A preliminary study to evaluate the exposure of human fetus to heavy metals in the umbilical cord blood in Syria

Abstract The environmental situation in Syria needs a comprehensive assessment, especially in light of the conditions it has been experiencing for thirteen years, which have exacerbated pollution with heavy metals (HM) in various regions, including the coastal one. This preliminary and first survey in Syria aims to evaluate the exposure of human fetus in the population to HM by measuring the toxic metals spread in the coastal environment in the umbilical cord blood (UCB), which are lead (Pb), mercury (Hg), cadmium (Cd), arsenic (As), chromium (Cr) and nickel (Ni). The study was conducted between May 2022 and April 2023 among healthy newborns of the National Maternity Hospital in the Mediterranean coastal city of Tartous. This study adopted the official method of the American Association for Analytical Chemistry (AOAC, 2002) in collecting, preserving and processing UCB samples, and the heavy metals were measured using an Atomic Absorption Spectrometer. The statistical study was carried out using SPSS Statistics 23.0 (Statistical Package for Social Sciences). The lower and upper limits for the concentrations of the studied elements in UCB range between: Pb (6.18-17.60{micro}g/L), Hg (1.05-7.62{micro}g/L), Cd (0.01-0.67{micro}g/L), As (0.30-5.70{micro}g/L), Cr (0.02-0.43{micro}g/L), Ni (0.01-0.94{micro}g/L). The concentrations of all HM measured in UCB are below the recommended international reference limits. This paper represents the first step in studying the assessment of fetal exposure to HM in our region. The current and future studies aim to expand the study area to include all of Syria, in addition to linking laboratory levels of HM with various sources of exposure and pregnancy outcomes observed at birth.


Introduction
Studying the exposure of the pregnant mother to heavy metals (HM) in particular is considered as very important due to the ability of these elements to cross the placental barrier and travel through the umbilical vein to spread throughout the fetus's body and accumulate in its tissues and organs that are still forming and developing [1,2].
There are many negative effects known so far on the health of the fetus, including immediate ones, such as prematurity, delayed growth, congenital malformations and intrauterine death [3], and long-term ones such as respiratory diseases, childhood cancers and others [4].
In addition to the fact that these researches aim to study the negative effects of this exposure on fetal development in general [3,7,23,24,25], each of them seeks to establish an approved database in the country of study [4,11,15,18,26].These studies pave also the way for subsequent researches in this field which means directing public and official opinions towards adopting the necessary means to reduce the levels of this exposure.The environmental situation in Syria needs a comprehensive assessment, especially in light of the condition it has been going through for more than thirteen years, which affects various areas of life.The percentage of pollution with HM has increased because of the war in which various types of weapons were used, and the deterioration of the quality of petroleum derivatives spread in the markets.Weak control over industrial facilities, in addition to internal migration, led to an increase in residential clusters, industrial activities and traffics, especially coastal cities.
As for epidemiological studies in humans in our country, they were limited to only two studies: it was observed in the first study [40] that higher concentrations of Pb and Ni in the hair of workers in cable, printing, and battery factories compared to workers in olive presses, textile and iron factories; the second study [41] showed a significant increase in the concentrations of Pb, Cd, and Ni in human hair for samples of workers in the field of mining, plastics and batteries compared to workers in administrative jobs.
Despite the large amount of local research concerned with environmental pollution with HM in our country, studies concerned with exposure of the general population, especially pregnant mothers and fetuses, are completely absent.
Based on the above and on our knowledge of the danger of fetal exposure to HM widespread in our country and our awareness of the necessity of evaluating this exposure, we decided to conduct this first survey of its kind in Syria to evaluate fetal exposure to toxic HM widespread in the local coastal environment and to create a database that will be a reference for future studies in the country.
After reviewing previous international studies aimed at evaluating fetal exposure to HM and their negative effects on the health of the fetus and child, and referring to local studies interested in evaluating environmental pollution with HM in the local environment, it was decided to detect the following elements in UCB: Pb, Hg, Cd, As, Cr and Ni.

