Survey of Octylphenol , Nonylphenol , and Bisphenol A in Infant Milk Powders by Solid-Phase Extraction Combined GC / MS Method

A detection method for 3 kinds of phenolic compounds of endocrine disruptors (4-nonylphenol, 4-octylphenol, and bisphenol A) in infant milk powders by solid-phase extraction combined GC-MS was established. is method can eectively remove interference materials from infant milk powder products. e limit of detection and the limit of quantitation of the 3 kinds of compounds were 0.8 μg/kg and 2.5 μg/kg, respectively, with the relative standard deviations of 4.3–12.1%. e recovery rates of 4-nonylphenol, 4-octylphenol, and bisphenol A were of 68.5–89.2%, 64.8–87.0%, and 97.8–110.0%, respectively. Concentrations of the bisphenol A were from 0.8 to 14 μg/kg in 35 samples of the total 60 samples. And the other two compounds of 4-nonylphenol and 4-octylphenol were not found in all the 60 samples tested.e established method is simple, rapid, accurate, and highly sensitive, and the pollution of endocrine disruptors in some infant milk powders products was detectable in trace amounts.


Introduction
e endocrine disruptors (endocrine disrupting chemicals, EDCs) show potential adverse e ects on the function of the hormonal system of humans and animals by reacting with natural hormone receptors [1].
e epidemiological studies showed that the reproduction system, immune system, nervous system, and abnormal behavior as well as the rise in the incidence of several cancers of humans and animals were associated with environmental endocrine disruptors.According to the structure characteristics of endocrine disruptors, EDCs are divided into many polychlorinated biphenyls, phthalates, phenols, heavy metals, organic tin compounds, etc. Phenol endocrine disruptors, including nonylphenol (4-nonylphenol, 4-NP), octylphenol (4-octylphenol, 4-OP), and bisphenol A (bisphenol A, BPA), are widely used as surface active agents, plasticizer, and so on in the production and synthesis of food packaging materials.
e n-alkyl isomers are more important to our health than other isomeric compounds; for example, 4-t-alkyls are also widely used as plasticizers in industry.
For example, BPA is widely used in plastics, adhesives, ame retardants, and dental composite llings, which has been investigated in numerous studies showing that its toxic e ects are initiated by binding to the estrogen receptor [2].A study indicated that in mice, BPA altered mammary gland development and caused urethral malformations as well as meiotic aneuploidy [3].In contrast to other compounds lacking hormonal e ects, BPA had been found to be biologically active at doses below the range typically used in toxicological studies [4], several samples of canned sh [5], river water [6,7], sewage e uents [8], and sewage sludge [9] and had been surveyed for BPA concentration.Similarily to BPA, 4-NP and 4-OP also show high lipophilic ability, and they are easily concentrated in animal foods with high concentrations of lipid and protein.e present of the three compounds had been detected in some fishery products [10], meat [11], milk [12,13], and cereal products [14].And there are many kinds of infant milk powders on the market that are usually packaged by plastic bottles, and the infant milk powders are vulnerable to be polluted by the packaging materials which contain the compounds such as BPA, 4-NP, and 4-OP.Several methods including liquid chromatographic/tandem mass spectrometric (LC-MS) [15], gas chromatography mass spectrometry (GC/MS) [16], liquid chromatography mass spectrometry (LC/MS) [17], and so on were used for trace phenol compounds analysis.
e phthalates of dibutyl phthalate, benzyl butyl phthalate, di-"isononyl" phthalate, and di-"isodecyl" phthalate in milk and milk products including infant formulas were extracted by a mixture of tert-butyl methyl ether and hexane from liquid samples, and di-"isononyl" phthalate, di-"isodecyl" phthalate were cleaned up on deactivated silica and the phthalates were detected in positive ion mode after separation on a reversed-phase C 5 analytical column [15].BPA in 63 of 105 samples, including fresh turkey, canned green beans, and canned infant formula, were detected by GC/MS (GC 6890 Hewlett-Packard and MS 5973 Hewlett-Packard); the levels ranged from 0.23 to 65.0 ng/g and BPA levels were higher for foods of pH 5 compared to more acidic and alkaline foods [16].Li et al. [17] developed a novel method for the simultaneous determination of five phthalate esters in water by single-drop microextraction (SDME) coupled with gas chromatography.
Detection of BPA and its precursor compounds in commercial milk by HPLC [10] needs special equipment of gel chromatography for pretreatment which can remove the macromolecular compounds such as triglycerides, but the small molecular compounds such as fatty acids, pigments, and phytosterol are not able to be removed, and some of the pretreatment methods need optimization for decreasing the interferences of other chemicals in the samples.e aim of this study was to establish a method for simultaneous analysis of BPA, 4-NP, and 4-OP in infant milk powders by the solid-phase extraction combined GC-MS method and to survey 60 infant milk powders samples in markets of Hangzhou, China.

