1.Arsenic speciation and valence.
Jing LIU ; Ming-Yi SUN ; Hui-Min WU ; Hu-Lin-Yue PENG ; Hua-Ting HUANG ; Ting-Ting FU ; Xiao-Xu DONG ; Xing-Bin YIN ; Chang-Hai QU ; Jian NI
China Journal of Chinese Materia Medica 2023;48(9):2396-2405
As arsenic widely exists in nature and has been used in the pharmaceutical preparations, the traditional Chinese medicine(TCM) with arsenic include realgar(As_2S_2 or As_4S_4), orpiment(As_2S_3), and white arsenic(As_2O_3). Among the above representative medicine, the TCM compound formulas with realgar are utilized extensively. Just in Chinese Pharmacopoeia(2020 edition), there are 37 Chinese patent medicines including realgar. The traditional element analysis focuses on the detection of the total amount of elements, which neglects the study on the speciation and valence of elements. The activity, toxicity, bioavailability, and metabolic pathways of arsenic in vivo are closely related to the existence of its form, and different forms of arsenic have different effects on organisms. Therefore, the study on the speciation and valence of arsenic is of great importance for arsenic-containing TCMs and their compound formulas. This paper reviewed four aspects of the speciation and valence of arsenic, including property, absorption and metabolism, toxicity, and analytical assay.
Arsenic/analysis*
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Arsenicals/analysis*
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Sulfides
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Arsenic Trioxide
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Medicine, Chinese Traditional
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Drugs, Chinese Herbal/analysis*
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Biological Products
2.Effects of natural organic soil amendments on quality of Panax notoginseng.
Zhi-Tao YUAN ; Yong-Feng SHI ; Qiao-Sheng GUO ; Fu-Gang WEI ; Yong WANG ; Hao-Wen LI
China Journal of Chinese Materia Medica 2021;46(19):4945-4949
The effects of four natural organic soil amendments on the quality and pesticide residues of Panax notoginseng were investigated through field experiments and the suitable dosage ratio of each soil amendment was selected to provide a new idea for the pollution-free cultivation of P. notoginseng. The four natural organic soil amendments used in this study were Jishibao, Jihuo, Fudujing, and omnipotent nutrients, which were produced by mixed fermentation of aboveground parts of different plants, biological waste residue, and biochar. During the experiments, only four soil amendments were applied to P. notoginseng instead of any pesticides and fertilizers. The experiment was designed as four factors and three levels. There were three dosage gradients(low, medium, and high) for Jishibao(A), Jihuo(B), Fudujing(C), and omnipotent nutrients(D). When the dosage of one soil amendment changed, the do-sage of the other soil amendments remained medium. There were 10 groups in addition to the soil amendment-free group as control(CK). The results showed that the four soil amendments could significantly improve the growth environment of P. notoginseng and increase the seedling survival rate and saponin content of P. notoginseng. The seedling survival rates of the treatment groups increased by 8.24%-30.05% as compared with the control group. Furthermore, the content of pesticide residues in P. notoginseng was too low to be detected, and that of heavy metals in P. notoginseng was far lower than the specified content in the Chinese Pharmacopoeia(2020). The optimal effect was achieved at medium dosage for all the soil amendments with the highest content of saponins, high seedling survival rate, and significantly reduced heavy metals, such as lead, cadmium, arsenic, and mercury.
Arsenic
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Metals, Heavy/analysis*
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Panax notoginseng
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Soil
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Soil Pollutants/analysis*
3.Study on simultaneous determination of six arsenic species by HPLC-ICP-MS.
Yao-Lei LI ; Ying WANG ; Zhao WANG ; Hong-Yu JIN ; Shuang-Cheng MA
China Journal of Chinese Materia Medica 2019;44(24):5441-5445
This study aims to establish a method for the determination of As B,As C,DMA,As( Ⅲ),MMA and As( Ⅴ) by using HPLC-ICP-MS. A Dioncx Ion PacTMAS7( 4 mm×250 mm) column was used for the HPLC-ICP-MS method. The mobile phase was 100 mmol·L-1 ammonium carbonate-1. 5 mmol·L-1 ammonium dibasic phosphate( gradient elution) at a flow rate of 1 m L·min-1. The injection volume was 10 μL. The linear relationships of As B,As C,DMA,As( Ⅲ),MMA,As( Ⅴ) were good with the concentration of10-500 μg·L-1. The average recovery rates( n = 6) were 105. 7%,100. 5%,102. 9%,105. 7%,100. 2%,92. 69%. The RSD were0. 50%,2. 4%,0. 93%,1. 3%,0. 89%,1. 5%. The precision and repeatability of this method were good. In this study,six forms of arsenic were separated effectively by this method. With methodological validation and sample determination,this method can be used to determine the morphological valence of arsenic in content determination.
