#METABOLOMICS WORKBENCH zhouyiyang_20250804_192449 DATATRACK_ID:6251 STUDY_ID:ST004198 ANALYSIS_ID:AN006979 PROJECT_ID:PR002647 VERSION 1 CREATED_ON August 8, 2025, 7:16 pm #PROJECT PR:PROJECT_TITLE Deep Serum Multiomics Analysis Defines the Molecular Landscape and a Diagnostic PR:PROJECT_TITLE Signature of Acute Ischemic Stroke PR:PROJECT_SUMMARY Acute ischemic stroke (AIS) urgently requires reliable diagnostic biomarkers to PR:PROJECT_SUMMARY mitigate pre-hospital delays and enhance thrombolysis utilization. We performed PR:PROJECT_SUMMARY integrated untargeted proteomic, metabolomic, and lipidomic analyses on serum PR:PROJECT_SUMMARY samples from a discovery cohort (AIS patients, n=52; healthy controls [HC], PR:PROJECT_SUMMARY n=50). Proteomics identified 295 differentially abundant proteins, implicating PR:PROJECT_SUMMARY blood-brain barrier disruption (downregulated structural anchors: FLNA, ACTB, PR:PROJECT_SUMMARY ACTN1; Rho GTPases: RAC1, CDC42), thromboinflammatory activation (upregulated PR:PROJECT_SUMMARY platelet receptors: ITA2B, ITB3, GP1BA; inflammasome components: CRP, SAA) and PR:PROJECT_SUMMARY complement dysregulation (C1S, C4BPA). Metabolomics and lipidomics revealed 134 PR:PROJECT_SUMMARY altered species, demonstrating: an energy crisis (depleted citrate cycle PR:PROJECT_SUMMARY intermediates, aberrant glycolysis), oxidative stress (elevated PR:PROJECT_SUMMARY glutamate/L-pyroglutamate; depleted antioxidants), and pathological lipid PR:PROJECT_SUMMARY remodeling (accumulated diacylglycerols/sphingomyelins; reduced PR:PROJECT_SUMMARY lysophosphatidylcholines/sterols).multiomics integration revealed that AIS PR:PROJECT_SUMMARY pathogenesis involves synergistic glycolysis-triggered energy crisis, PR:PROJECT_SUMMARY glutathione-dependent oxidative collapse, and catastrophic lipidome disarray. PR:PROJECT_SUMMARY Machine learning (RF/LASSO) derived a diagnostic panel comprising FA9, APOC2, PR:PROJECT_SUMMARY SAMP, C1S, OSTP, PCSK6, CCN2, PDGFC, HPSE, ANGL3, glutamate, glycerate, and PR:PROJECT_SUMMARY succinate. This panel achieved exceptional diagnostic accuracy in an independent PR:PROJECT_SUMMARY validation cohort (AIS=46, HC=48; AUC=0.998, 95% CI: 0.955-1.000), significantly PR:PROJECT_SUMMARY outperforming established markers (PCSK9, succinate alone) and showing strong PR:PROJECT_SUMMARY correlation with NIHSS scores. Our study establishes a mechanistically grounded, PR:PROJECT_SUMMARY high-performance multiomics biomarker signature for AIS diagnosis. PR:INSTITUTE Wenzhou Medical University PR:LAST_NAME Zhou PR:FIRST_NAME Yiyang PR:ADDRESS Higher Education Park, Chashan Sub-district, Ouhai District, Wenzhou City PR:EMAIL zhouyiyang@wmu.edu.cn PR:PHONE 13806831161 #STUDY ST:STUDY_TITLE Deep Serum Multiomics Analysis Defines the Molecular Landscape and a Diagnostic ST:STUDY_TITLE Signature of Acute Ischemic Stroke ST:STUDY_SUMMARY Acute ischemic stroke (AIS) urgently requires reliable diagnostic biomarkers to ST:STUDY_SUMMARY mitigate pre-hospital delays and enhance thrombolysis utilization. We performed ST:STUDY_SUMMARY integrated untargeted proteomic, metabolomic, and lipidomic analyses on serum ST:STUDY_SUMMARY samples from a discovery cohort (AIS patients, n=52; healthy controls [HC], ST:STUDY_SUMMARY n=50). Proteomics identified 295 differentially abundant proteins, implicating ST:STUDY_SUMMARY blood-brain barrier disruption (downregulated structural anchors: FLNA, ACTB, ST:STUDY_SUMMARY ACTN1; Rho GTPases: RAC1, CDC42), thromboinflammatory activation (upregulated ST:STUDY_SUMMARY platelet receptors: ITA2B, ITB3, GP1BA; inflammasome components: CRP, SAA) and ST:STUDY_SUMMARY complement dysregulation (C1S, C4BPA). Metabolomics and lipidomics revealed 134 ST:STUDY_SUMMARY altered species, demonstrating: an energy crisis (depleted citrate cycle ST:STUDY_SUMMARY intermediates, aberrant glycolysis), oxidative stress (elevated ST:STUDY_SUMMARY glutamate/L-pyroglutamate; depleted antioxidants), and pathological lipid ST:STUDY_SUMMARY remodeling (accumulated diacylglycerols/sphingomyelins; reduced ST:STUDY_SUMMARY lysophosphatidylcholines/sterols).multiomics integration revealed that AIS ST:STUDY_SUMMARY pathogenesis involves synergistic glycolysis-triggered energy crisis, ST:STUDY_SUMMARY glutathione-dependent oxidative collapse, and catastrophic lipidome disarray. ST:STUDY_SUMMARY Machine learning (RF/LASSO) derived a diagnostic panel comprising FA9, APOC2, ST:STUDY_SUMMARY SAMP, C1S, OSTP, PCSK6, CCN2, PDGFC, HPSE, ANGL3, glutamate, glycerate, and ST:STUDY_SUMMARY succinate. This panel achieved exceptional diagnostic accuracy in an independent ST:STUDY_SUMMARY validation cohort (AIS=46, HC=48; AUC=0.998, 95% CI: 0.955-1.000), significantly ST:STUDY_SUMMARY outperforming established markers (PCSK9, succinate alone) and showing strong ST:STUDY_SUMMARY correlation with NIHSS scores. Our study establishes a mechanistically grounded, ST:STUDY_SUMMARY high-performance multiomics biomarker signature for AIS diagnosis. ST:INSTITUTE Wenzhou Medical University ST:LAST_NAME Zhou ST:FIRST_NAME Yiyang ST:ADDRESS Higher Education Park, Chashan Sub-district, Ouhai District, Wenzhou City ST:EMAIL zhouyiyang@wmu.edu.cn ST:PHONE 13806831161 #SUBJECT SU:SUBJECT_TYPE Human SU:SUBJECT_SPECIES Homo sapiens SU:TAXONOMY_ID 9606 SU:GENDER #SUBJECT_SAMPLE_FACTORS: SUBJECT(optional)[tab]SAMPLE[tab]FACTORS(NAME:VALUE pairs separated by |)[tab]Raw file names and additional sample data SUBJECT_SAMPLE_FACTORS N-2 N-2 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N2.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N2.mzXML SUBJECT_SAMPLE_FACTORS N-3 N-3 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N3.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N3.mzXML SUBJECT_SAMPLE_FACTORS N-4 N-4 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N4.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N4.mzXML SUBJECT_SAMPLE_FACTORS N-5 N-5 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N5.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N5.mzXML SUBJECT_SAMPLE_FACTORS N-6 N-6 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N6.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N6.mzXML SUBJECT_SAMPLE_FACTORS N-7 N-7 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N7.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N7.mzXML SUBJECT_SAMPLE_FACTORS N-8 N-8 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N8.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N8.mzXML SUBJECT_SAMPLE_FACTORS N-9 N-9 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N9.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N9.mzXML SUBJECT_SAMPLE_FACTORS N-10 N-10 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N10.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N10.mzXML SUBJECT_SAMPLE_FACTORS N-11 N-11 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N11.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N11.mzXML SUBJECT_SAMPLE_FACTORS N-12 N-12 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N12.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N12.mzXML SUBJECT_SAMPLE_FACTORS N-13 N-13 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N13.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N13.mzXML SUBJECT_SAMPLE_FACTORS N-14 N-14 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N14.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N14.mzXML SUBJECT_SAMPLE_FACTORS N-15 N-15 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N15.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N15.mzXML SUBJECT_SAMPLE_FACTORS N-16 N-16 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N16.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N16.mzXML SUBJECT_SAMPLE_FACTORS N-17 N-17 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N17.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N17.mzXML SUBJECT_SAMPLE_FACTORS N-18 N-18 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N18.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N18.mzXML SUBJECT_SAMPLE_FACTORS N-19 N-19 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N19.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N19.mzXML SUBJECT_SAMPLE_FACTORS N-20 N-20 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N20.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N20.mzXML SUBJECT_SAMPLE_FACTORS N-21 N-21 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N21.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N21.mzXML SUBJECT_SAMPLE_FACTORS N-22 N-22 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N22.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N22.mzXML SUBJECT_SAMPLE_FACTORS N-23 N-23 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N23.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N23.mzXML SUBJECT_SAMPLE_FACTORS N-24 N-24 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N24.