ABSTRACT
The direct coupling of solid-phase microextraction(SPME)to mass spectrometry(MS)(SPME-MS)has proven to be an effective method for the fast screening and quantitative analysis of compounds in complex matrices such as blood and plasma.In recent years,our lab has developed three novel SPME-MS techniques:SPME-microfluidic open interface-MS(SPME-MOI-MS),coated blade spray-MS(CBS-MS),and SPME-probe electrospray ionization-MS(SPME-PESI-MS).The fast and high-throughput nature of these SPME-MS technologies makes them attractive options for point-of-care analysis and anti-doping testing.However,all these three techniques utilize different SPME geometries and were tested with different MS instruments.Lack of comparative data makes it difficult to determine which of these methodologies is the best option for any given application.This work fills this gap by making a comprehensive comparison of these three technologies with different SPME devices including SPME fibers,CBS blades,and SPME-PESI probes and SPME-liquid chromatography-MS(SPME-LC-MS)for the analysis of drugs of abuse using the same MS instrument.Furthermore,for the first time,we developed different desorption chambers for MOI-MS for coupling with SPME fibers,CBS blades,and SPME-PESI probes,thus illustrating the universality of this approach.In total,eight analytical methods were developed,with the experimental data showing that all the SPME-based methods provided good analytical performance with R2 of linearities larger than 0.9925,accuracies between 81%and 118%,and good precision with an RSD%≤13%.
ABSTRACT
Improved analytical methods for the metabolomic profiling of tissue samples are constantly needed.Currently,conventional sample preparation methods often involve tissue biopsy and/or homogenization,which disrupts the endogenous metabolome.In this study,solid-phase microextraction(SPME)fibers were used to monitor changes in endogenous compounds in homogenized and intact ovine lung tissue.Following SPME,a Biocrates AbsoluteIDQ assay was applied to make a downstream targeted metab-olomics analysis and confirm the advantages of in vivo SPME metabolomics.The AbsoluteIDQ kit enabled the targeted analysis of over 100 metabolites via solid-liquid extraction and SPME.Statistical analysis revealed significant differences between conventional liquid extractions from homogenized tissue and SPME results for both homogenized and intact tissue samples.In addition,principal component analysis revealed separated clustering among all the three sample groups,indicating changes in the metabolome due to tissue homogenization and the chosen sample preparation method.Furthermore,clear differences in free metabolites were observed when extractions were performed on the intact and homogenized tissue using identical SPME procedures.Specifically,a direct comparison showed that 47 statistically distinct metabolites were detected between the homogenized and intact lung tissue samples(P<0.05)using mixed-mode SPME fibers.These changes were probably due to the disruptive homogenization of the tissue.This study's findings highlight both the importance of sample preparation in tissue-based metabolomics studies and SPME's unique ability to perform minimally invasive extractions without tissue biopsy or homogenization while providing broad metabolite coverage.
