Tubular and glomerular kidney effects in Swedish women with low environmental cadmium exposure.Cadmium cadmium (kăd`mēəm) [from cadmia, Lat. for calamine, with which cadmium is found associated], metallic chemical element; symbol Cd; at. no. 48; at. wt. 112.41; m.p. 321°C;; b.p. 765°C;; sp. gr. 8. is a well-known nephrotoxic nephrotoxic /neph·ro·tox·ic/ (nef´ro-tok?sik) destructive to kidney cells. Nephrotoxic Toxic, or damaging, to the kidney. agent in food and tobacco, but the exposure level that is critical for kidney effects in the general population is not defined. Within a population-based 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. survey in southern Sweden (Women's Health in the Lund Area, WHILA), we investigated cadmium exposure in relation to tubular and glomerular glomerular /glo·mer·u·lar/ (glo-mer´u-ler) pertaining to or of the nature of a glomerulus, especially a renal glomerulus. glo·mer·u·lar adj. function, from 1999 through early 2000 in 820 women (71% participation rate) 53-64 years of age. Multiple linear regression Linear regression A statistical technique for fitting a straight line to a set of data points. showed cadmium in blood (median, 0.38 [micro]g/L) and urine (0.52 [micro]g/L; density adjusted = 0.67 [micro]g/g creatinine creatinine /cre·at·i·nine/ (kre-at´i-nin) an anhydride of creatine, the end product of phosphocreatine metabolism; measurements of its rate of urinary excretion are used as diagnostic indicators of kidney function and muscle mass. ) to be significantly associated with effects on renal tubules renal tubule n. A tubule of the kidney, such as a collecting or convoluted tubule. (as indicated by increased levels of human complex-forming protein and N-acetyl-[beta]-D-glucosaminidase in urine), after adjusting for age, body mass index, blood lead, diabetes, hypertension, and regular use of nephrotoxic drugs. The associations remained significant even at the low exposure in women who had never smoked. We also found associations with markers of glomerular effects: glomerular filtration rate glomerular filtration rate n. Abbr. GFR The volume of water filtered out of the plasma through glomerular capillary walls into Bowman's capsules per unit of time. and creatinine clearance creatinine clearance n. The volume of serum or plasma that would be cleared of creatinine by one minute's excretion of urine. creatinine clearance . Significant effects were seen already at a mean urinary cadmium level of 0.6 [micro]g/L (0.8 [micro]g/g creatinine). Cadmium potentiated diabetes-induced effects on kidney. In conclusion, tubular renal effects occurred at lower cadmium levels than previously demonstrated, and more important, glomerular effects were also observed. Although the effects were small, they may represent early signs of adverse effects, affecting large segments of the population. Subjects with diabetes seem to be at increased risk. Key words: cadmium, diabetes, environmental exposure, glomerular effects, hypertension, kidney, lead, population-based, tubular effects, women. Environ Health Perspect 113:1627-1631 (2005). doi:10.1289/ehp.8033 available via http://dx.doi.org/[Online 11 July 2005] ********** Identification of risk factors for chronic renal failure chronic renal failure Chronic kidney failure Nephrology A slow decline in renal function, which may be 2º to chronic HTN, DM, CHF, SLE, or sickle cell anemia and, if extreme, leads to ESRD, mandating kidney dialysis; an abrupt decline in renal function may be is essential in order to prevent reduction of life quality and life expectancy Life Expectancy 1. The age until which a person is expected to live. 2. The remaining number of years an individual is expected to live, based on IRS issued life expectancy tables. and to minimize the high costs of treatment. Cadmium is a widespread environmental pollutant pol·lut·ant n. Something that pollutes, especially a waste material that contaminates air, soil, or water. known to cause renal damage (Jarup et al. 1998). Apart from smoking, the major sources of cadmium exposure in the general population are cereals, vegetables, and shellfish shellfish, popular name for certain edible mollusks (see Mollusca), e.g., oysters, clams, and scallops, and for certain edible crustaceans, e.g., crabs, lobsters, and shrimps. All are aquatic invertebrates with shells; they are not fish. . There is increasing evidence that toxic effects may occur at much lower exposure levels (Alfven et al. 2000; Buchet et al. 1990; Jarup et al. 2000; Noonan et al. 2002) than those observed in occupational settings or in severely polluted pol·lute tr.v. pol·lut·ed, pol·lut·ing, pol·lutes 1. To make unfit for or harmful to living things, especially by the addition of waste matter. See Synonyms at contaminate. 2. environments. Still, the attempts to estimate the level of critical exposure for kidney effects have so far displayed large variations. Furthermore, possible effects in populations residing in areas with no particular industrial cadmium emission are undetermined. Cadmium accumulates in the renal cortex renal cortex n. The part of the kidney containing the glomeruli and the proximal and distal convoluted tubules. and induces tubular toxicity (Barbier et al. 2005), which is first detected as increased urinary excretion of low-molecular-weight proteins and tubular enzymes. Glomerular dysfunction may also emerge, as demonstrated in heavily exposed subjects (Jarup et al. 1995; Kido et al. 1990; Rods et al. 1989). It is not known, however, whether the glomerulus glomerulus /glo·mer·u·lus/ (glo-mer´u-lus) pl. glomer´uli [L.] a small tuft or cluster, as of blood vessels or nerve fibers; often used alone to designate one of the renal glomeruli. is affected by long-term low-level environmental exposure. Diabetes, an increasing health problem in many areas (King et al. 1998) and one of the leading causes of incident end-stage renal disease End-stage renal disease (ESRD) Total kidney failure; chronic kidney failure is diagnosed as ESRD when kidney function falls to 5-10% of capacity. Mentioned in: Chronic Kidney Failure end-stage renal disease (Hostetter 2001), has been suggested to augment the risk of cadmium-induced kidney damage kidney damage Kidney injury Nephrology A structural or functional compromise in renal function due to external–eg, athletic, occupational, or other trauma, resulting in bruising or hemorrhage, which can be profuse and life threatening Etiology Vascular (Buchet et al. 1990). Also, hypertension and intake of nephrotoxic nonsteroid non·ste·roi·dal also non·ster·oid