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N24.mzXML SUBJECT_SAMPLE_FACTORS N-25 N-25 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N25.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N25.mzXML SUBJECT_SAMPLE_FACTORS N-26 N-26 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N26.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N26.mzXML SUBJECT_SAMPLE_FACTORS N-27 N-27 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N27.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N27.mzXML SUBJECT_SAMPLE_FACTORS N-28 N-28 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N28.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N28.mzXML SUBJECT_SAMPLE_FACTORS N-29 N-29 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N29.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N29.mzXML SUBJECT_SAMPLE_FACTORS N-31 N-31 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N31.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N31.mzXML SUBJECT_SAMPLE_FACTORS N-32 N-32 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N32.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N32.mzXML SUBJECT_SAMPLE_FACTORS N-33 N-33 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N33.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N33.mzXML SUBJECT_SAMPLE_FACTORS N-34 N-34 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N34.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N34.mzXML SUBJECT_SAMPLE_FACTORS N-35 N-35 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N35.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N35.mzXML SUBJECT_SAMPLE_FACTORS N-36 N-36 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N36.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N36.mzXML SUBJECT_SAMPLE_FACTORS N-37 N-37 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N37.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N37.mzXML SUBJECT_SAMPLE_FACTORS N-38 N-38 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N38.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N38.mzXML SUBJECT_SAMPLE_FACTORS N-39 N-39 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N39.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N39.mzXML SUBJECT_SAMPLE_FACTORS N-40 N-40 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N40.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N40.mzXML SUBJECT_SAMPLE_FACTORS N-41 N-41 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N41.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N41.mzXML SUBJECT_SAMPLE_FACTORS N-42 N-42 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N42.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N42.mzXML SUBJECT_SAMPLE_FACTORS N-48 N-48 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N48.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N48.mzXML SUBJECT_SAMPLE_FACTORS N-49 N-49 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N49.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N49.mzXML SUBJECT_SAMPLE_FACTORS N-52 N-52 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N52.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N52.mzXML SUBJECT_SAMPLE_FACTORS N-55 N-55 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N55.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N55.mzXML SUBJECT_SAMPLE_FACTORS N-59 N-59 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N59.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N59.mzXML SUBJECT_SAMPLE_FACTORS N-60 N-60 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N60.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N60.mzXML SUBJECT_SAMPLE_FACTORS N-62 N-62 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N62.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N62.mzXML SUBJECT_SAMPLE_FACTORS N-65 N-65 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N65.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N65.mzXML SUBJECT_SAMPLE_FACTORS N-69 N-69 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N69.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N69.mzXML SUBJECT_SAMPLE_FACTORS N-70 N-70 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N70.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N70.mzXML SUBJECT_SAMPLE_FACTORS N-71 N-71 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N71.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N71.mzXML SUBJECT_SAMPLE_FACTORS N-72 N-72 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N72.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N72.mzXML SUBJECT_SAMPLE_FACTORS N-73 N-73 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N73.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N73.mzXML SUBJECT_SAMPLE_FACTORS N-74 N-74 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N74.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N74.mzXML SUBJECT_SAMPLE_FACTORS N-75 N-75 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N75.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N75.mzXML SUBJECT_SAMPLE_FACTORS N-76 N-76 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N76.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N76.mzXML SUBJECT_SAMPLE_FACTORS N-77 N-77 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N77.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N77.mzXML SUBJECT_SAMPLE_FACTORS N-78 N-78 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N78.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N78.mzXML SUBJECT_SAMPLE_FACTORS N-79 N-79 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N79.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N79.mzXML SUBJECT_SAMPLE_FACTORS N-80 N-80 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N80.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N80.mzXML SUBJECT_SAMPLE_FACTORS N-81 N-81 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N81.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N81.mzXML SUBJECT_SAMPLE_FACTORS N-82 N-82 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N82.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N82.mzXML SUBJECT_SAMPLE_FACTORS N-83 N-83 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N83.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N83.mzXML SUBJECT_SAMPLE_FACTORS N-84 N-84 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N84.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N84.mzXML SUBJECT_SAMPLE_FACTORS N-85 N-85 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N85.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N85.mzXML SUBJECT_SAMPLE_FACTORS N-86 N-86 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N86.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N86.mzXML SUBJECT_SAMPLE_FACTORS N-87 N-87 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N87.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N87.mzXML SUBJECT_SAMPLE_FACTORS N-88 N-88 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N88.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N88.mzXML SUBJECT_SAMPLE_FACTORS N-89 N-89 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N89.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N89.mzXML SUBJECT_SAMPLE_FACTORS N-90 N-90 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N90.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N90.mzXML SUBJECT_SAMPLE_FACTORS N-91 N-91 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N91.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N91.mzXML SUBJECT_SAMPLE_FACTORS N-92 N-92 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N92.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N92.mzXML SUBJECT_SAMPLE_FACTORS N-93 N-93 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N93.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N93.mzXML SUBJECT_SAMPLE_FACTORS N-94 N-94 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N94.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N94.mzXML SUBJECT_SAMPLE_FACTORS N-95 N-95 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N95.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N95.mzXML SUBJECT_SAMPLE_FACTORS N-96 N-96 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N96.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N96.mzXML SUBJECT_SAMPLE_FACTORS N-97 N-97 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N97.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N97.mzXML SUBJECT_SAMPLE_FACTORS N-98 N-98 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N98.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N98.mzXML SUBJECT_SAMPLE_FACTORS N-99 N-99 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N99.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N99.mzXML SUBJECT_SAMPLE_FACTORS N-100 N-100 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N100.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N100.mzXML SUBJECT_SAMPLE_FACTORS N-101 N-101 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N101.