amount of nitrate in drinking water, of 10 mg/L nitrate-nitrogen (N[O.sub.3]-N) and 50 mg/L nitrate [nitrate concentrations are typically expressed either as mg/L N[O.sub.3]-N or nitrate (N[O.sub.3]); 50 mg/L N[O.sub.3] is equivalent to 11.3 N[O.sub.3]-N], were established to prevent infantile methemoglobinemia [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 (EPA EPA eicosapentaenoic acid. EPA abbr. eicosapentaenoic acid EPA, n.pr See acid, eicosapentaenoic. EPA, n. ) 1977; WHO 1958, 1996], and were based principally on the results of a survey conducted by the American Public Health Association The American Public Health Association (APHA) is Washington, D.C.-based professional organization for public health professionals in the United States. Founded in 1872 by Dr. Stephen Smith, APHA has more than 30,000 members worldwide. (APHA) and reported by Walton (1951). This survey reported on > 270 cases of methemoglobinemia in infants in the United States (for whom nitrate drinking-water levels were available for 214 cases), although APHA emphasized restricting the data to those cases thought to be definitely associated with nitrate-contaminated water. As noted by Walton (1951), no cases were observed with drinking-water concentrations < 10 mg/L N[O.sub.3]-N. High nitrate for the purposes of the exposure assessment has been taken, therefore, to mean anything exceeding the current recommendations. Natural levels of nitrate in groundwater depend on soil type and geology. In the United States, naturally occurring levels of nitrate are in the range of 4-9 mg/L. Agricultural activities, however, can result in elevated levels (in the region of 100 mg/L; WHO 1996). High-nitrate drinking water is most often associated with privately owned wells, especially with shallow wells with depths < 15 m in regions with permeable soils (Fan et al. 1987). It is exactly this situation of small community water supplies, in which poorly regulated and unsanitary un·san·i·tar·y adj. Not sanitary. waters are found, that could induce gastrointestinal symptoms in consumers (Fewtrell et al. 1998). Shearer et al. (1972) note that the factors responsible for elevated nitrate contents in well-water sources include geography, geology, groundwater hydrology hydrology, study of water and its properties, including its distribution and movement in and through the land areas of the earth. The hydrologic cycle consists of the passage of water from the oceans into the atmosphere by evaporation and transpiration (or , and the addition of nitrates naturally and from surface contamination by nitrogenous nitrogenous /ni·trog·e·nous/ (ni-troj´e-nus) containing nitrogen. ni·trog·e·nous adj. Relating to or containing nitrogen. nitrogenous containing nitrogen. fertilizers or by organic waste of human or animal origin. Although water derived from privately owned wells may be the most common source of high-nitrate drinking water, municipal drinking water supplies may also be contaminated contaminated, v 1. made radioactive by the addition of small quantities of radioactive material. 2. made contaminated by adding infective or radiographic materials. 3. an infective surface or object. . Vitoria Minana et al. (1991) report on nitrate levels in the Valencia region of Spain, where concentrations exceeded the WHO guideline level (50 mg/L) in 95 towns, with 18 municipalities reporting levels > 150 mg/L. It has been estimated that 15 million families in the United States receive their drinking water from private wells [U.S. General Accounting Office (GAO) 1997]. Assuming an exceedence rate of 13% (based on a survey of 5,500 wells in nine Midwestern states; CDC 1998), an estimated 2 million household supplies would exceed the federal standard of 10 mg/L N[O.sub.3]-N. Using current birth rates Knobeloch et al. (2000) estimate that 40,000 infants < 6 months of age are expected to be living in homes with high-nitrate drinking water. Except for the United States, most literature on nitrate contamination covers small areas and does not allow estimates of the number of people exposed to be calculated. Exposure--Response Relationship Complex co-factor relationships do not currently allow the establishment of a quantitative exposure--response relationship for human exposure to nitrates in food or water and the subsequent development of methemoglobinemia. Two factors make estimates of the number of cases