Arsenic/analysis*
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Arsenicals/analysis*
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Chromatography, High Pressure Liquid
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Mass Spectrometry
4.Assessment of Arsenic Exposure by Measurement of Urinary Speciated Inorganic Arsenic Metabolites in Workers in a Semiconductor Manufacturing Plant.
Kiwhan BYUN ; Yong Lim WON ; Yang In HWANG ; Dong Hee KOH ; Hosub IM ; Eun A KIM
Annals of Occupational and Environmental Medicine 2013;25(1):21-
OBJECTIVES: The purpose of this study was to evaluate the exposure to arsenic in preventive maintenance (PM) engineers in a semiconductor industry by detecting speciated inorganic arsenic metabolites in the urine. METHODS: The exposed group included 8 PM engineers from the clean process area and 13 PM engineers from the ion implantation process area; the non-exposed group consisted of 14 office workers from another company who were not occupationally exposed to arsenic. A spot urine specimen was collected from each participant for the detection and measurement of speciated inorganic arsenic metabolites. Metabolites were separated by high performance liquid chromatography-inductively coupled plasma spectrometry-mass spectrometry. RESULTS: Urinary arsenic metabolite concentrations were 1.73 g/L, 0.76 g/L, 3.45 g/L, 43.65 g/L, and 51.32 g/L for trivalent arsenic (As3+), pentavalent arsenic (As5+), monomethylarsonic acid (MMA), dimethylarsinic acid (DMA), and total inorganic arsenic metabolites (As3+ + As5+ + MMA + DMA), respectively, in clean process PM engineers. In ion implantation process PM engineers, the concentrations were 1.74 g/L, 0.39 g/L, 3.08 g/L, 23.17 g/L, 28.92 g/L for As3+, As5+, MMA, DMA, and total inorganic arsenic metabolites, respectively. Levels of urinary As3+, As5+, MMA, and total inorganic arsenic metabolites in clean process PM engineers were significantly higher than that in the non-exposed group. Urinary As3+ and As5+ levels in ion implantation process PM engineers were significantly higher than that in non-exposed group. CONCLUSION: Levels of urinary arsenic metabolites in PM engineers from the clean process and ion implantation process areas were higher than that in office workers. For a complete assessment of arsenic exposure in the semiconductor industry, further studies are needed.
Arsenic*
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Cacodylic Acid
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Occupations
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Plants*
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Plasma
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Semiconductors*
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Spectrum Analysis
5.Content and distribution of inorganic elements in Laminaria japonica based on ICP-MS and Micro-XRF.
Hai-Yang LI ; Sheng GUO ; Hui YAN ; Tao YANG ; Dai-Xin YU ; Zhi-Lai ZHAN ; Jin-Ao DUAN
China Journal of Chinese Materia Medica 2022;47(2):444-452
In order to evaluate the composition and distribution characteristics of inorganic elements in Laminaria japonica, this study employed inductively coupled plasma mass spectrometry(ICP-MS) to detect the inorganic elements and used high performance liquid chromatography tandem ICP-MS(HPLC-ICP-MS) to determine the content of different arsenic species in L. japonica from diffe-rent origins. Micro X-ray fluorescence(Micro-XRF) was used to determine micro-area distribution of inorganic elements in L. japonica. The results showed that the average content of Mn, Fe, Sr, and Al was high, and that of As and Cr exceeded the limits of the national food safety standard. According to the results of HPLC-ICP-MS, arsenobetaine(AsB) was the main species of As contained in L. japonica. The more toxic inorganic arsenic accounts for a small proportion, whereas its content was 1-4 times of the limit in the national food safety standard. The results of Micro-XRF showed that As, Pb, Fe, Cu, Mn, and Ni were mainly distributed on the surface of L. japonica. Among them, As and Pb had a clear tendency to diffuse from the surface to the inside. The results of the study can provide a basis for the processing as well as the medicinal and edible safety evaluation of L. japonica.