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N101.mzXML SUBJECT_SAMPLE_FACTORS N-102 N-102 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N102.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N102.mzXML SUBJECT_SAMPLE_FACTORS N-103 N-103 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N103.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N103.mzXML SUBJECT_SAMPLE_FACTORS N-104 N-104 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N104.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N104.mzXML SUBJECT_SAMPLE_FACTORS N-105 N-105 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N105.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N105.mzXML SUBJECT_SAMPLE_FACTORS N-106 N-106 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N106.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N106.mzXML SUBJECT_SAMPLE_FACTORS N-107 N-107 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N107.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N107.mzXML SUBJECT_SAMPLE_FACTORS N-108 N-108 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N108.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N108.mzXML SUBJECT_SAMPLE_FACTORS N-109 N-109 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N109.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N109.mzXML SUBJECT_SAMPLE_FACTORS N-110 N-110 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N110.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N110.mzXML SUBJECT_SAMPLE_FACTORS N-111 N-111 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N111.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N111.mzXML SUBJECT_SAMPLE_FACTORS N-112 N-112 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N112.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N112.mzXML SUBJECT_SAMPLE_FACTORS N-113 N-113 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N113.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N113.mzXML SUBJECT_SAMPLE_FACTORS N-114 N-114 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N114.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N114.mzXML SUBJECT_SAMPLE_FACTORS N-115 N-115 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N115.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N115.mzXML SUBJECT_SAMPLE_FACTORS N-116 N-116 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N116.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N116.mzXML SUBJECT_SAMPLE_FACTORS N-117 N-117 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N117.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N117.mzXML SUBJECT_SAMPLE_FACTORS N-118 N-118 Sample source:serum | Sample_type:HC | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N118.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N118.mzXML SUBJECT_SAMPLE_FACTORS M-1 M-1 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M1.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-1.mzXML SUBJECT_SAMPLE_FACTORS M-2 M-2 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M2.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-2.mzXML SUBJECT_SAMPLE_FACTORS M-3 M-3 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M3.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-3.mzXML SUBJECT_SAMPLE_FACTORS M-4 M-4 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M4.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-4.mzXML SUBJECT_SAMPLE_FACTORS M-5 M-5 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M5.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-5.mzXML SUBJECT_SAMPLE_FACTORS M-8 M-8 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M8.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-8.mzXML SUBJECT_SAMPLE_FACTORS M-9 M-9 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M9.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-9.mzXML SUBJECT_SAMPLE_FACTORS M-10 M-10 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M10.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-10.mzXML SUBJECT_SAMPLE_FACTORS M-11 M-11 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M11.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-11.mzXML SUBJECT_SAMPLE_FACTORS M-12 M-12 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M12.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-12.mzXML SUBJECT_SAMPLE_FACTORS M-15 M-15 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M15.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-15.mzXML SUBJECT_SAMPLE_FACTORS M-16 M-16 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M16.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-16.mzXML SUBJECT_SAMPLE_FACTORS M-17 M-17 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M17.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-17.mzXML SUBJECT_SAMPLE_FACTORS M-18 M-18 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M18.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-18.mzXML SUBJECT_SAMPLE_FACTORS M-20 M-20 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M20.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-20.mzXML SUBJECT_SAMPLE_FACTORS M-21 M-21 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M21.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-21.mzXML SUBJECT_SAMPLE_FACTORS M-22 M-22 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M22.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-22.mzXML SUBJECT_SAMPLE_FACTORS M-24 M-24 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M24.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-24.mzXML SUBJECT_SAMPLE_FACTORS M-26 M-26 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M26.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-26.mzXML SUBJECT_SAMPLE_FACTORS M-28 M-28 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M28.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-28.mzXML SUBJECT_SAMPLE_FACTORS M-29 M-29 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M29.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-29.mzXML SUBJECT_SAMPLE_FACTORS M-30 M-30 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M30.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-30.mzXML SUBJECT_SAMPLE_FACTORS M-31 M-31 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M31.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-31.mzXML SUBJECT_SAMPLE_FACTORS M-32 M-32 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M32.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-32.mzXML SUBJECT_SAMPLE_FACTORS M-33 M-33 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M33.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-33.mzXML SUBJECT_SAMPLE_FACTORS M-34 M-34 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M34.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-34.mzXML SUBJECT_SAMPLE_FACTORS M-35 M-35 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M35.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-35.mzXML SUBJECT_SAMPLE_FACTORS M-36 M-36 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M36.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-36.mzXML SUBJECT_SAMPLE_FACTORS M-37 M-37 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M37.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-37.mzXML SUBJECT_SAMPLE_FACTORS M-38 M-38 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M38.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-38.mzXML SUBJECT_SAMPLE_FACTORS M-39 M-39 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M39.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-39.mzXML SUBJECT_SAMPLE_FACTORS M-40 M-40 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M40.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-40.mzXML SUBJECT_SAMPLE_FACTORS M-41 M-41 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M41.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-41.mzXML SUBJECT_SAMPLE_FACTORS M-43 M-43 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M43.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-43.mzXML SUBJECT_SAMPLE_FACTORS M-44 M-44 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M44.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-44.mzXML SUBJECT_SAMPLE_FACTORS M-45 M-45 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M45.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-45.mzXML SUBJECT_SAMPLE_FACTORS M-46 M-46 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M46.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-46.mzXML SUBJECT_SAMPLE_FACTORS M-47 M-47 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M47.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-47.mzXML SUBJECT_SAMPLE_FACTORS M-51 M-51 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M51.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-51.mzXML SUBJECT_SAMPLE_FACTORS M-53 M-53 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M53.