Untargeted Metabolomics Analysis using LC-MSQTOF for Metabolite Profile Comparison between Patients with Myofascial Pain of Upper Trapezius Muscle versus Controls
Objective: This study aims to identify different biomarkers of Myofascial pain syndrome (MPS) using untargeted metabolomics screening. Materials and Methods: In a case-control study, serum samples from MPS patients (n = 19) and healthy controls (n = 10) were analyzed using reverse-phase liquid chrom...
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th-mahidol.854042023-06-19T00:41:07Z Untargeted Metabolomics Analysis using LC-MSQTOF for Metabolite Profile Comparison between Patients with Myofascial Pain of Upper Trapezius Muscle versus Controls Vannabhum M. Mahidol University Medicine Objective: This study aims to identify different biomarkers of Myofascial pain syndrome (MPS) using untargeted metabolomics screening. Materials and Methods: In a case-control study, serum samples from MPS patients (n = 19) and healthy controls (n = 10) were analyzed using reverse-phase liquid chromatography and mass spectrometry quadrupole time-of -flight (MS-QTOF). The resulted raw data was processed with Progenesis QI data analysis software. The HMBD database was used to identify the metabolites based on their fold change (>1.2), variable importance plot (>1) with P < 0.05. MetaboAnalyst 5.0 was used to generate metabolic network analysis for all identified metabolites. Results: The MPS group reported significantly higher pain on visual analog scale when compared with control while most of the other routine blood chemical profiles were not different. Twenty-seven metabolites were analyzed and identified with untargeted metabolomics analysis which could distinguish MPS patients from healthy controls. Inosine and chenodeoxycholic acid were abundant in the MPS group, whereas the others were low. Metabolites were divided into three categories: lipids, nucleotides, and organic compounds. Possible MPS metabolites included lysoSM (sphingomyelin), lysoPC (lysophosphatidylcholine), lysoPE (lysophosphatidylethanolamine), triglyceride, and inosine. Conclusion: These metabolite profiles, including glycerophospholipids mechanism and purine metabolism, indicate that the inflammatory process might be related to the mechanisms of MPS. A larger sample size, a different trigger point location, and modifications in therapy afterward should all be further explored. 2023-06-18T17:41:07Z 2023-06-18T17:41:07Z 2022-11-01 Article Siriraj Medical Journal Vol.74 No.11 (2022) , 792-803 10.33192/Smj.2022.94 22288082 2-s2.0-85141779793 https://repository.li.mahidol.ac.th/handle/123456789/85404 SCOPUS |
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Medicine Vannabhum M. Untargeted Metabolomics Analysis using LC-MSQTOF for Metabolite Profile Comparison between Patients with Myofascial Pain of Upper Trapezius Muscle versus Controls |
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Objective: This study aims to identify different biomarkers of Myofascial pain syndrome (MPS) using untargeted metabolomics screening. Materials and Methods: In a case-control study, serum samples from MPS patients (n = 19) and healthy controls (n = 10) were analyzed using reverse-phase liquid chromatography and mass spectrometry quadrupole time-of -flight (MS-QTOF). The resulted raw data was processed with Progenesis QI data analysis software. The HMBD database was used to identify the metabolites based on their fold change (>1.2), variable importance plot (>1) with P < 0.05. MetaboAnalyst 5.0 was used to generate metabolic network analysis for all identified metabolites. Results: The MPS group reported significantly higher pain on visual analog scale when compared with control while most of the other routine blood chemical profiles were not different. Twenty-seven metabolites were analyzed and identified with untargeted metabolomics analysis which could distinguish MPS patients from healthy controls. Inosine and chenodeoxycholic acid were abundant in the MPS group, whereas the others were low. Metabolites were divided into three categories: lipids, nucleotides, and organic compounds. Possible MPS metabolites included lysoSM (sphingomyelin), lysoPC (lysophosphatidylcholine), lysoPE (lysophosphatidylethanolamine), triglyceride, and inosine. Conclusion: These metabolite profiles, including glycerophospholipids mechanism and purine metabolism, indicate that the inflammatory process might be related to the mechanisms of MPS. A larger sample size, a different trigger point location, and modifications in therapy afterward should all be further explored. |
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Mahidol University |
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Mahidol University Vannabhum M. |
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Article |
| author |
Vannabhum M. |
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Vannabhum M. |
| title |
Untargeted Metabolomics Analysis using LC-MSQTOF for Metabolite Profile Comparison between Patients with Myofascial Pain of Upper Trapezius Muscle versus Controls |
| title_short |
Untargeted Metabolomics Analysis using LC-MSQTOF for Metabolite Profile Comparison between Patients with Myofascial Pain of Upper Trapezius Muscle versus Controls |
| title_full |
Untargeted Metabolomics Analysis using LC-MSQTOF for Metabolite Profile Comparison between Patients with Myofascial Pain of Upper Trapezius Muscle versus Controls |
| title_fullStr |
Untargeted Metabolomics Analysis using LC-MSQTOF for Metabolite Profile Comparison between Patients with Myofascial Pain of Upper Trapezius Muscle versus Controls |
| title_full_unstemmed |
Untargeted Metabolomics Analysis using LC-MSQTOF for Metabolite Profile Comparison between Patients with Myofascial Pain of Upper Trapezius Muscle versus Controls |
| title_sort |
untargeted metabolomics analysis using lc-msqtof for metabolite profile comparison between patients with myofascial pain of upper trapezius muscle versus controls |
| publishDate |
2023 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/85404 |
| _version_ |
1781416094720851968 |