Arsenic/analysis*
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Chromatography, High Pressure Liquid/methods*
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Laminaria
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Mass Spectrometry/methods*
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Spectrum Analysis
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Trace Elements/analysis*
6.Study of determination method for heavy metals and harmful elements residues in four traditional Chinese medicine injections.
Li-xing NIE ; Hong-yu JIN ; Gang-li WANG ; Jin-gai TIAN ; Rui-chao LIN
China Journal of Chinese Materia Medica 2008;33(23):2764-2767
Methods for determination of heavy metals and harmful residues in traditional Chinese medicine injection were established. Graphite furnace atomic absorption spectrometry was used for determination of lead, cadmium and copper, atomic fluorescence spectrometry for arsenic and mercury. The preprocessing method was optimized. The average recoveries of 5 elements were between 91% and 112% while the precisions were less than 2%. The determination limit of lead, cadmium, copper, arsenic and mercury were 0.28, 0.014, 0.49, 0.19, 0.061 microg x L(-1), respectively. The proposed method was simple, sensitive, accurate and reliable, and could be used widely.
Arsenic
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analysis
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Cadmium
;
analysis
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Drugs, Chinese Herbal
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chemistry
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Lead
;
analysis
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Mercury
;
analysis
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Metals, Heavy
;
analysis
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Spectrophotometry, Atomic
;
methods
7.Determination of arsenic content in Changtong oral liquid by inductively coupled plasma- mass spectrometry.
Dan GUO ; Xi-xiao YANG ; Lian-bing HOU
Journal of Southern Medical University 2006;26(9):1311-1312
To determine arsenic content in Changtong oral liquid, inductively coupled plasma-mass spectrometry (ICP-MS) was employed, which generated linear calibration curves in the range of 5-25 ng/ml for As (r=0.9998). The average recovery of As was 98.94% (n=5, RSD=2.58%).
Arsenic
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analysis
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Drug Contamination
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Drugs, Chinese Herbal
;
analysis
;
chemistry
;
Mass Spectrometry
;
methods
8.Determination of arsenic speciation in 17 commonly used traditional Chinese herbal medicines by HPLC-ICP-MS.
Shan-Yong GU ; Jiao-Yang LUO ; Hao LIU ; Jian-Jie WU ; Wei QI ; Zhuo-Wen FAN ; Mei-Hua YANG
China Journal of Chinese Materia Medica 2019;44(14):3078-3086
The element speciation analysis for heavy metals in herbal medicines is still in the beginning stage. In this study,the total amount of arsenic( As) in 103 batches of 17 commonly used Chinese medicines( including 16 plant medicines and 1 medicinal fungus) was detected by inductively coupled plasma mass spectrometry( ICP-MS). Furthermore,based on HPLC-ICP-MS,the simultaneous detection methods of six As speciation kinds in traditional Chinese medicines were established. An AS7 anion exchange column was selected and the As forms in 17 traditional Chinese medicines was systematically analyzed. The results showed that the method of pretreatment of medicinal materials by microwave digestion and the detection of total amount of As by ICP-MS was stable and reliable. As for the speciation analysis of As,the high-speed ultrasonic extraction method was adopted,and it showed that the linear relationship of the six As speciation was satisfied with the correlation coefficient R2>0. 999 9. The LOQ of six kinds of As speciation were 0. 20,0. 10,0. 15,0. 10,0. 25,0. 10 μg·L~(-1) for arsenic betaine( As B),arsenious acid [As( Ⅲ) ],dimethyl arsenic( DMA),arsenic choline( As C),monomethyl arsenic( MMA),arsenic acid[As( Ⅴ) ],respectively. The recoveries were between 84. 24% and 121. 5%,and the relative standard deviations were 2. 7% to 11%. Among the 103 batches of medicinal materials,only one batch of sample As exceeded the Chinese Pharmacopoeia limit standard; As( Ⅲ) and As( Ⅴ) had high detection rate in 103 batches of Chinese herbal medicines,within which As( Ⅴ) was the main detected form,and inorganic As accounted for the ratio reached 80. 90%-98. 73%; some samples detected DMA,MMA and As B,As C was not detected in any batch. This study established an analytical method suitable for the speciation of As in Chinese herbal medicines,and provided basic data for As residual residue in Chinese herbal medicines,which can provide important reference for the risk assessment and quality standards.
