| MeSH term | MeSH ID | Detail |
|---|---|---|
| Colonic Neoplasms | D003110 | 161 associated lipids |
| Diabetes Mellitus, Type 1 | D003922 | 56 associated lipids |
| Diabetes Mellitus, Type 2 | D003924 | 87 associated lipids |
| Diabetic Retinopathy | D003930 | 39 associated lipids |
| Fatty Liver | D005234 | 48 associated lipids |
| Cataract | D002386 | 34 associated lipids |
| Diabetes Mellitus, Experimental | D003921 | 85 associated lipids |
| Mammary Neoplasms, Experimental | D008325 | 67 associated lipids |
| Body Weight | D001835 | 333 associated lipids |
| Edema | D004487 | 152 associated lipids |
DHA
Dha is a lipid of Fatty Acyls (FA) class. Dha is associated with abnormalities such as Atherosclerosis, Consumption-archaic term for TB, Chronic disease, Cardiovascular Diseases and Diabetes Mellitus, Non-Insulin-Dependent. The involved functions are known as Inflammation, Oxidation, fatty acid oxidation, Fatty Acid Metabolism and Lipid Metabolism. Dha often locates in Hepatic, Protoplasm, Mucous Membrane, Epithelium and outer membrane. The associated genes with DHA are IMPACT gene, FATE1 gene, GAPDH gene, THOC4 gene and SLC33A1 gene. The related lipids are stearidonic acid, Fatty Acids, Total cholesterol, Lipopolysaccharides and Dietary Fatty Acid. The related experimental models are Mouse Model, Transgenic Model, Animal Disease Models and Arthritis, Experimental.
Cross Reference
Introduction
To understand associated biological information of DHA, we collected biological information of abnormalities, associated pathways, cellular/molecular locations, biological functions, related genes/proteins, lipids and common seen animal/experimental models with organized paragraphs from literatures.
What diseases are associated with DHA?
DHA is suspected in Cardiovascular Diseases, Obesity, Ischemia, Hypertensive disease, Coronary Arteriosclerosis, Cerebrovascular accident and other diseases in descending order of the highest number of associated sentences.
Related references are mostly published in these journals:
| Disease | Cross reference | Weighted score | Related literature |
|---|
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Possible diseases from mapped MeSH terms on references
We collected disease MeSH terms mapped to the references associated with DHA
PubChem Associated disorders and diseases
What pathways are associated with DHA
There are no associated biomedical information in the current reference collection.
PubChem Biomolecular Interactions and Pathways
Link to PubChem Biomolecular Interactions and PathwaysWhat cellular locations are associated with DHA?
Visualization in cellular structure
Associated locations are in red color. Not associated locations are in black.
Related references are published most in these journals:
| Location | Cross reference | Weighted score | Related literatures |
|---|
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What functions are associated with DHA?
Related references are published most in these journals:
| Function | Cross reference | Weighted score | Related literatures |
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What lipids are associated with DHA?
Related references are published most in these journals:
| Lipid concept | Cross reference | Weighted score | Related literatures |
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What genes are associated with DHA?
Related references are published most in these journals:
| Gene | Cross reference | Weighted score | Related literatures |
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What common seen animal models are associated with DHA?
Mouse Model
Mouse Model are used in the study 'Homeostatic regulation of photoreceptor cell integrity: significance of the potent mediator neuroprotectin D1 biosynthesized from docosahexaenoic acid: the Proctor Lecture.' (Bazan NG, 2007), Mouse Model are used in the study 'Omega-3 fatty acids EPA and DHA: health benefits throughout life.' (Swanson D et al., 2012), Mouse Model are used in the study 'Docosahexaenoic acid attenuates hepatic inflammation, oxidative stress, and fibrosis without decreasing hepatosteatosis in a Ldlr(-/-) mouse model of western diet-induced nonalcoholic steatohepatitis.' (Depner CM et al., 2013) and Mouse Model are used in the study 'Wax esters from the marine copepod Calanus finmarchicus reduce diet-induced obesity and obesity-related metabolic disorders in mice.' (Höper AC et al., 2014).