of methemoglobinemia hard to establish: Generally, methemoglobinemia is not a notifiable disease no·ti·fi·a·ble disease n. A disease that must be reported to public health authorities at the time it is diagnosed because it is potentially dangerous to human or animal health. Also called reportable disease. ; and definitions of methemoglobinemia (in terms of the required level of MetHb) vary in the literature. Some authors, however, do report incidence rates. In three counties in Transylvania (Romania), mean incidence rates varied between 117 and 363 of 100,000 live births (for the full 5 years between 1990 and 1994). These rates, reported by Ayebo et al. (1997), were considerably below the previously reported levels of 13,000/100,000 live births, or 13%, which may reflect a decrease in the availability of cheap inorganic fertilizer (hence a decrease in nitrate contamination levels). In 1985, WHO reported that > 1,300 cases of methemoglobinemia (with 21 fatalities) occurred in Hungary over a 5-year period. Indeed, up until the late 1980s methemoglobinemia was a serious problem in Hungary (Hill 1999). Although there are reports of high nitrate concentrations in drinking water (i.e., > 50 mg/L nitrate) from around the world (Hoering and Chapman 2004), these are rarely paralleled by reports of methemoglobinemia. Where illness has been reported, many of the cases predate the early 1990s, and Hanukoglu and Danon (1996) have proposed that the apparent decline in the incidence of methemoglobinemia is suggestive of suggestive of Decision making adjective Referring to a pattern by LM or imaging, that the interpreter associates with a particular–usually malignant lesion. See Aunt Millie approach, Defensive medicine. an infectious etiology. Discussion In addition to the problem of limited data (relating to both the population exposed to nitrate in drinking water and the rate of illness), examination of the literature also revealed a number of factors that would either lead to uncertainty in the disease burden estimate (e.g., avoidance behavior avoidance behavior, n a conscious or unconscious defense mechanism by which a person tries to escape from unpleasant situations or feelings, such as anxiety and pain. ) or cast doubt on the validity of the whole exercise. Limited data. Numerous reports from all over the world describe water supplies (often privately or community-owned wells, rather than municipal supplies) with nitrate concentrations greater than the WHO guideline value of 50 mg/L (Hoering and Chapman 2004). These rarely, however, also include figures on the population supplied by these water sources. Because agricultural and organic waste disposal activities (e.g., through inappropriate sanitation measures) can greatly influence water nitrate concentrations, it is not possible to use geologic data as a possible means to estimate affected population. Thus, it is currently difficult to estimate the population that might be exposed to elevated drinking-water nitrate. Even where the number of people known to have supplies with high nitrate levels can be assessed, this is unlikely to be an accurate estimate of those actually exposed to high-nitrate drinking water. In a number of countries, such as the United States and United Kingdom, health advisories are issued to pregnant women and mothers with formula-fed infants known to be living in high-nitrate areas (Fraser and Chilvers 1981; Schubert et al. 1999). Indeed, Schubert et al. (1999) found that avoidance behavior (i.e., the use of water from another source, such as bottled water or installation of a nitrate removal system) was common, especially in high-risk groups. On the other hand, owners of private wells often boil the water before using it in infant food, an action that, when done excessively, may concentrate nitrate (Ayebo et al. 1997). A literature review (conducted by searching publication databases and bibliographic lists from collected references) revealed few reported cases of methemoglobinemia linked to water consumption in the last 12 years (Hoering and Chapman 2004). It is possible that because methemoglobinemia is generally not a notifiable disease, there may be underreporting. It is also possible that there is under-diagnosis, although this is less likely with severe cases, where extensive cyanosis is seen. Role of nitrate. Since the 1940s, when the first cases of methemoglobinemia