List of Studies ( Metabolite:Cer 18:1;O2/25:0)
| Study_id | Analysis_id | Study_title | Source | Species | Disease | Institute | Analysis Type |
|---|---|---|---|---|---|---|---|
| ST004296 | AN007143 | (MS data) Global metabolomics identifies new extracellular biomarkers of nanovibration-driven mesenchymal stem cells osteodifferentiation | Stem cells | Human | Bone disease | University of Aveiro | LC-MS |
| ST004168 | AN006919 | Integrative brain omics approach highlights sn-1 lysophosphatidylethanolamine in Alzheimer's dementia | Brain | Human | Alzheimers disease | Emory University | LC-MS |
| ST004049 | AN006694 | Comparison of lipidome from phagosomes containing Pam3csk4-beads vs. uncoupled-beads | Macrophages | Mouse | St Jude Children's Research Hospital | LC-MS | |
| ST004049 | AN006695 | Comparison of lipidome from phagosomes containing Pam3csk4-beads vs. uncoupled-beads | Macrophages | Mouse | St Jude Children's Research Hospital | LC-MS | |
| ST003897 | AN006400 | Postprandial Plasma Lipidomic Changes in 147 Individuals Following Ingestion of a Standard Mixed Meal | Blood | Human | Cardiovascular disease | Nanjing Medical University | Other |
| ST003897 | AN006400 | Postprandial Plasma Lipidomic Changes in 147 Individuals Following Ingestion of a Standard Mixed Meal | Blood | Human | Diabetes | Nanjing Medical University | Other |
| ST003897 | AN006400 | Postprandial Plasma Lipidomic Changes in 147 Individuals Following Ingestion of a Standard Mixed Meal | Blood | Human | Obesity | Nanjing Medical University | Other |
| ST003894 | AN006397 | Postprandial Plasma Lipidomic Changes in 24 Metabolically Healthy Individuals Following Ingestion of Four Different Isocaloric Macronutrients | Blood | Human | Cardiovascular disease | Nanjing Medical University | Other |
| ST003894 | AN006397 | Postprandial Plasma Lipidomic Changes in 24 Metabolically Healthy Individuals Following Ingestion of Four Different Isocaloric Macronutrients | Blood | Human | Diabetes | Nanjing Medical University | Other |
| ST003894 | AN006397 | Postprandial Plasma Lipidomic Changes in 24 Metabolically Healthy Individuals Following Ingestion of Four Different Isocaloric Macronutrients | Blood | Human | Obesity | Nanjing Medical University | Other |
| ST003842 | AN006314 | Lipidomics analysis of Bombyx mori cocoon shell in positive and negative mode | Cocoon shell | Silkworm | National and Kapodistrian University of Athens | LC-MS | |
| ST003842 | AN006315 | Lipidomics analysis of Bombyx mori cocoon shell in positive and negative mode | Cocoon shell | Silkworm | National and Kapodistrian University of Athens | LC-MS | |
| ST003760 | AN006174 | Untargeted lipidomics of combination gemcitabine/paclitaxel attenuated (CombAT) PDAC cells | Pancreas | Human | Cancer | Victor Chang Cardiac Research Institute | LC-MS |
| ST003758 | AN006170 | Untargeted lipidomics of gemcitabine-resistant cells | Pancreas | Human | Cancer | Victor Chang Cardiac Research Institute | LC-MS |
| ST003751 | AN006158 | Comprehensive Lipidomic Analysis Identifies Critical Lipid and Metabolic Pathway Shifts in Alport Syndrome | Blood | Human | Kidney disease | Universidad CEU San Pablo | LC-MS |
| ST003751 | AN006158 | Comprehensive Lipidomic Analysis Identifies Critical Lipid and Metabolic Pathway Shifts in Alport Syndrome | Urine | Human | Kidney disease | Universidad CEU San Pablo | LC-MS |