ABSTRACT
ObjectiveOn the basis of sensory evaluation, the changes of volatile components in gecko before and after processing were compared, and the odor correction effect of different processing methods of gecko was discussed. MethodRaw products, fried yellow products, vinegar processed products, wine processed products, talcum powder scalding products and white wine sprayed products after scalding talcum powder of gecko were prepared, and 10 odor assessors were invited to evaluate the 6 samples in turn by sensory evaluation. Headspace solid-phase microextraction-gas chromatography-mass spectrometry (HS-SPME-GC-MS) and relative odor activity value (ROAV) were used to analyze the key odor components, and multivariate statistical methods were used to analyze the difference of volatile components between raw and processed products of gecko. Taking water-soluble extract and protein contents as internal indicators, sensory evaluation score and content ranking of differential components as external indicators, and assigning a weight of 0.25 to them respectively, the comprehensive scores of raw products and processed products of gecko were calculated to evaluate the odor correction effect of each processing method. ResultThe average sensory evaluation scores of the raw products, fried yellow products, vinegar processed products, wine processed products, talcum powder scalding products and white wine sprayed products after scalding talcum powder of gecko were 1.6, 5.2, 6.2, 6.1, 7.2 and 8.0, respectively. ROAV results showed that key components affecting odor of gecko were 2-ethyl-3,5-dimethylpyrazine, isovaleraldehyde, trimethylamine, 1-octen-3-ol, n-octanal, nonanal, 2-methylnaphthalene, γ-octanolide, 2-heptanone and phenol. Principal component analysis (PCA) significantly distinguished raw products from processed products. Orthogonal partial least squares-discriminant analysis (OPLS-DA) results showed that there were 16, 13, 16, 16, 16 differential components between raw products, fried yellow products, vinegar processed products, wine processed products, talcum powder scalding products and white wine sprayed products after scalding talcum powder of gecko. Among these differential components, there were 4 common components, namely, the contents of different odor components (2-methylnaphthalene and 2-ethyl-p-xylene) decreased, while the contents of different flavor components (2-decanone and 2,3,5-trimethylpyrazine) increased. The comprehensive scoring results showed that the odor correction effect of each processed products was in the order of talcum powder scalding products>wine processed products>vinegar processed products>fried yellow products>white wine sprayed products after scalding talcum powder. ConclusionTalcum powder scalding is a better method to improve the odor of gecko, and it can provide an experimental basis for the processing of gecko to correct the odor.
ABSTRACT
Normothermic ex vivo lung perfusion(NEVLP)has emerged as a modernized organ preservation tech-nique that allows for detailed assessment of donor lung function prior to transplantation.The main goal of this study was to identify potential biomarkers of lung function and/or injury during a prolonged(19 h)NEVLP procedure using in vivo solid-phase microextraction(SPME)technology followed by liquid chromatography-high resolution mass spectrometry(LC-HRMS).The use of minimally invasive in vivo SPME fibers for repeated sampling of biological tissue permits the monitoring and evaluation of biochemical changes and alterations in the metabolomic profile of the lung.These in vivo SPME fibers were directly introduced into the lung and were also used to extract metabolites(on-site SPME)from fresh perfusate samples collected alongside lung samplings.A subsequent goal of the study was to assess the feasibility of SPME as an in vivo method in metabolomics studies,in comparison to the traditional in-lab metabolomics workflow.Several upregulated biochemical pathways involved in pro-and anti-inflammatory responses,as well as lipid metabolism,were observed during extended lung perfusion,especially between the 11th and 12th hours of the procedure,in both lung and perfusate samples.However,several unstable and/or short-lived metabolites,such as neuroprostanes,have been extracted from lung tissue in vivo using SPME fibers.On-site monitoring of the metabolomic profiles of both lung tissues through in vivo SPME and perfusate samples on site throughout the prolonged NEVLP procedure can be effectively performed using in vivo SPME technology.
ABSTRACT
Covalent organic nanospheres(CONs)were explored as a fiber coating for solid-phase microextraction of genotoxic impurities(GTIs)from active ingredients(AIs).CONs were synthesized by an easy solution-phase procedure at 25℃.The obtained nanospheres exhibited a high specific surface area,good ther-mostability,high acid and alkali resistance,and favorable crystallinity and porosity.Two types of GTIs,alkyl halides(1-iodooctane,1-chlorobenzene,1-bromododecane,1,2-dichlorobenzene,1-bromooctane,1-chlorohexane,and 1,8-dibromooctane)and sulfonate esters(methyl p-toluenesulfonate and ethyl p-toluenesulfonate),were chosen as target molecules for assessing the performance of the coating.The prepared coating achieved high enhancement factors(5097-9799)for the selected GTIs.The strong affinity between CONs and GTIs was tentatively attributed to T-T and hydrophobicity interactions,large surface area of the CONs,and size-matching of the materials.Combined with gas chromatography-mass spectrometry(GC-MS),the established analytical method detected the GTIs in capecitabine and imatinib mesylate samples over a wide linear range(0.2-200 ng/g)with a low detection limit(0.04-2.0 ng/g),satisfactory recovery(80.03%-109.5%),and high repeatability(6.20%-14.8%)and reproducibility(6.20%-14.1%).Therefore,the CON-coated fibers are promising alternatives for the sensitive detection of GTIs in AI samples.
