1.Matrix-Assisted Laser Desorption Ionization Time-of-Flight Mass Spectrometry in Clinical Microbiology: What Are the Current Issues?.
Alex VAN BELKUM ; Martin WELKER ; David PINCUS ; Jean Philippe CHARRIER ; Victoria GIRARD
Annals of Laboratory Medicine 2017;37(6):475-483
Matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI-TOF MS) has revolutionized the identification of microbial species in clinical microbiology laboratories. MALDI-TOF-MS has swiftly become the new gold-standard method owing to its key advantages of simplicity and robustness. However, as with all new methods, adoption of the MALDI-TOF MS approach is still not widespread. Optimal sample preparation has not yet been achieved for several applications, and there are continuing discussions on the need for improved database quality and the inclusion of additional microbial species. New applications such as in the field of antimicrobial susceptibility testing have been proposed but not yet translated to the level of ease and reproducibility that one should expect in routine diagnostic systems. Finally, during routine identification testing, unexpected results are regularly obtained, and the best methods for transmitting these results into clinical care are still evolving. We here discuss the success of MALDI-TOF MS in clinical microbiology and highlight fields of application that are still amenable to improvement.
Classification
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Mass Spectrometry*
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Methods
2.Structure Analysis of the Interfering Substance N-methyl-2-phenylpropan-1-amine of Methamphetamine in Wastewater.
Ting-Ting ZHANG ; Yu HUANG ; Xue-Jun ZHANG ; Jie CHEN ; Zhen-Dong HUA
Journal of Forensic Medicine 2022;38(6):726-732
OBJECTIVES:
To analyze the chemical structure of the interfering substance that affects the result of methamphetamine analysis in wastewater.
METHODS:
A combination of GC-MS and liquid chromatography-quadrupole time-of-flight mass spectrometry (LC-QTOF-MS) was used to analyze the mass spectrum characteristics of the interfering substance that affects the result of methamphetamine analysis and to infer its possible structure. Liquid chromatography-triple quadrupole-mass spectrometry (LC-TQ-MS) was used to confirm the control material.
RESULTS:
Using LC-QTOF-MS in positive electrospray ionization (ESI+) mode, the mass-to-charge ratio (m/z) of quasi-molecular ion in the MS1 mass spectrometry of interfering substance was identical to that of methamphetamine, indicating that the interfering substance was probably an isomer of methamphetamine. The MS2 mass spectra obtained at three collision energies of 15 V, 30 V and 45 V were highly similar to methamphetamine, suggesting that the interfering substance contained methylamino and benzyl groups. Further analysis using GC-MS in electron impact (EI) ionization mode showed that the base peak in the mass spectrum of the interfering substance was at m/z 44. The interfering substance was confirmed to be N-methyl-2-phenylpropan-1-amine by compared with the standard reference.
CONCLUSIONS
The chemical structure of N-methyl-2-phenylpropan-1-amine is highly similar to methamphetamine, which is easy to cause interference for the detection of trace amounts of methamphetamine in wastewater using LC-TQ-MS. Therefore, in the actual analysis, the chromatographic retention time can be used to distinguish between N-methyl-2-phenylpropan-1-amine and methamphetamine.
Methamphetamine
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Wastewater
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Amines
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Gas Chromatography-Mass Spectrometry/methods*
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Mass Spectrometry/methods*
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Spectrometry, Mass, Electrospray Ionization/methods*
3.Gas chromatography-mass spectrometry (GC-MS) and its application in metabonomics.
Juan LI ; Lujing REN ; Guannan SUN ; He HUANG
Chinese Journal of Biotechnology 2013;29(4):434-446
Metabonomics involves the unbiased quantitative and qualitative analysis of the complete set of metabolites present in cells, body fluids and tissues (the metabolome) based on modern analytic technique with high throughput, high sensitivity, and high resolution. Gas chromatography-mass spectrometry (GC-MS) is used to gain qualitative results of detected metabolites for biological samples as it provides superior distinguishability, detection sensitivity and integrated standard mass spectrometry library. In this article, the historic developments of GC-MS and its application in metabonomics in the past several years were reviewed. Firstly, the classification and the derivative methods of GC-MS were introduced. Subsequently, sample pretreatment process, qualitative and quantitative analysis and data analysis during detecting metabolites by GC-MS were introduced, then its application in microorganism, plant and disease diagnosis was systematically summarized. Finally, the problems in metabonomics study based on GC-MS and the research prospect in the future were discussed.