| ST003751 | AN006159 | Comprehensive Lipidomic Analysis Identifies Critical Lipid and Metabolic Pathway Shifts in Alport Syndrome | Blood | Human | Kidney disease | Universidad CEU San Pablo | LC-MS |
| ST003751 | AN006159 | Comprehensive Lipidomic Analysis Identifies Critical Lipid and Metabolic Pathway Shifts in Alport Syndrome | Urine | Human | Kidney disease | Universidad CEU San Pablo | LC-MS |
| ST003703 | AN006075 | NAD Depletion in Skeletal Muscle does not Compromise Muscle Function or Accelerate Aging | Muscle | Mouse | Sarcopenia | University of Copenhagen | LC-MS |
| ST003694 | AN006061 | FOLFIRINOX effects on lipidomics in pancreatic cancer cells | Pancreas | Human | Cancer | Pennsylvania State University | LC-MS |
| ST003678 | AN006039 | The effects of cystine limitation stress adaptation (CLSA) on lipidomics changes in pancreatic cancer cells | Pancreas | Human | Cancer | Pennsylvania State University | LC-MS |
| ST003661 | AN006017 | Lipidomics facilitates the discovery of diagnostic biomarkers in patients with chronic total occlusion during the perioperative period | Blood | Human | Cardiovascular disease | Zhongshan Hospital Fudan University | LC-MS |
| ST003655 | AN006005 | Bacteria-derived 3-hydroxydodecanoic acid induces a potent anti-tumor immune response via GPR84 receptor | Blood | Human | Cancer | Universitätsspital Zürich | MALDI-MS |
| ST003655 | AN006005 | Bacteria-derived 3-hydroxydodecanoic acid induces a potent anti-tumor immune response via GPR84 receptor | Blood | Mouse | Cancer | Universitätsspital Zürich | MALDI-MS |
| ST003637 | AN005973 | lomitapide effects on lipidomics | Pancreas | Human | Cancer | Pennsylvania State University | LC-MS |
| ST003632 | AN005965 | Dysregulated Lipid Metabolism in African American Women Who Experienced Cardiometabolic Complications of Pregnancy | Blood | Human | Preeclampsia | Emory University | LC-MS |
| ST003629 | AN005962 | Impact of human PSMC5 gene mutations on neuronal development: Lipid profiling of PSMC5 mutant T cells | T-cells | Human | Brain disease | Leibniz Institute for Plasma Science and Technology | LC-MS |
| ST003528 | AN005796 | Lipidomics profiling of livers from Alb-Cre +/- SART-/- (KO) versus age matched wild type WT mouse littermates to characterize progression to hepatic steatosis and hepatocellular carcinoma | Liver | Mouse | Cancer | University of Utah | LC-MS |
| ST003527 | AN005794 | Combining antibiotics alters the longitudinal maturation of gut microbiota and its short chain fatty acid metabolites in extremely and very preterm infants | Feces | Human | Gastrointestinal disease | Seoul National University | GC-MS/LC-MS |
| ST003514 | AN005770 | Highly reliable LC-MS lipidomics database for efficient human plasma profiling based on NIST SRM 1950 | Blood | Human | Universidad CEU San Pablo | LC-MS | |
| ST003477 | AN005712 | Biocrates Test | Blood | Human | Hannover Medical School | LC-MS | |
| ST003403 | AN005585 | The double-edged role of FASII regulator FabT in Streptococcus pyogenes infection - Metabolomics | Bacterial cells | Streptococcus pyogenes | Bacterial infection | INSERM | LC-MS |
| ST003391 | AN005565 | Impact of high-fat diet enriched in cis or trans fatty acids and myriocin on plasma sphingolipids in Ldlr-/- mice | Blood | Mouse | Atherosclerosis | Salk Institute for Biological Studies | LC-MS |
