Determination of Lead and Cadmium in Synthetic and Natural Hair Dyes in Morocco Using Differential Pulse Polarography

Benabbes, M.; Chentoufi, M. Alami; Mojemmi, B.; Benzeid, H.; Touré, H. A; Cheikh, A.; Rahali, Y.; Idrissi, M. O.B.; Draoui, M.; Bouatia, M.; Benabbes, M.; Chentoufi, M. Alami; Mojemmi, B.; Benzeid, H.; Touré, H. A; Cheikh, A.; Rahali, Y.; Idrissi, M. O.B.; Draoui, M.; Bouatia, M.

doi:10.4152/pea.202101037

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Portugaliae Electrochimica Acta

Print version ISSN 0872-1904

Port. Electrochim. Acta vol.39 no.1 Coimbra Jan. 2021 Epub Feb 01, 2021

https://doi.org/10.4152/pea.202101037

Research Article

Determination of Lead and Cadmium in Synthetic and Natural Hair Dyes in Morocco Using Differential Pulse Polarography

M. Benabbes¹

M. Alami Chentoufi¹

B. Mojemmi¹

H. Benzeid¹

H. A Touré¹

A. Cheikh²

Y. Rahali³

M. O.B. Idrissi¹

M. Draoui¹

M. Bouatia¹

^¹Laboratory of Analytical Chemistry, Faculty of Medicine and Pharmacy, Mohammed V University, Rabat, Morocco

^²Faculty of Pharmacy, Abulcasis University, Rabat, Morocco

^³Team of Formulation and Quality Control of Health Products, Faculty of Medicine and Pharmacy, Mohammed V University- Rabat, Morocco

Abstract

The concentrations of lead and cadmium were determined in markets of hair dyes samples in Morocco. Sixteen synthetic and natural hair dyes were selected. The metals were analyzed after mineralization with nitric acid and hydrogen peroxide. The content was determined using differential pulse polarography and the analytical method was validated. The method was linear with a correlation coefficient value (r) that ranged from 0.992 to 0.999. The limit of detection (LOD) was 0.080 and 0.43 ppm for Pb and Cd, respectively. Finally, the concentrations of the two metals in the different hair dyes samples ranged from LOD to 3617.02 ppm for Pb and from LOD to 459.57 ppm for Cd. The majority of the concentrations were above acceptable levels for cosmetics. It has been demonstrated that heavy metals induce toxicity to human body even at a low level, hence the need to strengthen the control of cosmetic products by the competent authorities in Morocco.

Keywords: Lead; cadmium; heavy metals; cosmetic and polarography.

Introduction

A cosmetic product, as defined by the 1223/2009 European Cosmetic Regulation, is any substance or mixture intended to be placed in contact with the external parts of the human body (epidermis, hair system, nails, lips and external genital organs) or with the teeth and the mucous membranes of the oral cavity, with an exclusive or main view to clean them, perfume them, change their appearance, protect them, keep them in good condition or correct body odors. Hair dyes or hair coloring products present one of the cosmetics products most used by the Moroccan population. Their use, both by men and women, continues to grow following fashion trends. Heavy metals are identified as one of the important contaminants in cosmetics products. Lead (as acetate) is used as a color additive in hair dyes (¹, ²).

Some studies have demonstrated that the skin exposure to low levels of lead in hair dyes and tattoos may cause many health effects such as behavioral abnormalities, learning impairment, decreased hearing and impaired cognitive function. Cadmium is used in cosmetic products for its color property and it is added as impurities during the manufacturing process. Many studies described cadmium as carcinogenic and as a substance that may cause kidney damage for patients chronically exposed to it.

Other studies showed a relation between the exposure to cadmium and bone damage, with apparition of some symptoms such as low grade of bone mineralization, high rate of fractures and increased rate of osteoporosis (³, ⁴).

The toxicology and risk assessment of hair dyes have been subjects of many studies. These products are identified as the origin of various types of health problems, notably contact allergy, carcinogenicity, genetic and reproductive toxicity (⁵-⁷).

The present study aims to determine the concentration of lead and cadmium in different brands of hair dyes samples collected from the Moroccan market.

Among many methods described in the literature for trace determination, we chose differential pulse polarography (DPP), which is a very sensitive electro-chemical method for the determination of heavy metals in aqueous media (⁸).