adj. Not being or containing a steroid: a nonsteroidal anti-inflammatory drug. n. A drug or other substance not containing a steroid. Noun 1. anti-inflammatory drugs Anti-inflammatory drugs A class of drugs that lower inflammation and that includes NSAIDs and corticosteroids. Mentioned in: Antirheumatic Drugs (NSMDs) (Fored et al. 2001) might interact with cadmium. However, these possible interactions need to be confirmed. The aim of the present investigation was to assess the association between cadmium concentrations in blood and urine and a series of markers of tubular and glomerular function. To minimize dilution of the effects, we focused on women at the age when the accumulation of cadmium in the kidney is at its maximum. Women have increased cadmium accumulation compared with men (Jarup et al. 1998; Nishijo et al. 2004b), due to a higher dietary cadmium absorption at low body iron stores (Akesson et al. 2002; Berglund et al. 1994). In addition, we assessed whether diabetes, hypertension, and the use of NSAIDs increased the risk. The study was conducted in an area without particular industrial cadmium emission. Materials and Methods Study population. The Women's Health in the Lund Area (WHILA) study, a population-based study of all women 50-59 years of age in the community of Lund, southern Sweden (n = 10,766), started in December 1995 (Lidfeldt et al. 2001) and was extended in June 1999 to include health aspects of cadmium. This cohort was considered optimal for elucidation e·lu·ci·date v. e·lu·ci·dat·ed, e·lu·ci·dat·ing, e·lu·ci·dates v.tr. To make clear or plain, especially by explanation; clarify. v.intr. To give an explanation that serves to clarify. of remaining questions about dose--response relationships at low-dose cadmium exposure. The participation rate was 71% (n = 820). The exclusion criteria exclusion criteria AIDS Donor exclusion criteria, see there were renal cancer (n = 1) and lithium treatment (n = 3). Data were collected on various comorbidities, including diabetes and hypertension. Women were classed as having diabetes if they had a positive history, or if they had a non-fasting glucose > 8 mmol/L followed by a positive result in the oral glucose-tolerance test. Women were classed as hypertensive hypertensive /hy·per·ten·sive/ (-ten´siv) 1. characterized by increased tension or pressure. 2. an agent that causes hypertension. 3. a person with hypertension. if they had received antihypertensive antihypertensive /an·ti·hy·per·ten·sive/ (-ten´siv) counteracting high blood pressure, or an agent that does this. an·ti·hy·per·ten·sive adj. Reducing high blood pressure. n. treatment or had a measured systolic Systolic The phase of blood circulation in which the heart's pumping chambers (ventricles) are actively pumping blood. The ventricles are squeezing (contracting) forcefully, and the pressure against the walls of the arteries is at its highest. and/or diastolic blood pressure Diastolic blood pressure Blood pressure when the heart is resting between beats. Mentioned in: Hypertension [greater than or equal to] 160 and [greater than or equal to] 95, respectively (mean of two measurements after 15 min rest in seated position). Lists of medications and data on smoking were obtained, and weight and height were measured. Participants were asked to submit morning first-voided urine and blood samples. We obtained morning spot urine from 813 women and blood samples from 742. All samples were collected during 8 months from June 1999 through January 2000. The ethics committee ethics committee A multidisciplinary hospital body composed of a broad spectrum of personnel–eg, physicians, nurses, social workers, priests, and others, which addresses the moral and ethical issues within the hospital. See DNR, Institutional review board. at Lund University Lund University has 7 faculties, with additional campuses in the cities of Malmö and Helsingborg, with a total of over 42,500 people studying in 50 different programmes and 800 separate courses. approved the WHILA study, and oral informed consent was obtained. Analyses of exposure and kidney function. Measurements included cadmium in blood as a measure mainly of ongoing exposure (expected to be fairly constant over time) and urine as a measure of body burden (cadmium in urine correlates well with cadmium in the kidney cortex; Jarup et al. 1998; Orlowski et al. 1998). To control for possible confounding/effect modification, we also determined lead in blood (Lin et al. 2003). We used the following effect markers: cystatin C Cystatin 3, usually called Cystatin C (also CST3 and Gamma trace) is a serum protein used mainly as a measure of glomerular filtration rate. It is a single 120-residue polypeptide belonging to the type 2 cystatin gene family. in serum (Dharnidharka et al. 2002) for calculation of glomerular filtration rate (GFR GFR - Grim File Reaper ), creatinine clearance as markers of glomerular function, and human complex-forming protein (protein HC, [[alpha].sub.1]-microglobulin), N-acetyl-[beta]-D-glucosaminidase (NAG 1. NAG - Numerical Algorithms Group. 2. NAG - The Linux Network Administrators' Guide. ), and calcium in urine as markers of tubular damage. We measured cadmium, lead, and calcium using inductively coupled plasma mass spectrometry ICP-MS (Inductively coupled plasma mass spectrometry) is a type of mass spectrometry that is highly sensitive and capable of the determination of a range of metals and several non-metals at concentrations below one part in 1012. (Barany et al. 1997). Cystatin C was determined by immunonephelometry (Dade Behring, Marburg, Germany). GFR = 77.24 x [(cystatin C).sup.-1.2623] (Larsson et al. 2004) and creatinine clearance = [(140 - age) x body weight (kg)]/[0.85 x serum creatinine ([micro]M)] (Harmoinen et al. 2003). Creatinine was measured using a modified kinetic Jaffe method (Roche Diagnostics Roche Diagnostics Division is a subsidiary of Hoffmann-La Roche which manufactures equipment and reagents for research and medical diagnostic applications. Internally, it is organized into six major business areas: Roche Applied Science, Roche Centralized Diagnostics, Roche , Mannheim, Germany). We determined urinary protein HC by Mancini technique Mancini technique see radial immunodiffusion. and polyclonal antibodies Polyclonal antibodies are antibodies that are derived from different B-cell lines. They are a mixture of immunoglobulin molecules secreted against a specific antigen, each recognising a different epitope. (DAKO A/S, Glostrup, Denmark) (Jarup et al. 2000), and urinary NAG with a colorimetric col·or·im·e·ter n. 1. Any of various instruments used to determine or specify colors, as by comparison with spectroscopic or visual standards. 