| ST003390 | AN005564 | In-depth profiling of biosignatures for Type 2 diabetes mellitus cohort utilizing an integrated targeted LC-MS platform | Blood | Human | Diabetes | First Affiliated Hospital of Dalian Medical University | LC-MS |
| ST003382 | AN005540 | Sphingolipid biosynthetic flux in Huh7 SPTLC3 KO cells | Cultured cells | Human | Atherosclerosis | Salk Institute for Biological Studies | LC-MS |
| ST003364 | AN005511 | Deep lipidomic profiling reveals sex dimorphism of lipid metabolism in fibro-calcific aortic valve disease | Aortic valve tissue | Human | Heart disease | Technical University Dresden | LC-MS |
| ST003357 | AN005499 | Incorporation of oleate-d9 and elaidate-d17 in sphingolipids in Huh7 cells. | Cultured cells | Human | Atherosclerosis | Salk Institute for Biological Studies | LC-MS |
| ST003326 | AN005448 | Lipidome profiling in non-alcoholic steatohepatitis identifies phosphatidylserine synthase 1 as a regulator of hepatic lipoprotein metabolism | Liver | Mouse | Liver disease | University of Melbourne | LC-MS |
| ST003290 | AN005389 | High expression of oleoyl-ACP-hydrolase underpins life-threatening respiratory viral diseases | Lung | Mouse | Viral infection | Peter Doherty Institute for Infection and Immunity | LC-MS |
| ST003248 | AN005321 | Effects of acute mitoregulin loss on cardiac mitochondrial lipids in mice | Mitochondria | Mouse | Cardiovascular disease | University of Iowa | LC-MS |
| ST003247 | AN005319 | Effects of mitoregulin loss in aged female mice | Heart | Mouse | Cardiovascular disease | University of Iowa | LC-MS |
| ST003242 | AN005311 | Lipidomic analysis of kidney from Gclc WT and whole-body Gclc KO mice. | Kidney | Mouse | Oxidative stress | University of Rochester Medical Center | LC-MS |
| ST003242 | AN005311 | Lipidomic analysis of kidney from Gclc WT and whole-body Gclc KO mice. | Kidney | Mouse | Stress | University of Rochester Medical Center | LC-MS |
| ST003241 | AN005309 | Lipidomic analysis of lung from Gclc WT and whole-body Gclc KO mice. | Lung | Mouse | Oxidative stress | University of Rochester Medical Center | LC-MS |
| ST003241 | AN005309 | Lipidomic analysis of lung from Gclc WT and whole-body Gclc KO mice. | Lung | Mouse | Stress | University of Rochester Medical Center | LC-MS |
| ST003239 | AN005305 | Lipidomic analysis of adipose from Gclc WT and whole-body Gclc KO mice. | Adipose tissue | Mouse | Oxidative stress | University of Rochester Medical Center | LC-MS |
| ST003130 | AN005133 | Pulmonary maternal immune activation does not extend through the placenta but leads to fetal metabolic adaptation - Maternal blood | Blood | Mouse | University of Copenhagen | LC-MS | |
| ST003129 | AN005131 | Pulmonary maternal immune activation does not extend through the placenta but leads to fetal metabolic adaptation - Maternal liver | Liver | Mouse | University of Copenhagen | LC-MS | |
| ST003125 | AN005123 | Pulmonary maternal immune activation does not extend through the placenta but leads to fetal metabolic adaptation - Fetal liver | Liver | Mouse | Maternal immune system activation | University of Copenhagen | LC-MS |
| ST003103 | AN005077 | Reinforcing the Evidence of Mitochondrial Dysfunction in Long COVID Patients using a Multiplatform Mass Spectrometry-based Metabolomics Approach | Blood | Human | COVID-19 | Universidad CEU San Pablo | GC-MS/LC-MS |