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-53.mzXML SUBJECT_SAMPLE_FACTORS M-57 M-57 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M57.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-57.mzXML SUBJECT_SAMPLE_FACTORS M-58 M-58 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M58.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-58.mzXML SUBJECT_SAMPLE_FACTORS M-59 M-59 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M59.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-59.mzXML SUBJECT_SAMPLE_FACTORS M-61 M-61 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M61.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-61.mzXML SUBJECT_SAMPLE_FACTORS M-62 M-62 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M62.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-62.mzXML SUBJECT_SAMPLE_FACTORS M-63 M-63 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M63.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-63.mzXML SUBJECT_SAMPLE_FACTORS M-64 M-64 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M64.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-64.mzXML SUBJECT_SAMPLE_FACTORS M-65 M-65 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M65.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-65.mzXML SUBJECT_SAMPLE_FACTORS M-66 M-66 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M66.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-66.mzXML SUBJECT_SAMPLE_FACTORS M-67 M-67 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M67.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-67.mzXML SUBJECT_SAMPLE_FACTORS M-68 M-68 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M68.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-68.mzXML SUBJECT_SAMPLE_FACTORS M-69 M-69 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M69.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-69.mzXML SUBJECT_SAMPLE_FACTORS M-70 M-70 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M70.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-70.mzXML SUBJECT_SAMPLE_FACTORS M-71 M-71 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M71.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-71.mzXML SUBJECT_SAMPLE_FACTORS M-72 M-72 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M72.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-72.mzXML SUBJECT_SAMPLE_FACTORS M-73 M-73 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M73.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-73.mzXML SUBJECT_SAMPLE_FACTORS M-74 M-74 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M74.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-74.mzXML SUBJECT_SAMPLE_FACTORS M-77 M-77 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M77.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-77.mzXML SUBJECT_SAMPLE_FACTORS M-78 M-78 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M78.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-78.mzXML SUBJECT_SAMPLE_FACTORS M-80 M-80 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M80.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-80.mzXML SUBJECT_SAMPLE_FACTORS M-81 M-81 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M81.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-81.mzXML SUBJECT_SAMPLE_FACTORS M-83 M-83 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M83.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-83.mzXML SUBJECT_SAMPLE_FACTORS M-84 M-84 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M84.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-84.mzXML SUBJECT_SAMPLE_FACTORS M-85 M-85 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M85.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-85.mzXML SUBJECT_SAMPLE_FACTORS M-86 M-86 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M86.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-86.mzXML SUBJECT_SAMPLE_FACTORS M-87 M-87 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M87.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-87.mzXML SUBJECT_SAMPLE_FACTORS M-88 M-88 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M88.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-88.mzXML SUBJECT_SAMPLE_FACTORS M-89 M-89 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M89.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-89.mzXML SUBJECT_SAMPLE_FACTORS M-91 M-91 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M91.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-91.mzXML SUBJECT_SAMPLE_FACTORS M-93 M-93 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M93.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-93.mzXML SUBJECT_SAMPLE_FACTORS M-94 M-94 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M94.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-94.mzXML SUBJECT_SAMPLE_FACTORS M-96 M-96 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M96.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-96.mzXML SUBJECT_SAMPLE_FACTORS M-98 M-98 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M98.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-98.mzXML SUBJECT_SAMPLE_FACTORS M-101 M-101 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M101.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-101.mzXML SUBJECT_SAMPLE_FACTORS M-103 M-103 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M103.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-103.mzXML SUBJECT_SAMPLE_FACTORS M-104 M-104 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M104.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-104.mzXML SUBJECT_SAMPLE_FACTORS M-106 M-106 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M106.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-106.mzXML SUBJECT_SAMPLE_FACTORS M-107 M-107 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M107.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-107.mzXML SUBJECT_SAMPLE_FACTORS M-108 M-108 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M108.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-108.mzXML SUBJECT_SAMPLE_FACTORS M-109 M-109 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M109.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-109.mzXML SUBJECT_SAMPLE_FACTORS M-111 M-111 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M111.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-111.mzXML SUBJECT_SAMPLE_FACTORS M-112 M-112 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M112.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-112.mzXML SUBJECT_SAMPLE_FACTORS M-113 M-113 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M113.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-113.mzXML SUBJECT_SAMPLE_FACTORS M-114 M-114 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M114.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-114.mzXML SUBJECT_SAMPLE_FACTORS M-116 M-116 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M116.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-116.mzXML SUBJECT_SAMPLE_FACTORS M-117 M-117 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M117.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-117.mzXML SUBJECT_SAMPLE_FACTORS M-118 M-118 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M118.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-118.mzXML SUBJECT_SAMPLE_FACTORS M-120 M-120 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M120.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-120.mzXML SUBJECT_SAMPLE_FACTORS M-121 M-121 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M121.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-121.mzXML SUBJECT_SAMPLE_FACTORS M-122 M-122 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M122.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-122.mzXML SUBJECT_SAMPLE_FACTORS M-123 M-123 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M123.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-123.mzXML SUBJECT_SAMPLE_FACTORS M-124 M-124 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M124.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-124.mzXML SUBJECT_SAMPLE_FACTORS M-127 M-127 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M127.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-127.mzXML SUBJECT_SAMPLE_FACTORS M-129 M-129 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M129.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-129.mzXML SUBJECT_SAMPLE_FACTORS M-130 M-130 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M130.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-130.mzXML SUBJECT_SAMPLE_FACTORS M-131 M-131 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M131.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-131.mzXML SUBJECT_SAMPLE_FACTORS M-132 M-132 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M132.