Arsenic
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analysis
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Chromatography, High Pressure Liquid
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Drugs, Chinese Herbal
;
analysis
;
standards
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Mass Spectrometry
9.Application of spatial statistics in studying the distribution of food contamination.
X M WANG ; G X XIAO ; J J LIANG ; L X GUO ; Y LIU
Chinese Journal of Epidemiology 2019;40(2):241-246
Objective: Based on data related to arsenic contents in paddy rice, as part of the food safety monitoring programs in 2017, to discuss and explore the application of spatial analysis used for food safety risk assessment. Methods: One province was chosen to study the spatial visualization, spatial point model estimation, and kernel density estimation. Moran's I statistic of spatial autocorrelation methods was used to analyze the spatial distribution at the county level. Results: Data concerning the spatial point model estimation showed that the spatial distribution of pollution appeared relatively dispersive. From the kernel density estimation, we found that the hot spots of pollution were mainly located in the central and eastern regions. The global Moran's I values appeared as 0.11 which presented low spatial aggregation to the rice arsenic contamination and with statistically significant differences. One "high-high" and two typical "low-low" clustering were seen in this study. Conclusion: Results from our study provided good visual demonstration, identification of pollution distribution rules, hot spots and aggregation areas for research on the distribution of food pollutants. Spatial statistics can provide technical support for the implementation of issue-based monitoring programs.
Arsenic/adverse effects*
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China
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Cluster Analysis
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Food Contamination
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Food Supply
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Humans
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Spatial Analysis
10.A study on arsenic speciation analysis in animal origin seafood.
Lei ZHANG ; Rui ZHOU ; Xiao-wei LI ; Yun-feng ZHAO ; Li-ping LIU ; Yong-ning WU
Chinese Journal of Preventive Medicine 2008;42(5):298-303
OBJECTIVETo develop a method for determining arsenobetaine (AsB), arsenite (AsIII), arsenate (AsV), Monomethylarsonic acid (MMA) and Dimethylarsenic acid (DMA) with liquid chromatography (LC), on-line UV-decomposition (UV), hydride generation (HG) and atomic fluorescence spectrometry (AFS) in animal origin seafood samples.
METHODSArsenic compounds were extracted in an ultrasonic bath with methanol-water (9:1) solvent from the animal origin seafood samples. The extracts were evaporated with N2 and dissolved in water. The solvent was extracted by hexane to remove lipids. And then, the aqueous solution was diluted to 10 ml. The extracts were filtered before analysis by LC-AFS. The mobile phase consisted of 0.5 mmol/L NH4H2PO4 (pH 9.0) and 20 mmol/L NH4H2PO4 (pH 6.0). Arsenic species were separated with an anion exchange column Hamilton PRPX-100 and gradient elution, detected by LC-UV-HG-AFS.
RESULTSThe established separation condition could achieve a better separation for five arsenic species. Detection Limits (LOD) were ranged from 0.0025 to 0.0032 mg/L, AsB was the predominant arsenic species in the animal origin seafood samples. AsIII and DMA were detected in certain shellfish samples at trace level. The accuracy of total arsenic measurement was tested by the analysis of NBS 1566 (Oyster Tissue). The accuracy of arsenic species measurement was tested by the analysis of BCR 627 (Tuna Fish). The data were tallied with the certified value.
CONCLUSIONArsenic species were specifically detected by LC-UV-HG-AFS in the animal origin seafood samples.
Animals ; Arsenic ; analysis ; Arsenicals ; analysis ; Chromatography, High Pressure Liquid ; methods ; Food Inspection ; methods ; Seafood ; analysis ; Spectrometry, Fluorescence ; methods