ABSTRACT
For identifying and quantifying prohibited substances,solid-phase microextraction(SPME)continues to arouse interest as a sample preparation method.However,the practical implementation of this method in routine laboratory testing is currently hindered by the limited number of coatings compatible with the ubiquitous high-performance liquid chromatography(HPLC)systems.Only octadecyl(C18)and poly-dimethylsiloxane/divinylbenzene ligands are currently marketed for this purpose.To address this situ-ation,the present study evaluated 12 HPLC-compatible coatings,including several chemistries not currently used in this application.The stationary phases of SPME devices in the geometry of thin film-coated blades were prepared by applying silica particles bonded with various functional ligands(C18,octyl,phenyl-hexyl,3-cyanopropyl,benzenesulfonic acid,and selected combinations of these),as well as unbonded silica,to a metal support.Most of these chemistries have not been previously used as microextraction coatings.The 48 most commonly misused substances were selected to assess the extraction efficacy of each coating,and eight desorption solvent compositions were used to optimize the desorption conditions.All samples were analyzed using an HPLC system coupled with triple quadrupole tandem mass spectrometry.This evaluation enables selection of the best-performing coatings for quantifying prohibited substances and investigates the relationship between extraction efficacy and the physicochemical characteristics of the analytes.Ultimately,using the most suitable coatings is essential for trace-level analysis of chemically diverse prohibited substances.
ABSTRACT
The solid-phase microextraction technique quantifies analytes without considerably affecting the sample composition.Herein,a proof-of-concept study was conducted to demonstrate the use of coated probe electrospray ionization(coated-PESI)and coated blade spray(CBS)as ambient mass spectrometry ap-proaches for monitoring drug biotransformation.The ability of these methods was investigated for monitoring the dephosphorylation of a prodrug,combretastatin A4 phosphate(CA4P),into its active form,combretastatin A4(CA4),in a cell culture medium supplemented with fetal bovine serum.The CBS spot analysis was modified to achieve the same extraction efficiency as protein precipitation and ob-tained results in 7 min.Because coated-PESI performs extraction without consuming any samples,it is the preferred technique in the case of a limited sample volume.Although coated-PESI only extracts small quantities of analytes,it uses the desorption solvent volume of 5-10 pL,resulting in high sensitivity,thus allowing the detection of compounds after only 1 min of extraction.The biotransformation of CA4P into CA4 via phosphatases occurs within the simple matrix,and the proposed sample preparation techniques are suitable for monitoring the biotransformation.
ABSTRACT
ObjectiveTo analyze the quality changes of Platycladi Semen before and after the deterioration of moth-eaten and rancidity during storage. MethodFour types samples of Platycladi Semen, including normal, moth-eaten, oxidative rancidity and hydrolytic rancidity, were determined for volatile components, odor, and taste based on headspace solid phase microextraction/gas chromatography-mass spectrometry (HS-SPME/GC-MS) and electronic sensory techniques such as electronic nose and electronic tongue. Volatile components were identified by searching the database and manual comparison, the odor and taste were determined by the response values of the electronic nose and electronic tongue sensors, and the difference between samples before and after deterioration was studied by multivariate statistical analysis. ResultA total of 85 compounds were identified in Platycladi Semen samples. Compared with the normal samples, the number of volatile compounds in samples after hydrolytic rancidity decreased by 5, the number of volatile compounds in samples after moth-eaten and oxidative rancidity increased by 1 and 21, respectively. Aldehydes and acids accounted for majority of types. Among them, the contents of N-hexanoic acid, hexanal and propionic acid in the samples of oxidative rancidity reached 11.49%, 10.21% and 7.52%, which became the key indicators of rancidity. There was significant variance among the odor components corresponding to W1W, W2W and W1S sensors by electronic nose analysis. It was indicated that the value of sourness in deteriorated samples generally increased by mean of electronic tongue analysis. Compared with normal samples, the moth-eaten samples had changed slightly and rancidity samples had changed significantly especially oxidative rancidity samples of volatile components, odor and taste by multivariate statistical analysis. ConclusionIn terms of Platycladi Semen, the oxidative rancidity caused by nature storage for 12 months has the greatest impact on the quality. Therefore, it should be mainly to prevent oxidative rancidity to ensure the quality of Platycladi Semen.