Material and Methods
2.1.Apparatus and Reagents.6890 GC-5973MS instrument (Agilent, USA) was used for analysis, along with the ultrasonic cleaning machine (Jiangsu Kunshan Ultrasonic Instruments Co., LTD.), solid-phase extraction apparatus (Waters), spiral vortex mixer, nitrogen blowing apparatus, and centrifuge, all from Shanghai Jing Ke Corporation.
n-Hexane, methylene chloride, acetonitrile, and acetone were chromatographic pure from Sinopharm Chemical Reagent Co., Ltd.Sodium bicarbonate and heptafluorobutyric anhydride (HFBA) were analytic pure from Aladdin Corporation, Shanghai, China.4-OP, 4-NP, BPA, and D 16bisphenol A (D 16 -BPA) were purchased form Dr Ehrenstorfer GmbH (Germany), and silicone/N-propyl ethylenediamine (silica/PSA) glass hybrid solid phase extraction column was of 1.0 g/6 mL (Hangzhou Fu yu technology service co., LTD).Stock solutions of 4-OP, 4-NP, and BPA (1.0 mg/mL) were made by diluting 25 mg 4-OP, 4-NP, and BPA in 25 mL volumetric flask by chromatographic pure acetonitrile, and then the stock solutions were diluted by chromatographic pure acetonitrile to 0.5 mg/L and stored at 4 °C till used.
e internal standard D 16 -BPA was prepared by diluting 10 mg D 16 -BPA with 10 mL chromatographic pure acetonitrile, and then the solution was further diluted to 2.0 mg/L and stored at 4 °C till used.One percent of sodium bicarbonate solution was made by diluting 1.0 g sodium bicarbonate with pure water to 100 mL.Trichloroacetic acid (TCA, 1% solution) in water was made by diluting 1.0 g TCA with pure water to 100 mL.Sixty milk powders were purchased from a local supermarket in Hangzhou for analysis in 2015.

Samples Pretreatment.
All samples were purchased from a local supermarket in Hangzhou, China.ose samples containing starches were mixed, and 2.0 g of the samples was added to a 50 mL centrifuge tube, then 20 μL 2.0 mg/L internal standard solutions was added, and after addition of 0.05 g amylase and 10 mL 45-50 °C purified water, the tubes were covered and reacted in 45 ± 1 °C for 30 min.e tubes were then cooled to room temperature.Two grams of the samples without starch were added to 50 mL centrifuged tube, and then 20 μL 2.0 mg/L internal standard solutions was added and mixed for further use.

Extraction.
e pretreated samples were mixed with 15 mL of 1% TCA and 2 mL of acetonitrile, and then 10 mL of ethyl acetate was added.After vortex blending for 1 min and centrifugation at 10000 rpm for 10 min, the upper ethyl acetate layer was collected into a new 10 mL tube, which contains a few anhydrous sodium sulfate for removal of the water, and then the upper ethyl acetate layer was transferred to a new tube and dried by N 2 .e dried sample was dissolved by 2 mL acetonitrile and centrifuged at 10000 rpm for 5 min, and then 2 mL of the acetonitrile phase was collected for purification.