Materials and methods

Instrumentation

All experiments were performed using a 797 VA Computrace (Metrohm, Germany) for polarographic trace analysis.

The differential pulse polarography technique (DPP) was used for the quantitative determination. The cell was equipped with three electrodes: the working electrode was a dropping mercury electrode (DME), platinum was used as counter electrode and Ag/AgCl/ (3 M KCl) as reference electrode. Nitrogen was used as an inert gas to operate the mercury electrode and to purge the analyte solutions.

The electrode drop time was 0.4 s. The polarograms were obtained by scanning the potential from -0.2 V to -0.7 V, with a pulse amplitude of 50 mV. The mineralization was performed using the Multiwave PRO microwave system (Anton Paar).

Reagents and solutions

Pure mercury (99.9 %), hydrogen peroxide (30 %), potassium chloride, trace metal free nitric acid (65 %, suprapure), lead nitrate and cadmium chloride were of analytical grade.

A standard solution of 1000 mg.L^-1 of lead (Pb) was prepared using nitrate salts (Pb(NO₃)₂, and the standard solution of 1000 mg.L^-1 of cadmium (Cd) was prepared using cadmium chloride (CdCl₂). All solutions were prepared in double distilled water.

Sample mineralization and electrochemical analysis

Synthetic hair dyes and natural hair dyes samples were bought from Moroccan markets. Sixteen hair dyes were chosen. The brands, colors and their origin are listed in Table 1.

Table 1 List of tested brands, colors, and their country of origin

Brand	Color	Country of origin
Brand-1-a (SHD)	Very light blonde	French
Brand-1-b (SHD)	Light ash blonde	French
Brand-1-c (SHD)	Brown	French
Brand-1-d (SHD)	Dark ash blonde	French
Brand-2-a (SHD)	Light brown	USA
Brand-2-b (SHD)	Dark blonde	USA
Brand-3-a (SHD)	Medium intense violet brown	Italy
Brand-3-b (SHD)	Light warm blonde	Italy
Brand-3-c (SHD)	Very light blonde	Italy
Brand-4-a (NHD)	Brown	Emirates (UAE)
Brand-4-b (NHD)	Maroon	Emirates (UAE)
Brand-4-c (NHD)	Dark brown	Emirates (UAE)
Brand-5-a (SHD)	Medium brown	Germany
Brand-5-b (SHD)	Light brown	Germany
Brand-5-c (SHD)	Medium natural brown	USA
Brand 6 (SHD)	Dark brown	French

SHD: Synthetic Hair dye; NHD: Natural Hair dye.

Mineralization

A sample of 200 mg was placed in Teflon vessels and reacted with 4 mL of HNO₃ for 4 hours in room temperature. After adding 1 mL of hydrogen peroxide, the sample solutions were putted into the microwave oven at 230 °C for 15 min. A blank solution was treated with the same protocol. The extracts were transferred to a polypropylene tube closed with a sealed cap.

Electrochemical analysis

Twenty milliliters of distilled water, 1 mL of supporting electrolyte and a sample of 100 µl were introduced into a polarographic cell. The supporting electrolyte was 1 M of KCL for both heavy metals. In the process of measurement, the solution was bubbled with pure nitrogen (99.999 %) for 180 s and after each analysis. The standard addition technique was used for the determination of heavy metals by three times additions of 100 µL of the standard solution in each addition.

Method validation

The method was validated according to ICH guidelines (⁹). The lead and cadmium curves calibrations were prepared each day during three days using the standard addition method. A known quantity of lead and cadmium standard solutions were added to give final concentrations in the range from 10 to 60 ppm for lead and in the range from 40 to 640 ppm for cadmium. The validation was carried out by studying the following parameters: linearity, accuracy, limit of detection (LOD), limit of quantitation (LOQ) and precision. The precision of the method was express as repeatability. LOQ and LOD were determined according to ICH recommendations: LOD = 3 (σ/S) and LOQ = 10 (σ/S), where σ is the standard deviation and S is the slope of the linear dynamic range.

Results

Method validation

The method has shown good linearity for both metals, with correlation coefficient values (r) of 0.992 and 0.999 for Cd and Pb, respectively. A good linear relationship was obtained; concentration was in the range from LOQ-0.6 mg L^-1 to LOQ-0.64 mg L^-1 for Pb and Cd, respectively. Due to the unavailability of an analyte free matrix, the accuracy was determined using a standard addition analysis technique. The analysis was conducted on the finished product spiked with a known amount of each metal. The results of the analytical validation method are given in Table 2.