ABSTRACT
Development of a novel in vivo lung perfusion(IVLP)procedure allows localized delivery of high-dose doxorubicin(DOX)for targeting residual micrometastatic disease in the lungs.However,DOX delivery via IVLP requires careful monitoring of drug level to ensure tissue concentrations of this agent remain in the therapeutic window.A small dimension nitinol wire coated with a sorbent of biocompatible morphology(Bio-SPME)has been clinically evaluated for in vivo lung tissue extraction and determina-tion of DOX and its key metabolites.The in vivo Bio-SPME-IVLP experiments were performed on pig model over various(150 and 225 mg/m2)drug doses,and during human clinical trial.Two patients with metastatic osteosarcoma were treated with a single 5 and 7 μg/mL(respectively)dose of DOX during a 3-h IVLP.In both pig and human cases,DOX tissue levels presented similar trends during IVLP.Human lung tissue concentrations of drug ranged between 15 and 293 μg/g over the course of the IVLP procedure.In addition to DOX levels,Bio-SPME followed by liquid chromatography-mass spectrometry analysis generated 64 metabolic features during endogenous metabolite screening,providing information about lung status during drug administration.Real-time monitoring of DOX levels in the lungs can be per-formed effectively throughout the IVLP procedure by in vivo Bio-SPME chemical biopsy approach.Bio-SPME also extracted various endogenous molecules,thus providing a real-time snapshot of the physi-ology of the cells,which might assist in the tailoring of personalized treatment strategy.
ABSTRACT
Solid phase microextraction(SPME)in combination with high-resolution mass spectrometry was employed for the determination of metabolomic profile of mouse melanoma growth within in vitro 2D,in vitro 3D,and in vivo models.Such multi-model approach had never been investigated before.Due to the low-invasiveness of SPME,it was possible to perform time-course analysis,which allowed building time profile of biochemical reactions in the studied material.Such approach does not require the multiplication of samples as subsequent analyses are performed from the very same cell culture or from the same individual.SPME already reduces the number of animals required for experiment;therefore,it is with good concordance with the 3Rs rule(replacement,reduction,and refinement).Among tested models,the largest number of compounds was found within the in vitro 2D cell culture model,while in vivo and in vitro 3D models had the lowest number of detected compounds.These results may be connected with a higher metabolic rate,as well as lower integrity of the in vitro 2D model compared to the in vitro 3D model resulting in a lower number of compounds released into medium in the latter model.In terms of in vitro-in vivo extrapolation,the in vitro 2D model performed more similar to in vivo model compared to in vitro 3D model;however,it might have been due to the fact that only compounds secreted to medium were investigated.Thus,in further experiments to obtain full metabolome infor-mation,the intraspheroidal assessment or spheroid dissociation would be necessary.