| ST003103 | AN005078 | Reinforcing the Evidence of Mitochondrial Dysfunction in Long COVID Patients using a Multiplatform Mass Spectrometry-based Metabolomics Approach | Blood | Human | COVID-19 | Universidad CEU San Pablo | GC-MS/LC-MS |
| ST003038 | AN004984 | Untargeted lipidomics of WT and Cyp2c44(-/-) mice liver. | Liver | Mouse | Diabetes | Vanderbilt University Medical Center | LC-MS |
| ST003038 | AN004985 | Untargeted lipidomics of WT and Cyp2c44(-/-) mice liver. | Liver | Mouse | Diabetes | Vanderbilt University Medical Center | LC-MS |
| ST002967 | AN004875 | Lipidomics study of FASN inhibition in HT-29 and HCT 116 spheroids | Cultured cells | Human | Cancer | Ohio State University | LC-MS |
| ST002911 | AN004780 | LiLA: Lipid Lung-based ATLAS built Through a Comprehensive Workflow Designed for an Accurate Lipid Annotation | Lung | Mouse | Tuberculosis | Universidad CEU San Pablo | LC-MS |
| ST002911 | AN004781 | LiLA: Lipid Lung-based ATLAS built Through a Comprehensive Workflow Designed for an Accurate Lipid Annotation | Lung | Mouse | Tuberculosis | Universidad CEU San Pablo | LC-MS |
| ST002880 | AN004719 | Hypoxia-driven dynamics of tomato root lipidome | Roots | Tomato | Leibniz Institute for Plasma Science and Technology | LC-MS | |
| ST002787 | AN004534 | Metabolomic analysis of gut metabolites in colorectal cancer patients: correlation with disease development and outcome | Feces | Human | Cancer | Wuhan University of Science and Technology | LC-MS |
| ST002747 | AN004457 | Evolutionary genomics identifies host-directed therapeutics to treat intracellular bacterial infections | Cultured cells | Human | CZ Biohub | LC-MS | |
| ST002747 | AN004457 | Evolutionary genomics identifies host-directed therapeutics to treat intracellular bacterial infections | Cultured cells | Rickettsia parkeri | CZ Biohub | LC-MS | |
| ST002732 | AN004429 | Impaired metabolism predicts coronary artery calcification in women with systemic lupus erythematosus | Blood | Human | Systemic lupus erythematosus | INSERM | LC-MS |
| ST002713 | AN004398 | Ranolazine induced metabolic rewiring improves melanoma responses to targeted therapy and immunotherapy - lipidomics | Cultured cells | Human | Cancer | University of Colorado Denver | LC-MS |
| ST002691 | AN004364 | MoTrPAC: Endurance exercise training study in young adult rats, Rat White Adipose Powder - Untargeted Lipidomics, Reversed-Phase Positive | White adipose | Rat | Georgia Institute of Technology | LC-MS | |
| ST002685 | AN004358 | MoTrPAC: Endurance exercise training study in young adult rats, Rat Brown Adipose Powder - Untargeted Lipidomics, Reversed-Phase Positive | Brown adipose | Rat | Georgia Institute of Technology | LC-MS | |
| ST002678 | AN004350 | MoTrPAC: Endurance exercise training study in young adult rats, Rat Liver Powder - Untargeted Lipidomics, Reversed-Phase Positive | Liver | Rat | Georgia Institute of Technology | LC-MS | |
| ST002671 | AN004343 | MoTrPAC: Endurance exercise training study in young adult rats, Rat Lung Powder - Untargeted Lipidomics, Reversed-Phase Positive | Lung | Rat | Georgia Institute of Technology | LC-MS | |
| ST002657 | AN004329 | MoTrPAC: Endurance exercise training study in young adult rats, Rat Kidney Powder - Untargeted Lipidomics, Reversed-Phase Positive | Kidney | Rat | Georgia Institute of Technology | LC-MS | |
| ST002652 | AN004324 | MoTrPAC: Endurance exercise training study in young adult rats, Rat Heart Powder - Untargeted Lipidomics, Reversed-Phase Positive | Heart | Rat | Georgia Institute of Technology | LC-MS | |
