List of Studies ( Metabolite:TG 47:0)
| Study_id | Analysis_id | Study_title | Source | Species | Disease | Institute | Analysis Type |
|---|---|---|---|---|---|---|---|
| ST003776 | AN006202 | Investigation of Hepatic Lipid Alterations Following Micro- and Nanoplastic-Ingestion | Liver | Mouse | Environmental exposure | University of Bonn | LC-MS |
| ST003769 | AN006189 | Characterization of brain‐derived extracellular vesicle lipids in Alzheimer's disease | Brain | Human | Alzheimers disease | University of Melbourne | LC-MS |
| ST003702 | AN006074 | Kupffer cells control neonatal hepatic glucose metabolism via Igf1 signaling - lipidomics analysis of postnatal day 0 murine livers after macropahges depletion using Csf1r conditional KO | Liver | Mouse | University of Bonn | LC-MS | |
| ST003614 | AN005939 | Kupffer cells control neonatal hepatic glucose metabolism via Igf1 signaling - lipidomics analysis of postnatal day 0 murine livers after macropahges depletion | Liver | Mouse | University of Bonn | LC-MS | |
| ST003514 | AN005769 | Highly reliable LC-MS lipidomics database for efficient human plasma profiling based on NIST SRM 1950 | Blood | Human | Universidad CEU San Pablo | LC-MS | |
| ST003502 | AN005750 | Quantifying acyl-chain diversity in isobaric compound lipids containing monomethyl branched-chain fatty acids | Cultured cells | Mouse | Metabolic Disorders | Salk Institute for Biological Studies | LC-MS |
| ST003364 | AN005512 | 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 |
| ST003251 | AN005325 | Temperature change elicits lipidome adaptation in the simple organisms Mycoplasma mycoides and JCVI-syn3B | Minimal cell JCVI-syn3B | Bacteria | Environmental exposure | TU Dresden | LC-MS |
| ST003251 | AN005325 | Temperature change elicits lipidome adaptation in the simple organisms Mycoplasma mycoides and JCVI-syn3B | Mycoplasma mycoides | Bacteria | Environmental exposure | TU Dresden | LC-MS |
| ST003220 | AN005280 | Obesity, sex, and depot drive distinct lipid profiles in murine white adipose tissue | Adipose tissue | Mouse | Obesity | University of Utah | LC-MS |
| ST003127 | AN005126 | Effect of High Fat Diet on Heart Lipidome in CHCHD10 Mutant Mice | Heart | Mouse | Cardiomyopathy | Weill Cornell Medicine | 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/LC-MS |
| ST003051 | AN005002 | Shotgun lipidomics of breast cancer endocrine therapy persisters | Breast cancer cells | Human | Cancer | Dartmouth College | LC-MS |
| ST002903 | AN004764 | Identification and targeting of microbial putrescine acetylation in bloodstream infections | Blood | Human | Septic shock | Broad Institute of MIT and Harvard | LC-MS |
| ST002536 | AN004173 | Effectors enabling adaptation to mitochondrial complex I loss in Hürthle cell carcinoma | Thyroid | Human | Cancer | Broad Institute of MIT and Harvard | LC-MS |
| ST002472 | AN004038 | Linking bacterial metabolites to disease-associated microbes to uncover mechanisms of host-microbial interactions in intestinal inflammation. Veillonella parvula cell and media profiling | Bacterial cells | Veillonella parvula | Ulcerative colitis | Broad Institute of MIT and Harvard | LC-MS |
| ST002471 | AN004034 | Linking bacterial metabolites to disease-associated microbes to uncover mechanisms of host-microbial interactions in intestinal inflammation. Human stool profiling | Feces | Human | Ulcerative colitis | Broad Institute of MIT and Harvard | LC-MS |
| ST002470 | AN004030 | Linking bacterial metabolites to disease-associated microbes to uncover mechanisms of host-microbial interactions in intestinal inflammation. Human plasma profiling | Blood | Human | Ulcerative colitis | Broad Institute of MIT and Harvard | LC-MS |
