scholarly article | Q13442814 |
review article | Q7318358 |
P50 | author | Amaya Lopez-Pascual | Q57319080 |
P2093 | author name string | J Alfredo Martinez | |
Pedro González-Muniesa | |||
Pablo Quintero | |||
Laura Garcia-Gerique | |||
Suyen Arriaza | |||
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Hyperoxia increases leptin production: a mechanism mediated through endogenous elevation of corticosterone | Q43764545 | ||
Effects of hyperbaric oxygen therapy on cerebral oxygenation and mitochondrial function following moderate lateral fluid-percussion injury in rats | Q44904760 | ||
Effect of prolonged intermittent hypoxia and exercise training on glucose tolerance and muscle GLUT4 protein expression in rats | Q45183269 | ||
A prospective, randomized, controlled study of hyperbaric oxygen therapy: effects on healing and oxidative stress of ulcer tissue in patients with a diabetic foot ulcer. | Q45266685 | ||
The hypoxic response of tumors is dependent on their microenvironment. | Q45965473 | ||
Effects of hyperoxia and hypoxia on the physiological traits responsible for obstructive sleep apnoea | Q46302003 | ||
Hyperbaric oxygen therapy improves peripheral insulin sensitivity in humans. | Q51362146 | ||
Fatty acids and hypoxia stimulate the expression and secretion of the adipokine ANGPTL4 (angiopoietin-like protein 4/ fasting-induced adipose factor) by human adipocytes. | Q51371531 | ||
Interplay of early-life nutritional programming on obesity, inflammation and epigenetic outcomes. | Q51807596 | ||
Activation of cholinergic anti-inflammatory pathway contributes to the protective effects of 100% oxygen inhalation on zymosan-induced generalized inflammation in mice. | Q52733255 | ||
A microarray analysis of the hypoxia-induced modulation of gene expression in human adipocytes. | Q54528275 | ||
Protective effect of PNU-120596, a selective alpha7 nicotinic acetylcholine receptor-positive allosteric modulator, on myocardial ischemia-reperfusion injury in rats. | Q54529032 | ||
The normobaric oxygen paradox: A novel way to administer oxygen as an adjuvant treatment for cancer? | Q58757457 | ||
Exposure to hyperbaric oxygen induces tumour necrosis factor-alpha (TNF-alpha) secretion from rat macrophages | Q70823417 | ||
Effect of hyperoxia on vascular endothelial growth factor levels in a wound model | Q73180742 | ||
Differential effects of hyperoxia on the inducible and constitutive isoforms of nitric oxide synthase in the lung | Q73371422 | ||
Effect of hyperoxia on human macrophage cytokine response | Q74592082 | ||
Hypoxia-inducible factor 1: master regulator of O2 homeostasis | Q77485489 | ||
Influences of hyperbaric oxygen on blood pressure, heart rate and blood glucose levels in patients with diabetes mellitus and hypertension | Q79255470 | ||
To cope with oxygen: a long and still tumultuous story for life | Q80542041 | ||
Magnetic resonance spectroscopy study of oxygen therapy in ischemic stroke | Q80970674 | ||
Acute hypoxia and exercise improve insulin sensitivity (S(I) (2*)) in individuals with type 2 diabetes | Q83157231 | ||
Structure-stability-activity relationship in covalently cross-linked N-carbamoyl D-amino acid amidohydrolase and N-acylamino acid racemase | Q83227714 | ||
The effect of hyperoxia on reactive oxygen species (ROS) in petrosal and nodose ganglion neurons during development (using organotypic slices) | Q83307512 | ||
Functional analyses reveal the greater potency of preadipocytes compared with adipocytes as endothelial cell activator under normoxia, hypoxia, and TNFalpha exposure | Q84114674 | ||
Effects of exposure of rats to periodic versus continuous hyperoxia on antioxidant potentials and free radical production in relation to ultrastructural changes in myocardial cells | Q84436892 | ||
Lactate and the GPR81 receptor in metabolic regulation: implications for adipose tissue function and fatty acid utilisation by muscle during exercise | Q84916971 | ||
