List of Studies ( Metabolite:Cer 18:0;O3/16:0)
| Study_id | Analysis_id | Study_title | Source | Species | Disease | Institute | Analysis Type |
|---|---|---|---|---|---|---|---|
| ST004229 | AN007039 | Aromatic Microbial Metabolite Hippuric Acid Potentiates Pro-Inflammatory Responses in Macrophages through TLR-MyD88 Signaling and Lipid Remodeling - Lipidomics analysis on bone marrow derived macrophages pre-treated with hippuric acid and stimulated with M1-like (LPS+IFNγ) | Macrophages | Mouse | Bacterial infection | The Wistar Institute | LC-MS |
| ST004035 | AN006673 | Serum Metabolites at Defined Stages of Liver Disease | Liver | Mouse | Liver disease | University of Texas Health Science Center at Houston | LC-MS |
| ST003880 | AN006373 | Untargeted metabolome analysis of control and disease intervertebral disc tissue | Tissue | Human | Bone disease | Ganga Orthopaedic Research and Education Foundation | LC-MS |
| ST003817 | AN006275 | Irisin promotes bone tissue repair and intestinal protection in osteoporotic mice | Feces | Mouse | Osteoporosis | Huizhou Central People's Hospital | 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 |
| ST003673 | AN006032 | Identification of plasma metabolites responding to oxycodone exposure in rats | Blood | Rat | Addiction | University of Colorado Anschutz Medical Campus | Other |
| 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 |
| 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 |
| ST003277 | AN005366 | LC-MS/MS spatial analysis of mouse GI | Blood | Mouse | Brown University | Other | |
| ST003277 | AN005366 | LC-MS/MS spatial analysis of mouse GI | Cecum | Mouse | Brown University | Other | |
| ST003277 | AN005366 | LC-MS/MS spatial analysis of mouse GI | Colon | Mouse | Brown University | Other | |
| ST003277 | AN005366 | LC-MS/MS spatial analysis of mouse GI | DSI | Mouse | Brown University | Other | |
| ST003277 | AN005366 | LC-MS/MS spatial analysis of mouse GI | Liver | Mouse | Brown University | Other | |
| ST003277 | AN005366 | LC-MS/MS spatial analysis of mouse GI | MSI | Mouse | Brown University | Other | |
| ST003277 | AN005366 | LC-MS/MS spatial analysis of mouse GI | PSI | Mouse | Brown University | Other | |
| ST003277 | AN005366 | LC-MS/MS spatial analysis of mouse GI | Stomach | Mouse | Brown University | Other | |
| ST003222 | AN005283 | A small molecule macrophage migration inhibitory factor agonist ameliorates age-related myocardial intolerance to ischemia-reperfusion insults via metabolic regulation - Part 1 | Heart | Mouse | Ischemia | University of Mississippi Medical Center | LC-MS |
| ST003157 | AN005179 | Diet modulates the protective effects of dimethyl fumarate mediated by the immunometabolic neutrophil receptor HCA2 - Lipidomics | Blood | Mouse | Multiple sclerosis | University of Luebeck | LC-MS |
| ST003132 | AN005140 | Untargeted Metabolomics on Mouse colonic mucosa | Colonic mucosa | Mouse | University College Cork | Other | |
| ST003131 | AN005136 | Untargeted Metabolomics on mouse caecal contents | Cecum | Mouse | University College Cork | Other | |
| ST002880 | AN004719 | Hypoxia-driven dynamics of tomato root lipidome | Roots | Tomato | Leibniz Institute for Plasma Science and Technology | LC-MS | |
| ST002837 | AN004638 | Bacterial tryptophan metabolites increased by prebiotic galactooligosaccharide reduce microglial reactivity and are associated with lower anxiety-like behavior (Blood) | Blood | Mouse | Anxiety | National Center for Advancing Translational Sciences | Other |
| ST002836 | AN004634 | Bacterial tryptophan metabolites increased by prebiotic galactooligosaccharide reduce microglial reactivity and are associated with lower anxiety-like behavior (Intestine) | Intestine | Mouse | Anxiety | National Center for Advancing Translational Sciences | Other |
| ST002809 | AN004567 | Role of cilia in mitochondrial function | Cultured cells | Dog | Kidney disease | Medical University of South Carolina | LC-MS |
| ST002809 | AN004567 | Role of cilia in mitochondrial function | Cultured cells | Mouse | Kidney disease | Medical University of South Carolina | 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 |
