X-Ray Fluorescence in Biological Sciences. Группа авторов

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Название X-Ray Fluorescence in Biological Sciences
Автор произведения Группа авторов
Жанр Химия
Серия
Издательство Химия
Год выпуска 0
isbn 9781119645580



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of As concentration in an exposed person. A stainless‐steel scissor was used to collect the hair sample obtained from different parts of the scalp at an interval of 1 cm. Collected hair samples, preserved in zipper polyethylene bags, were cut into small pieces, washed with a sufficient volume of acetone for a couple of minutes, and then thoroughly washed again several times with deionized water, and finally washed once more with acetone [5]. The sample was preliminarily air dried at room temperature for about three hours, and then again in an oven at 180 °C until the sample was completely dry.

      6.2.4 Sample Preparation

      6.2.5 Sample Analysis

Schematic illustration of (a)–(d) different steps of making sample pellet for EDXRF analysis. Photo depicts irradiation of sample pellets using compact energy dispersive X-ray fluorescence (EDXRF) system.

      6.2.6 Accuracy and Precision of the Method

      6.2.6.1 Construction of Calibration Curve

      6.2.6.2 Measured Condition

       Measuring time: 100 seconds

       Unit: ppm

       Arsenic (As) condition: Rb_Re‐Tl

       Secondary target: ZrFigure 6.3 Calibration curve for measurement of arsenic (As).Table 6.1 Analytical results of Orchard Leaf (NIST1571) obtained from Compact EDXRF system as the purpose to fulfill the requirement of method validation.ElementsElemental concentration (mg/kg)MeanSDCertified valueRE (%)CV (%)Exp‐1Exp‐2K14 90013 98714 44464614 7001.744.47Ca19 98119 62819 80525020 9005.241.26Mn90.8992.7291.811.2991−0.881.41Fe302311306.506.36300−2.172.08Cu12.2213.0112.620.5612−5.134.43Zn25.1925.5725.380.2725−1.521.06As9.489.659.570.12104.351.26Rb11.3711.4111.390.03125.080.25Sr39.2139.8839.550.4737−6.881.20Pb44.7145.0344.870.23450.290.50

      6.3.1 Background

      A combination of genetic susceptibility and exposure to environmental toxins at critical periods during brain development has recently been hypothesized as the origin of autism [10] and several studies have observed elevated levels of heavy metals and essential minerals among children diagnosed with ASD [9]. Johnson and Myers [11] suggested that environmental exposure to heavy metals and essential minerals may act as a central nervous system teratogen in early gestational life. Among the toxic heavy metals, Pb is of particular concern as an undesirable contaminant originating from a variety of common sources such as motor vehicles, lead paint, contaminated soil etc. Pb can be ingested through air, drinking water, food etc. Developing fetuses and children are more sensitive to Pb exposure compared to adults because of the relative immaturity of the blood–brain barrier, increased gastrointestinal absorption, and the prevalence of hand‐to‐mouth behaviors. Hence the possibility of Pb exposure leading to the development of ASD in children is of greater concern to children than adults.

      Many studies from across the world support the association between exposure to Pb and ASD. But different, conflicting [12] opinions are also available and must be taken into consideration. Adams et al. [13] conducted a study where they compared 55 children with autism ages 5–16 years to 44 control subjects of similar age and gender and reported that the autism group had significantly higher levels of Pb in their red blood cells and higher urinary levels of lead,