New Gas Chromatographic / Mass Spectrometric Method for Ortho-Cresol Detection in Urine

Brazil is placed as the third country with the highest footwear production. In Rio Grande do Sul, there are more than 3,400 footwear companies, generating 129,700 jobs, mainly at the Valley of Sinos [1]. Daily, these workers are occupationally exposed to toluene, which is the main chemical agent involved in the industrial production of footwear. Due to the toxicological nature of toluene, effective biomonitoring of this compound is necessary to ensure the health of this worker [2].


Introduction
New Gas Chromatographic/Mass Spectrometric Method for Ortho-Cresol Detection in Urine occupational exposure to toluene [4].For the biomonitoring of this compound, Brazilian legislation recommends hippuric acid analysis in urine.However, despite the fact that hippuric acid is the major metabolite of toluene excreted by the urinary route, the analysis of this biomarker should be reconsidered, since it can also be found as an endogenous agent and its biological concentration has inter individual variety.These statements show that there might be an interference in the concentrations of this compound caused by external conditions, as diets rich in benzoic acid, which is a precursor of hippuric acid, and also by its instability through urinary excretion [5].Therefore, the use of hippuric acid as a biomarker for toluene exposure is questionable, since orthocresol is currently recommended as a biomarker by the American Conference of Governmental Industrial Hygienists (ACGIH).
The safety Brazilian norms are outdated when compared to values standardized internationally.It can be noted that chemical tolerance limits accepted by other countries are lower than those adopted in Brazil [6].For toluene biomonitoring, NR N o 7 establishes hippuric acid in urine as the only biomarker with Biological Exposure Indices (BEI) at 2.5 g/g creatinine.For example ACGIH monitors the occupational health by ortho-cresol analysis in urine and toluene in blood and urine, establishing BEI of 0.3 mg/g creatinine, 0.02 mg/L and 0.03 mg/L respectively.Also, Mexican Official Norm No 047 establishes biomarkers for toluene exposure, ortho-cresol and hippuric acid in urine and toluene in blood with BEI of 0.5 mg/L, 1.6 g/g creatinine e 0.05 mg/L respectively [3,7,8].
For biomonitoring analysis, new preparation techniques have been employing with advantages compared to conventional methods, such as reducing the organic solvents consumption, diminished of sample degradation and sample concentration [9].In this study, Solid Phase Extraction (SPE) and Solid Phase Microextraction (SPME) were used as extraction method for ortho-cresol in urine.SPE is a selective, efficient and cheap method that allows treatment of complex matrixes using smaller volumes of solvents, eliminating emulsion during the extraction process.In the other hand, SPME shares the use of smaller
Analytical conditions were based on Fustinoni et al. [14]: Injection port temperature and transfer line temperature were set to 250°C.Helium (He) 6.0 (99.9999%) was used as carrier gas at 1 mL/min in constant flow with the injection port operating in splitless mode.Initial oven temperature was set to 60°C for 1 min, which was increased by 20°C/min to 80ºC with a hold of 0.50 min, increased by 10°C/min to 100°C for 0.50 min and finally increased by 50°C/min to 180 °C.Injection volume was set to 1 µL.MSD's temperature was set to 280ºC and it was operated in electronic impact (EI) mode with electronic energy set to 70eV in Selected Ion Monitoring (SIM) mode with the following ions chosen for identification: 77, 107 e 108.