Gas Chromatography-Mass Spectrometry
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methods
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Metabolomics
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methods
4.Recent advance in high accuracy iTRAQ for quantitative proteomics.
Shouzhi MA ; Yulin SUN ; Xiaohang ZHAO ; Ping XU
Chinese Journal of Biotechnology 2014;30(7):1073-1082
Nowadays, proteomics focuses on quantitative analysis rather than qualitative. In the field of quantitative proteomics, Isobaric tags for relative and absolute quantitation (iTRAQ) is one of the most widely used techniques. The advantage of iTRAQ is high throughput, high stability and free of the restriction of sample property. iTRAQ is suitable for almost all kinds of samples, and up to 8 samples can be analyzed simultaneously by commercially available kit. Along with the development of techniques, more and more mass spectrometry (MS) platforms are used in iTRAQ experiments and the accuracy of iTRAQ has been improved. iTRAQ has been applied to studies of microorganism, animal, plant, medical and protein post-translational modification. Here we review the recent progress in the development of iTRAQ and its applications in quantitative proteomics.
Animals
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Humans
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Mass Spectrometry
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Proteomics
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methods
5.Research Progress of Proton Transfer Reaction Mass Spectrometry in the Field of Breathing Gas Detection.
Xuehong ZHAO ; Weikang LI ; Kang DU ; Yun SUN ; Wen YANG ; Yan WANG
Journal of Biomedical Engineering 2015;32(6):1374-1379
Breathing gas carries important physiological information. Technology for detection of breathing gas has become a research focus because of the advantages of nondestructive sampling and convenient operation. Proton transfer reaction mass spectrometry (PTR-MS) plays an irreplaceable role because of the advantages of high sensitivity, fast response and good specificity. In this paper, the principle of PTR-MS is introduced first, followed by research progress of PTR-MS in the field of breathing gas detection. Factors influencing the test results are analyzed. Finally, future prospects of development for PTR-MS in the field of breathing gas detection are discussed.
Gases
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isolation & purification
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Mass Spectrometry
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methods
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Protons
6.Simultaneous determination of 54 elements in human whole blood by inductively coupled plasma mass spectrometry.
Qinlong ZHANG ; Ge GAO ; Yapan LIU
Chinese Journal of Industrial Hygiene and Occupational Diseases 2015;33(10):784-786
OBJECTIVETo establish a method for simultaneous determination of 54 elements in whole blood by inductively coupled plasma mass spectrometry (ICP-MS).
METHODSThe whole blood sample was digested with nitric acid and hydrogen peroxide in a water bath at 90°C, and then analyzed by ICP-MS with 0.1% ethanol as an matrix-matching agent.
RESULTSA good linear relationship was achieved when the concentrations of the 54 elements in whole blood were in the standard range (all r >0.999). The recovery rate of the sample plus the standard was between 80% and 106%, and the relative standard deviation was less than 5%. The standard material of whole blood was determined and the results met the certification requirements.
CONCLUSIONThe method is simple, rapid, sensitive, and accurate. It is applicable for simultaneous determination of multi-elements in a large number of whole blood samples.
Blood Chemical Analysis ; methods ; Humans ; Mass Spectrometry
7.Evaluation of Stability of Thiopurine Metabolites Using a Validated LC-MS/MS Method.
In Young YOO ; Kyunghoon LEE ; Ok Ja JI ; Hye In WOO ; Soo Youn LEE
Annals of Laboratory Medicine 2018;38(3):255-260
Measurement of thiopurine metabolites is helpful to monitor adverse effects and assess compliance in patients on thiopurine treatment. The purpose of this study was to develop and validate an analytical method for measurement of thiopurine metabolites, thioguanine nucleotides (6-TGN) and 6-methylmercaptopurine nucleotide (6-MMPN), in RBCs. We developed and validated a liquid chromatography–tandem mass spectrometry (LC-MS/MS) method for the quantification of 6-TGN and 6-MMPN and evaluated the stability of the thiopurine metabolites in RBC and whole blood states without any preprocessing at various storage conditions. The linear range was 0.1–10 µmol/L and 0.5–100 µmol/L for 6-TGN and 6-MMPN, respectively. The mean extraction recovery at the two concentrations was 71.0% and 75.0% for 6-TGN, and 102.2% and 96.4% for 6-MMPN. Thiopurine metabolites in preprocessed RBC samples were stable at 25℃ and 4℃ after storage for 4 hours and at −70℃ for up to 6 months. However, 6-TGN decreased by 30% compared with the initial concentration when stored at −20℃ for 180 days. In whole blood states, 6-TGN decreased by about 20% at four days after storage at 4℃. We validated a reliable LC-MS/MS method and recommend that the patient's whole blood sample be preprocessed as soon as possible.