Purification.
e silicone/N-propyl ethylenediamine (silica/PSA) glass hybrid solid-phase extraction column (1.0 g/6 mL) was selected for purification of the samples.Silica is highly pure silica (SiO 2 ) with strong polar adsorbent ability; it can react with the tested components by the hydrogen bonds or dipole interaction.N-propyl ethylenediamine solid-phase adsorbent has strong ion exchange capacity, and it can be used to remove organic acid, pigment, metal ions, and so on in the separation process.e silica/PSA column was firstly treated by addition of a few anhydrous sodium sulfate, and then the column was activated by 5 mL methylene chloride and 5 mL of acetonitrile.After that, the 2 mL collected acetonitrile layer was added to the solid-phase extraction column.After elution of the samples, the column was eluted by 5 mL acetonitrile for a second time.en the two effluents were collected, combined, and dried by N 2 .e residues were collected for further derivatization.

Derivatization.
e residue was dissolved by 200 μL acetone, and then 60 μL Heptafluorobutyric anhydride was added; after vortex blending for 1 min, the solution was heated at 75 °C for 30 min, when it cooled to room temperature, 2 mL 1% sodium bicarbonate was added and mixed.en 0.5 mL of n-hexane was added and vortex blended, after that 0.5 mL n-hexane and ethyl acetate in ratio of 4 : 1 (v/v) was added and vortex blended for 1 min; the upper n-hexane and ethyl acetate layer was used for GC-MS analysis.
e reaction mechanism and formulas are listed in Figure 1.After derivatization, the treatments were analyzed by GC-MS for standard curve analysis between 5 and 250 μg/L.

Blank Experiment.
e blank experiment was the same as previous steps.Briefly, the silica glass/PSA hybrid solid-phase extraction column was activated by 5 mL methylene chloride and 5 mL of acetonitrile, and then 3 mL of acetonitrile with 50 μL 2.0 mg/L internal standard solution was added, and the elution was collected.en another 5 mL acetonitrile to the solid-phase column was added and the eluent was collected, and then the collections were combined and dried at 50 °C by N 2 .e residues were derivatized as the same and analyzed by GC-MS.
e infant milk powder system blank experiments were processed as given in Sections 2.2.1-2.2.4.

GC-MS Chromatographic
Conditions.DB-5ms capillary chromatography columns of 30 m × 0.25 mm (inner diameter) x 0.25 μm (film thickness) were used.e injection port temperature was 260 °C.e column temperature was initially set at 100 °C for 3 min; then it was increased to 270 °C at 10 °C/min intervals and maintained for 2 min; again it was increased to 300 °C at 10 °C/min intervals and maintained for 2 min.e carrier gas was high purity helium (99.999%).e injection of 1 μL of sample was splitless at a flow rate of 1 mL/min and was ionized by electron ionization source at 70 eV and 230 °C.
e results were scanned from 35 to 650 m/z.e three kinds of phenolic compounds were qualitatively and quantitatively analyzed by the retention time and fragment ions, respectively.Briefly, the concentrations of the three kinds of phenolic compounds were calculated by the following equation: where X is the concentration of the phenolic compound in the milk sample (μg/kg), m is the milk sample weight (g), C i is the concentrations of the three kinds of phenolic compounds analyzed (μg/kg), C 0i is the concentrations of the three kinds of phenolic compounds analyzed in blank experiments (μg/kg), and 0.5L is the sample diluted volume.

Validation Experiments.
e established analytical method was validated in terms of linearity, standard recovery, and accuracy.To demonstrate linearity, the regression coefficient was calculated using D 16 -BPA for the three chemicals; the spiked calibrants were analyzed in duplicates during the measurement of the samples.e recovery of the three compounds was determined by spiking experiments of three different spiking levels.A full set of calibration standards and a blank standard were carried out with each analysis.Journal of Food Quality 3

Sample Extraction Optimization.
Several pretreatment methods for 4-NP, 4-OP, and BPA analysis were used till now, but some of the purification methods did not meet good analytical standard for the impurities and interferences after derivatization and GC-MS analysis.e authors used acetonitrile to extract phthalic acid esters from infant milk powders [18] and met a good result with removal of most of the glycerides.As for acetonitrile, the impurities were less, most of the acidic acid, pigment, and phytosterol compounds were removed, and the recovery rate of the added standard met the analytical standard.So acetonitrile was selected for 4-NP, 4-OP, and BPA extraction in the further study.