Sample preparation
SPME tests were performed according to the conditions presented by Fustinoni et al. [14].Urine samples, at room temperature, were centrifuged and 0.30 mL from the supernatants was transferred to headspace tubes (2 mL) containing 300 mg of NaCl and 50 µL of the aqueous solution of HCl 37 %.The tubes were sealed and submitted to rigorous agitation, after were placed in a boiling water bath (100°C) for 60 min.After heating, the tubes were left at room temperature for 15 min and cooled to -20°C for 90 min.To adjust the pH of the cooled samples, 50 µL of NaOH 10 mol.L -1 and 300 µL of 1 mol.L -1 ethyl acetate/acetic acid buffer were added.The tube was heated at 150ºC and stirred in a magnetic stirrer with a hot plate for 30 min.The SPME fiber was exposed to the headspace for 30 min and then injected in the injection port.SPE was performed using Bond Elut Certify cartridges from Agilent® (Agilent Technologies, Inc., Palo Alto, CA, USA).The cartridge was preconditioned with 2.0 mL of methanol and subsequently with 2.0 mL of phosphate buffer 0.1M (pH 6.0).Urine samples fortified with working solutions of ortho-cresol working solutions at many concentrations were transferred to the cartridge (5 mL of fortified urine and 2 mL of phosphate buffer 0.1 mol.L -1 pH 6 were mixed and stirred.pH was adjusted between 5 and 7), which was then washed with 1 mL of phosphate buffer pH 6/ methanol (80:20) and vacuumed for 2 min, washed again with 1 mL of acetic acid 1 mol.L -1 , vacuumed for 10 min., washed with 1 mL of hexane and vacuumed for 2 min.Analytes' elution was performed with 4mL of methylene chloride.The eluent was evaporated to dryness under a fine stream of nitrogen at 60°C.To the dried extract, 100 µL of ethyl acetate were added.Aliquots (1 µL) were injected in the GC/MS.

Results and Discussions
All tests for ortho-cresol analysis in urine by GC/MS by SPME following the conditions established by Fustinoni et al. [14].This extraction method required an initial acid hydrolysis to rupture the between ortho-cresol and glucuronic acid bond.Then, hydrolyzed sample was frozen, in order to avoid the ortho-cresol volatility and loss.This study optimized the method developed by Fustinoni et al. [14] by using a DB-5 column instead of a DBwax.This exchange had to be performed, since in this study the concentration described for ortho-cresol (0.006 mg/L) was not detectable by DB-wax column [14].
The polydimethylsiloxane (PDMS) fiber was used for SPME system in a headspace mode.The lack of technical efficiency for detection in lower concentrations may be explained by the fiber coating.The lack of technical efficiency for detection in lower concentrations may be explained by the fiber coating.Once, that exist a higher affinity between cresols and carbowaxdivinylbenzene (CW-DVB), reaching 100%, while PDMS fibers have an affinity of 38% Fustinoni et al. [14].Netto et al. [15], in their experience with urinary toluene, showed better SPME anemia.Int J Hematol Blo Dis 1(1).

Aplastic anemia in systemic lupus erythematosus: A better prognosis acquired aplastic anemia
Copyright: © 2016 Pannu and Varma results using a carboxen-PDMS coated fiber, since the PDMS fiber is not recommended for mild exposures to toluene, like the results presented by this study [14,15].
The difficulties working in low concentrations with SPME may be related to the extraction process, which is based among three phases: extraction fiber, vapor phase and the matrix in which mass transfer occurs.The efficiency of SPME depends on the concentration of vapor phase, the fiber adsorption capacity and desorption capacity at injection port temperature.The analyte will be extracted until it reaches the equilibrium, determined by the activity coefficient at infinite dilution of pure solvents [16].
The quantification method for Ortho-cresol detection in urine using SPE showed great results.This procedure allowed the quantification and identification of this compound at 0.06 mg/L (Figure 1).The methylene chloride was added for ortho-cresol elution and hexane to remove contaminants.These solvents were previously used to clean up samples with saturated hydrocarbons, polycyclic aromatics and alquiphenols [17,18].
For the SPE method, two different cartridges were tested C18 (nonpolar) and Bond Elut Certify (cationic).After the ortho-cresol extraction from urine sample at the concentration of 5 mg/L in acid pH, the cationic cartridge proved to be more efficient reaching almost 100% when compared to the C18 cartridge, Figure 2.These results agree with obtained data by Daszkiewicz et al. [19] that described a 6 % recovery for phenolic compounds using C18 and a recovery close to 100% using SPE cartridges made by sorbents based on modified resins [19].The method developed using SPE have showed robustness, therefore the times elapsed in each step of the extraction described earlier, were precisely reproduced at each new analysis.The standard solutions were kept away from natural light, to avoid the degradation of ortho-cresol, at the temperature of -20°C, during six months, according to Fustinoni et al. [14].The autosampler presented low stability, requering agile injection in gas chromatograph.Also to keep a high robustness, the analytical parameters of temperature and velocity of the carrier gas were tested and established.During the optimization of chromatographic period there was any change in the chromatographic column keeping the same lot and fabricant [14,20].Specificity is the parameter recommended for the evaluation of the degree of interference in the detection of the selected substance.This can be obtained comparing by massspectrometry the spectrum of matrix and sample containing the analyte with the analysis of peak standard [21].Both procedures were contemplated by the analysis of matrix and sample with ortho-cresol at the mass-spectrometer library (Figure 1) [22,23].
For the linearity analysis, different concentrations of ortho-cresol standard were used to obtain the calibration curve