Transgenic Model
Transgenic Model are used in the study 'Loss of MAP function leads to hippocampal synapse loss and deficits in the Morris Water Maze with aging.' (Ma QL et al., 2014).
Animal Disease Models
Animal Disease Models are used in the study 'Fish oil increases muscle protein mass and modulates Akt/FOXO, TLR4, and NOD signaling in weanling piglets after lipopolysaccharide challenge.' (Liu Y et al., 2013).
Related references are published most in these journals:
| Model | Cross reference | Weighted score | Related literatures |
|---|
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NCBI Entrez Crosslinks
All references with DHA
Download all related citations| Authors | Title | Published | Journal | PubMed Link |
|---|---|---|---|---|
| Gu Z et al. | Resolvin D1, resolvin D2 and maresin 1 activate the GSK3β anti-inflammatory axis in TLR4-engaged human monocytes. | 2016 | Innate Immun | pmid:26878867 |
| Liu Y et al. | Resolvin D1 protects against inflammation in experimental acute pancreatitis and associated lung injury. | 2016 | Am. J. Physiol. Gastrointest. Liver Physiol. | pmid:26702138 |
| Abdulnour RE et al. | Aspirin-triggered resolvin D1 is produced during self-resolving gram-negative bacterial pneumonia and regulates host immune responses for the resolution of lung inflammation. | 2016 | Mucosal Immunol | pmid:26647716 |
| Crandell JR et al. | Lipid effects of switching from prescription EPA+DHA (omega-3-acid ethyl esters) to prescription EPA only (icosapent ethyl) in dyslipidemic patients. | 2016 | Postgrad Med | pmid:27684412 |
| López-Luna P et al. | Fate of orally administered radioactive fatty acids in the late-pregnant rat. | 2016 | Am. J. Physiol. Endocrinol. Metab. | pmid:26714850 |
| Visentin S et al. | Red blood cell membrane fatty acid composition in infants fed formulas with different lipid profiles. | 2016 | Early Hum. Dev. | pmid:27391868 |
| Wang ZQ et al. | Docosahexaenoic Acid Attenuates Doxorubicin-induced Cytotoxicity and Inflammation by Suppressing NF-κB/iNOS/NO Signaling Pathway Activation in H9C2 Cardiac Cells. | 2016 | J. Cardiovasc. Pharmacol. | pmid:26657886 |
| Viola JR et al. | Resolving Lipid Mediators Maresin 1 and Resolvin D2 Prevent Atheroprogression in Mice. | 2016 | Circ. Res. | pmid:27531933 |
| Zhang MJ et al. | Resolvin D2 Enhances Postischemic Revascularization While Resolving Inflammation. | 2016 | Circulation | pmid:27507404 |
| Georgieva R et al. | Phospholipase A2-Induced Remodeling Processes on Liquid-Ordered/Liquid-Disordered Membranes Containing Docosahexaenoic or Oleic Acid: A Comparison Study. | 2016 | Langmuir | pmid:26794691 |
| Inoue Y et al. | Kidney and Liver Injuries After Major Burns in Rats Are Prevented by Resolvin D2. | 2016 | Crit. Care Med. | pmid:26509319 |
| Stein K et al. | A role for 12/15-lipoxygenase-derived proresolving mediators in postoperative ileus: protectin DX-regulated neutrophil extravasation. | 2016 | J. Leukoc. Biol. | pmid:26292977 |
| McManus S et al. | Differential effects of EPA versus DHA on postprandial vascular function and the plasma oxylipin profile in men. | 2016 | J. Lipid Res. | pmid:27170732 |
| Graciano MF et al. | Omega-3 fatty acids control productions of superoxide and nitrogen oxide and insulin content in INS-1E cells. | 2016 | J. Physiol. Biochem. | pmid:27474043 |