Solid-Phase Extraction Purification.
Two purification methods of gel chromatography and solid-phase extraction are mainly used in 4-NP, 4-OP, and BPA analysis in infant milk powders.e gel chromatography method is difficult to be widely utilized owing to the high price of instrument, high reagent dosage, and high technical requirements, while solid-phase extraction methods are more and more wildly used due to their simple operation procedures and more selectivity in the purification of some complex matrix samples.e silicone/N-propyl ethylenediamine (silica/PSA) glass hybrid solid-phase extraction column (1.0 g/6 mL) was selected for purification of the samples.Silica is the pure silica (SiO 2 ) with strong polar adsorbent ability; it can react with the tested components by the hydrogen bonds or dipole interaction.N-propyl ethylenediamine solid-phase adsorbent has strong ion exchange capacity, and it can be used to remove organic acid, pigment, metal ions, and so on.in the separation process.In this study, the positive silica glass/PSA   hybrid solid phase extraction column was firstly treated by addition of some anhydrous sodium sulfate to remove water, and then the column was activated by 5 mL methylene chloride and 5 mL of acetonitrile.e activation is based on the opening of the group chain, which will promote the matrix efficiency.Feng et al. [19] and Niu et al. [20] found that there were a certain amount of 4-NP, 4-OP, and BPA in some commercial solid-phase extraction packed material, sieve plate, and tube wall, which introduced higher blank values and was not suitable for analysis.Silica glass/PSA solid-phase extraction column could remove the impurities such as trace phenols in the packing material and sieve plate after elution by methylene chloride and acetonitrile.By this method, the blank values of 4-NP, 4-OP, and BPA in this experiment were all less than the limit of detection (LOD), which showed that it was feasible in terms of control blank value in this study.e silica/PSA glass column could remove pigments and chemical compounds such as phytosterols through adsorption, while 4-NP, 4-OP, and BPA could not be adsorbed and were eluted with acetonitrile.is study Journal of Food Quality showed a good result by purification of 4-NP, 4-OP, and BPA with acetonitrile and the silica/PSA glass solid-phase column.

Samples Derivatization.
e chemicals of 4-NP, 4-OP, and BPA should be derivatized before being analyzed by GC-MS.e derivatization methods for phenolic compounds analysis include silicon alkylation method and acetoxylation method.e results showed that silicon alkylation reagent can react with many impurities, which led to diverse ion flow diagram of phenolic compounds, so that it is not easy to analyze the fragment ions.
e derivatization results between phenolic compounds and acetoxylation chemicals led to high molecular weight of ion fragments which are not susceptible to interference by impurities and were quantitatively accurated.So, the heptafluorobutyric anhydride was used as a derivatization agent in this study.

Instrument Analysis.
e qualitative and quantitative ions and total ions of 4-NP, 4-OP, BPA, and inner standard derivatives of GC-MS are shown in Table 1 and Figure 2, respectively.e LOD and limit of quantitation (LOQ) of all the compounds are shown in Table 2.It is indicated that with D 16 -BPA as the internal standard, the minimum detectable concentration is 0.8 μg/kg, and the LOQ is 2.5 μg/kg.