related to drinking water were reported, there has been the suggestion that gastrointestinal upset, and hence infection, may play a role in the development of the disease (Comly 1945). Comly (1945) suggested that it was advisable to use well water containing no more than 10 or, at the most, 20 mg/L N[O.sub.3]-N for infant feeding. This level seemed to be confirmed by the survey conducted by the APHA [cited by Walton (1951)], which suggested that, in instances where drinking-water nitrate had been determined, there were no cases of methemoglobinemia where water concentrations were < 10 mg/L N[O.sub.3]-N (~ 45 mg/L nitrate). However, this conclusion would have been influenced by the methodology, which placed an emphasis on cases thought to be linked to nitrate-contaminated water. However, the APHA survey noted that most cases of methemoglobinemia studied were related to N[O.sub.3]-N concentrations > 40 mg/L. Additionally, Walton (1951) noted a number of factors that may play a role in the development of infant methemoglobinemia, yet at some point a simple role for nitrate became accepted. It is becoming increasingly dear, however, that the early authors were correct to be cautious, and now it appears that there is an association between gastrointestinal illness and symptoms of methemoglobinemia in the absence of exogenous nitrate exposure (Bricker et al. 1983; Dagan et al. 1988; Danish 1983; Gebara and Goetting 1994; Kay et al. 1990; Lebby et al. 1993; Smith et al. 1988; Yano et al. 1982). Yano et al. (1982) suggested that diarrhea produces an oxidant oxidant /ox·i·dant/ (ok´si-dant) the electron acceptor in an oxidation-reduction (redox) reaction. ox·i·dant n. See oxidizer. stress that increases MetHb production and that acidosis acidosis /ac·i·do·sis/ (as?i-do´sis) 1. the accumulation of acid and hydrogen ions or depletion of the alkaline reserve (bicarbonate content) in the blood and body tissues, decreasing the pH. 2. impairs the MetHb reductase systems. Nitric oxide nitric oxide or nitrogen monoxide, a colorless gas formed by the combustion of nitrogen and oxygen as given by the reaction: energy + N2 + O2 → 2NO; m.p. −163.6°C;; b.p. −151.8°C;. , produced by several tissues in response to infection and inflammation, has also been proposed as a possible mechanism (Gupta et al. 1998; Levine et al. 1998), because nitrite is a product of nitric oxide metabolism. Avery (1999) suggested that exogenous nitrates (e.g., through the consumption of drinking water), rather than causing methemoglobinemia, increase its severity. L'hirondel and L'hirondel (2002) suggested that in cases where methemoglobinemia has been associated with infant formula made with drinking water containing elevated nitrate or carrot soup preparations, it is possible that bacterial growth within the bottle or stored soup and exogenous conversion of nitrate to nitrite is the source of the problem. Conclusions This study did not set out to review the role of nitrates in the causation of methemoglobinemia; however, examination of the literature suggests that a number of authors are starting to question the simple association between nitrate and infant methemoglobinemia, in favor of seeing nitrate as a co-factor in one of several causes of the disease. This factor, coupled with the paucity of data in terms of both population exposure and the level of suspected water-related cases of methemoglobinemia, suggests that attempts to estimate a global burden of disease are currently inappropriate.
Table 1. Signs and symptoms of methemoglobinemia.
MetHb Clinical
concentration (%) findings
10-20 Central cyanosis of limbs/trunk
20-45 Central nervous system depression
(headache, dizziness, fatigue,
lethargy), dyspnea
45-55 Coma, arrhythmias, shock,
convulsions
> 60 High risk of mortality
Adapted from Kross et al. (1992).
Table 2. Causes of methemoglobinemia.
Designation Examples
Hereditary NADH-cytochrome [b.sub.5] reductase
deficiency, cytochrome [b.sub.5] deficiency,
M Hb, unstable Hb
Drug/chemical induced Acetaminophen, amyl nitrite, benzocaine,
dapsone, nitroglycerin, nitroprusside,
phenazopyridine (pyridium), sulfanilamide,
aniline dyes, chlorates, nitrofurans,
sulfones
Diet induced Nitrites, nitrates (a)
Adapted from Mansouri and Lurie (1993). M HB is an abnormal type
of Hb.
(a) When followed up, cases have generally been linked to high
nitrite levels (e.g., Keating et al. 1973).