2. method (Roche, Shionogi & Co. Ltd., Osaka, Japan). Urinary spot samples need to be adjusted for dilution. Creatinine adjustment is most common, but a comparison of density and creatinine adjusted urinary cadmium indicated that creatinine did not adjust for all dilution-related variation of cadmium in urine. Because creatinine excretion is dependent upon meat intake and muscle mass (Davies et al. 2002; Suwazono et al. 2005), we chose to correct all urinary markers by the mean urinary density (1.015 g/mL) according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. [urinary cadmium x (1.015 x 1,000)-1,000]/[(urinary density x 1,000) - 1,000]. However, creatinine-adjusted values are given for comparison. Analytical performance. All the equipment was tested, and possible contamination was below the limit of detection. For cadmium and lead in blood and cadmium and calcium in urine, the limits of detection were 0.12 [micro]g/L, 0.26 [micro]g/L, 0.31 [micro]g/L, and 1.6 mg/L, respectively. For results below the limit of detection (mainly urinary cadmium), the concentration was set as the value factually obtained in the analysis. The imprecision im·pre·cise adj. Not precise. im  pre·cise ly adv. of the method, calculated as the
coefficient of variation Coefficient of VariationA measure of investment risk that defines risk as the standard deviation per unit of expected return. for duplicate measurements, was 7.4 and 3.1% for cadmium and lead in blood and 8.5 and 6.4% for cadmium and calcium in urine. The analytical accuracy for blood (Seronorm, batch 404107; Nycomed, Oslo, Norway) was as follows (mean [+ or -] SD): 0.67 [+ or -] 0.08 for cadmium and 29 [+ or -] 1.1 for lead (n = 21; recommended, 0.67-0.70 and 31-39 [micro]g/L, respectively). The data for certified blood samples from the U.K. National External Quality Assessment Service (n = 11) deviated on average by [+ or -] 7.9% for target values of 1.8-8.9 [micro]g cadmium/L and [+ or -] 6.1% for 52-352 [micro]g lead/L. The results for urine (Seronorm, batch 102021) were 140 [+ or -] 8.1 mg/L (n = 20; recommended 130 mg/L) for calcium and 0.45 [+ or -] 0.07 [micro]g/L (n = 20; recommended, 0.35 [micro]g/L) for cadmium. The result for the certified urine samples from Centre de Toxicologie du Quebec Interlaboratory Comparison Program for cadmium was 0.76 [+ or -] 0.09 and 3.6 [+ or -] 0.22 [micro]g/L (n = 11 ; certified 0.79 and 3.6 [micro]g/L), respectively. The imprecision was 2.7% for cystatin C (n = 6), 16% for protein HC (n = 10; limit of detection = 0.7 mg/L), and < 10% for urinary NAG (n = 68). Statistical analyses. We used Spearman's rank correlation In statistics, rank correlation is the study of relationships between different rankings on the same set of items. It deals with measuring correspondence between two rankings, and assessing the significance of this correspondence. analysis to assess univariate associations. The cadmium-associated kidney effect markers were further evaluated in multiple linear regression models, where each kidney effect marker was evaluated in relation to cadmium and confounders/covariates. The dependent effect markers (continuous) were not dichotomized (Ragland 1992). No log-transformation was needed as indicated by residual and goodness-of-fit analyses. We 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 (interactions) for cadmium and lead. Lowest observed effect levels were assessed for each effect marker for categorized cat·e·go·rize tr.v. cat·e·go·rized, cat·e·go·riz·ing, cat·e·go·riz·es To put into a category or categories; classify. cat urinary cadmium using Dunnett's post hoc post hoc adv. & adj. In or of the form of an argument in which one event is asserted to be the cause of a later event simply by virtue of having happened earlier: test, including significant confounders and covariates in the models. All tests were two sided, and statistics were performed using SPSS A statistical package from SPSS, Inc., Chicago (www.spss.com) that runs on PCs, most mainframes and minis and is used extensively in marketing research. It provides over 50 statistical processes, including regression analysis, correlation and analysis of variance. (version 12.01; SPSS Inc., Chicago, IL, USA). Results The study population characteristics, exposure variables, and kidney effect markers are presented in Table 1. The proportion of subjects with diabetes was slightly higher in the present study compared with those participating in the whole WHILA cohort (6.4%) (Lidfeldt 2003). The proportion of hypertensive subjects was, however, similar (Lidfeldt 2003). Those who had ever smoked had 90% higher cadmium concentrations in blood and 40% higher in urine compared with never-smokers, who had 0.30 [micro]g/L and 0.45 [micro]g/L cadmium in blood and urine, respectively. The univariate associations between cadmium and kidney effect markers as well as those with possible confounders and effect modifiers are shown in Table 2. Cadmium in both blood and urine was associated with all kidney effect markers except serum creatinine and urinary calcium, which were not included in further analysis. Using cystatin C instead of estimated GFR, and creatinine-adjusted markers in urine instead of density adjusted ones had no major impact on the results. Multivariate The use of multiple variables in a forecasting model. analyses. In the multiple linear regression analysis, each of the cadmium-associated kidney effect markers was tested separately, as were cadmium levels in urine and blood (Table 3). We included in the models the covariates age, body mass index (BMI BMI body mass index. BMI abbr. body mass index Body mass index (BMI) A measurement that has replaced weight as the preferred determinant of obesity. ), and blood lead, as well as the possible kidney-effect modifiers diabetes, hypertension, and use of NSAIDs. Never-smokers were analyzed separately. Cadmium in urine was significantly associated with GFR, creatinine clearance, protein HC, and NAG, after controlling for confounders and adjusting for other covariables (Table 3). Similar results were obtained for blood cadmium. In never-smokers, cadmium remained associated with protein HC and NAG and became significantly associated with creatinine clearance (blood cadmium). Lead was significantly associated with GFR and creatinine clearance. Because there were no associations between cadmium and GFR or creatinine clearance (for urinary cadmium) in never-smokers, we tested whether there was 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 through a non-cadmium-dependent effect of smoking by including pack-years in the multiple regression Multiple regression The estimated relationship between a dependent variable and more than one explanatory variable. models. Smoking (pack-years) was not significantly associated with GFR or creatinine clearance (p [greater than or equal to] 0.1). We assessed possible interactions between cadmium and blood lead, diabetes (insulin-treated vs. the rest), hypertension, or use of NSAIDs, and between blood lead and diabetes, hypertension, or use of NSAIDs. For NAG, there was an interaction between urinary cadmium and diabetes (insulin-treated vs. other diabetics and nondiabetics; regression coefficients Regression coefficient Term yielded by regression analysis that indicates the sensitivity of the dependent variable to a particular independent variable. See: Parameter. regression coefficient ([beta]): diabetics = 2.3, nondiabetics = 0.8; [R.sup.2] = 0.10; p = 0.042) (Table 3). For protein HC, there was a close to significant interaction between urinary cadmium and diabetes ([beta]: diabetics = 4.0, nondiabetics = 1.3; [R.sup.2] = 0.09; p = 0.07), which became significant in never-smokers ([beta]: diabetics = 27, nondiabetics = 1.9; [R.sup.2] = 0.18; p < 0.001). Similar interactions were observed between blood cadmium and diabetes. Hypertension, NSAID NSAID: see nonsteroidal anti-inflammatory drug. use, and blood lead showed no significant interactions with cadmium exposure. However, there was an interaction between blood lead and diabetes for GFR in never-smokers (p = 0.005). Lowest observed effect level Protein HC, NAG (diabetics excluded) (Figure 1A), and creatinine clearance (Figure 1B), after adjustment for blood lead, differed significantly between the group with lowest exposure level (urinary cadmium < 0.5 [micro]g/L; mean, 0.36 [micro]g cadmium/L = 0.48 [micro]g cadmium/g creatinine) and that with the next lowest exposure level (0.50-0.75 [micro]g/L; mean, 0.61 [micro]g cadmium/L = 0.79 [micro]g cadmium/g creatinine). For GFR, the group with the next highest exposure level [urinary cadmium, 0.75-1 [micro]g cadmium/L; mean, 0.86 [micro]g cadmium/L = 1.0 [micro]g cadmium/g creatinine; adjusted for age, BMI, and blood lead (each categorized into four groups) and for NSMD NSMD Non Solder Mask Defined (semiconductor substrate process) NSMD Non-State Market Driven (governance or regulation) NSMD Nonseasonal Mood Disorders use (into 0 or 1); Figure 1C] differed from the lowest level. For blood cadmium, associations were present in the exposure category 0.5-1 [micro]g/L (mean, 0.69 [micro]g/L) for protein HC (p = 0.036) and NAG (p = 0.024). For GFR, an association was seen only at blood cadmium > 1 [micro]g/L (mean, 1.8 [micro]g/L; p < 0.001) after adjustment for significant covariates. Discussion This population-based study of upper-middle-age women, representative of the general population of southern Sweden, showed clear associations between cadmium and the renal tubular-effect markers protein HC and NAG, even at the low levels of cadmium found in never-smokers. Cadmium potentiated the diabetes-induced effects on the kidney. There was also a clear association between cadmium and GFR or creatinine clearance. This study has several methodologic advantages, including the large sample size and high participation rate, individual exposure assessment with high analytical accuracy, and inclusion of several different outcomes of renal effects. Despite the low cadmium concentrations, we had a high analytical accuracy. Any imprecision would have caused a bias toward the null. The study population differed somewhat from the total WHILA population and Sweden (4-7%) (Lidfeldt 2003). Hence, there was a slight overrepresentation of diabetics, which may cause an overestimate o·ver·es·ti·mate tr.v. o·ver·es·ti·mat·ed, o·ver·es·ti·mat·ing, o·ver·es·ti·mates 1. To estimate too highly. 2. To esteem too greatly. of cadmium effects. However, because we controlled for diabetes in the statistical models, this is not a problem. Overcontrol and collinearity collinearity very high correlation between variables. may occur in a statistical analysis such as that performed in this study. Smoking is then an obvious problem, which we handled by separate analysis in never-smokers. Lead and BMI were included, which means a risk of some overcontrol. Another problem, common in the interpretation of data from cross-sectional studies cross-sectional study n. See synchronic study. cross-sectional study, n the scientific method for the analysis of data gathered from two or more samples at one point in time. , is that the exposure is measured at the same time as the effects, which may not be the etiologically relevant period. This may be problematic for blood cadmium, because it largely reflects recent exposure, but not for urinary cadmium, which is a good estimate of the integrated low-level exposure over decades (Jarup et al. 1998). It is known that kidney deterioration, due to both aging and high cadmium exposure, increases the excretion of cadmium in urine, resulting in lower kidney cadmium and eventually lower urinary cadmium. However, the present participants were below the age when the kidney cadmium starts to decrease, and the exposure was relatively low. The present cadmium concentrations are comparable with, or slightly higher than, those in other recent studies from Sweden (Akesson et al. 2002; Jarup et al. 2000; Olsson et al. 2002) and the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. [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 ) 2003; Noonan et al. 2002; Paschal et al. 2000] but lower than those in more 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. areas of Europe (Buchet et al. 1990; Hotz et al. 1999) and much lower than in certain areas in Japan (Suwazono et al. 2000; Yamanaka et al. 1998). Despite the present low cadmium levels, there were clear effects on the kidney. The associations between cadmium and biomarkers of several different renal effects support causality causality, in philosophy, the relationship between cause and effect. A distinction is often made between a cause that produces something new (e.g., a moth from a caterpillar) and one that produces a change in an existing substance (e.g. . It is unlikely that they are merely a result of parallel phenomena, impaired tubular reabsorption reabsorption /re·ab·sorp·tion/ (re?ab-sorp´shun) 1. the act or process of absorbing again, as the absorption by the kidneys of substances (glucose, proteins, sodium, etc.) already secreted into the renal tubules. 