Elevated levels of whole blood nickel in a group of Sri Lankan women with endometriosis: a case control study

Background: Endometriosis is characterized by the persistence of endometrial tissue in ectopic sites outside the uterine cavity. Presence of nickel, cadmium and lead in ectopic endometrial tissue has been reported previously. While any association between blood levels of nickel and endometriosis is yet to be described in literature, conflicting reports are available with regards to cadmium and lead levels in blood and urine. Findings: In fifty patients with endometriosis and fifty age-matched controls confirmed by laparoscopy or laparotomy, whole blood samples were collected and digested using supra pure 65% HNO 3. Whole blood levels of nickel and lead were measured using Total Reflection X-ray Fluorescence (TXRF) while cadmium levels were evaluated using graphite furnace atomic absorption spectroscopy (GFASS). Women with endometriosis had significantly higher ( P=0.016) geometric mean (95% CI) whole blood nickel levels [2.6(1.9-3.3) μg/L] as compared to women without endometriosis [0.8 (0.7-0.9) μg/L]. Whole blood levels of cadmium and lead were similar between the two groups.

Although women with endometriosis in this study population had higher levels of nickel in whole blood compared to controls, whether nickel could be considered as an aetiological factor in endometriosis remains inconclusive in view of the smaller sample that was evaluated.

Endometriosis, Metalloestrogens, Nickel Findings

Endometriosis is an estrogen dependent chronic inflam- matory disease characterized by the survival of endomet- rial tissue outside the uterine cavity [1]. Endometriosis which affects an estimated 6-10% of women of the repro- ductive age group, is a considerable burden to affected women, their families and healthcare systems [2]. Among the etiological factors that promote the survival of ectopic tissue, estrogenic compounds that promote pro- tracted continuation these tissues are gaining prominence supported by persuasive evidence from in vitro , in vivo and human studies [3]. Compelling molecular [4], in vitro[5] and in vivo[6] evi- dence for the ability of metal ions to activate the estrogen receptor [7] has defined a group of xenoestrogens termed metalloestrogens [8]. While evidence for the purported estrogenicity of cadmium are in plenty, estrogenic proper- ties of other metals such as nickel have also been demon- strated by some research groups [9]. In vivo experiments by Krugner-Higby et al. [10] have demonstrated that the occurrence of endometriosis was higher in six female rhesus monkeys exposed to a daily intake of 5 to 10 mg/Kg of lead as compared to a control group (n= 4) given lead-free water over a period of 19 years, but the difference was not statistically significant, probably due to the small sample size [10]. We have previously demonstrated the presence of cad- mium, lead and nickel in ectopic endometrial tissue in a group of Sri Lankan women [11]. Heavy metals enter the human body either by ingestion or inhalation and are sub- sequently transferred to the vascular compartment (blood) [12]. Metals derived from the circulation get deposited in the tissues by various mechanisms [13]. We hypothesized * Correspondence: [email protected] 1Lecturer in Physiology, Faculty of Medical Sciences University of Sri Jayewardenepura, Nugegoda, Sri Lanka Full list of author information is available at the end of the article © 2013 Silva et al.; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Silva et al. BMC Research Notes 2013, 6:13 http://www.biomedcentral.com/1756-0500/6/13 the hematogenous route (blood) as a possible source of metals in the ectopic endometrial tissue. The present study was conducted with the objective of exploring further the association between endometriosis and whole blood levels of cadmium, lead and nickel in the same group of women with endometriosis who were pre- viously studied. We compared the whole blood levels of the cadmium, lead and nickel in women having endomet- riosis (in whom these metals were detected in ectopic endometrial tissue -cases) with the blood levels of same metals in women who had no evidence of endometriosis (controls).