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-132.mzXML SUBJECT_SAMPLE_FACTORS M-133 M-133 Sample source:serum | Sample_type:AIS | Column type:Phenomenex kinetex C18(100 × 2.1 mm,2.6 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M133.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-133.mzXML SUBJECT_SAMPLE_FACTORS N2 N2 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N2.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N2.mzXML SUBJECT_SAMPLE_FACTORS N3 N3 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N3.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N3.mzXML SUBJECT_SAMPLE_FACTORS N4 N4 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N4.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N4.mzXML SUBJECT_SAMPLE_FACTORS N5 N5 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N5.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N5.mzXML SUBJECT_SAMPLE_FACTORS N6 N6 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N6.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N6.mzXML SUBJECT_SAMPLE_FACTORS N7 N7 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N7.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N7.mzXML SUBJECT_SAMPLE_FACTORS N8 N8 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N8.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N8.mzXML SUBJECT_SAMPLE_FACTORS N9 N9 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N9.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N9.mzXML SUBJECT_SAMPLE_FACTORS N10 N10 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N10.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N10.mzXML SUBJECT_SAMPLE_FACTORS N11 N11 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N11.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N11.mzXML SUBJECT_SAMPLE_FACTORS N12 N12 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N12.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N12.mzXML SUBJECT_SAMPLE_FACTORS N13 N13 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N13.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N13.mzXML SUBJECT_SAMPLE_FACTORS N14 N14 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N14.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N14.mzXML SUBJECT_SAMPLE_FACTORS N15 N15 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N15.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N15.mzXML SUBJECT_SAMPLE_FACTORS N16 N16 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N16.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N16.mzXML SUBJECT_SAMPLE_FACTORS N17 N17 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N17.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N17.mzXML SUBJECT_SAMPLE_FACTORS N18 N18 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N18.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N18.mzXML SUBJECT_SAMPLE_FACTORS N19 N19 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N19.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N19.mzXML SUBJECT_SAMPLE_FACTORS N20 N20 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N20.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N20.mzXML SUBJECT_SAMPLE_FACTORS N21 N21 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N21.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N21.mzXML SUBJECT_SAMPLE_FACTORS N22 N22 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N22.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N22.mzXML SUBJECT_SAMPLE_FACTORS N23 N23 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N23.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N23.mzXML SUBJECT_SAMPLE_FACTORS N24 N24 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N24.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N24.mzXML SUBJECT_SAMPLE_FACTORS N25 N25 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N25.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N25.mzXML SUBJECT_SAMPLE_FACTORS N26 N26 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N26.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N26.mzXML SUBJECT_SAMPLE_FACTORS N27 N27 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N27.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N27.mzXML SUBJECT_SAMPLE_FACTORS N28 N28 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N28.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N28.mzXML SUBJECT_SAMPLE_FACTORS N29 N29 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N29.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N29.mzXML SUBJECT_SAMPLE_FACTORS N31 N31 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N31.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N31.mzXML SUBJECT_SAMPLE_FACTORS N32 N32 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N32.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N32.mzXML SUBJECT_SAMPLE_FACTORS N33 N33 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N33.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N33.mzXML SUBJECT_SAMPLE_FACTORS N34 N34 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N34.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N34.mzXML SUBJECT_SAMPLE_FACTORS N35 N35 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N35.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N35.mzXML SUBJECT_SAMPLE_FACTORS N36 N36 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N36.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N36.mzXML SUBJECT_SAMPLE_FACTORS N37 N37 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N37.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N37.mzXML SUBJECT_SAMPLE_FACTORS N38 N38 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N38.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N38.mzXML SUBJECT_SAMPLE_FACTORS N39 N39 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N39.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N39.mzXML SUBJECT_SAMPLE_FACTORS N40 N40 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N40.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N40.mzXML SUBJECT_SAMPLE_FACTORS N41 N41 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N41.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N41.mzXML SUBJECT_SAMPLE_FACTORS N42 N42 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N42.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N42.mzXML SUBJECT_SAMPLE_FACTORS N48 N48 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N48.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N48.mzXML SUBJECT_SAMPLE_FACTORS N49 N49 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N49.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N49.mzXML SUBJECT_SAMPLE_FACTORS N52 N52 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N52.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N52.mzXML SUBJECT_SAMPLE_FACTORS N55 N55 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N55.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N55.mzXML SUBJECT_SAMPLE_FACTORS N59 N59 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N59.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N59.mzXML SUBJECT_SAMPLE_FACTORS N60 N60 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N60.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N60.mzXML SUBJECT_SAMPLE_FACTORS N62 N62 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N62.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N62.mzXML SUBJECT_SAMPLE_FACTORS N65 N65 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N65.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N65.mzXML SUBJECT_SAMPLE_FACTORS N69 N69 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N69.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N69.mzXML SUBJECT_SAMPLE_FACTORS N70 N70 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N70.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N70.mzXML SUBJECT_SAMPLE_FACTORS N71 N71 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N71.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N71.mzXML SUBJECT_SAMPLE_FACTORS N72 N72 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N72.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N72.mzXML SUBJECT_SAMPLE_FACTORS N73 N73 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N73.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N73.mzXML SUBJECT_SAMPLE_FACTORS N74 N74 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N74.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N74.mzXML SUBJECT_SAMPLE_FACTORS N75 N75 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N75.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N75.mzXML SUBJECT_SAMPLE_FACTORS N76 N76 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N76.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N76.mzXML SUBJECT_SAMPLE_FACTORS N77 N77 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N77.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N77.mzXML SUBJECT_SAMPLE_FACTORS N78 N78 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N78.