Materials and Methods
This study was extended over a full year, from May 2022 until April 2023.The study population consisted of newborns in the National Maternity Hospital in the city of Tartous (Figure 1).This hospital receives the highest number of annual births in the governorate (about 2,500 births/year) and from various areas of Tartous governorate, both rural and urban.Before giving birth, the title of the study was presented verbally to the mother by the medical and nursing staff.In case of approval, the mother was .
given an informed consent document to sign.Upon signing, the newborn was given a special serial number for admission corresponding to the day of birth.The informed consent document initially included the title of the study, a simplified explanation of the subject of the study, then the nature of the required participation, emphasizing the absence of any interactions that could affect the health of the mother or the newborn, and the confidentiality of the data and results of the study participants, with the study team prepared to answer all questions and inquiries.
As a preliminary study aimed at investigating and revealing levels of exposure to HM in the general population, no exclusion criteria were set.
Rather, all healthy neonates born in the National Maternity Hospital in the city of Tartous whose parents agreed to enter the study and signed informed consent were entered.
The general characteristics of the sample member's studies in the current paper include maternal age and weight before pregnancy, maternal height, gestational age, and weight, length, and head circumference of the newborn at birth.The official method of the American Association for Chemical Analysis (AOAC, 2002) was adopted in this study.Immediately after birth of the fetus and cutting of the umbilical cord and before the birth of the placenta, the midwife withdraws 5ml of umbilical vein blood from the piece connected to the placenta, using a syringe.The sample is stored in a 50ml conical plastic tube, 5ml of nitric acid is added to it, then the container is closed and numbered with the newborn's serial number given upon entry into the study.The tubes containing cord blood samples are collected and kept at room temperature in a designated place in the hospital and transported weekly to the scientific research laboratory at the Faculty of Sciences at Tishreen University to be processed.The control sample is prepared by gently heating 5ml of concentrated nitric acid and supplementing the volume of all samples to 25ml with distilled water.Samples preserved with nitric acid are heated in a water bath using an electric hotplate at a temperature of 100 degree Celsius for at least two hours.At the end of this stages, 2ml of hydrogen peroxide is added to each sample and heating is resumed for an additional hour until digestion is complete.The samples were then cooled and diluted with double-distilled water up to 50ml, where it becomes ready for calibration.It is then transferred to the Marine Chemistry Laboratory at the Higher Institute for Marine Research of Tishreen University to measure the HM using a Varian 220 Atomic Spectrometer Absorption device, according to the technologies specific to each element and according to the analytical conditions specific to each technology (Table 1).
The data obtained from this study were processed using the statistical program SPSS, 23.0 (Statistical Package for Social Sciences).
The statistical study was carried out using descriptive statistics measures (minimum and maximum, arithmetic mean (Standard Deviation (SD), in addition to the coefficient of variation (CV) and percentiles values) to study the distribution of levels of HM measured in UCB.
Table 2 details

Discussion
Available epidemiological studies interested in measuring HM concentrations in UCB adopt different descriptive statistical criteria, but most of these studies provide information about the lower and upper limits of their resulting concentration values.Therefore, we chose the upper limit criterion (Max) to compare with the results of international studies conducted in multiple countries spread over the five countries on one hand, and the range of values of the resulting concentrations (Min-Max) and the values of the Percentiles to compare with the range of the recommended international reference limits Table 3 presents, in addition to our study, the similar international studies available to us.This table shows, for each study, the country, the year, the sample size (total and for each HM), the elements studied and their upper limits, and the range of international reference limits recommended for each of the elements studied.By regarding the data in tables 2 and 3, the following observations can be made:

1) Lead (Pb):
In the current study, the descriptive statistical study of the values of UCB Pb concentrations shows clear closeness between these values for most of the samples.We note that the upper limit of the values of UCB Pb concentrations obtained in our study (17.60µg/L) is much lower than in other international studies with the exception of the study conducted in South Korea by Kim et al.,[42] in 2013 (15.8 µg/L).By comparing the range of the concentration values obtained in our study with the range of the international reference values (IRV) recommended not to be exceeded in the blood of children [43], which ranges between (35-50µg/L), we note that the .values of UCB Pb concentrations in our study are less than the recommended limits in the blood of all samples.

2) Mercury (Hg):
The descriptive statistical study of the values of UCB Hg concentrations resulting from our study indicates the distribution and divergence of the resulting values among them.The upper limit of the values of UCB Hg concentrations obtained in our study (7.62µg/L) is the lowest value among all the studies available to us.We note that the values of UCB Hg concentrations resulting in our study are less than the upper limit of the IRV recommended by WHO [44] not to be exceeded in the blood (3-10µg/L) for all individuals in the sample, it is even less than the lower limit for more than 25% of the sample (P25=2.95µg/L).

3) Cadmium (Cd):
The value of the CV for UCB Cd concentrations in the current study (48%) indicates that the values of UCB Cd concentrations are far apart from each other, but by studying the rest of the statistical indicators, we notice that these values spread within a narrow range between (0.01-0.67µg/L).
Although the upper limit values for UCB Cd concentrations resulting in our study (0.67µg/L) occupies the middle position among the available global studies; it remains the lowest at regional level, as a study conducted in Saudi Arabia by Al-Saleh et al. [45] (0.70µg/L), while a study conducted in Iran by Vigeh et al. [46] (6.3µg/L).On the other hand, we note that the values of UCB Cd concentrations resulting from our study are less than the IRV in the blood recommended by WHO [47] (<4 µg/L) for all individuals in the sample.

4) Arsenic (As):
. The descriptive statistical study of the values of UCB As concentrations resulting in our study indicates the large distribution of these values among them.When comparing the upper limit of the values of UCB As concentrations resulting in our study (5.70µg/L) with its equivalent in other international studies, we find it to be the lowest among these studies with the exception of the study conducted in South Africa by Röllin et al. [11] (2.84µg/L).We note that the values of UCB As concentrations obtained in our study are less than the IRV recommended in blood in the general population (<10µg/L) [48] in all participants in the study.To our knowledge, our study is the first of its kind in the Arab region and neighboring countries to evaluate As in UCB.