| ST002645 | AN004317 | MoTrPAC: Endurance exercise training study in young adult rats, Rat Gastrocnemius Powder - Untargeted Lipidomics, Reversed-Phase Positive | Gastrocnemius | Rat | Georgia Institute of Technology | LC-MS | |
| ST002637 | AN004309 | MoTrPAC: Endurance exercise training study in young adult rats, Rat Hippocampus Powder - Untargeted Lipidomics, Reversed-Phase Positive | Hippocampus | Rat | Georgia Institute of Technology | LC-MS | |
| ST002631 | AN004303 | MoTrPAC: Endurance exercise training study in young adult rats, Rat Plasma - Untargeted Lipidomics, Reversed-Phase Positive | Blood | Rat | Georgia Institute of Technology | LC-MS | |
| ST002551 | AN004200 | Metabolomics dataset of CNTF induced axon regeneration in mice post optic nerve crush | Eye tissue | Mouse | Eye disease | University of Miami | LC-MS |
| ST002522 | AN004156 | Lipidomics study on the effect of LBP protein on hepatic lipid composition in mice | Liver | Mouse | Oxidative stress | University of Science and Technology of China | LC-MS |
| ST002505 | AN004127 | A Mammalian Conserved Circular RNA CircLARP2 Regulates Hepatocellular Carcinoma Metastasis and Lipid Metabolism (Part 1) | Cultured cells | Human | Cancer | University of Science and Technology of China | LC-MS |
| ST002452 | AN004008 | Lipidomic analysis of human brain from frontotemporal dementia cases of with GRN and C9orf72 mutations | Brain | Human | Dementia | University of Sydney | LC-MS |
| ST002400 | AN003908 | Alcohol dehydrogenase 1B is crucial for adipocyte homeostasis | Cultured cells | Human | INSERM | LC-MS | |
| ST002303 | AN003763 | Fitm2 is required for ER homeostasis and normal function of murine liver | Liver | Mouse | Harvard School of Public Health | LC-MS | |
| ST002283 | AN003730 | The “ForensOMICS” approach to forensic post-mortem interval estimation: combining metabolomics, lipidomics and proteomics for the analysis human skeletal remains | Bone | Human | University of Central Lancashire | LC-MS | |
| ST002283 | AN003731 | The “ForensOMICS” approach to forensic post-mortem interval estimation: combining metabolomics, lipidomics and proteomics for the analysis human skeletal remains | Bone | Human | University of Central Lancashire | LC-MS | |
| ST002101 | AN003434 | Functional metabolomics-based molecular profiling of acute and chronic hepatitis (Liver Lipidomics) | Liver | Mouse | NASH | Shanghai Center for Systems Biomedicine, Shanghai Jiaotong University | LC-MS |
| ST002094 | AN003420 | Commensal intestinal microbiota regulates host luminal proteolytic activity and intestinal barrier integrity through β-glucuronidase activity (Part 1) | Feces | Human | Irritable bowel syndrome | Mayo Clinic | LC-MS |
| ST002093 | AN003419 | Lipidomics of High Fat vs Control Mice | Lung | Mouse | Obesity | University of North Carolina at Chapel Hill | LC-MS |
| ST002047 | AN003334 | Lyso-lipid induced oligodendrocytes maturation underlie restoration of optic nerve function | Cultured cells | Rat | Eye disease | University of Miami | LC-MS |
| ST002023 | AN003293 | A targeted metabolomics study for assessing rodent thyroid toxicity | Liver | Rat | Thyroid toxicity | Helmholtz Centre for Environmental Research | LC-MS |
| ST002023 | AN003293 | A targeted metabolomics study for assessing rodent thyroid toxicity | Thyroid | Rat | Thyroid toxicity | Helmholtz Centre for Environmental Research | LC-MS |