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N78.mzXML SUBJECT_SAMPLE_FACTORS N79 N79 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N79.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N79.mzXML SUBJECT_SAMPLE_FACTORS N80 N80 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N80.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N80.mzXML SUBJECT_SAMPLE_FACTORS N81 N81 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N81.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N81.mzXML SUBJECT_SAMPLE_FACTORS N82 N82 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N82.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N82.mzXML SUBJECT_SAMPLE_FACTORS N83 N83 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N83.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N83.mzXML SUBJECT_SAMPLE_FACTORS N84 N84 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N84.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N84.mzXML SUBJECT_SAMPLE_FACTORS N85 N85 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N85.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N85.mzXML SUBJECT_SAMPLE_FACTORS N86 N86 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N86.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N86.mzXML SUBJECT_SAMPLE_FACTORS N87 N87 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N87.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N87.mzXML SUBJECT_SAMPLE_FACTORS N88 N88 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N88.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N88.mzXML SUBJECT_SAMPLE_FACTORS N89 N89 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N89.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N89.mzXML SUBJECT_SAMPLE_FACTORS N90 N90 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N90.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N90.mzXML SUBJECT_SAMPLE_FACTORS N91 N91 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N91.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N91.mzXML SUBJECT_SAMPLE_FACTORS N92 N92 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N92.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N92.mzXML SUBJECT_SAMPLE_FACTORS N93 N93 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N93.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N93.mzXML SUBJECT_SAMPLE_FACTORS N94 N94 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N94.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N94.mzXML SUBJECT_SAMPLE_FACTORS N95 N95 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N95.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N95.mzXML SUBJECT_SAMPLE_FACTORS N96 N96 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N96.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N96.mzXML SUBJECT_SAMPLE_FACTORS N97 N97 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N97.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N97.mzXML SUBJECT_SAMPLE_FACTORS N98 N98 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N98.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N98.mzXML SUBJECT_SAMPLE_FACTORS N99 N99 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N99.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N99.mzXML SUBJECT_SAMPLE_FACTORS N100 N100 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N100.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N100.mzXML SUBJECT_SAMPLE_FACTORS N101 N101 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N101.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N101.mzXML SUBJECT_SAMPLE_FACTORS N102 N102 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N102.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N102.mzXML SUBJECT_SAMPLE_FACTORS N103 N103 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N103.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N103.mzXML SUBJECT_SAMPLE_FACTORS N104 N104 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N104.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N104.mzXML SUBJECT_SAMPLE_FACTORS N105 N105 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N105.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N105.mzXML SUBJECT_SAMPLE_FACTORS N106 N106 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N106.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N106.mzXML SUBJECT_SAMPLE_FACTORS N107 N107 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N107.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N107.mzXML SUBJECT_SAMPLE_FACTORS N108 N108 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N108.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N108.mzXML SUBJECT_SAMPLE_FACTORS N109 N109 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N109.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N109.mzXML SUBJECT_SAMPLE_FACTORS N110 N110 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N110.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N110.mzXML SUBJECT_SAMPLE_FACTORS N111 N111 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N111.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N111.mzXML SUBJECT_SAMPLE_FACTORS N112 N112 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N112.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N112.mzXML SUBJECT_SAMPLE_FACTORS N113 N113 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N113.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N113.mzXML SUBJECT_SAMPLE_FACTORS N114 N114 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N114.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N114.mzXML SUBJECT_SAMPLE_FACTORS N115 N115 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N115.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N115.mzXML SUBJECT_SAMPLE_FACTORS N116 N116 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N116.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N116.mzXML SUBJECT_SAMPLE_FACTORS N117 N117 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N117.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N117.mzXML SUBJECT_SAMPLE_FACTORS N118 N118 Sample source:serum | Sample_type:HC | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-N118.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-N118.mzXML SUBJECT_SAMPLE_FACTORS M1 M1 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M1.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M1.mzXML SUBJECT_SAMPLE_FACTORS M2 M2 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M2.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M2.mzXML SUBJECT_SAMPLE_FACTORS M3 M3 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M3.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M3.mzXML SUBJECT_SAMPLE_FACTORS M4 M4 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M4.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M4.mzXML SUBJECT_SAMPLE_FACTORS M5 M5 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M5.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M5.mzXML SUBJECT_SAMPLE_FACTORS M8 M8 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M8.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M8.mzXML SUBJECT_SAMPLE_FACTORS M9 M9 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M9.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M9.mzXML SUBJECT_SAMPLE_FACTORS M10 M10 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M10.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M10.mzXML SUBJECT_SAMPLE_FACTORS M11 M11 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M11.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M11.mzXML SUBJECT_SAMPLE_FACTORS M12 M12 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M12.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M12.mzXML SUBJECT_SAMPLE_FACTORS M15 M15 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M15.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M15.mzXML SUBJECT_SAMPLE_FACTORS M16 M16 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M16.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M16.mzXML SUBJECT_SAMPLE_FACTORS M17 M17 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M17.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M17.mzXML SUBJECT_SAMPLE_FACTORS M18 M18 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M18.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M18.mzXML SUBJECT_SAMPLE_FACTORS M20 M20 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M20.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M20.mzXML SUBJECT_SAMPLE_FACTORS M21 M21 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M21.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M21.mzXML SUBJECT_SAMPLE_FACTORS M22 M22 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M22.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M22.mzXML SUBJECT_SAMPLE_FACTORS M24 M24 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M24.