2. (protein HC), or increased general turnover of tubular cells (NAG). The associations with blood cadmium also preclude such an interpretation. Because smoking is a major source of cadmium exposure (Jarup et al. 1998), the possibility of confounding through a non-cadmium-dependent effect of smoking must be considered. However, because we found cadmium-associated effects on NAG and protein HC even in never-smokers, and there was no effect of smoking on creatinine clearance or GFR, this is unlikely. The lead levels were low. The association between blood lead and GFR and creatinine clearance may indicate either an effect on GFR at low lead exposure (Lin et al. 2003) or reverse causality. In the case of cadmium, reverse causality seems highly unlikely. Even though data may imply that a decrease in GFR causes increased blood cadmium concentrations, the inverse associations between the glomerular effect markers and cadmium in urine rather indicate that reduced GFR does not reduce the clearance of cadmium. In addition, lead is bound to high-molecular-weight plasma albumin albumin (ălby  `mən) [Lat.,=white of egg], member of a class of water-soluble, heat-coagulating proteins. Albumins are widely distributed in plant and animal tissues, e.g. , and cadmium to metallothionein, a
small polypeptide polypeptide: see peptide. that is easily filtered through the glomerulus.The lowest observed effect level, defined as the mean urinary cadmium in the exposure category that displayed significantly different levels of effect markers compared with the lowest urinary cadmium category, was 0.6 [micro]g cadmium/L (0.8 [micro]g/g creatinine), corresponding to approximately 20 [micro]g cadmium/g kidney cortex. The lowest observed effect level is lower than in previous studies that observed effects at low-level cadmium exposure (Buchet et al. 1990; Jarup et al. 2000; Noonan et al. 2002). This is probably due to homogeneity Homogeneity The degree to which items are similar. of the population, absence of healthy worker effects (Jarup et al. 2000), and good precision in analyses of the exposure and effect markers. More important, we found a similar lowest observed effect level for creatinine clearance as for the tubular markers. Although usually considered an index of glomerular function, the creatinine clearance may partly reflect a proximal tubular dysfunction, because creatinine is not only filtrated but also secreted in the tubuli (Wuyts et al. 2003). On the other hand, the cadmium-associated increase in GFR, occurring in the next highest cadmium stratum stratum /stra·tum/ (strat´um) (stra´tum) pl. stra´ta [L.] a layer or lamina. stratum basa´le (0.86 [micro]g/L urine = 1.0 [micro]g/g creatinine), clearly indicates an effect on the glomerular function. An observation in this contex that supports an effect of cadmium on GFR is the reported ecologic association between end-stage renal disease and distance to cadmium-emitting industrial plants (Hellstrom et al. 2001). Cadmium has been suggested to cause hypertension, but no such effect was seen here, in agreement with other studies (Staessen et al. 2000). Also, we did not observe any synergism synergism /syn·er·gism/ (sin´er-jizm) synergy. syn·er·gism n. Synergy. synergism between cadmium and hypertension on the kidney effects. However, there might be a dilution of the group by cases with mild hypertension. Further, it has been reported, both from experimental and 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 , that cadmium increases the risk of type II diabetes Type II diabetes Type II diabetes is the most common form of diabetes and usually appears in middle aged adults. It is often associated with obesity and may be delayed or controlled with diet and exercise. Mentioned in: Diabetic Ketoacidosis (Han et al. 2003; Schwartz et al. 2003), which was not supported by the present study. As expected, diabetes affected the kidney function, although only in insulin-dependent women, of whom about half had type II diabetes. More important, we found an interaction between cadmium and diabetes, as suggested in previous studies (Buchet et al. 1990). Hence, the lowest observed effect level is expected to be lower in diabetics but could not be evaluated because of too few cases. The incidence of diabetes is increasing (King et al. 1998), and because diabetes is the leading cause of end-stage renal disease (Hostetter 2001), this has important public health implications. The incidence of renal replacement therapy Renal replacement therapy is a term used to encompass life-supporting treatments for renal failure. It includes:
The nephrotoxic effects in the present study appear small in a clinical context, and only a few percent of the variances were explained by cadmium. However, the increase in the effect markers indicates renal toxicity, which should be considered an early sign of severe health effects (Nishijo et al. 2004a). Because it concerns a large segment of the population worldwide, the results are of public health concern. Although the cadmium-induced kidney effects in several studies have been associated with decreasing GFR (Jarup et al. 1995; Kido et al. 1990; Rods et al. 1989), a positive aspect is that progression of the very early effect may not always occur when the exposure is substantially decreased (Hotz et al. 1999). It should, however, be emphasized that in areas with exposure to cadmium mainly through diet, the long half-time of cadmium in the soil will hamper a decrease of the exposure. Thus, far-reaching mitigation will be needed in addition to actions against smoking. 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Health effects of cadmium exposure--a review of the literature and a risk estimate. Scand J Work Environ Health 24 (suppl 1):1-51. Jarup L, Hellstrom L, Alfven T, Carlsson MD, Brubb A, Persson B, et al. 2000. Low level exposure to cadmium and early kidney damage: the OSCAR (Open System for CommunicAtion in Realtime) AOL's internal project name for AOL Instant Messenger (AIM). The core functions of OSCAR, known as the Basic OSCAR Services (BOS), include Login/Logoff, Locate (find out about other AIM users), Instant Message study. Occup Environ Med 57(10):668-672. Jarup L, Persson B, Elinder CG. 1995. Decreased glomerular filtration rate in solderers exposed to cadmium. Occup Environ Med 52(12):818-822. Kido T, Nogawa K, Ishizaki M, Honda R, Tsuritani I, Yamada Y, et al. 1990. Long-term observation of serum creatinine and arterial blood arterial blood n. 