Compliance
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Humans
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Mass Spectrometry
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Methods*
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Nucleotides
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Thioguanine
8.Determination of 6 BTEXs in urine by purge and trap with gas chromatography-mass spectrometry.
Jing Qi LAI ; Shao Yang LAI ; Xiao Li YE ; Chao WANG ; Min YE
Chinese Journal of Industrial Hygiene and Occupational Diseases 2022;40(8):619-622
Objective: To establish a method for detection of 6 BTEXs in urine by Purge and Trap-Gas Chromatography-Mass Spectrometry. Methods: The urine sample need not be diluted, but directly purge and trap in the bottle, separated by gas chromatography column, then simultaneously analyzed by retention time locking (RTL) method and selective ion scanning mode (SIM) . Results: The linear range of 6 BTEXs in urine was good, the correlation coefficient was between 0.997 4 and 0.998 9. The minimum quantification limits was 0.010-0.036 μg/L. The precision was 1.9%-4.7%, and the recovery was 93.1%-101.9%. Conclusion: The method has the advantages of wide linear range, high sensitivity and recovery. It is suitable for the determination of 6 BTEXs in urine of low level occupational-exposed or non-exposed population.
Gas Chromatography-Mass Spectrometry/methods*
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Occupational Exposure
9.Mass spectrometry imaging technology and its application in medicinal plants research.
Lei PENG ; Hua-Guo CHEN ; Xin ZHOU
China Journal of Chinese Materia Medica 2020;45(5):1023-1033
As an important molecular imaging technology, mass spectrometry imaging(MSI) converts the ionic strength, mass-charge ratio and coordinates of ionized molecules in specific areas recorded by mass spectrometer into a pixel model by special imaging analysis software, and reconstructs the spatial ion distribution image of the compounds tested. It has the advantages of simple sample preparation, high sensitivity and no need for labeling. In recent years, MSI technology has been widely used in medicine, pharmacy, botany and other fields. Among them, the application of MSI technology in the research of medicinal plants provides a new technical idea for clarifying the pharmacological mechanism, improving the curative effect, tracking the distribution of toxic components, and makes an important contribution to the further development and utilization of medicinal plants. This review summarizes the research results of MSI technology in recent years for identification of medicinal plants, distribution of metabolites, pathway of active ingredient synthesis, medicinal safety and plant defense, and discusses the advantages and disadvantages of different research methods. Finally, the advantages and practical obstacles of MSI technology in medicinal plant research are briefly pointed out, and the prospects for the future development of MSI technology and medicinal plant research are also prospected.
Mass Spectrometry/methods*
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Plants, Medicinal/chemistry*
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Software
10.Analysis and identification of degradation products of buagafuran by high performance liquid chromatography-diode array detection-tandem mass spectrometry.
Xue-Jun XIA ; Jiu-Ming HE ; Chun LI ; Du-Jia JIN ; Yu-Ling LIU
Acta Pharmaceutica Sinica 2013;48(8):1292-1296
An HPLC-DAD-MS/MS method was developed for rapid analysis and identification of degradation products of buagafuran. Buagafuran and degradation products were separated on a Zorbax C8 column (5 microm, 4.6 mm x 150 mm) using acetonitrile-water (78 : 22) as mobile phase. The elutes were detected with diode array detector and tandem mass spectrometer via electrospray ionization source in positive ion mode. According to analysis of the retention time, UV spectra and MS, MS/MS data, combined with the possible degradation reaction of buagafuran, the structures of main degradation products were inferred. The results showed that six main degradation products were oxidation or peroxidation productions of buagafuran. Degradation product A was a double bond epoxidation product of buagafuran, degradation products B, C, D and E were the further oxidation products of degradation product A, degradation product F was a peroxidation product of buagafuran. The results indicated that the established method was effective in the rapid identification of the degradation products of buagafuran.
Chromatography, High Pressure Liquid
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methods
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Sesquiterpenes
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chemistry
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Spectrometry, Mass, Electrospray Ionization
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methods
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Tandem Mass Spectrometry
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methods