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M24.mzXML SUBJECT_SAMPLE_FACTORS M26 M26 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M26.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M26.mzXML SUBJECT_SAMPLE_FACTORS M28 M28 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M28.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M28.mzXML SUBJECT_SAMPLE_FACTORS M29 M29 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M29.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M29.mzXML SUBJECT_SAMPLE_FACTORS M30 M30 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M30.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M30.mzXML SUBJECT_SAMPLE_FACTORS M31 M31 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M31.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M31.mzXML SUBJECT_SAMPLE_FACTORS M32 M32 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M32.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M32.mzXML SUBJECT_SAMPLE_FACTORS M33 M33 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M33.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M33.mzXML SUBJECT_SAMPLE_FACTORS M34 M34 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M34.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M34.mzXML SUBJECT_SAMPLE_FACTORS M35 M35 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M35.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M35.mzXML SUBJECT_SAMPLE_FACTORS M36 M36 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M36.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M36.mzXML SUBJECT_SAMPLE_FACTORS M37 M37 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M37.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M37.mzXML SUBJECT_SAMPLE_FACTORS M38 M38 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M38.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M38.mzXML SUBJECT_SAMPLE_FACTORS M39 M39 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M39.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M39.mzXML SUBJECT_SAMPLE_FACTORS M40 M40 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M40.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M40.mzXML SUBJECT_SAMPLE_FACTORS M41 M41 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M41.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M41.mzXML SUBJECT_SAMPLE_FACTORS M43 M43 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M43.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M43.mzXML SUBJECT_SAMPLE_FACTORS M44 M44 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M44.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M44.mzXML SUBJECT_SAMPLE_FACTORS M45 M45 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M45.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M45.mzXML SUBJECT_SAMPLE_FACTORS M46 M46 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M46.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M46.mzXML SUBJECT_SAMPLE_FACTORS M47 M47 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M47.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M47.mzXML SUBJECT_SAMPLE_FACTORS M51 M51 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M51.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M51.mzXML SUBJECT_SAMPLE_FACTORS M53 M53 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M53.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M53.mzXML SUBJECT_SAMPLE_FACTORS M57 M57 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M57.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M57.mzXML SUBJECT_SAMPLE_FACTORS M58 M58 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M58.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M58.mzXML SUBJECT_SAMPLE_FACTORS M59 M59 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M59.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M59.mzXML SUBJECT_SAMPLE_FACTORS M61 M61 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M61.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M61.mzXML SUBJECT_SAMPLE_FACTORS M62 M62 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M62.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M62.mzXML SUBJECT_SAMPLE_FACTORS M63 M63 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M63.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M63.mzXML SUBJECT_SAMPLE_FACTORS M64 M64 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M64.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M64.mzXML SUBJECT_SAMPLE_FACTORS M65 M65 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M65.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M65.mzXML SUBJECT_SAMPLE_FACTORS M66 M66 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M66.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M66.mzXML SUBJECT_SAMPLE_FACTORS M67 M67 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M67.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M67.mzXML SUBJECT_SAMPLE_FACTORS M68 M68 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M68.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M68.mzXML SUBJECT_SAMPLE_FACTORS M69 M69 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M69.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M69.mzXML SUBJECT_SAMPLE_FACTORS M70 M70 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M70.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M70.mzXML SUBJECT_SAMPLE_FACTORS M71 M71 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M71.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M71.mzXML SUBJECT_SAMPLE_FACTORS M72 M72 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M72.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M72.mzXML SUBJECT_SAMPLE_FACTORS M73 M73 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M73.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M73.mzXML SUBJECT_SAMPLE_FACTORS M74 M74 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M74.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M74.mzXML SUBJECT_SAMPLE_FACTORS M77 M77 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M77.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M77.mzXML SUBJECT_SAMPLE_FACTORS M78 M78 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M78.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M78.mzXML SUBJECT_SAMPLE_FACTORS M80 M80 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M80.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M80.mzXML SUBJECT_SAMPLE_FACTORS M81 M81 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M81.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M81.mzXML SUBJECT_SAMPLE_FACTORS M83 M83 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M83.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M83.mzXML SUBJECT_SAMPLE_FACTORS M84 M84 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M84.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M84.mzXML SUBJECT_SAMPLE_FACTORS M85 M85 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M85.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M85.mzXML SUBJECT_SAMPLE_FACTORS M86 M86 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M86.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M86.mzXML SUBJECT_SAMPLE_FACTORS M87 M87 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M87.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M87.mzXML SUBJECT_SAMPLE_FACTORS M88 M88 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M88.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M88.mzXML SUBJECT_SAMPLE_FACTORS M89 M89 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M89.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M89.mzXML SUBJECT_SAMPLE_FACTORS M91 M91 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M91.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M91.mzXML SUBJECT_SAMPLE_FACTORS M93 M93 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M93.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M93.mzXML SUBJECT_SAMPLE_FACTORS M94 M94 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M94.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M94.mzXML SUBJECT_SAMPLE_FACTORS M96 M96 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M96.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M96.mzXML SUBJECT_SAMPLE_FACTORS M98 M98 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M98.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M98.mzXML SUBJECT_SAMPLE_FACTORS M101 M101 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M101.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M101.mzXML SUBJECT_SAMPLE_FACTORS M103 M103 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M103.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M103.mzXML SUBJECT_SAMPLE_FACTORS M104 M104 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M104.