REFERENCES Avery AA. 1999. Infantile methemoglobinemia: reexamining the role of drinking water nitrates. Environ Health Perspect 187:583-586. Ayebo A, Kross B, Vlad M, Sinca A. 1997. Infant methemoglobinemia in the Transylvania region of Romania. Int J Occup Environ Health 3(1):20-29. Bricker T, Jefferson LS, Mintz A. 1983. Methemoglobinemia in infants with enteritis enteritis (ĕn'tərī`tĭs), inflammation of the gastrointestinal tract. Acute enteritis is not usually serious except in infants and older people, in whom the accompanying diarrhea can cause dehydration through the loss of fluids. [Letter]. J Pediatr 102:161-162. Brunning-Fann CS, Kaneene JB. 1993. The effects of nitrate, nitrite and N-nitroso compounds on human health: a review. Vet Hum Toxicol 35(6):521-539. CDC (Centers for Disease Control and Prevention). 1996. Spontaneous abortions possibly related to ingestion of nitrate-contaminated well water--LaGrange County, Indiana, 1991-1994. Morb Mortal Wkly Rep 45(26):569-572. CDC. 1998. A Survey of the Quality of Water Drawn from Domestic Wells in Nine Midwestern States. Atlanta, GA:Centers for Disease Control and Prevention. Comly HH. 1945. Cyanosis in infants caused by nitrates in well-water. JAMA JAMA abbr. Journal of the American Medical Association 129:112-116. Reprinted in 1987, JAMA 257(20):2789-2792. Craun GF, Greathouse DG, Gunderson DH. 1981. Methemoglobin levels in young children consuming high nitrate well water in the U.S. Int J Epidemiol 10:309-317. Croll BT, Hayes CR. 1988. Nitrate and water supplies in the United Kingdom. Environ Pollut 50:163-187. Dagan R, Zaltzstein E, Gorodischer R. 1988. Methemoglobinemia in young infants with diarrhoea. Eur J Pediatr 147:87-89. Danish EH. 1983. Methemoglobinemia in infants with enteritis [Letter]. J Pediatr 102:162-163. Dorsch MM, Scragg RKR RKR Rydberg-Klein-Rees RKR Royal Knight Regiment (Onate High School band; Las Cruces, NM) , McMichael AJ, Baghurst PA, Dyer KF. 1984. Congenital malformations and maternal drinking water supply in rural South Australia: 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. . Am J Epidemiol 119:473-486. Fan AM, Willhite CC, Book SA. 1987. Evaluation of the nitrate drinking water standard with reference to infant methemoglobinemia and potential reproductive toxicology. Regul Toxicol Pharmacol 7(2):135-148. Fewtrell L, Kay D, Godfree A. 1998. The microbiological quality of private water supplies. J Chartered Inst Water Environ Manag 12:98-100. Fewtrell LJ, Pruss A, Landrigan P, Ayuso-Mateos JL. 2004. Estimating the global burden of disease from environmental lead exposure. Environ Res 94(2):120-133. Fraser P, Chilvers C. 1981. Health aspects of nitrates in drinking water. Sci Total Environ 18:103-116. GAO. 1997. Information on the Quality of Water Found at Community Water Systems end Private Wells. GAO/RCED-97-123. Washington, DC:General Accounting Office. Gebara B, Goetting MM. 1994. Life-threatening methemoglobinemia in infants with diarrhea and acidosis. Clin Pediatr 33:370-373. Gupta SK, Fitzgerald JF, Chong SK, Croffie JM, Garcia JG. 1998. Expression of inducible nitric oxide synthetase synthetase /syn·the·tase/ (-the-tas) a term used in the names of some of the ligases, no longer favored because of its similarity to synthase and its emphasis on reaction products. syn·the·tase n. (iNOS) mRNA in inflamed esophageal and colonic mucosa in a pediatric pediatric /pe·di·at·ric/ (pe?de-at´rik) pertaining to the health of children. pe·di·at·ric adj. Of or relating to pediatrics. population. Am J Gastroenterol 93:795-798. Gupta SK, Gupta RC, Gupta AB, Seth AK, Bassin JK, Gupta A. 2000. Recurrent acute respiratory infections in areas with high nitrate concentrations