This case control study was conducted among women of the reproductive age group, at the Professorial Gynecology Unit of the National Hospital, Colombo, Sri Lanka. Patients awaiting elective laparotomy or laparoscopy for diagnostic and/or treatment purposes were included. Those who were diagnosed visually as having endome- triosis subsequent to laparotomy or laparoscopy were selected as cases (n=50). Apart from the ectopic endomet- rial tissue sample that was collected as described in the previous study [11], simultaneous venous blood sample was collected from each case. Women matched for age in whom endometriosis had been excluded by laparoscopy or laparotomy were recruited as controls (n=50). Indica- tions for laparoscopy or laparotomy in controls were sub- fertility, dysmenorrhea, chronic pelvic pain or detection of an ovarian mass in ultrasound scan. A sample of venous blood was collected from all partici- pants during intravenous cannulation at the time of induc- tion of anesthesia into polypropelene tubes containing ethylene diamine tetraacetic acid (EDTA). Pre-operatively, informed written consent was obtained from all the parti- cipants. All the blood samples were stored in a −20°C freezer until analysis. Whole blood samples were digested using a protocol described previously [14] with some modifications. Briefly, matched blood of cases and controls were allowed to reach the room temperature. Then whole blood samples were transferred to pre-treated, acid washed glass beakers. The wet weight of each sample was determined using a chemical balance. Each sample was prepared in duplicate. All the blood samples were digested using 65% supra pure Nitric acid (HNO 3, Merck, USA) while maintaining a uni- form temperature. The final solution was made in 2mL of 5% HNO 3 that was prepared by diluting the 65% supra pure HNO3 with double distilled deionized water. The total-reflection X-ray fluorescence (TXRF) machine available at the Atomic Energy Authority (AEA) of Sri Lanka was utilized to measure metals apart from cad- mium. TXRF is a multi element analysis technique [15] capable of detecting an array of elements at detection levels of picograms per liter (pg/L) [15]. An internal stand- ard, Gallium, allows quantification of metals using the Axil software. However, the TXRF that was used had an inherent weakness in measuring cadmium since it had a Molybdenum x-ray tube. Therefore, we used atomic ab- sorption spectroscopy (model GBC 933AA) together with a graphite furnace (model GBC GF 3000) available at the Institute of Fundamental Studies (IFS), Kandy, Sri Lanka to estimate cadmium levels as described elsewhere[16]. Both AEA and IFS [16] are national level apex institutions in Sri Lanka that have international certifications for trace element analysis where regular quality assurance pro- grams are conducted. Quality control and validation were performed using

material supplied by the International Atomic Energy Authority (IAEA-A-13), Seronorm ™ trace ele- ments in whole blood levels 1 (MR 4210) and National In- stitute of Standards & Technology (NIST) Gaithersburg, USA water sample with trace elements (SRM 1643e). For 96% of the determinations, repeatability error did not ex- ceed 10%. The detection limits for nickel, lead and cad- mium in whole blood were as follows 0.05, 1.0, 0.01 μg/ L. The precision for nickel, lead and cadmium in the range of the samples analyzed in this study was + 2, 3 and 6%, respectively. SPSS version 13 for Windows was used for statistical analysis. Log transformation of metal levels was done and means were compared using t-test. Ethical clearance was obtained from the Ethical Review Committees of the Faculty of Medical Sciences, University of Sri Jayewardenepura and the National Hospital of Sri Lanka.