Table 2 Results of analytical validation method.

Analyte	Linearity (r)	Accuracy (recovery ± RSD)	Precision (CV %)	LOD (ppm)	LOQ (ppm)
Pb	0.992	100.33 ± 4.9 %	0.72	0.080	0.243
Cd	0.999	102.60 ± 0.87 %	0.93	0.43	1.31

Determination of lead and cadmium in hair dyes

Sixteen hair dyes were selected for the separate analysis of Pb and Cd using differential pulse polarography. The data presented in Table 3 show a summary of the descriptive statistical analysis of heavy metals in hair dyes.

Lead content in hair dyes

The overall median concentration (n = 16) of Pb analyzed was 1196.17 ppm [Q1= 960.69; Q3= 1490.19]. The highest concentration of Pb was obtained in brand-4-c (3617.02 ppm) and a non-detectable concentration was obtained in both hair dyes of brand 2 and brand-5-c. In the sixteen samples of brands of hair dyes, thirteen samples with extremely high lead level ranged from 448.43 to 3617.02 ppm. The Pb concentration in brown dyes of brands-1-3-4-5 was higher than that of other brown shades of the rest of brands and the Pb level in blonde dyes of brands-1-3 was considerately higher than that of other blonde shades. The brand-2 was the only brand where Pb has not been detected.

Table 3 Descriptive statistical summary of heavy metal concentration (mean ± SD) for six different brands in ppm and their price.

Brand	Color	Pb (ppm)	Cd (ppm)	Price (€)
Brand-1-a	Very light blonde	1324,20 ± 0.001	54.79 ± 0.0001	11.50
Brand-1-b	Light ash blonde	1042.65 ± 0.001	56.87 ± 0.0001	11.50
Brand-1-c	Brown	1106.19 ± 0.001	53.09 ± 0.0001	11.50
Brand-1-d	Dark ash blonde	960.69 ± 0.001	52.40 ± 0.0001	11.50
Brand-2-a	Light brown	< LOD	113.20 ± 0.0001	8. 30
Brand-2-b	Dark blonde	< LOD	105.26 ± 0.0001	10. 65
Brand-3-a	Medium intense violet brown	1490.19 ± 0.001	< LOD	12.16
Brand-3-b	Light warm blonde	448.43 ± 0.001	53.81 ± 0.0001	12.16
Brand-3-c	Very light blonde	1574.07 ± 0.001	55.55 ± 0.0001	12.16
Brand-4-a	Brown	676.32 ± 0.001	< LOD	2
Brand-4-b	Maroon	1743.55 ± 0.001	< LOD	2
Brand-4-c	Dark brown	3617.02 ± 0.001	459.57 ± 0.0001	2
Brand-5-a	Medium brown	1196.17 ± 0.001	57.41 ± 0.0001	6. 79
Brand-5-b	Light brown	1414.63± 0.001	< LOD	7.95
Brand-5-c	Medium brown naturel	< LOD	< LOD	9.24
Brand 6	Brown	585.93 ± 0.001	46.87 ± 0.0001	6.89

Cadmium content in hair dyes

The overall (n = 16) average concentration of Cd analyzed was 55.55 ppm [Q1= 53.54; Q3= 81.33], with the highest concentration in brand-4-c (459.57 ppm), and a non-detectable concentration in brand-3-a, brand-4-a, brand-4-b, brand-5-b and brand-5-c.

Cd concentrations in all samples of brand-1 were very similar, and the same goes for brand-2 and brand-3, except brand-3-a. The Cd concentration of dark brown dye of a natural hair dye (brand-4-c) was the highest concentration.

In the total, Pb and Cd have not been detected in medium brown natural shade from brand-5-c. On the other side, when comparing the results, the concentration of heavy metals is not related to brands in our study.

In conclusion, ten products have rates outside the acceptance limit for Pb and nine for Cd. The correlation test (Pearson) between concentration of heavy metals in hair dyes and the price was carried out. The two parameters were negatively correlated: r = -0,399 for Pb and r = -0,354 for Cd; this outcome means that the concentration of heavy metals increases with the decrease in price.