in drinking water. Environ Health Perspect 108:363-366. Hanukoglu A, Danon PN. 1996. Endogenous methemoglobinemia associated with diarrheal disease in infancy. J Pediatr Gastroenterol Nutr 23(1):1-7. Hill MJ. 1999. Nitrate toxicity: myth or reality? Br J Nutr 81:343-344. Hoering H, Chapman D, eds. 2004. Nitrate and Nitrite in Drinking Water. WHO Drinking Water Series. London:IWA IWA International Water Association IWA International Webmasters Association IWA Inland Waterways Association (UK) IWA International Windsurfing Association IWA Williams-Gateway Airport Publishing. Kay MA, O'Brien WO, Kessler B, McVie R, McCabe ERB. 1990. Transient organic aciduria and methemoglobinemia with acute gastroenteritis gastroenteritis: see enteritis. gastroenteritis Acute infectious syndrome of the stomach lining and intestines. Symptoms include diarrhea, vomiting, and abdominal cramps. . Pediatrics 95:589-592. Keating JP, Lell ME, Strauss AW, Zarkowsky H, Smith GE. 1973. Infantile methemoglobinemia caused by carrot juice. N Engl J Med 288(16):824-826. Knobeloch L, Salna B, Hogan A, Postle J, Anderson H. 2000. Blue babies and nitrate-contaminated well water. Environ Health Perspect 108:675-678. Kostraba JN, Gay EC, Rewers M, Hamman RF. 1992. Nitrate levels in community drinking waters and risk of IDDM IDDM abbr. insulin-dependent diabetes mellitus IDDM insulin-dependent diabetes mellitus. IDDM Insulin-dependent diabetes mellitus; now known as type 1 diabetes mellitus . An ecological analysis. Diabetes Care 15(11):1505-1508. Kozliuk AS, Kushnir GV, Anisimova LA, Shroit IG, Opopol NI. 1989. Immunological status of children living in a region with an increased level of nitrates in the drinking water. Gig Sanit 54(3):19-22. Kross BC, Ayebo AD, Fuortes LJ. 1992. Methemoglobinemia: nitrate toxicity in rural America. Am Fam Physician 46(1):183-188. Lebby T, Roco JJ, Arcinue EL. 1993. Infantile methemoglobinemia associated with acute diarrheal illness. Am J Emerg Med 11:471-472. Levine JJ, Pettei MJ, Valderrama E, Gold DM, Kessler BH, Trachtman H. 1998. Nitric oxide and inflammatory bowel disease inflammatory bowel disease n. Abbr. IBD Any of several incurable and debilitating diseases of the gastrointestinal tract characterized by inflammation and obstruction of parts of the intestine. : evidence for local intestinal production in children with active colonic disease. J Pediatr Gastroenterol Nutr 26(1):34-39. L'hirondel J, L'hirondel J-L. 2002. Nitrate and Man. Toxic, Harmless or Beneficial? Wallingford, UK:CABI CABI Commonwealth Agricultural Bureaux International (UK) CABI Centre for Agriculture and Biosciences International (UK) CABI Colorado Association of Business Intermediaries CABI California Birth Index Publishing. Malberg JW, Savage EP, Osteryoung J. 1978. Nitrates in drinking water and the early onset of hypertension. Environ Pollut 15:155-160. Mansouri A, Lurie AA. 1993. Concise review: methemoglobinemia. Am J Hematol 42:7-12. Morton WE. 1971. Hypertension and drinking water constituents in Colorado. Am J Public Health 61:1371-1378. Murray CJL CJL Center for Jewish Life CJL Center for Jewish Living at Cornell (Ithaca, New York) , Lopez AD. 1996. The Global Burden of Disease. Cambridge, MA:Harvard School of Public Health The Harvard School of Public Health is (colloquially, HSPH) is one of the professional graduate schools of Harvard University. Located in Longwood Area of the Boston, Massachusetts neighborhood of Mission Hill, next to Harvard Medical School and Cambridge, Massachusetts, , WHO, World Bank. NAS. 1981. The Health Effects of Nitrate, Nitrite and N-Nitroso Compounds. Washington, DC:National Academy of Science. Pobel D, Riboli E, Cornee J, Hemon