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M104.mzXML SUBJECT_SAMPLE_FACTORS M106 M106 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M106.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M106.mzXML SUBJECT_SAMPLE_FACTORS M107 M107 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M107.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M107.mzXML SUBJECT_SAMPLE_FACTORS M108 M108 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M108.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M108.mzXML SUBJECT_SAMPLE_FACTORS M109 M109 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M109.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M109.mzXML SUBJECT_SAMPLE_FACTORS M111 M111 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M111.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M111.mzXML SUBJECT_SAMPLE_FACTORS M112 M112 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M112.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M112.mzXML SUBJECT_SAMPLE_FACTORS M113 M113 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M113.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M113.mzXML SUBJECT_SAMPLE_FACTORS M114 M114 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M114.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M114.mzXML SUBJECT_SAMPLE_FACTORS M116 M116 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M116.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M116.mzXML SUBJECT_SAMPLE_FACTORS M117 M117 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M117.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M117.mzXML SUBJECT_SAMPLE_FACTORS M118 M118 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M118.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M118.mzXML SUBJECT_SAMPLE_FACTORS M120 M120 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M120.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M120.mzXML SUBJECT_SAMPLE_FACTORS M121 M121 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M121.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M121.mzXML SUBJECT_SAMPLE_FACTORS M122 M122 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M122.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M122.mzXML SUBJECT_SAMPLE_FACTORS M123 M123 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M123.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M123.mzXML SUBJECT_SAMPLE_FACTORS M124 M124 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M124.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M124.mzXML SUBJECT_SAMPLE_FACTORS M127 M127 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M127.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M127.mzXML SUBJECT_SAMPLE_FACTORS M129 M129 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M129.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M129.mzXML SUBJECT_SAMPLE_FACTORS M130 M130 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M130.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M130.mzXML SUBJECT_SAMPLE_FACTORS M131 M131 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M131.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M131.mzXML SUBJECT_SAMPLE_FACTORS M132 M132 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M132.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M132.mzXML SUBJECT_SAMPLE_FACTORS M133 M133 Sample source:serum | Sample_type:AIS | Column type:Waters ACQUITY UPLC BEH Amide(2.1 × 100 mm,1.7 μm) RAW_FILE_NAME(Positive_mzXML_FILE_NAME)=pos-M133.mzXML; RAW_FILE_NAME(Negative_mzXML_FILE_NAME)=neg-M133.mzXML #COLLECTION CO:COLLECTION_SUMMARY Serum samples from ischemic stroke patients were collected at the Second CO:COLLECTION_SUMMARY Affiliated Hospital of Wenzhou Medical University between March 2021 and August CO:COLLECTION_SUMMARY 2022. A total of 196 participants were enrolled in this study, including 52 AIS CO:COLLECTION_SUMMARY patients and 50 age- and sex-matched healthy controls (HC) in the discovery CO:COLLECTION_SUMMARY cohort, and 46 AIS patients and 48 age- and sex-matched HC in the validation CO:COLLECTION_SUMMARY cohort. Patient inclusion criteria were: (1) age >18 years; (2) diagnosis of CO:COLLECTION_SUMMARY AIS; (3) provision of informed consent directly by the patient or by their CO:COLLECTION_SUMMARY immediate relatives. Patients were excluded if they had: (1) cerebral CO:COLLECTION_SUMMARY hemorrhage; (2) severe cardiac, pulmonary, or renal impairment; (3) malignancy; CO:COLLECTION_SUMMARY (4) surgery within the past 3 months; or (5) transient ischemic attack or CO:COLLECTION_SUMMARY disease of unknown etiology. Blood samples were collected using CO:COLLECTION_SUMMARY ethylenediaminetetraacetic acid as an anticoagulant. Samples were allowed to CO:COLLECTION_SUMMARY clot at room temperature for 30 minutes and then centrifuged (3,000 × g, 10 CO:COLLECTION_SUMMARY min) to collect the supernatant. All patients and their families were informed CO:COLLECTION_SUMMARY about the study procedures and provided written informed consent. All CO:COLLECTION_SUMMARY experiments involving human samples were approved by the Ethics Committee of the CO:COLLECTION_SUMMARY Second Affiliated Hospital of Wenzhou Medical University (No. 2021-K-73-02) and CO:COLLECTION_SUMMARY conducted in accordance with the principles of the Declaration of Helsinki. CO:SAMPLE_TYPE Blood (serum) #TREATMENT TR:TREATMENT_SUMMARY Blood samples were collected using ethylenediaminetetraacetic acid as an TR:TREATMENT_SUMMARY anticoagulant. Samples were allowed to clot at room temperature for 30 minutes TR:TREATMENT_SUMMARY and then centrifuged (3,000 × g, 10 min) to collect the supernatant. #SAMPLEPREP SP:SAMPLEPREP_SUMMARY For untargeted metabolomics, 150 µL of serum was aliquoted. Proteins were SP:SAMPLEPREP_SUMMARY precipitated by adding 400 µL of cold acetonitrile:methanol (1:1, v/v) to 200 SP:SAMPLEPREP_SUMMARY µL of plasma. After vortexing for 60 s and centrifugation, the supernatant was SP:SAMPLEPREP_SUMMARY collected. Sequential liquid-liquid extraction was performed by adding methanol: SP:SAMPLEPREP_SUMMARY water: dichloromethane (1:1:2, v/v/v). Samples were homogenized (60 Hz, 2 min), SP:SAMPLEPREP_SUMMARY incubated at 4 ℃ for 30 min, and centrifuged (15,000 × g, 15 min, 4 ℃). The SP:SAMPLEPREP_SUMMARY upper methanol-water layer (polar metabolites) and lower dichloromethane layer SP:SAMPLEPREP_SUMMARY (lipids) were separately collected. Each layer was dried under N2 gas. Polar SP:SAMPLEPREP_SUMMARY extracts were reconstituted in 200 µL of 50% acetonitrile in water containing SP:SAMPLEPREP_SUMMARY 2-chloro-L-phenylalanine (internal standard). Lipid extracts were reconstituted SP:SAMPLEPREP_SUMMARY in 100 µL of chloroform:methanol (1:1, v/v) containing the internal standard. SP:SAMPLEPREP_SUMMARY Samples were centrifuged (15,000 × g, 15 min, 4 ℃), and supernatants were SP:SAMPLEPREP_SUMMARY transferred to LC vials with glass inserts for analysis. Quality control (QC) SP:SAMPLEPREP_SUMMARY samples were prepared by pooling 10 µL aliquots from each sample extract. #CHROMATOGRAPHY CH:CHROMATOGRAPHY_TYPE Reversed phase CH:INSTRUMENT_NAME Waters Acquity H-Class CH:COLUMN_NAME Phenomenex Kinetex C18 (100 x 2.1mm,2.6um) CH:SOLVENT_A H2O: MeOH: ACN (3:1:1, v/v/v) with 5 mM ammonium acetate; CH:SOLVENT_B isopropanol CH:FLOW_GRADIENT 0-0.5 min, 25% B; 0.5-1.5 min, 25-40% B; 1.5-3 min, 40-60% B; 3-13 min, 60-98% CH:FLOW_GRADIENT B; 13-13.1 min, 98-25% B; 13.1-18 min, 25% B CH:FLOW_RATE 0.3 mL/min CH:COLUMN_TEMPERATURE 40℃ #ANALYSIS AN:ANALYSIS_TYPE MS #MS MS:INSTRUMENT_NAME ABI Sciex 6600 TripleTOF MS:INSTRUMENT_TYPE QTOF MS:MS_TYPE ESI MS:ION_MODE POSITIVE MS:MS_COMMENTS Raw data were processed using MarkerView software. Key parameters included: peak MS:MS_COMMENTS extraction time 0.5-15 min, retention time tolerance 0.1 min, m/z tolerance 20 MS:MS_COMMENTS ppm, minimum peak intensity 500. Metabolites detected in <80% of samples were MS:MS_COMMENTS excluded. Peaks with intensity <500 were removed. Coefficients of variation (CV% MS:MS_COMMENTS = [standard deviation / mean] × 100%) were calculated across QC injections; MS:MS_COMMENTS peaks with CV% > 30% were excluded. Multivariate statistical analysis, including MS:MS_COMMENTS principal component analysis (PCA), was performed using SIMCA-P software (v14.0, MS:MS_COMMENTS Umetrics, Umeå, Sweden). Univariate statistical analysis was used to identify MS:MS_COMMENTS significant differential metabolites, visualized by volcano plots. Metabolite MS:MS_COMMENTS identification was based on accurate m/z and MS/MS fragmentation patterns using MS:MS_COMMENTS MS-DIAL, MetDNA2 , One-MAP software and validated against the Human Metabolome MS:MS_COMMENTS Database . Pathway enrichment analysis was performed using MetaboAnalyst. MS:MS_RESULTS_FILE ST004198_AN006979_Results.txt UNITS:m/z Has m/z:Yes Has RT:Yes RT units:Minutes #END