Discussion

The heavy metals content in cosmetic products is not regulated by the Moroccan authorities, and the values for the impurities of these substances are not standardized. However, it is admitted that lead and cadmium impurities in cosmetic products are unavoidable, due to the ubiquitous nature of these elements. The Health department from Canada states that heavy metal impurity concentrations in cosmetic products are technically avoidable when they exceed the following limits: 10 ppm for lead and 3 ppm for cadmium (¹⁰).

The German federal government has defined a maximum level of heavy metals in toothpastes and other cosmetic products and the levels of lead and cadmium are considered technically avoidable above, respectively, 20 ppm and 5 ppm (¹¹, ¹²). FDA has published a guidance that recommends a level of 10 ppm for lead as an impurity in cosmetics. The same organization has conducted two surveys to determine cadmium and other heavy metals in a wide variety of cosmetic products, but the acceptable level of lead and cadmium in hair dyes has not been set (¹³). On the other side, the United Kingdom reported that a concentration of 1% of lead is still admitted in hair dyes (¹⁴) .

The hair dyes are classified into four categories: oxidative (permanent) dyes, direct (temporary or semi-permanent) dyes, metal salts and natural dyes (¹⁵).

In the present study, thirteen samples of direct dyes and three natural dyes were selected from different manufacturer’s countries and analyzed thereafter. A very high level of lead was detected in tested hair dyes according to all the limits mentioned before, and only three shades have a lead concentration below the LOD. The highest concentration of lead was obtained in a natural dye (brand-4-c); that result is in accordance with the result of Ozbek et al., which found a significantly higher lead level in natural hair dyes than that of the synthetics.

A second study of Jallad et al. reported the same outcome (¹⁵, ¹⁶). Henna-based natural dyes are not subject to the regulation of cosmetic products in Morocco, which may explain this high contamination by lead. The manner in which Moroccan women use the henna may develop the risk of intoxication. They apply the product for a long duration to obtain a good coloration, but this theory needs more investigations.

Another study about the determination of lead in hair dyes carried out on the Baghdad market in Iraq reported a maximum lead level of 0.92 ppm; that is much lower than the maximum reported in our study (1574.07 ppm) (¹⁷). This outcome may be attributed to the different origins of samples from various producers. Cadmium was not detected in five samples of hair dyes, while a cadmium concentration of 46.87 to 459.57 ppm was detected in the other hair dyes, which are higher than the limit fixed by various regulations (¹⁰, ¹¹). The highest level of cadmium was found in a natural dye (brand-4-c), which also has the highest concentration of lead.

The concentration of cadmium in our synthetic hair dyes samples was higher than those reported by a study carried out in Nigeria, and higher than cadmium concentrations of natural hair dyes in the Turkey market (¹⁵, ¹⁸). Cadmium was reported as one of the toxic heavy metals causing harmful effects in a wide range of organs, which has an elimination half-life of 10-30 years (¹⁹). Cadmium toxicity includes renal, bone, kidney, dermal and metabolic damage. The exposure to low levels has been associated with cancer and heart diseases (¹⁹, ²⁰).

For both analyzed metals, our results allow us to conclude that there is no automatic link between the lead content and brand or shades. On the other hand, the correlation between the concentration of heavy metals and the price was negative for both metals. This result can be explained by the fact that the producers who fix a higher price invest more in the control of their products. This correlation may also be due to the difference in the technologies used by each producer. Of course, there are some exceptions to those conclusions.

Conclusion

In the current study, lead and cadmium were determined in various synthetic and natural hair dyes using differential pulse polarography. A high concentration of both metals was found on many hair dyes, but the highest concentration was detected in one sample of natural hair dyes.

The use of cosmetic products contaminated with such metals can cause serious problems to the human body. These results represent new data on heavy metals in a category of cosmetic products marketed in Morocco and highlight the need to regulate the sector in order to protect the consumers.

Acknowledgement

The authors would like to acknowledge the team of Laboratory of Analytical Chemistry, Faculty of Medicine and Pharmacy, Mohammed V University, for their collaboration.

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Received: June 05, 2018; Accepted: August 05, 2020

Corresponding author. E-mail address: benabbesmajda@gmail.com

This is an open-access article distributed under the terms of the Creative Commons Attribution License