Научная статья на тему 'Comparison of zinc, copper, selenium, magnesium, aluminium and lead blood concentrations in end-stage renal disease patients and healthy volunteers in Ahvaz, southwest of Iran'

Comparison of zinc, copper, selenium, magnesium, aluminium and lead blood concentrations in end-stage renal disease patients and healthy volunteers in Ahvaz, southwest of Iran Текст научной статьи по специальности «Клиническая медицина»

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Russian Open Medical Journal
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END-STAGE RENAL DISEASE / TRACE ELEMENTS / POISONING / HEAVY METALS / KHUZESTAN PROVINCE

Аннотация научной статьи по клинической медицине, автор научной работы — Shahbazian Heshmatollah, Absalan Abdorrahim, Jalali Mohammad Taha, Mastipour Farideh, Kaydani Gholam Abbas

Introduction Heavy metal storage and essential elements deficiency are two important issues in dialysis patients. Geographic region and dietary habits might affect essential trace elements concentration in body. Trace elements (TEs) status has not been studied previously in dialyzed patients in Ahvaz city. The aim of this study is to compare blood concentrations of six TEs between dialysis patients and normal group in Ahvaz, the center of Khuzestan province, in southwest of Iran. Material and Methods We studied 33 end-stage renal disease (ESRD) patients and 33 normal cases. TEs assayed in serum samples, except lead, which assessed in whole blood. We used atomic absorption spectroscopy in this pressure. We used ANOVA and Tukey-HSD statistical analysis as well as binary logistic regression for calculating Odds ratio. Results There was a significant difference between case and control groups for magnesium (Mg), aluminium (Al) and lead (Pb) (P<0.05), but there was not a significant difference for copper (Cu) and selenium (Se) (P>0.05). Zinc (Zn) level change was not significant. Al and Pb level increased after dialysis but Mg level decreased. All calculated Odds ratios were weak for all investigated trace elements. Different results published about TEs level in ESRD patients. Increase in TEs level in case group may be as a result of chronic poisoning through dialysis and after dialysis hemoconcentration, respectively. In order to understand the exact reason of this observation we need comprehensive and monitored studies. TEs disturbances in Ahvaz ESRD patients imply the importance of periodically studies. Conclusion The most important interpretations and suggestions of this study is that the TEs level is different among different population. Then, Iranian health-providers should consider to TEs assessment in both healthy and patient cases. Periodical measurement of TEs is essential for ESRD patients and it can be helpful in preventing TEs deleterious effects.

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Текст научной работы на тему «Comparison of zinc, copper, selenium, magnesium, aluminium and lead blood concentrations in end-stage renal disease patients and healthy volunteers in Ahvaz, southwest of Iran»

ISSN 2304-3415, Russian Open Medical Journal

2018. Volume 7. Issue 1. Article CID e0105 DOI: 10.15275/rusomj.2018.0105_

Research letter

Comparison of zinc, copper, selenium, magnesium, aluminium and lead blood concentrations in end-stage renal disease patients and healthy volunteers in Ahvaz, southwest of Iran

Heshmatollah Shahbazian 1, Abdorrahim Absalan 2, Mohammad Taha Jalali 1, Farideh Mastipour 1,

Gholam Abbas Kaydani 1, Zeinab Deris Zayeri 1 1 Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran 2 Tarbiat Modares University, Tehran, Iran

Received 8 June 2017, Revised 12 October 2017, Accepted 16 November 2017

© 2017, Shahbazian H., Absalan A., Jalali M.T., Mastipour F., Kaydani G.A., Zayeri Z.D. © 2017, Russian Open Medical Journal

Abstract: Introduction — Heavy metal storage and essential elements deficiency are two important issues in dialysis patients. Geographic region and dietary habits might affect essential trace elements concentration in body. Trace elements (TEs) status has not been studied previously in dialyzed patients in Ahvaz city. The aim of this study is to compare blood concentrations of six TEs between dialysis patients and normal group in Ahvaz, the center of Khuzestan province, in southwest of Iran.

Material and Methods — We studied 33 end-stage renal disease (ESRD) patients and 33 normal cases. TEs assayed in serum samples, except lead, which assessed in whole blood. We used atomic absorption spectroscopy in this pressure. We used ANOVA and Tukey-HSD statistical analysis as well as binary logistic regression for calculating Odds ratio.