| Li R et al. | Maresin 1, a Proresolving Lipid Mediator, Mitigates Carbon Tetrachloride-Induced Liver Injury in Mice. | 2016 | Oxid Med Cell Longev | pmid:26881046 |
| Lu Y et al. | Impedance spectroscopy analysis of human odorant binding proteins immobilized on nanopore arrays for biochemical detection. | 2016 | Biosens Bioelectron | pmid:26710343 |
| Ghosh S et al. | Epigenomic maintenance through dietary intervention can facilitate DNA repair process to slow down the progress of premature aging. | 2016 | IUBMB Life | pmid:27364681 |
| Lam SM et al. | Biological relevance of fatty acyl heterogeneity to the neural membrane dynamics of rhesus macaques during normative aging. | 2016 | Oncotarget | pmid:27517158 |
| Subbaiah PV et al. | Enhanced incorporation of dietary DHA into lymph phospholipids by altering its molecular carrier. | 2016 | Biochim. Biophys. Acta | pmid:27178174 |
| Kim SM et al. | Role of Inflammatory Signaling in the Differential Effects of Saturated and Poly-unsaturated Fatty Acids on Peripheral Circadian Clocks. | 2016 | EBioMedicine | pmid:27322464 |
| Gold DR et al. | Lung VITAL: Rationale, design, and baseline characteristics of an ancillary study evaluating the effects of vitamin D and/or marine omega-3 fatty acid supplements on acute exacerbations of chronic respiratory disease, asthma control, pneumonia and lung function in adults. | 2016 | Contemp Clin Trials | pmid:26784651 |
| Bassuk SS et al. | Baseline characteristics of participants in the VITamin D and OmegA-3 TriaL (VITAL). | 2016 | Contemp Clin Trials | pmid:26767629 |
| Allaire J et al. | A randomized, crossover, head-to-head comparison of eicosapentaenoic acid and docosahexaenoic acid supplementation to reduce inflammation markers in men and women: the Comparing EPA to DHA (ComparED) Study. | 2016 | Am. J. Clin. Nutr. | pmid:27281302 |
| Gramer G et al. | Long-chain polyunsaturated fatty acid status in children, adolescents and adults with phenylketonuria. | 2016 | Prostaglandins Leukot. Essent. Fatty Acids | pmid:27269713 |
| Gao J et al. | Neuroprotective effects of docosahexaenoic acid on hippocampal cell death and learning and memory impairments in a valproic acid-induced rat autism model. | 2016 | Int. J. Dev. Neurosci. | pmid:26639559 |
| Dagorn F et al. | Exploitable Lipids and Fatty Acids in the Invasive Oyster Crassostrea gigas on the French Atlantic Coast. | 2016 | Mar Drugs | pmid:27231919 |
| Si TL et al. | Enhanced anti-inflammatory effects of DHA and quercetin in lipopolysaccharide-induced RAW264.7 macrophages by inhibiting NF-κB and MAPK activation. | 2016 | Mol Med Rep | pmid:27176922 |
| Primdahl KG et al. | Synthesis of 13(R)-Hydroxy-7Z,10Z,13R,14E,16Z,19Z Docosapentaenoic Acid (13R-HDPA) and Its Biosynthetic Conversion to the 13-Series Resolvins. | 2016 | J. Nat. Prod. | pmid:27704804 |
| Jeyanathan J et al. | Biohydrogenation of 22:6n-3 by Butyrivibrio proteoclasticus P18. | 2016 | BMC Microbiol. | pmid:27283157 |
| Khaire A et al. | Vitamin B Deficiency Across Three Generations Adversely Influences Long-chain Polyunsaturated Fatty Acid Status and Cardiometabolic Markers in Rats. | 2016 | Arch. Med. Res. | pmid:27986122 |
| Meesawatsom P et al. | Inhibitory effects of aspirin-triggered resolvin D1 on spinal nociceptive processing in rat pain models. | 2016 | J Neuroinflammation | pmid:27589850 |
| Bernhard W et al. | Developmental changes in polyunsaturated fetal plasma phospholipids and feto-maternal plasma phospholipid ratios and their association with bronchopulmonary dysplasia. | 2016 | Eur J Nutr | pmid:26363610 |