Blank Test.
e phenolic compounds were widely presented in the environment due to their pollution, so it was critical to control the blank value for determination of these phenolic compounds.In order to minimize the interference of the background, the glass containers instead of plastic containers were selected.After being heated at 300 °C or eluted by n-hexane, the glass containers could remove the phenolic compounds.e glass solid-phase extraction column, methylene chloride, and acetonitrile were utilized in this experiment to remove phenolic compounds in the sieve plate and the packing material.e results showed that the contents of 4-OP, 4-NP, and BPA were all less than the LOD concentration of 0.8 μg/kg.3.6.Precision, Detection Limit, and Recovery Rate.In accordance with the established method, the LOD and the LOQ of the three kinds of compounds were 0.8 μg/kg and 2.5 μg/kg; different concentrations of the three kinds of standard phenolic compounds solutions were added to milk powders to test the method recovery rate, and the results showed that the recovery rate of 4-nonylphenol, 4-octylphenol, and BPA were of 68.5-89.2%,64.8-87.0%,and 97.8-110.0%,respectively, and the relative standard deviation (RSD) was 4.3-12.1%.e total ion flow charts of these three kinds of phenolic compounds analyzed in the milk powders and with addition of the internal standard are shown in Figures 3 and 4, respectively.
Comparing with these analytical methods, the detection limits of dimethyl phthalate, diethyl phthalate, dibutyl phthalate, diethylhexyl phthalate, and di-n-octyl phthalate were 0.042, 0.0037, 0.0097, 0.045, and 0.23 μg/L, respectively.e method was applied for the determination of the five phthalate esters in river, lake, tap, and drinking water, and the relative standard deviations were from 1.4% to 14.0%; recoveries of five phthalate esters were 90.8%-107.0%[17].Also, Schecter et al. [16] reported that the BPA levels ranged from 0.23 to 65.0 ng/g (w/w) and were not associated with type of food or packaging but did vary with pH value.e LOD and LOQ were of 0.05 and 0.11 ng/g (w/w) based on 15 g (w/w) (sample intake), respectively, and the limits of detection was 0.20 ng/g wet weight (w/w).

Sample Analysis.
Sixty samples of different brands were bought and analyzed by the method above, and the results are shown in Table 3. ere are 10 brands of infant milk powders, and the first one has 8 samples from two corporations (4 + 4), the second brand has 6 samples, the third one has 7 samples from three manufacture factories (1 + 5 + 1), the fourth brand has 14 samples from four factories (6 + 5 + 2 + 1), the fifth brand has 9 samples from two factories (7 + 2), and then the last five brands have 6, 5, 2, 2, 1 samples, respectively.ere were no 4-OP and 4-NP detected in all the 60 samples, and concentrations of BPA were from 0.8 to 14 μg/kg in 35 samples of the total 60 samples, which indicated the existence of BPA in formula milk powders, and the 35 samples came from 9 brands.e U.S. Environmental Protection Agency (EPA) and European Food Safety Authority (EFSA) have a BPA reference dose/tolerable daily intake (TDI) of 50 µg/kg/day [21,22].Children ages 1.5-6 years have been reported to have BPA intake ranging from 0.043 to 14.7 µg/kg/day, whereas children ages 6-19 years have BPA intake ranging from 0.311 to 0.348 µg/kg/day [16].As per the results tested in the samples, the maximal concentration of BPA is 14 μg/kg, and a 20 kg child will consume 14 μg/d (0.05 kg per day) or 28 μg/d (0.1 kg per day), which is lower than the TDI of EPA or EFSA.Considering other food resources packed by plastics or other conditions, it is better to analyze or reduce the utilization of plastics packages.

Conclusion
A detection method for 3 kinds of phenolic compounds of endocrine disruptors (4-NP, 4-OP, and BPA) in infant milk powders by solid-phase extraction combined with GC-MS method was established.e LOD and LOQ of the 3 kinds of compounds were 0.8 μg/kg and 2.5 μg/kg, respectively, with the RSD of 4.3-12.1%.e recovery rates of 4-NP, 4-OP, and BPA were of 68.5-89.2%,64.8-87.0%,and 97.8-110.0%,respectively.In accordance with the established method, 60 kinds of infant milk powders in the market of Hangzhou were analyzed for the survey of 4-NP, 4-OP, and BPA, and the results showed that there were no 4-NP and 4-OP analyzed in all the samples, and concentrations of BPA were from 0.8 to 14 μg/kg in 35 samples of the total 60 samples, which is lower than the TDI value of 50 µg/kg/day of EPA and EFSA calculated according to a 20 kg child consuming 0.1 kg milk powder, but considering other different foods contacted with the plastics containing BPA, it is necessary to control the overall BPA possible consumed.

Figure 4 :Figure 3 :
Figure 4: Total ion flow diagram of phenol compounds in infant milk powders with addition of the internal standard (6 μg/kg).

Table 1 :
Chromatographic parameters of standard phenol compounds.