ABSTRACT
Objective:To establish and apply a new practical analytical method for identifying the fishy odor of Cordyceps based on headspace-solid phase microextraction-gas chromatography-triple quadrupole mass spectrometry (HS-SPME/GC-QQQ-MS/MS) technique. Method:The InertCap Pure-WAX capillary column (0.25 mm×30 m, 0.25 μm) was used for chromatographic separation. The injection port temperature was set at 250 ℃. The injection mode was split injection with a ratio of 5∶1. High purity helium was used as the carrier gas and control mode was set to constant pressure. The column flow rate was 1.43 mL∙min<sup>-1</sup>, the linear velocity was 43.3 cm∙s<sup>-1</sup>, and the purge flow rate was 3.0 mL∙min<sup>-1</sup>. The chromatographic column temperature program as follows:maintained the initial temperature at 50 ℃ for 5 min, and increased the temperature at a rate of 10 ℃∙min<sup>-1</sup> to 250 ℃, held for 10 min. The column equilibrium time was 2.0 min. The ion source of mass spectrographic analysis was electron ionization with ion source temperature of 200 ℃, and the monitoring mode was set to multiple reaction monitoring. Result:Seven batches of Cordyceps samples were collected, including 3 batches from Sichuan, 3 batches from Qinghai and 1 batch from Tibet. There were six batches of counterfeits, including 3 batches from Sichuan, 2 batches from Guizhou and 1 batch in Xinjiang. A total of 81 volatile compounds were screened out in Cordyceps, which could be divided into 13 types (esters, ketones, aldehydes and others) according to the compound structure, indicating that the fishy odor of Cordyceps was a complex odor. There was no significant difference in the types of volatile compounds of Cordyceps from different regions, which suggested that these volatile compounds in Cordyceps produced in Tibet (Naqu), Qinghai (Yushu and Guoluo) and Sichuan (Litang, Rangtang and Seda) were relatively consistent. However, the contents of some volatile compounds in Cordyceps produced in different regions were quite different, and 16 volatile compounds with significant difference were screened out, including 1-methoxy-2-propyl acetate, <italic>γ</italic>-octalactone, hexyl acetate and others, those compounds maybe could been used as the quality markers for identification of regions of Cordyceps. There was a large difference in volatile compounds between Cordyceps and its counterfeits, and 34 volatile compounds were screened out, including ethyl acetate, acetophenone, 2-ethyl-1-hexanol and others, those compounds maybe could been used as the quality markers for authenticity identification of Cordyceps. Conclusion:In summary, the established method for identifying the fishy odor of Cordyceps in this paper has the characteristics of high sensitivity, accuracy and simplicity, which can provide reference for the analysis of volatile compounds in other Chinese herbal medicines.
ABSTRACT
ABSTRACT: Climatic conditions in the mid-northern region of Mato Grosso State in Brazil are favorable for beekeeping. However, since 2011, the honey production chain has suffered losses because the production of off-odor honey has made it impossible to market the honey. Reports from beekeepers indicated a relationship between the off-odor in the honey and the nectar of Borreria verticillata (L.) G. Mey (Rubiaceae). In this study, the botanical origins and volatile profiles of ten off-odor honeys (H1-H10) and flowers of B. verticillata were evaluated. Palynological and sensorial analyses of the honeys were performed; a scale from 1 to 4 was applied for the sensorial analysis, in which 1 indicates no off-odor and 4 indicates extreme off-odor. Analysis of volatile was performed by using headspace solid-phase microextraction and gas chromatography-mass spectroscopy methods. The honeys investigated were classified with very high to intense off-odors, except H4 and H5, which did not differ from the control honey (no off-odor). Palynological analyses showed that honeys H1-H4, H7, and H9 were monofloral from B. verticillata, whereas in H5, H6, H8, and H10 this pollen were accessory. However, there was no quantitative correlation between the B. verticillata pollen content and the off-odor attributes of the honeys. Skatole was identified in all of the honeys except H4, H5, and the control honeys, suggesting that skatole contributed to the off-odor attributes of the products. However, further studies are required to investigate the origin of the skatole because it is not transferred directly from B. verticillata flowers to the honey.