| ST002754 | AN004469 | Metabolomics analysis of maternal obesity model | Blood | Mouse | Fatty liver disease | University of Bonn | 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 |
| ST002522 | AN004155 | 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 |
| 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 | AN004126 | 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 |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Apple | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Banana | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Basil | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Beet | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Carrot | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Chickpea | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Chili pepper | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Common bean | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Garlic | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Lettuce | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Maize | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Olive | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Onion | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Peach | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Pear | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Potato | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Soybean | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Spinach | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Strawberry | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002492 | AN004082 | Composition of raw plant-based food items | Plant | Tomato | Northeastern University; Massachusets Institute of Technology | LC-MS | |
| ST002398 | AN003905 | Lipidomics of Tango2 Deficient and Wildtype Zebrafish Muscle Tissue | Muscle | Zebrafish | Myopathy | University of North Carolina at Chapel Hill | 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 | |
| ST002195 | AN003593 | Untargeted lipidomics studies in the course of dermatitis onset and progression | Skin | Mouse | Dermatitis | Keio University | LC-MS |
| ST002155 | AN003530 | Longitudinal metabolomic stool dynamics in primary C. difficile infections | Feces | Human | Bacterial infection | Brigham and Women's Hospital | LC-MS |
| ST002149 | AN003519 | In vivo commensal control of Clostridioides difficile virulence | Cecum | Mouse | Brigham and Women's Hospital | LC-MS | |
| ST002145 | AN003511 | The Carbohydrate Sensing Transcription Factor ChREBP Links Mitochondrial Lipidomes to Mitochondrial Dynamics and Progression of Diabetic Nephropathy | Cultured cells | Mouse | Diabetes | University of Texas MD Anderson Cancer Center | LC-MS |
| ST002145 | AN003512 | The Carbohydrate Sensing Transcription Factor ChREBP Links Mitochondrial Lipidomes to Mitochondrial Dynamics and Progression of Diabetic Nephropathy | Cultured cells | Mouse | Diabetes | University of Texas MD Anderson Cancer Center | LC-MS |
| ST002094 | AN003421 | 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 |
| ST001936 | AN004932 | Pseudoexfoliation aqueous humor lipidome suggests enrichment of specific pathways | Eye tissue | Human | Pseudoexfoliation syndrome | University of Miami | LC-MS |
| ST001381 | AN002301 | Lipid profile Dataset of optogenetics induced optic nerve regeneration | Optic nerve | Mouse | Eye disease | University of Miami | LC-MS |
| ST001381 | AN002302 | Lipid profile Dataset of optogenetics induced optic nerve regeneration | Optic nerve | Mouse | Eye disease | University of Miami | LC-MS |
| ST001272 | AN002112 | Growth cone memebrane and growth cone particulate lipidomics | Brain | Mouse | Eye disease | University of Miami | LC-MS |
| ST001115 | AN001811 | Growth cone-enriched lipidome of embryonic to early postnatal mouse brain | Brain | Mouse | Eye disease | University of Miami | LC-MS |
| ST001073 | AN001755 | Lipid profiling of Wnt3a-induced optic nerve regeneration | Eye tissue | Mouse | Eye disease | University of Miami | 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 | |
| ST000963 | AN001577 | Lipidomics of inflammation-induced optic nerve regeneration | Eye tissue | Rat | Eye disease | University of Miami | 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 |