B, Guyader M. 1995. Nitrosamine ni·tros·a·mine n. Any of a class of organic compounds present in various foods and other products and found to be carcinogenic and mutagenic in laboratory animals. , nitrate and nitrite in relation to gastric cancer gastric cancer Stomach cancer, see there : a case-control study in Marseille, France. Eur J Epidemiol 11:67-73. Pruss A, Kay D, Fewtrell L, Bartram J. 2002. Estimating the burden of disease from water, sanitation and hygiene at a global level. Environ Health Perspect 110:537-542. Schubert C, Knobeloch L, Kanarek MS, Anderson HA. 1999. Public response to elevated nitrate in drinking water wells in Wisconsin. Arch Environ Health 54(4):242-247. Shearer LA, Goldsmith JR, Young C, Kearns OA, Tamplin BR. 1972. Methemoglobin levels in infants in an area with high nitrate water supply. Am J Public Health 62(9):1174-1180. Smith MA, Shah NR, Lobel JS, Hamilton W. 1988. Methemoglobinemia and hemolytic anemia Hemolytic Anemia Definition Red blood cells have a normal life span of approximately 90-120 days, at which time the old cells are destroyed and replaced by the body's natural processes. associated with Campylobacter jejuni Campylobacter jejuni Vibrio jejuni, Campylobacter fetus ssp jejuni A curved or spiral gram-negative bacillus with a single polar flagellum Epidemiology Linked to contact with domestic and farm animals, unpasteurized milk, primates, day care enteritis. Am J Pediatr Hematol Oncol 10:35-38. Super M, Heese H, MacKenzie D, Dempster WS, duPless J, Ferreira JJ. 1981. An epidemiologic study 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 of well water nitrates in a group of south west African Namibian infants. Water Res 15:1205-1270. Tandia AA, Diop ES, Gaye CB, Travi Y. 2000. Nitrate pollution study in the aquifer of Dakar (Senegal). Schriftenr Ver Wasser Boden Lufthyg 105:191-198. U.S. EPA. 1977. National Interim Primary Drinking Water Regulations. EPA 570/9-70-003. Washington, DC:U.S. Environmental Protection Agency. Vitoria Minana I, Brines Solanes J, Morales Suarez-Varela M, Llopis Gonzalez A. 1991. Nitrates in drinking water in the Valencia community. Indirect risk of methemoglobinemia in infants. An Esp Pediatr 34(1):43-50. Walton G. 1951. Survey of literature relating to infant methemoglobinemia due to nitrate-contaminated water. Am J Public Health 41:986-996. WHO. 1958. International Standards for Drinking-Water. 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. WHO. 1985. Health Hazards from Nitrates in Drinking Water. Report on a WHO Meeting. Copenhagen, 5-9 March 1984. Geneva:World Health Organization. WHO. 1998. Guidelines for Drinking-Water Quality. 2nd ed. Vol 2: Health Criteria and Other Supporting Information. Geneva:World Health Organization. WHO. 2002. World Health Report 2002. Geneva:World Health Organization. Yano SS, Danish EH, Hsia YE. 1982. Transient methemoglobinemia with acidosis in infants. J Pediatr 100:415-418. Young CP, Morgan-Jones M. 1980. A hydrogeological survey of chalk groundwater of the Banstead area, Surrey, with particular reference to nitrate. J Inst Water Eng Sci 34:213-236. Lorna Fewtrell Centre for Research into Environment and Health, Crewe, Cheshire, United Kingdom Address correspondence to L. Fewtrell, Centre for Research into Environment and Health, 5 Quakers Coppice, Crewe Gates Farm, Crewe, Cheshire, CW1 6FA UK. Telephone: 44-0-1270-250583. Fax: 44-01270-589761. E-mail: Lorna@creh.demon.co.uk This work was funded by the World Health Organization; however, the views are those of the author. The author declares she has no competing financial interests. Received 29 April 2004; accepted 22 July 2004. |
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