5) Chromium (Cr):
The descriptive statistical study for the values of UCB Cr concentrations resulting from our study indicates a large distribution of these values among them, but they are all distributed within a narrow range ranging between (0.02-0.43µg/L).The upper limit of the values of UCB Cr concentration resulting in our study (0.43µg/L) is the lowest value among the available studies, including the study conducted in the neighboring country Turkey by Yüksel et al. [49] (1.20µg/L).We note that the values of UCB Cr concentrations are much lower than the lower limit of the range of IRV recommended not to be exceeded in the blood (20-30µg/L) [50] in all individuals participating in the study.To our knowledge, our study is the first of its kind in the Arab region to evaluate Cr in UCB.

6) Nickel (Ni):
The values of CV (100%) and the Percentiles up to P95 for UCB Ni indicate that the values of UCB Ni concentrations obtained in our study are .close to each other and distributed around the mean, with very few (<5%) outliers.Comparing the upper limit of the values of UCB Ni concentrations resulting in our study (0.94µg/L) with its counterpart in other available studies, we find that it is lower than in the Chinese studies conducted by Li et al. (21.2µg/L) [51] and the two Spanish studies conducted by Bocca et al. [19] and Dahiri et al. [52] (1.7 and 155.82 µg/L respectively), but higher than in the study conducted in the neighboring country Turkey by Yüksel et al. (0.59µg/L) [49].We note that the values of UCB Ni concentrations obtained in our study are less than the lower limit of the range of IRV recommended not to be exceeded in the blood (1-4µg/L) [53] for all individuals in the studied sample.To our knowledge, our study is the first of its kind in the Arab region to evaluate Ni in UCB.
The values of Pb, Hg, Cd, As, Cr, Ni concentrations in UCB obtained by our study are among the lowest in the world, and they all located within the range of reference values recommended not to be exceeded in the blood by international organizations.The resulting values for Cr and Ni concentrations in UCB in our study clearly converge with their counterparts in the Turkish study, the only study completed on these two elements in UCB in the region.
It is difficult to find an explanation for these differences in the levels of heavy metals in UCB between our study and the others, but the spatial and temporal differences between these studies must have played a role in this.This is in addition to the diversity of sources and severity of pollution from one country to another.The difference in research methodologies and statistical study standards from one study to another makes it difficult to find uniform indicators between these studies so that researchers can collect the .largest number of studies and determine the parameters of fetal exposure to heavy metals at local, regional, or international levels.
To our knowledge, our study is the first of its kind in the Arab region to evaluate As, Cr, and Ni, in human UCB. .

Conclusion:
This paper represents the first step in studying the assessment of fetal exposure to heavy metals in Syria.Current and prospective studies conducted by our team to correlate laboratory levels of these elements with various sources of exposure and pregnancy outcomes observed at birth.
The results of this study reflect the state of fetal exposure to HM in the coastal Tartous Governorate, whose area and number of residents remain relatively small.Therefore, assessing this exposure requires a more comprehensive epidemiological survey that extends across multiple regions, especially with the geographical, climatic, and human diversity that characterizes our country.in the littoral zone of Lattakia.

Figure 1 .
Figure 1.A map from Google Maps showing the location of the city and country of present study (Tartus•, Syria) the distribution of the HM concentrations in UCB studied in the present study.We note that it was possible to detect and quantify all the studied elements in the UCB samples.The values of UCB Pb concentrations range between (6.18-17.60µg/L).The median value of UCB Pb was 11.68µg/L.The mean (SD) value of UCB Pb was 11.67µg/L (2.76), and consequently the CV for UCB Pb concentrations is 24%.The values of UCB Hg concentrations range between (1.05-7.62µg/L).The median value of UCB Hg was 4.19µg/L.The mean (SD) value of UCB Hg was 4.06µg/L (1.50), and consequently the CV for UCB Hg concentrations is 37%.The values of UCB Cd concentrations range between (0.01-0.67µg/L).The median value of UCB Cd was 0.29µg/L.The mean (SD) value of UCB Cd was 0.31µg/L (0.15), and consequently the CV for UCB Cd concentrations is 48%.The values of UCB As concentrations range between (0.30-5.70 µg/L).The median value of UCB As was 2.33µg/L.The mean (SD) value of UCB As was 2.38µg/L (1.24), and consequently the CV for UCB As concentrations is 52%.The values of UCB Cr concentrations range between (0.02-0.43µg/L).The median value of UCB Cr was 0.19µg/L.The mean (SD) value of UCB Cr was 0.20 µg/L (0.10), and consequently the CV for UCB Cr concentrations is 50%.The values of UCB Ni concentrations range between (0.01-0.94µg/L).The median value of UCB Ni was 0.9µg/L.The mean (SD) value of UCB Ni was 0.09 µg/L (0.09), and consequently the CV for UCB Ni concentrations is 100%.

which was not certified by peer review) preprint
Tishreen University Journal -Biological /journal.tishreen.edu.sy/index.php/bioscnc/article/view/4029.40.Khuder A., Bakir M.A, Hasan R. et al.Determination of nickel, copper, zinc and lead in human scalp hair in Syrian occupationally exposed workers by total reflection X-ray fluorescence.Environ Monit