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The gender differences in health effects of environmental cadmium exposure and potential mechanisms. Mol Cell Biochem 255(1-2):87-92. Noonan CW, Sarasua SM, Campagna D, Kathman SJ, Lybarger JA, Mueller PW. 2002. Effects of exposure to low levels of environmental cadmium on renal biomarkers. Environ Health Perspect 110:151-155. Olsson IM, Bensryd I, Lundh T, Ottosson H, Skerfving S, Oskarsson A. 2002. Cadmium in blood and urine--impact of sex, age, dietary intake, iron status, and former smoking--association of renal effects. Environ Health Perspect 110:1185-1190. Orlowski C, Piotrowski JK, Subdys JK, Gross A. 1998. Urinary cadmium as indicator of renal cadmium in humans: an autopsy study. Hum Exp Toxicol 17(6):302-306. Paschal DC, Burt V, Caudill SP, Gunter EW, Pirkle JL, Sampson EJ, et al. 2000. Exposure of the U.S. population aged 6 years and older to cadmium: 1988-1994. Arch Environ Contam Toxicol38(3):377-383. Ragland DR. 1992. Dichotomizing continuous outcome variables: dependence of the magnitude of association and statistical power on the cutpoint. Epidemiology 3(5):434-440. Roels HA, Lauwerys RR, Buchet JP, Bernard AM, Vos A, Oversteyns M. 1989. Health significance of cadmium induced renal dysfunction: a five year follow up. Br J Ind Med 46(11):755-764. Schwartz GG, Il'yasova D, Ivanova A. 2003. Urinary cadmium, impaired fasting glucose fasting glucose Fasting blood sugar, fasting plasma glucose Endocrinology Glucose obtained from a Pt who has had nothing–except water by mouth for 8+ hrs; FG is used in evaluating Pts for possible DM Ref range 65-115 mg/dL non-diabetic; 110-140 mg/dL, , and diabetes in the NHANES III NHANES III Third National Health & Nutrition Examination Survey Public health A population-based survey conducted by the National Center for Health Statistics, designed to assess the health and nutritional status of the noninstitutionalized Americans . Diabetes Care 26:468-470. Swedish National Board of Health and Welfare. 2003. Renal Replacement Therapy in Sweden 1991-2002 [in Swedish]. Stockholm, Sweden:National Board of Health and Welfare. Staessen JA, Kuznetsova T, Roels HA, Emelianov D, Fagard R. 2000. Exposure to cadmium and conventional and ambulatory blood pressures Ambulatory blood pressure monitoring (ABPM) measures blood pressure at regular intervals throughout the day and night. It is believed to be able to reduce the white coat hypertension effect. in a prospective population study. Public Health and Environmental Exposure to Cadmium Study Group. Am J Hypertens 13(2):148-156. Suwazono Y, Akesson A, Alfven T, Jarup L, Vahter M. 2005. Creatinine versus specific gravity specific gravity, ratio of the weight of a given volume of a substance to the weight of an equal volume of some reference substance, or, equivalently, the ratio of the masses of equal volumes of the two substances. adjusted urinary cadmium concentrations. Biomarkers 10(2-3):117-126. Suwazono Y, Kobayashi E, Okubo Y, Nogawa K, Kido T, Nakagawa H. 2000. Renal effects of cadmium exposure in cadmium non-polluted areas in Japan. Environ Res 84(1):44-55. Wuyts B, Bernard D, Van den Noortgate N, Van de Walle J, Van Vlem B, De Smet De Smet is the name of communities in the US :
Yamanaka O, Kobayashi E, Nogawa K, Suwazono Y, Sakurada I, Kido T. 1998. Association between renal effects and cadmium exposure in cadmium-nonpolluted area in Japan. Environ Res 77(1):1-8. Agneta Akesson, (1) Thomas Lundh, (2) Marie Vahter, (1) Per Bjellerup, (3) Jonas Lidfeldt, (4) Christina Nerbrand, (5) Goran Samsioe, (8) Ulf Stromberg, (2) and Staffan Skerfving (2) (1) Institute of Environmental Medicine, Division of Metals and Health, Karolinska Institutet Karolinska Institutet (often translated from Swedish into English as the Karolinska Institute, and in older texts often as the Royal Caroline Institute) is one of Europe's largest medical universities. , Stockholm, Sweden; (2) Department of Occupational and Environmental Medicine, University Hospital, Lund, Sweden; (3) Department of Clinical Chemistry, Karolinska University Hospital The Karolinska University Hospital or Karolinska Universitetssjukhuset is a university hospital in Stockholm, Sweden, with two major sites in the municipalities of Huddinge and Solna. , Huddinge, Sweden; (4) Department of Community Health, Malmo University Hospital, Malmo, Sweden; (5) Department of Medicine, and (6) Department of Gynecology and Obstetrics obstetrics (ŏbstĕ`trĭks), branch of medicine concerned with the treatment of women during pregnancy, labor, childbirth (see birth), and the time after childbirth. , University Hospital, Lund, Sweden Address correspondence to A. Akesson, Institute of Environmental Medicine, Division of Metals and Health, Karolinska Institutet, Box 210, 171 77 Stockholm, Sweden. Telephone: 46-8-524-875-42. Fax: 46-8-33-70-39. E-mail: Agneta.Akesson@imm.ki.se The late A. Schutz made invaluable contributions in the study. We thank H. Ottosson, A. Akantis, A.-M. Aberg, and B. Erdling for skillful skill·ful adj. 1. Possessing or exercising skill; expert. See Synonyms at proficient. 2. Characterized by, exhibiting, or requiring skill. technical assistance. Funding was provided by the Swedish Research Council/Medicine; Medical Faculty of Lund University; Karolinska Institutet; the National Swedish 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 ; the Swedish Foundation for Strategic and Environmental Research; the Swedish Society of Medicine, Primary Care, R&D, County Council of Skane; the Swedish Research Council The Swedish Research Council (Swedish: Vetenskapsrådet) is a Swedish government agency established in 2001, with the responsibility to support and develop basic scientific research. for Environment, Agricultural Sciences Agricultural science is a broad multidisciplinary field that encompasses the parts of exact, natural, economic and social sciences that are used in the practice and understanding of agriculture. (Veterinary science, but not animal science, is often excluded from the definition. , and Spatial Planning Spatial planning refers to the methods used by the public sector to influence the distribution of people and activities in spaces of various scales. Spatial planning includes all levels of land use planning including urban planning, regional planning, national spatial plans, and in ; and the Swedish Council for Working Life and Social Research. The authors declare they have no competing financial interests.