RESUMO: As condições climáticas da região Centro-Norte do Estado de Mato Grosso são favoráveis a apicultura, contudo ocorrem prejuízos nesta cadeia produtiva desde 2011 devido a produção de mel com odor indesejável, o que impossibilitou sua comercialização. Relatos dos apicultores apontaram relação da ocorrência do odor indesejável no mel com o néctar Borreria verticillata (L.) G. Mey (Rubiaceae). Neste estudo foi avaliado a origem botânica e o perfil de voláteis de méis (M1 até M10) com odor indesejável e das flores de B. verticillata. Foi realizada a análise polínica do mel e também sensorial, empregando-se uma escala de um a quatro pontos, em que um refere-se a nenhum odor desagradável e quatro, extremo odor desagradável. A análise de compostos voláteis no mel e nas flores de B. verticillata foi realizada utilizando microextração em fase sólida por headspace e cromatografia gasosa acoplada a detector por espectrometria de massas. Os méis investigados foram classificados desde muito a extremo odor desagradável, exceto os méis M4 e M5, que não diferiram do mel controle (sem odor indesejável). Os méis M1 até M4, M7 e M9 eram monoflorais de B. verticillata, enquanto M5, M6, M8 e M10 o pólen B. verticillata era acessório. Todavia, não foi observada correlação quantitativa entre o teor deste pólen e o atributo odor indesejável. O escatol foi identificado nos méis investigados, exceto em M4, M5 e mel controle. Estes resultados sugerem que o escatol contribuiu para o atributo odor desagradável do produto. Contudo, mais estudos devem ser conduzidos para investigar a origem do odor indesejável, porque o escatol não foi transferido diretamente das flores para o mel.
ABSTRACT
@#In this study,thermosensitive and repairable molecularly imprinted solid-phase microextraction fibers were synthesized using spiramycin as template molecule,methacrylic acid and N-isopropylacrylamide as functional monomers,ethylene glycol dimethacrylate as crosslinking agent,and silanized quartz capillary as carrier. The prepared molecularly imprinted solid-phase microextraction fibers were characterized by scanning electron microscope and nitrogen adsorption/desorption,and various parameters affecting the extraction efficiency were optimized. Due to high selectivity and sensitivity of the fibers for macrolide antibiotics,the quantitative analysis of four macrolide antibiotics in food matrix,spiramycin,tilmicosin,tylosin,and josamycin,was peroformed in combination with high performance liquid chromatography. In the range of 0.5 to 50 μg/mL,the chromatographic peak area showed a good linear relationship with the concentration. The spike recoveries of the samples at three different addition levels were between 81.8% and 119.1%;the inter-day precisions were less than 13.8% (n=6),and the intra-day precisions were less than 15.5% (n=3).
ABSTRACT
"Beany flavor" is one of the important authentic characteristics of Astragali Radix. It is important to clarify the material basis of "Beany flavor" in the characterization of authentic medicinal materials and establishing quality control methods for authentic medicinal materials. At present, the analysis of volatile components in different habitats has been reported, but systematic comprehensive research has not been conducted. The SPME-GC-MS technique was used to analyze the volatile components of Astragali Radix from three producing areas: Shanxi (wild-simulated Astragali Radix), Gansu (cultivated Astragali Radix) and Inner Mongolia (cultivated Astragali Radix). Combined with the method of multivariate statistical analysis, the difference of volatile components of Astragali Radix from the three different producing areas is discussed. Multivariate statistical analysis and evaluation was conducted through principal component analysis (PCA) and partial least squares discriminant analysis (PLS-DA). Seventy-six volatile components of Astragali Radix from the three producing areas were identified by SPME-GC-MS. PCA model results showed that the volatile components correlated with their producing areas. PLS-DA demonstrated that the volatile components of Astragali Radix samples from different producing areas were significantly different. Six volatile substances including hexanoic acid, hexanal, 2-butyl-2-octenal, 1-hexanol, benzyl alcohol and 2-butylfuran were quantified. The ratio of hexanal to hexanoic acid in Astragali Radix from different areas and cultivation methods was significantly different: the ratio of hexanal: hexanoic acid in wild-simulated Astragali Radix of Shanxi was 7.8∶1, while the ratio of hexanal: hexanoic acid in cultivated Astragali Radix of Inner Mongolia and Gansu was 2.3∶1 and 0.96∶1, respectively. The volatile components identified in this study provide a foundation for continued research of and quality control of Astragali Radix.