Results — There was a significant difference between case and control groups for magnesium (Mg), aluminium (Al) and lead (Pb) (P<0.05), but there was not a significant difference for copper (Cu) and selenium (Se) (P>0.05). Zinc (Zn) level change was not significant. Al and Pb level increased after dialysis but Mg level decreased. All calculated Odds ratios were weak for all investigated trace elements. Different results published about TEs level in ESRD patients. Increase in TEs level in case group may be as a result of chronic poisoning through dialysis and after dialysis hemoconcentration, respectively. In order to understand the exact reason of this observation we need comprehensive and monitored studies. TEs disturbances in Ahvaz ESRD patients imply the importance of periodically studies. Conclusion — The most important interpretations and suggestions of this study is that the TEs level is different among different population. Then, Iranian health-providers should consider to TEs assessment in both healthy and patient cases. Periodical measurement of TEs is essential for ESRD patients and it can be helpful in preventing TEs deleterious effects.

Keywords: end-stage renal disease, trace elements, poisoning, heavy metals, Khuzestan province

Cite as Shahbazian H, Absalan A, Jalali MT, Mastipour F, Kaydani GA, Zayeri ZD. Comparison of zinc, copper, selenium, magnesium, aluminium and lead blood concentrations in end-stage renal disease patients and healthy volunteers in Ahvaz, southwest of Iran. Russian Open Medical Journal 2018; 7: e0105.

Correspondence to Prof. Mohammad Taha Jalali. Tel.: 0613161159. E-mail: [email protected].

Introduction

Kidney has a critical role in balancing trace elements (TEs) concentration [1]. Kidney failure can cause health-threating problems and TEs disturbances [2-4]. Geographical region, dietary and nutritional habits are effective factors in TEs statue and lead it to be at tracer or toxic level [5, 6]. The absence of data about each area soil content of minerals distribution or customary regimen in each country region is an important problem [6]. Obscures assessment of trace minerals turns to be essential in clinical decisions. recent studies suggest that long-term toxicity and cancer development, without any established effector-outcome correlation, seems to be as a result of toxic concentration of TEs [5]. Meanwhile, there are strong evidence about the importance of geographical effect on TEs level and their impact on human health [1, 3-7]. TEs disturbance has been reported in end-stage renal disease (ESRD) patients [1-4, 8-12]. TEs level is population-dependent; it means that TEs level is various in patients and healthy cases and it may be different among different countries

and cities. According to the Hosseinpanah and his cooperators report chronic kidney disease (CKD) prevalence is about 18.9% in Tehran the capital and the most crowded city of Iran [13]; Iran has 31 wide provinces and about 80 million population. Unfortunately, we have not comprehensive information about TEs status in other parts of Iran.

This study designed to evaluate trace or toxic element contents in healthy and ESRD patients in Khuzestan province, the southwest of Iran. Our information about body mineral contents would be helpful in prevention of ESRD. In this study we have determined two toxic elements aluminum (Al) and lead (Pb), and four essential mineral elements (zinc (Zn), selenium (Se), magnesium (Mg) and copper (Cu)) in ESRD patients and healthy individuals to compare TEs status. The aims of this study is gathering primary data about TEs status in ESRD patients and normal cases and assessing the importance of TEs measurement in ESRD patients.

ISSN 2304-3415, Russian Open Medical Journal

2018. Volume 7. Issue 1. Article CID e0105 DOI: 10.15275/rusomj.2018.0105_

Table 1. Case and control categories data of trace elements, means with standard deviations, binary comparisons, calculated Odds ratio obtained from logistic regression and ANOVA results of three group variance analysis

Elements Categories N M±SD Tukey HSD P-Value OR (95% CI) ANOVA P-Value

Zn, mcg/L Case(B.D) 32 863.50±129.08 0.263 1.00 (0.99-1.00)

Control 33 808.00±117.66 t^ t^ <0.001

Case(A.D) 31 994.22±174.51 <0.001 0.99 (0.98-1.00)

Cu, mcg/L Case(B.D) 32 750.38±164.70 0.60 1.00 (0.99-1.00)

Control 24 698.46±129.98 t^ t^ 0.617

Case(A.D) 31 736.63±262.68 0.758 1.00 (1.00-1.00)

Se, mcg/L Case(B.D) 31 107.15±14.97 0.256 0.97(0.93-1.01)

Control 33 101.51±11.77 t^ t^ 0.229

Case(A.D) 32 106.35±15.65 0.353 0.97(0.94-1.01)

Mg, mg/dl Case(B.D) 31 3.28±0.68 <0.001 0.00 (0.00-0.05)

Control 33 2.07±0.30 t^ t^ <0.001

Case(A.D) 31 2.63±0.48 <0.001 0.00 (0.00-0.06)

Al, mcg/L Case(B.D) 31 5.88±2.52 0.003 0.64 (0.49-0.84)

Control 33 3.43±2.44 t^ t^ <0.001

Case(A.D) 32 7.35±3.50 <0.001 0.50 (0.36-0.71)

Pb, mcg/L Case(B.D) 33 27.13±6.46 <0.001 0.73 (0.63-0.85)

Control 33 16.72±6.84 t^ t^ <0.001

Case(A.D) 32 28.35±3.89 0.000 0.72 (0.62-0.83)

M±SD, means with standard deviations. Odds ratio is presented with its 95% confidence intervals - OR (95% CI).

in comparison with above or below row; B.D, before dialysis; A.D, after dialysis; mcg/L, micrograms per litter; mg/dl, milligrams per deciliters.