| ST002339 | AN003822 | Myriocin rescue of serine-associated hepatic lipid diversity | Liver | Mouse | Salk Institute for Biological Studies | LC-MS | |
| ST002247 | AN003671 | Microbiota and Health Study (Dhaka, Bangladesh) | Feces | Human | Broad Institute of MIT and Harvard | LC-MS | |
| ST002246 | AN003667 | Longitudinal fecal metabolomic profiles from mothers and their infants in the EDIA study | Feces | Human | Broad Institute of MIT and Harvard | LC-MS | |
| ST002135 | AN003496 | Alignment and Analysis of a Disparately Acquired Multi-Batch Metabolomics Study of Maternal Pregnancy Samples. (Part 2) | Blood | Human | University of Michigan | LC-MS | |
| ST002134 | AN003492 | Alignment and Analysis of a Disparately Acquired Multi-Batch Metabolomics Study of Maternal Pregnancy Samples (Part 1) | Blood | Human | University of Michigan | LC-MS | |
| ST002070 | AN003374 | Lipidomic Comparison of 2D and 3D Colon Cancer Cell Culture Models | Cultured cells | Human | Cancer | Ohio State University | LC-MS |
| ST001989 | AN003241 | THEM6-mediated lipid remodelling sustains stress resistance in cancer (Part 3) | LNCaP cells | Human | Cancer | IGMM | LC-MS |
| ST001988 | AN003240 | THEM6-mediated lipid remodelling sustains stress resistance in cancer (Part 2) | LNCaP cells | Human | Cancer | IGMM | LC-MS |
| ST001963 | AN003200 | THEM6-mediated lipid remodelling sustains stress resistance in cancer | Cultured cells | Human | Cancer | IGMM | LC-MS |
| ST001963 | AN003201 | THEM6-mediated lipid remodelling sustains stress resistance in cancer | Cultured cells | Human | Cancer | IGMM | LC-MS |
| ST001950 | AN003174 | Lipidome Alterations Following Mild Traumatic Brain Injury. | Blood | Rat | Traumatic brain injury | Georgia Institute of Technology | LC-MS |
| ST001888 | AN003059 | A Metabolome Atlas of the Aging Mouse Brain (Study part II) | Brain | Mouse | University of California, Davis | GC-MS/LC-MS | |
| ST001859 | AN003013 | dTor affects the fat body lipidome via Nep1r1, Ctdnep1 and Lipin | Insect tissue | Fruit fly | VIB-KU Leuven | MS(Dir. Inf.) | |
| ST001859 | AN003014 | dTor affects the fat body lipidome via Nep1r1, Ctdnep1 and Lipin | Insect tissue | Fruit fly | VIB-KU Leuven | MS(Dir. Inf.) | |
| ST001840 | AN002983 | Metabolomics of lung microdissections reveals region- and sex-specific metabolic effects of acute naphthalene exposure in mice (part I) | Liver | Mouse | Oxidative stress | University of California, Davis | GC-MS |
| ST001831 | AN002972 | Nested case–control study of environmental exposure within the ongoing Puerto Rico Testsite for Exploring Contamination Threats (PROTECT) pregnancy cohort (part II) | Blood | Human | University of Michigan | LC-MS | |
| ST001753 | AN002856 | Modifying Chromatography Conditions for Improved Unknown Feature Identification in Untargeted Metabolomics | Blood | Human | University of Michigan | LC-MS | |
| ST001738 | AN002829 | AdipoAtlas: A Reference Lipidome for Human White Adipose Tissue | Adipose tissue | Human | Obesity | University of Leipzig | LC-MS |
| ST001710 | AN002785 | Metabolic signatures of NAFLD - Lipidomics data (part 1 of 3) | Blood | Human | Fatty liver disease | Örebro University | LC-MS |
| ST001689 | AN002759 | Exposure to per- and polyfluoroalkyl substances associates with altered lipid profile of breast milk (Part 1) | Breast milk | Human | Environmental exposure | University of Turku | LC-MS |
| ST001686 | AN002753 | Exposure to per- and polyfluoroalkyl substances associates with altered lipid profile of breast milk (Part 3) | Blood | Human | Environmental exposure | University of Turku | LC-MS |
| ST001676 | AN002734 | Lipidomic analysis of CD4+ T-cell subsets (Th1,Th2,Th17 and iTreg cells) (part I) | T-cells | Human | University of Turku | LC-MS | |