| ST001964 | AN003202 | Quantitative genome-scale analysis of human liver reveals dysregulation of glycosphingolipid pathways in progressive nonalcoholic fatty liver disease | Blood | Human | Fatty liver disease | University of Turku | GC-MS |
| ST001950 | AN003174 | Lipidome Alterations Following Mild Traumatic Brain Injury. | Blood | Rat | Traumatic brain injury | Georgia Institute of Technology | LC-MS |
| ST001936 | AN004932 | Pseudoexfoliation aqueous humor lipidome suggests enrichment of specific pathways | Eye tissue | Human | Pseudoexfoliation syndrome | University of Miami | LC-MS |
| ST001919 | AN003118 | Exposure to environmental contaminants is associated with alterations in hepatic lipid metabolism in non-alcoholic fatty liver disease | Liver | Mouse | Fatty liver disease | Örebro University | LC-MS |
| ST001903 | AN003816 | Effect of ketogenic diet on the plasma and tumor metabolome of melanoma-bearing mice | Blood | Mouse | Cancer | University Hospital of the Paracelsus Medical University Salzburg | LC-MS/MS(Dir. Inf.) |
| ST001903 | AN003816 | Effect of ketogenic diet on the plasma and tumor metabolome of melanoma-bearing mice | Tumor tissue | Mouse | Cancer | University Hospital of the Paracelsus Medical University Salzburg | LC-MS/MS(Dir. Inf.) |
| ST001849 | AN002995 | Longitudinal Metabolomics of Human Plasma Reveals Robust Prognostic Markers of COVID-19 Disease Severity (part I) | Blood | Human | COVID-19 | Washington University in St. Louis | LC-MS |
| ST001789 | AN002901 | Acute metabolomic changes of plasma in response to endurance exercise | Blood | Human | University of California, San Diego | LC-MS | |
| ST001738 | AN002830 | AdipoAtlas: A Reference Lipidome for Human White Adipose Tissue | Adipose tissue | Human | Obesity | University of Leipzig | LC-MS |
| ST001725 | AN002810 | Lipidomics dataset of Danio rerio optic nerve regeneration model | Eye tissue | Zebrafish | Eye disease | University of Miami | LC-MS |
| ST001678 | AN002736 | Quantitative measurements of sphingolipids in Th17 cells before and after the knockdown of UGCG gene (GCS pathway: sphingolipid metabolism) (part-IV) | T-cells | Human | University of Turku | LC-MS | |
| ST001677 | AN002735 | Quantitative targeted measurements of sphingolipids in Th17 cells before and after the triple knockdown of SPTLC1,2,3 genes (SPT, de novo pathway: sphingolipid metabolism) (part-III) | T-cells | Human | University of Turku | LC-MS | |
| ST001442 | AN002410 | Human Optic Nerve Glaucoma and Control Lipidomes | Eye tissue | Human | Eye disease | University of Miami | MS(Dir. Inf.) |
| ST001420 | AN002375 | Metabolomic analysis of patients with recurrent angina | Blood | Human | Angina | University of California, San Diego | |
| ST001349 | AN002245 | Multiparous and Primiparous Simmental Dairy Cows | Blood | Cow | Institute of Animal Nutrition and Functional Plant Compounds | LC-MS/MS(Dir. Inf.) | |
| ST001140 | AN001871 | Changes in the Canine Plasma Lipidome after Short- and Long-Term Excess Glucocorticoid Exposure | Blood | Dog | National University of Singapore;University of Zurich | LC-MS | |
| ST001067 | AN001747 | Lipidomics analysis for aged mice femoral muscle (part - IV) | Adipose tissue | Mouse | Takeda Pharmaceutical Company Limited | LC-MS | |