Table 1. Participant characteristics and data on exposure and kidney
effect markers in a population-based study from 1999 through early
2000 on 816 women in southern Sweden.
Median
(5-95% No. of
Variable (unit) percentiles) samples
Population characteristic
Age (years) 58 (54-63) 816
BMI (kg/[M.sup.2]) 26.2 (20.3-33.9)
Smokers: never/former/current (%) 54/25/21 (a)
Diabetes: all/insulin dependent (%) 10/1.7 (a)
Hypertension: all/drug treated (%) 31/18 (a)
Regular use of NSAIDs (%) 6 (a)
Exposure variables
Blood cadmium ([micro]g/L) 0.38 (0.16-1.8) 725
Urinary cadmium ([micro]g/L) (b) 0.52 (0.24-1.3) 807
Urinary cadmium
([micro]g/g creatinine) 0.67 (0.31-1.6)
Blood lead ([micro]g/L) 22 (11-46) 726
Kidney effect markers
Serum cystatin C (mg/L) 0.81 (0.65-1.0) 721
GFR (mL/min) (c) 101 (74-133)
Serum creatinine ([micro]mol/L) 92 (73-116) 713
Creatinine clearance (mL/min) (d) 72 (51-105)
Urinary protein HC (pg/L) (b) 2.4 (0.98-7.9) 806
Urinary protein HC (mg/g creatinine) 3.1 (0.13-1.2)
Urinary NAG (U/L) (b) 1.2 (0.22-3.6) 806
Urinary NAG (U/g creatinine) 1.4 (1.1-11)
Urinary calcium (mg/L) (b) 135 (56-267) 809
Urinary calcium (mg/g creatinine) 170 (62-366)
BMI, body mass index.
(a) Data are presented as percent.
(b) Adjusted to mean density 1.015 g/mL.
(c) Calculated: 77.24 x (serum cystatin C)-1.2623.
(d) Calculated: [(140 - age) x body weight (kg)]/[0.85 x
serum creatinine (pM)]. Mean urinary creatinine = 0.85 g/L;
conversion factors: cadmium: 1 [micro]g = 8.89 nmol; 1.0 [micro]g/g
creatinine = 1.0 nmol/mmol creatinine; lead: 1 [micro]g = 4.83 nmol.
Table 2. Associations between exposure and effect markers
(Spearman's rank correlation coefficients).
Age BMI Pack-
years
Blood cadmium -0.01 -0.14 (#) 0.56 (#)
Urinary cadmium -0.02 -0.15 (#) 0.42 (#)
Blood lead -0.03 -0.08 * 0.18 (#)
GFR -0.28 (#) -0.27 (#) -0.05
Serum creatinine 0.12 * -0.08 * 0
Creatinine clearance NR NR -0.02
Urinary protein HC 0.05 -0.18 (#) 0.08 *
Urinary NAG 0.06 -0.03 0.12 (#)
Urinary calcium -0.03 -0.04 -0.03
Blood Urinary Blood
cadmium cadmium lead
Blood cadmium
Urinary cadmium 0.57 (#)
Blood lead 0.20 (#) 0.15 (#)
GFR -0.13 (#) -0.12 (#) -0.11 *
Serum creatinine 0.02 0.05 0.13 (#)
Creatinine clearance -0.08 * -0.13 (#) -0.13 (#)
Urinary protein HC 0.15 (#) 0.18 (#) -0.01 (#)
Urinary NAG 0.13 (#) 0.23 (#) 0.02
Urinary calcium 0.01 -0.02 0.12 (#)
GFR Serum
creatinine
Blood cadmium
Urinary cadmium
Blood lead
GFR
Serum creatinine -0.38 (#)
Creatinine clearance 0.11 (#) -0.62 (#)
Urinary protein HC -0.05 -0.02
Urinary NAG -0.13 (#) 0.09 *
Urinary calcium 0.16 (#) -0.15 (#)
Creatinine Urinary
clearance protein HC
Blood cadmium
Urinary cadmium
Blood lead
GFR
Serum creatinine
Creatinine clearance
Urinary protein HC -0.11 *
Urinary NAG -0.09 * 0.21 (#)
Urinary calcium 0.06 -0.04
Abbreviations: BMI, body mass index; NR, not relevant, as included
in the calculation of creatinine clearance.
* p [less than or equal to] 0.05.1
(#) p [less than or equal to] 0.001.
Table 3. Associations between markers of cadmium exposure and
effects in a population-based study on 816 Swedish women,
allowing for other risk factors, performed in all
subjects and never-smokers separately.