| ST001637 | AN002677 | A Metabolome Atlas of the Aging Mouse Brain | Brain | Mouse | University of California, Davis | GC-MS/LC-MS | |
| ST001521 | AN002534 | Plasma metabolites of known identity profiled using hybrid nontargeted methods (part-III) | Blood | Human | Broad Institute of MIT and Harvard | LC-MS | |
| ST001519 | AN002526 | Stool metabolites of known identity profiled using hybrid nontargeted methods (part-I) | Feces | Human | Broad Institute of MIT and Harvard | LC-MS | |
| ST001363 | AN002269 | Monophasic lipidomics extraction in cancer cell lines | Hep G2 cells | Human | Cancer | Institute of Genetics and Molecular Medicine | LC-MS |
| ST001360 | AN002264 | Maternal blood lipidomics associated with severe preeclampsia | Blood | Human | Preeclampsia | University of Michigan | LC-MS |
| ST001359 | AN002263 | Monophasic lipidomics extraction in cancer cell line | Hep G2 cells | Human | Cancer | Beatson Institute for Cancer Research | LC-MS |
| ST001267 | AN002104 | Mass spectrometry-based lipidomics of oral squamous cell carcinoma tissue reveals aberrant cholesterol and glycerophospholipid metabolism | Tongue | Human | Cancer | University of Helsinki | MS(Dir. Inf.) |
| ST001192 | AN001987 | A library of human gut bacterial isolates paired with longitudinal multiomics data enables mechanistic microbiome research | Feces | Human | Broad Institute of MIT and Harvard | LC-MS | |
| ST001128 | AN001853 | WT and ΔSPT cultures of B. thetaiotaomicron grown in Minimal Media with or without d4-alanine (part IV) | Bacterial cells | Bacteroides thetaiotaomicron | Irritable bowel syndrome | Broad Institute of MIT and Harvard | LC-MS |
| ST001127 | AN001852 | Lipid profiling of caecal samples from GF mice colonized with B. thetaiotaomicron WT or the ΔSPT mutants (part III) | Cecum | Mouse | Irritable bowel syndrome | Broad Institute of MIT and Harvard | LC-MS |
| ST001126 | AN001851 | WT and ΔSPT cultures of B. thetaiotaomicron grown in Minimal Media (part II) | Bacterial cells | Bacteroides thetaiotaomicron | Inflammatory bowel disease | Broad Institute of MIT and Harvard | LC-MS |
| ST001125 | AN001850 | WT and ΔSPT cultures of B. thetaiotaomicron and B. ovatus grown BHI liquid media (part I) | Bacterial cells | Bacteroides ovatus | Inflammatory bowel disease | Broad Institute of MIT and Harvard | LC-MS |
| ST001125 | AN001850 | WT and ΔSPT cultures of B. thetaiotaomicron and B. ovatus grown BHI liquid media (part I) | Bacterial cells | Bacteroides thetaiotaomicron | Inflammatory bowel disease | Broad Institute of MIT and Harvard | LC-MS |
| ST000917 | AN001500 | Biomarkers of NAFLD progression: a lipidomics approach to an epidemic. Part 3:Urine | Urine | Human | Fatty liver disease | LIPID MAPS | GC-MS/LC-MS |
| ST000916 | AN001494 | Biomarkers of NAFLD progression: a lipidomics approach to an epidemic. Part 2:Plasma | Blood | Human | Fatty liver disease | LIPID MAPS | GC-MS/LC-MS |
| ST000915 | AN001488 | Biomarkers of NAFLD progression: a lipidomics approach to an epidemic. Part 2:Liver | Liver | Human | Fatty liver disease | LIPID MAPS | GC-MS/LC-MS |
| ST000880 | AN001436 | Diet, genetics and gut microbiome drive dynamic changes in plasma metabolites [cecal] | Blood | Mouse | Broad Institute of MIT and Harvard | LC-MS | |
| ST000608 | AN000929 | Comparing identified and statistically significant lipids and polar metabolites in 15-year old serum and dried blood spot samples for longitudinal studies | Blood | Human | Pacific Northwest National Laboratory | GC-MS/LC-MS | |
| ST000005 | AN000012 | Timecourse on RAW 264.7 cells treated with Kdo2-Lipid A and compactin | Macrophages | Mouse | LIPID MAPS | GC-MS/LC-MS |