| Moeinzadeh F et al. | Effects of Omega-3 Fatty Acid Supplementation on Serum Biomarkers, Inflammatory Agents, and Quality of Life of Patients on Hemodialysis. | 2016 | Iran J Kidney Dis | pmid:27903997 |
| Arnold WR et al. | Asymmetric Binding and Metabolism of Polyunsaturated Fatty Acids (PUFAs) by CYP2J2 Epoxygenase. | 2016 | Biochemistry | pmid:27992998 |
| Zhao Z et al. | The Association of Fatty Acid Levels and Gleason Grade among Men Undergoing Radical Prostatectomy. | 2016 | PLoS ONE | pmid:27880795 |
| Heskey CE et al. | Adipose tissue α-linolenic acid is inversely associated with insulin resistance in adults. | 2016 | Am. J. Clin. Nutr. | pmid:26912497 |
| Mason RP et al. | Eicosapentaenoic acid reduces membrane fluidity, inhibits cholesterol domain formation, and normalizes bilayer width in atherosclerotic-like model membranes. | 2016 | Biochim. Biophys. Acta | pmid:27718370 |
| Lo Van A et al. | Mechanisms of DHA transport to the brain and potential therapy to neurodegenerative diseases. | 2016 | Biochimie | pmid:27496085 |
| Cinelli G et al. | Influence of Maternal Obesity and Gestational Weight Gain on Maternal and Foetal Lipid Profile. | 2016 | Nutrients | pmid:27314385 |
| Revuelta M et al. | Antioxidant Treatments Recover the Alteration of Auditory-Evoked Potentials and Reduce Morphological Damage in the Inferior Colliculus after Perinatal Asphyxia in Rat. | 2016 | Brain Pathol. | pmid:25990815 |
| Kuda O et al. | Docosahexaenoic Acid-Derived Fatty Acid Esters of Hydroxy Fatty Acids (FAHFAs) With Anti-inflammatory Properties. | 2016 | Diabetes | pmid:27313314 |
| Easley JT et al. | AT-RvD1 combined with DEX is highly effective in treating TNF-α-mediated disruption of the salivary gland epithelium. | 2016 | Physiol Rep | pmid:27694530 |
| McNamara RK and Welge JA | Meta-analysis of erythrocyte polyunsaturated fatty acid biostatus in bipolar disorder. | 2016 | Bipolar Disord | pmid:27087497 |
| Bascoul-Colombo C et al. | Dietary DHA supplementation causes selective changes in phospholipids from different brain regions in both wild type mice and the Tg2576 mouse model of Alzheimer's disease. | 2016 | Biochim. Biophys. Acta | pmid:26968097 |
| Kim KH et al. | Resolvin D1 prevents smoking-induced emphysema and promotes lung tissue regeneration. | 2016 | Int J Chron Obstruct Pulmon Dis | pmid:27313451 |
| Zhao YL et al. | Resolvin D1 Protects Lipopolysaccharide-induced Acute Kidney Injury by Down-regulating Nuclear Factor-kappa B Signal and Inhibiting Apoptosis. | 2016 | Chin. Med. J. | pmid:27098797 |
| Shi H et al. | VIP protects human retinal microvascular endothelial cells against high glucose-induced increases in TNF-α and enhances RvD1. | 2016 | Prostaglandins Other Lipid Mediat. | pmid:27026343 |
| Barden A et al. | n-3 Fatty Acid Supplementation and Leukocyte Telomere Length in Patients with Chronic Kidney Disease. | 2016 | Nutrients | pmid:27007392 |
| Gharekhani A et al. | Potential Effects of Omega-3 Fatty Acids on Insulin Resistance and Lipid Profile in Maintenance Hemodialysis Patients: a Randomized Placebo-Controlled Trial. | 2016 | Iran J Kidney Dis | pmid:27721230 |
| Schmid M et al. | Resolvin D1 Polarizes Primary Human Macrophages toward a Proresolution Phenotype through GPR32. | 2016 | J. Immunol. | pmid:26969756 |