and discussion Mean (±SD) age in cases and controls were 33.0 (±5 .4) and 32.7(±5.4) years respectively. Cases and controls were similar in body mass index while none of the women who participated in the study were current smokers. Other demographic, biological and dietary characteristics of this group of women with endometriosis have been described previously [17]. Cadmium, lead and nickel were detected in whole blood of all the participants. The whole blood nickel levels in cases were significantly higher compared to controls. Cases had lower whole blood cadmium levels and higher Table 1 Levels of metalloestrogens in whole blood ( μg/L) of cases and controls Metalloestrogen Cases (n=50) Controls (n=50) P value† Nickel 2.6 (1.9-3.3) 0.8 (0.7-0.9) 0.016 Lead 11.0 (8.6-13.3) 6.9 (5.7-8.0) 0.389 Cadmium 0.7 (0.7-0.9) 0.8 (0.6-1.0) 0.423 Data expressed as geometric mean (95% CI). † t-test between blood levels of cases and controls. Silva et al. BMC Research Notes 2013, 6:13 Page 2 of 4 http://www.biomedcentral.com/1756-0500/6/13 lead levels as compared to controls; however these diffe- rences were not statistically significant (T able 1). Environmental pollution has been identified as a poten- tial cause for the increase in the prevalence of endome- triosis following industrialization [18]. Heavy metals are gaining prominence as pollutants that could affect human health profoundly, especially in the face of escalating levels of environmental contamination [19]. Women are suscep- tible to heavy metal toxicity due to differences in kinetics, mode of action, susceptibility and exposure [20,21]. The demonstration of higher levels of nickel in whole blood in women with endometriosis as compared to con- trols in our study is a novel finding. Hitherto, there is no published literature that has investigated the nexus bet- ween nickel and endometriosis. The whole blood nickel levels we are reporting are comparable to those reported from women in the general population in different coun- tries [22,23]. Thus the levels we have detected are essen- tially non toxic levels although cases had higher nickel levels which may have contributed towards the presence of nickel in ectopic endometrial tissue. Nickel similar to other heavy metals, primarily enters the human body either by ingestion or inhalation [24]. In addition, nickel is a common metal found in accessories frequently used by women [20] and its absorption via in- tact or damaged skin has been demonstrated [25]. Martin et al. [26] assessed the estrogenic potency of metals using the 50% effective concentration (EC 50)o fd i f f e r e n tm e t a l s as determined from dose –response curves performed in MCF-7 cells transiently transfected with the luciferase re- porter construct. They found that nickel had a relative potency of 1.0 compared to estradiol [26] implying that nickel is a potent metalloestrogen. Humans studies that attempted to elicit the association between cadmium and lead and endometriosis have yiel- ded conflicting results. In a population based study in the United States, high blood concentrations of cadmium were associated with endometriosis [27]; while a study done in Belgium reported similar levels of cadmium and lead in blood in both cases and controls [28]. Urinary cadmium concentrations were similar in cases with endo- metriosis and controls [28,29]. The results of this study are in agreement with the previously published research apart from that of Jackson et al. In the study conducted by Jackson and co workers that probed the association bet- ween cadmium and endometriosis, a considerable number of women with endometriosis were smokers [27]. In con- trast, in our cohort of women none were current smokers. In conclusion in this group of women with endometriosis higher blood levels of nickel were observed. Whether nickel c o u l db ec o n s i d e r e da sa ne t i o logical factor in endometri- osis remains inconclusive considering two factors, namely the small sample size evaluated in this study and the ab- sence of a previous report of such a link. However based on the available scientific evidence for occupational and envir- onmental exposure of women to metals including nickel, future research would prove to be invaluable in further ex- ploring the association between nickel and endometriosis. Abbreviations AEA: Atomic Energy Authority; EDTA: Ethylene diamine tetraacetic acid; IFS: Institute of Fundamental Studies; IAEA: International Atomic Energy Authority; NIST: National Institute of Standards & Technology; TXRF: Total- reflection X-ray fluorescence. Competing interests Authors declare that they have no competing interests. Authors’ contributions NS carried out the sample collection, analysis and drafted the manuscript. HS identified the study participants and carried out the surgical procedures. VW assisted in the TXRF analysis of the samples and interpreted the data. All authors read and approved the final manuscript.

We wish to acknowledge the staff at the Operating Theater, National Hospital, Sri Lanka for the support in sample collection. Dr. M.S.M Iqbal and Ms. D Aluthpatabendi at the Institute of Fundamental Studies, Kandy, Sri Lanka are kindly acknowledged for assistance in cadmium analysis. This study was supported by the University of Sri Jayewardenepura (grant ASP/6/ Re/2008/06), National Coordinating Committee on Reproductive Health Research of Sri Lanka and by the University of Alabama at Birmingham International Training and Research in Environmental and Occupational Health program, Grant Number 5 D43 TW05750, from the National Institute of Health-Fogarty International Center (NIH-FIC). The content is solely the responsibility of the authors and do not necessarily represent the official views of the NIH-FIC. Author details 1Lecturer in Physiology, Faculty of Medical Sciences University of Sri Jayewardenepura, Nugegoda, Sri Lanka. 2Professor in Obstetrics and Gynecology, Department of Obstetrics and Gynecology, Faculty of Medicine, University of Colombo, Colombo, Sri Lanka. 3Head of Life Sciences Division, Atomic Energy Authority, Colombo, Sri Lanka. Received: 21 November 2012 Accepted: 11 January 2013 Published: 14 January 2013

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