ABSTRACT
Trichoderma spp. is a kind of filamentous fungi with important biocontrol value. Twelve strains of Trichoderma spp. were isolated from the soils of different types of crops in Shaoxing, Zhejiang and Foshan, Guangdong. The antagonistic resistance to Fusarium oxysporum was compared by plate confrontation test. The further analysis of volatile secondary metabolites for two strains were carried out using HS-SPME-GC-MS analysis. The results showed that T. asperellum ZJSX5003 and GDFS1009 had fast growth ability, and the inhibition effects on F. oxysporum were 73% and 74% respectively. Six identical volatile metabolites were detected as follows 2-Methyl-1-propanol, 3-Methyl-1-butanol, 3-Methyl-3-buten-1-ol, Acetyl methyl carbinol, Butane-2,3-diol and 6-n-pentyl-2H-pyran-2-one (6-PAP). Among them, 6-PAP was validated to have a higher inhibitory effect on F. oxysporum in vitro. This study will provide basis for the development of biocontrol agents with metabolites of Trichoderma, such as 6-PAP.
Subject(s)
Antibiosis , Antifungal Agents , Pharmacology , Fusarium , Physiology , Gas Chromatography-Mass Spectrometry , Trichoderma , Chemistry , MetabolismABSTRACT
Objective: To analyze and compare the volatile components of Jiuwei Qianghuo pills, granules and oral liquid. Methods: The volatile components of Jiuwei Qianghuo pills, granules and oral liquid were analyzed and compared by the head-space solid-phase microextraction and gas chromatography-mass spectrometry(HS-SPME-GC-MS), the relative percentage of each component was calculated using the area normalization method, and the principal component analysis was also performed. Results: A total of 90 kinds of volatile components were identified from Jiuwei Qianghuo pills, accounting for 97.19% of the total volatile components; 27 kinds of volatile components were identified from Jiuwei Qianghuo granules, accounting for 92.92% of the total volatile components;22 kinds of volatile components were identified from Jiuwei Qianghuo oral liquid, accounting for 87.60% of the total volatile components. A total of 111 volatile components were identified in the three preparations, of which 6 were common components, but the contents of the common components were different. The specific components of the pills, granules and oral liquid were 68, 8 and 13, respectively. Moreover, the comprehensive scores of the three dosage forms in the principal component analysis showed a large difference, with the high, middle and low values for the pills, granules and oral liquid, respectively. Conclusion: The composition and content of volatile components were different in the Jiuwei Qianghuo pill, granule and oral liquid preparations. From the point of view of the volatility, the comprehensive score of Jiuwei Qianghuo pills is higher than that of granules and oral liquid.
ABSTRACT
Objective@#To analyze the chemical constituents of the volatile constituents of Flos chrysanthemi indici.@*Methods@#The volatile constituents in Flos chrysanthemi indici was extracted by the method of Solid phase microextraction (SPME). The components of the volatile constituents were separated and identified by gas chromatography-mass spectrometry (GC-MS). The relative content of each component was determined by area normalization.@*Results@#Fifty different compounds were isolated and identified, accounting for 97.17% of the total volatile constituents. The main components in volatile constituents of Flos chrysanthemi indici were eucalyptol (24.72%), á-Myrcene (15.78%), 1,6,10-Dodecatriene, 7,11-dimethyl-3-methylene-, (Z)- (10.44%), Camphor (10.05%), Naphthalene, 1,2,3,4,4a,5,6,8a-octahydro-7-methyl-4-methylene-1-(1-methylethyl)-, (1à,4aà,8aà)- (4.81%), á-Phellandrene (4.43%), 1R-à-Pinene (4.28%), Bornyl acetate (2.56%), Bicyclo [3.1.0] hexane, 4-methylene-1-(1-methylethyl)- (1.59%), 1H-Benzocycloheptene, 2,4a,5,6,7,8-hexahydro-3,5,5,9-tetramethyl-, (R)-(1.47%).@*Conclusions@#The SPME technology can be used for volatile component analysis of wild chysanthemum,and it can help to improve the sensitivity and accuracy.