Material and Methods

In this study 33 ESRD patients and 33 healthy cases randomly selected from a university hospital of Ahvaz Jundishapur University of Medical Sciences (Ahvaz, Iran). Mean and standard deviation (M±SD) of patient and healthy group's age was 54.81±15.65 for patient group and 50.09±9.7 for healthy group respectively (P=0.154). In the patient group, there were 16 (48.5%) males and 17 (51.5%) females; in the healthy group, there were 19 (57.6%) males and 14 (42.4%) females.

Serum samples collected for Zn, Se, Mg, Cu, Al and whole blood samples in ethylenediamine tetraacetic acid (EDTA) containers collected for Pb measurements. Atomic absorption spectroscopy (Varian AA24o Atomic Absorption, USA) used to determination all of these elements. Determination of TEs was done on ESRD patient's samples before and after dialysis. Single determination of TEs was done on control group samples.

All elements wavelengths (W) determined by air-acetylene flame and W of each element was WZn = 213 nm, WCu = 324 nm, WSe = 196 nm, WMg = 279 nm, WAl = 308 nm, and WPb = 217 nm. An expert and specialized instrument operator did all measurements.

Statistical analysis was done by one-way analysis of variance (ANOVA) method and Tukey's honest significance test (Tukey-HSD) of Post-hoc multiple comparisons for separate comparison between two groups. In addition, Odds ratio values were calculated using binary logistic regression. The confidence interval (CI) was considered in the range of 95% of normal distribution. SPSS ver.16 and Minitab ver.16 software were used for statistical analysis.

Results

Statistical analysis showed that there was a significant difference between all categories of subjects for serum Zn, Mg, Al and Pb (P<0.001) but there was not a significant difference for Cu (P=0.617) and Se (P=0.229) (Table 1).

Post-Hoc multiple comparisons using Tukey-HSD analysis showed that there was a significant difference between healthy

group and patient group after dialysis in concentrations of Zn (P=0.000) but no significant difference with before dialysis (P=0.263). For Cu serum levels there was not any meaningful difference between healthy group and before dialysis (P=0.6) or after dialysis (P=0.758). Same results were obtained for Se serum levels (P=0.256 for before dialysis) and (P=0.353 for after dialysis). However, there were significant differences between healthy group and patient group before and after dialysis for Mg, Al and Pb (P<0.05). Odds ratio for estimating the chances of undergoing kidney disease according to the TEs concentrations were highly weak and insignificant (Table 1).

Discussion

Assessment of TEs can not be a good criterion for predicting kidney problems, according to Odds ratios. Kaminska-Galwa and his cooperators showed that serum Zn, Cu and Se levels of dialysis patients were lower than healthy cases they reported that concentrations of TEs decrease during hemodialysis [14]. This finding is in spite with our results for Zn; Se and Cu serum concentrations; these TEs were higher, however not significant, in hemodialysis patients. This discrepancy can be as a result of the population's heterogenic nature or measurement technique sensitivity differences. Piechota and colleges have reported insignificant differences between ESRD patients and healthy group for Zn and Cu plasma levels but Mg level was higher in patients than control individuals [15]. Mansouri and his cooperators reported normal concentrations of Zn in uremic patients [16]. However Ellis reported low serum and plasma Zn but Zn urinary level showed increase status [17]. Gallery and coworkers have reported an acute Zn toxicity case who was on hemodialysis; their study implied the role of water resource that was used for hemodialysis. they suggested that a cumulative effect of dialysis for Zn caused poisoning [18]. Richard et al. have reported that serum Zn, Cu and Se were decreased in dialyzed patients compared with normal controls [19]; such finding was in contrast to our results. According to the previous studies, Cu concentrations may be on the low or toxic levels in chronically

ISSN 2304-3415, Russian Open Medical Journal

2018. Volume 7. Issue 1. Article CID e0105 DOI: 10.15275/rusomj.2018.0105_

dialyzed patients [20]. Various researchers reported different results for TEs. However, different dietary habits, geographical region of each area and the chance of exposure rate to each trace mineral may play a role in diversity of researcher's reports. Reports suggest that TEs evaluation is a neglected clinical assessment in Iran and only an expert clinician requests such test. Additionally severe TEs poisoning or deficiency may be diagnosed clinically by patient's history. Unfortunately most of clinical laboratories in Iran are not equipped with an atomic spectroscopic instrument to perform such tests. Nowadays, only chemical or biochemical colorimetric methods are used to measure some TEs such as Mg, Zn, Se and Cu however the accuracy of these assessments is under suspicious. Main issue about TEs in Iran is unfamiliarity of physicians and laboratory managers in Iran about the importance of TEs and their role in disease related conditions and disease development.