All
Dependent Independent
variable variable [beta] 95% CI
GFR Urinary cadmium
(mL/min) ([micro]g/L) -7.9 -11 to -4.3
Age (year) -1.5 -1.9 to -1.0
BMI (kg/[m.sup.2]) -1.0 -1.3 to -0.7
Blood lead
([micro]g/L) -0.20 -0.32 to -0.09
Diabetes (a) NS
Hypertension (b) NS
NSAIDs (c) -6.8 -12 to -1.2
Blood cadmium -4.2 -6.6 to -1.9
Age (year) -1.5 -1.9 to -1.0
BMI (kg/[m.sup.2]) -1.0 -1.3 to -0.7
Blood lead
([micro]g/L) -0.2 -0.3 to -0.07
Diabetes (a) NS
Hypertension (b) NS
NSAIDs (c) -6.1 -12 to-0.5
Creatinine Urinary
clearance cadmium ([micro]g/L) -4.3 -8.0 to -0.7
(mL/min) Blood lead
([micro]g/L) -0.18 -0.30 to -0.06
Diabetes NS
Hypertension NS
NSAIDs NS
Blood cadmium -1.6 -4.0 to 0.7
Blood lead
([micro]g/L) -0.18 -0.30 to-0.07
Diabetes NS
Hypertension 3.0 0.3 to 5.9
NSAIDs NS
Urinary Urinary cadmium 1.4 0.9 to 1.8
protein ([micro]g/L)
HC Age (year) NS
([micro]g BMI (kg/[m.sub.2]) -0.06 -0.10 to -0.02
/L) Blood lead ([micro]g/L) NS
Diabetes 3.5 2.2 to 4.9
Hypertension NS
NSAIDs NS
Blood cadmium 0.5 0.2 to 0.8
Age (year) NS
BMI (kg/[m.sub.2]) -0.07 -0.11 to-0.02
Blood lead ([micro]g/L) NS
Diabetes 3.5 2.2 to 4.8
Hypertension NS
NSAIDs NS
Urinary Urinary cadmium 0.9 * 0.6 to 1.1
NAG (U/L) ([micro]g/L)
Age (year) NS
BMI (kg/[m.sup.2]) NS
Blood lead ([micro]g/L) NS
Diabetes 1.5 0.9 to 2.2
Hypertension NS
NSAIDs NS
Blood cadmium 0.4 0.2 to 0.5
Age (year) NS
BMI (kg/m2) NS
Blood lead ([micro]g/L) NS
Diabetes 1.5 0.8 to 2.1
Hypertension NS
NSAIDs NS
All Never-smokers
Dependent Independent
variable variable [R.sup.2] [beta]
GFB Urinary cadmium
(mL/min) ([micro]g/L) 0.15 -5.0
Age (year) -1.3
BMI (kg/[m.sup.2]) -1.1
Blood lead
([micro]g/L) -0.26
Diabetes (a) -25
Hypertension (b) NS
NSAIDs (c) NS
Blood cadmium 0.15 -6.0
Age (year) -1.2
BMI (kg/[m.sup.2]) -1.1
Blood lead ([micro]g/L) -0.2 *
Diabetes (a) -25
Hypertension (b) NS
NSAIDs (c) NS
Creatinine Urinary cadmium
clearance ([micro]g/L) 0.03 -3.5
(mL/min) Blood lead
([micro]g/L) -0.3
Diabetes -29
Hypertension NS
NSAIDs NS
Blood cadmium 0.03 -9.8
Blood lead
([micro]g/L) -0.3
Diabetes -29
Hypertension NS
NSAIDs NS
Urinary Urinary cadmium
protein ([micro]g/L) 0.09 2.1 *
HC Age (year) NS
([micro] BMI (kg/[m.sub.2]) -0.08
g/L) Blood lead ([micro]g/L) NS
Diabetes 5.1
Hypertension 0.57
NSAIDs NS
Blood cadmium 0.06 1.7 *
Age (year) NS
BMI (kg/[m.sub.2]) -0.08
Blood lead ([micro]g/L) NS
Diabetes 5.8
Hypertension NS
NSAIDs NS
Urinary Urinary cadmium
NAG (U/L) ([micro]g/L) 0.09 0.8
Age (year) NS
BMI (kg/[m.sup.2]) NS
Blood lead ([micro]g/L) NS
Diabetes 3.0
Hypertension NS
NSAIDs NS
Blood cadmium 0.05 0.5
Age (year) NS
BMI (kg/m2) NS
Blood lead ([micro]g/L) NS
Diabetes 2.9
Hypertension NS
NSAIDs NS
Never-smokers
Dependent Independent
variable variable 95% CI [R.sup.2]
GFB Urinary cadmium
(mL/min) ([micro]g/L) -11 to 0.9 0.16
Age (year) -1.9 to -0.7
BMI (kg/[m.sup.2]) -1.5 to -0.7
Blood lead
([micro]g/L) -0.43 to -0.09
Diabetes (a) -46 to -5.0
Hypertension (b)
NSAIDs (c)
Blood cadmium -15 to 3.0 0.16
Age (year) -1.8 to -0.7
BMI (kg/[m.sup.2]) -1.6 to -0.7
Blood lead ([micro]g/L) -0.4 to -0.07
Diabetes (a) -45 to -4.8
Hypertension (b)
NSAIDs (c)
Creatinine Urinary cadmium
clearance ([micro]g/L) -9.9 to 2.8 0.05
(mL/min) Blood lead
([micro]g/L) -0.5 to -0.1
Diabetes -51 to -8.0
Hypertension
NSAIDs
Blood cadmium -19 to -0.5 0.06
Blood lead
([micro]g/L) -0.5 to -0.1
Diabetes -50 to -8.0
Hypertension
NSAIDs
Urinary Urinary cadmium
protein ([micro]g/L) 1.3 to 2.8 0.13
HC Age (year)
([micro] BMI (kg/[m.sub.2]) -0.13 to -0.02
g/L) Blood lead ([micro]g/L)
Diabetes 3.1 to 7.1
Hypertension 0.05 to 1.1
NSAIDs
Blood cadmium 0.5 to 3.0 0.09
Age (year)
BMI (kg/[m.sub.2]) -0.14 to -0.02
Blood lead ([micro]g/L)
Diabetes 3.4 to 8.1
Hypertension
NSAIDs
Urinary Urinary cadmium
NAG (U/L) ([micro]g/L) 0.4 to 1.2 0.10
Age (year)
BMI (kg/[m.sup.2])
Blood lead ([micro]g/L)
Diabetes 1.9 to 4.1
Hypertension
NSAIDs
Blood cadmium -0.05 to 1.1 0.06
Age (year)
BMI (kg/m2)
Blood lead ([micro]g/L)
Diabetes 1.7 to 4.0
Hypertension
NSAIDs
Abbreviations: (3, regression coefficient; 95% CI,
95% confidence interval, adjusted [R.sup.2], explained variance;
NS, not significant. (a) Insulin treated vs. all others,
yes = 1. (b) Hypertension, yes = 1. (c) NSAIDs, yes = 1.
* Significant interaction with diabetes (described in text).
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