ABSTRACT
Objective@#To establish a method for the determination of 1-methoxy-2-propanol in urine using headspace solid phase micro-extraction coupled with gas chromatography.@*Methods@#The 1-methoxy-2-propanol was enriched by headspace solid phase micro-extraction fiber coated with carbene/polydimethylsiloxane (CAR/PDMS) . Single factor rotation method was used to optimize the conditions of extraction temperature, salt amount, and extraction time. The separation was performed on DB-5 (30 m×0.32 mm×0.25 μm) capillary column and detected with flame ionization detector. The quantification was based on the standard curve.@*Results@#The concentration of 1-methoxy-2-propanol in urine was linear in the range of 0.50-10.0 mg/L, and the linear correlation coefficient was 0.9993. The detection limit of the method was 0.14 mg/L, and the limit of quantification was 0.45 mg/L. The recovery was 85.8% to 104.7%, and the RSD of intra- and inter-batch precision were 3.25%-6.65% and 0.81%-3.96%, respectively.@*Conclusion@#The method is high sensitivity and simple operation, and is suitable for the determination of 1-methoxy-2-propanol in urine of occupational exposure population.
ABSTRACT
Objective: To analyze,identify and compare the volatile components in different medicinal parts of Murrayae Folium et Cacumen(Kamuning). Methods: The volatile components were extracted by headspace solid-phase microextraction(HS-SPME)and analyzed by gas chromatography-mass spectrometry(GC-MS). The relative contents were calculated for each of the volatile components by the area normalization method. Results A total of 74 compounds were identified in the root,stem and leaf of Murrayae Folium et Cacumen,among which there were 8 components in common in the three parts,and the numbers of specific components in roots,stems and leaves were 23,27 and 32,respectively. Conclu- sion The present HS-SPME-GC-MS method was suitable for the analysis of volatile components in the different parts of Murrayae Folium et Cacumen. Some volatile components were identified to be medicinal ingredients. The present results provide a reference for further development and application of the Murrayae Folium et Cacumen resources.
ABSTRACT
Objective: To determine the volatile chemical constituents of Panacix Quinquefolii Radix of different origins and different growth years,in order to provide the theoretical basis for the further development and utilization of Panacix Quinquefolii Radix. Method: Headspace solid phase microextraction (HS-SPME) combined with gas chromatography-mass spectrometry (GC-MS) was used to extract,analyze and identify the volatile constituents of Panacix Quinquefolii Radix. The chromatographic peak area normalization method was used to determine the relative amount of ingredients. Result: A total of 151 compounds were identified in Panacix Quinquefolii Radix samples,including 99 hydrocarbons,21 alcohol phenols,7 aldehydes,8 ketones,1 ester,15 heterocyclics and other compounds. Totally 68 kinds of compounds were identified in the roots of three-year-old Jilin Baishan,and the mass fraction accounted for 98.27%,67 compounds were identified in the roots of four-year-old Jilin Baishan,and the mass fraction accounted for 98.79%,65 compounds were identified in 3-year-old Panacix Quinquefolii Radix root,and the mass fraction accounted for 95.81%,and 63 compounds were identified in 4-year-old Panacix Quinquefolii Radix root,and the mass fraction accounted for 99.67%. The specific components of the volatile oil components of the four Panacix Quinquefolii Radix samples were 24,23,19,and 23,respectively,and the total composition was 16 species. Conclusion: The content and composition of volatile chemical constituents of Panacix Quinquefolii Radix of different origins are very different. This experiment provides a reference for the future quality evaluation of Panacix Quinquefolii Radix medicinal materials,rational development and utilization of resources.