| ST001067 | AN001747 | Lipidomics analysis for aged mice femoral muscle (part - IV) | Brain | Mouse | Takeda Pharmaceutical Company Limited | LC-MS | |
| ST001067 | AN001747 | Lipidomics analysis for aged mice femoral muscle (part - IV) | Liver | Mouse | Takeda Pharmaceutical Company Limited | LC-MS | |
| ST001067 | AN001747 | Lipidomics analysis for aged mice femoral muscle (part - IV) | Muscle | Mouse | Takeda Pharmaceutical Company Limited | LC-MS | |
| ST001066 | AN001745 | Lipidomics analysis for aged mice liver (part-III) | Adipose tissue | Mouse | Takeda Pharmaceutical Company Limited | LC-MS | |
| ST001066 | AN001745 | Lipidomics analysis for aged mice liver (part-III) | Brain | Mouse | Takeda Pharmaceutical Company Limited | LC-MS | |
| ST001066 | AN001745 | Lipidomics analysis for aged mice liver (part-III) | Liver | Mouse | Takeda Pharmaceutical Company Limited | LC-MS | |
| ST001066 | AN001745 | Lipidomics analysis for aged mice liver (part-III) | Muscle | Mouse | Takeda Pharmaceutical Company Limited | LC-MS | |
| ST001063 | AN001740 | Lipidomics analysis for aged mice organs | Adipose tissue | Mouse | Takeda Pharmaceutical Company Limited | LC-MS | |
| ST001063 | AN001740 | Lipidomics analysis for aged mice organs | Brain | Mouse | Takeda Pharmaceutical Company Limited | LC-MS | |
| ST001063 | AN001740 | Lipidomics analysis for aged mice organs | Liver | Mouse | Takeda Pharmaceutical Company Limited | LC-MS | |
| ST001063 | AN001740 | Lipidomics analysis for aged mice organs | Muscle | Mouse | Takeda Pharmaceutical Company Limited | LC-MS | |
| ST000903 | AN001470 | Pharmacometabolomic analysis of rat hippocampus and plasma in response to chronic stress and albiflorin treament | Blood | Rat | Stress | Beijing Wonner Biotech. Ltd. Co. | LC-MS |
| ST000620 | AN000952 | Sphingolipid Analysis of hyper and normotensive DBA2J mice aqueous humor and trabecular meshwork | Eye tissue | Mouse | Eye disease | University of Miami | MS(Dir. Inf.) |
| ST000617 | AN000947 | Validation of the application of targeted metabolomic appraoch in the diagnosis of CFS | Blood | Human | Myalgic encephalomyelitis/chronic fatigue syndrome | University of California, San Diego | LC-MS |
| ST000613 | AN000938 | Human TM Sphingolipid Analysis (part II) | Eye tissue | Human | Eye disease | University of Miami | MS(Dir. Inf.) |
| ST000612 | AN000937 | Sphingolipid Analysis of Human Aqueous Humor in Glaucomatous and Control eyes | Eye tissue | Human | Eye disease | University of Miami | MS(Dir. Inf.) |
| ST000465 | AN000727 | Uniquely Tumor-Selective Englerin A Profoundly Alters Lipid Metabolism in Renal Cell Carcinoma inducing ER-Stress and an Acute Inflammatory Response | Kidney | Human | Cancer | University of California, San Diego | LC-MS |
| ST000450 | AN000705 | Metabolic features of chronic fatigue syndrome | Blood | Human | Myalgic encephalomyelitis/chronic fatigue syndrome | University of California, San Diego | LC-MS |
| ST000445 | AN000696 | Follicular fluid lipidomics reveals lipid alterations by LH addition during IVF cycles | Follicular fluid | Human | Universidade Federal de Sao Paulo | LC-MS | |
| ST000362 | AN000594 | Associations between 69 Sphingolipids and Emphysema, Chronic Bronchitis, Exacerbations, and FEV1/FVC | Blood | Human | COPD | National Jewish Health | LC-MS |
| ST000004 | AN000006 | Lipidomics studies on NIDDK / NIST human plasma samples | Blood | Human | LIPID MAPS | LC-MS |