New Gas Chromatographic/Mass Spectrometric Method for Ortho-Cresol Detection in Urine
anemia.Int J Hematol Blo Dis 1(1).

Aplastic anemia in systemic lupus erythematosus: A better prognosis acquired aplastic anemia
Copyright: © 2016 Pannu and Varma (R > 0.98), in agreement with National Health Surveillance Agency (ANVISA).The value of 0.3 mg/g creatinine was used as a reference for the exposure to toluene.This is the BEI value indicated by ACGIH.The division of creatinine reference value (0.4 -3.5 g/L) by BEI provided the lowest and highest values of urinary creatinine (0.086 -0.75 mg/L).Based on this concentration range a calibration curve (0.06; 0.12; 0.25; 0.5; 1.0 e 4.0 mg/L) for the guidance of the clinical exposure was obtained with R = 0.99.According to this curve, it was possible to find points with regular tendency, ensuring linearity and demonstrating strong correlation [20,24] The linearity obtained in this study is the same obtained by Fustinoni et al. [14], for the calibration curve of de ortho-cresol.
Following the requirements of ACGIH for ortho-cresol BEI (0.3 mg/g creatinine), it was possible to develop an analytical method able to detect ortho-cresol at lower concentrations using gas chromatography coupled with mass spectrometry.Also was showed that GC/MS has higher efficiency to detected orthocresol than high performance liquid chromatography [13].This advantage in the ortho-cresol analysis can be observed by the limit of detection at trace levels (0.025 mg/L) showed in Figure 3 and the limit of quantification (0.06 mg/L) (Figure 4).
In addition, this method to detected ortho-cresol at lower concentrations when compared to the limit of detection of 0.03 mg/L and quantification of 0.09 mg/L found by Vrsaljko et al. [13].The limit of quantification is another important quantitative aspect for detection and quantification os substances.The present method showed accuracy and precision of values (116 % and 12 % respectively) in accordance with recommended by Anvisa (Table 1) [7,20].
Additionally, we evaluated by this method a urine sample positive for hipuric acid (3.0 g/g creatinine).Although, we found difficult to quantify ortho-cresol because the chromatographic peak amplitude is smaller than our limit of the quantification on the calibration curve (Figure 5).

Aplastic anemia in systemic lupus erythematosus: A better prognosis acquired aplastic anemia
Copyright: © 2016 Pannu and Varma

Conclusions
The developed method for ortho-cresol detection by SPE indicated to be more effective than the other using SPME.
For the SPE extraction a cationic cartridge is recommended (e.g.Bond Elut Certify) due to employment of acid extraction.This validated bioanalytical method is an assay category II, with specificity, robustness and limit of detection parameters in accordance to Anvisa.
Therefore, the developed method for ortho-cresol in urine using SPE extraction and detection by GC/MS offer a new a routine for toluene biomonitoring in toxicology laboratory.This technics allow the detection and quantification of ortho-cresol in milder exposures to toluene, considering the BEI recommended by the ACGIH.

Figure 1 :
Figure 1: Chromatogram of a urine sample using SPE and the respective mass spectrum of ortho-cresol (Retention Time: 5.915 min)

Figure 2 :
Figure 2: Chromatograms of the same sample extracted with different SPE cartridges.A: C18 and B: Bond Elut Certify

Figure 3 :
Figure 3: Chromatogram of the limit of detection (0.0025 mg/L) compared of the limit of quantification for ortho-cresol

Figure 4 :
Figure 4: Chromatogram of the limit of quantification (0.06 mg/L) for ortho-cresol

Figure 5 :
Figure 5: Chromatogram of the urine sample