Lee et al. have reported low levels of plasma Zn in 78% of hemodialysis cases, high plasma Al in 31% but normal Cu and Pb in most cases. In their study, most healthy cases showed significantly lower level of Al and Pb in plasma in compare to patient group. Furthermore, Cu and Zn were higher in healthy group. These findings are in accordance with our results for Al and Cu in hemodialysis patients but not for Zn. TEs level associate to various factors and imply the role of medications, environmental factors, diet and aging process [21]. Kazi et al. have shown that Al and Pb blood concentrations in chronic renal failure patients are significantly higher than healthy individuals; also dialysis reduce TEs concentration [22]. Jervis and coworkers showed that there is not any differences between Al contents of hair sample obtained from dialyzed patients and healthy groups [23]. As it is obvious, some studies confirm that Al and Pb may be overload in patients who are under dialysis; this finding was also obtained in our study.

In our study, obtained results showed that:

i) Zn serum level was higher than healthy group especially after dialysis; this finding suggest that Zn is added to the patient's blood stream during dialysis process or its concentrations raises due to the hemoconcentration phenomenon.

ii) Cu and Se serum levels were not changed significantly compared to normal group. Considering mentioned studies showed Cu and Se serum levels are expected to be lower than healthy group in our study, but our result was not so. It is suggested that there may be a balance between reception and delivery of these two elements during dialysis. However, it could not discussible prior to repetition and monitored assessments of TEs.

iii) Dialyzed patients have higher serum Mg levels even after dialysis; this may results to the chronic toxicity with Mg. Therefore, we suggest that Mg content assessment should be considered for chronically dialyzed patients.

iv) Serum Al and whole blood Pb levels increased after dialysis. Pre and post dialysis concentrations of Al and Pb were higher than healthy group.

Conclusion

This study implies the role of hemoconcentration phenomenon, which occurs after dialysis, or the addition of

minerals to the blood flow during dialysis and via water resources used in dialysis process. Odds ratio analysis of current study showed that TEs level assessment is not associated with kidney disease. This may underestimate the importance of TEs ordering but we should not forget that TEs change is not the cause of kidney disease but it is a signature for kidney involvement, especially in the case of severe kidney diseases such as ESRD. Finally the most important interpretations and suggestions of the current study are these: the TEs variation is population dependent and TEs assessment should be considered by health-providers for Iranian's healthy and patient populations. Periodical measurement of TEs, both essential and toxic, for ESRD patients could be helpful for preventing deleterious effects. Iranian's clinicians should be familiar with the importance of trace minerals measurements and order TEs measurement by gold standard methods such as atomic absorption. Clinical laboratories should be equipped with the instruments assessing TEs, especially hospitals that admit ESRD or dialysis patients. Healthy populations also should be assessed for TEs because there isn't any data, such as Khuzestan province.

Acknowledgments

Ahvaz Jundishapur University of Medical Sciences grants this work. Then, authors make special thanks to their coworkers and patients who made kindly sharing for performing this study. Further, we thanks gratefully from Mr.Mohsen Ghasemi for his technical support about trace element measurement.

Conflicts of interest

The authors declare no conflict of interest. Ethical approval

All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional and national research committee and with the 1964 Helsinki declaration and its later amendments or comparable ethical standards.

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Authors:

Heshmatollah Shahbazian - Nephrology Specialist, Professor, Chronic Kidney Disease Research Center, Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran. http://orcid.org/0000-0002-1463-5790. Abdorrahim Absalan - PhD, Professor, Department of Clinical Biochemistry, Faculty of Medical Sciences, Tarbiat Modares University, Tehran, Iran. http://orcid.org/0000-0001-9661-3511.

Mohammad Taha Jalali - Professor, Department of Laboratory Medicine, Faculty of Paramedical Sciences, Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran. http://orcid.org/0000-0002-5094-8049.

Farideh Mastipour - BSc of Nursing, Nurse, Golestan Hospital, Ahvaz

Jundishapur University of Medical Sciences, Ahvaz, Iran.

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Gholam Abbas Kaydani - PhD, Assistant Professor, Department of

Laboratory Medicine, Faculty of Paramedical Sciences, Ahvaz Jundishapur

University of Medical Sciences, Ahvaz, Iran. http://orcid.org/0000-0003-

0324-3238.

Zeinab Deris Zayeri - MSc (Human Genetic), Clinical laboratorian, Golestan Hospital Clinical Research Development Unit, Ahvaz Jundishapur University of Medical Sciences, Ahvaz, Iran. http://orcid.org/0000-0002-8621-5904.

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