Normobaric hyperoxygenation enhances initial survival, regeneration, and final retention in fat grafting | Q87430431 | ||
Sleep disturbances, body fat distribution, food intake and/or energy expenditure: pathophysiological aspects | Q26859058 | ||
The biology of VEGF and its receptors | Q27860704 | ||
Obesity is associated with macrophage accumulation in adipose tissue | Q27860976 | ||
Energy and water balance at high altitude | Q28205353 | ||
Hypoxia inducible factor stabilization leads to lasting improvement of hippocampal memory in healthy mice | Q28264247 | ||
Endoplasmic reticulum stress links obesity, insulin action, and type 2 diabetes | Q28575190 | ||
Prevalence and trends in obesity among US adults, 1999-2008 | Q29547759 | ||
Origin and physiological roles of inflammation | Q29614298 | ||
Global, regional, and national prevalence of overweight and obesity in children and adults during 1980-2013: a systematic analysis for the Global Burden of Disease Study 2013 | Q29616834 | ||
Inflammatory mechanisms in obesity | Q29617932 | ||
Austrian Moderate Altitude Study (AMAS 2000) - fluid shifts, erythropoiesis, and angiogenesis in patients with metabolic syndrome at moderate altitude (congruent with 1700 m). | Q33426406 | ||
Hypobaric hypoxia causes body weight reduction in obese subjects | Q33445068 | ||
Changes in inflammatory gene expression induced by hyperbaric oxygen treatment in human endothelial cells under chronic wound conditions. | Q33452359 | ||
Hyperbaric oxygen therapy for traumatic brain injury | Q33452711 | ||
Stimulating angiogenesis by hyperbaric oxygen in an isolated tissue construct | Q33453238 | ||
High glucose stimulates TNFα and MCP-1 expression in rat microglia via ROS and NF-κB pathways. | Q33565706 | ||
Mechanisms of inflammatory responses in obese adipose tissue | Q33699810 | ||
Oxygen therapy improves energy metabolism in focal cerebral ischemia | Q34004345 | ||
Postnatal hyperoxia exposure differentially affects hepatocytes and liver haemopoietic cells in newborn rats | Q34035591 | ||
Oxidative stress and metabolic pathologies: from an adipocentric point of view. | Q34038044 | ||
Identification of hypoxia-induced genes in human SGBS adipocytes by microarray analysis. | Q34062448 | ||
Nature or nurture: let food be your epigenetic medicine in chronic inflammatory disorders. | Q34129881 | ||
HIF-1 and mechanisms of hypoxia sensing | Q34180645 | ||
Adipokines: inflammation and the pleiotropic role of white adipose tissue | Q34356530 | ||
Metabolically healthy obesity and risk of incident type 2 diabetes: a meta-analysis of prospective cohort studies | Q34411684 | ||
Timing of umbilical cord blood derived mesenchymal stem cells transplantation determines therapeutic efficacy in the neonatal hyperoxic lung injury | Q34562089 | ||
Obesity and diabetes in the developing world--a growing challenge | Q34603178 | ||
Regulation of HIF-1{alpha} activity in adipose tissue by obesity-associated factors: adipogenesis, insulin, and hypoxia | Q34979390 | ||
Inflammatory links between obesity and metabolic disease | Q35015802 | ||
Reduced adipose tissue inflammation represents an intermediate cardiometabolic phenotype in obesity | Q35094008 | ||
A novel role for the hypoxia inducible transcription factor HIF-1alpha: critical regulation of inflammatory cell function. | Q35122685 | ||
Aspartyl-(asparaginyl) beta-hydroxylase, hypoxia-inducible factor-alpha and Notch cross-talk in regulating neuronal motility | Q35157948 | ||
Hypoxia-induced inflammatory cytokine secretion in human adipose tissue stromovascular cells | Q35175008 | ||
Obesity in Older Adults: Epidemiology and Implications for Disability and Disease | Q35753231 | ||
Decreased VEGF expression and microvascular density, but increased HIF-1 and 2α accumulation and EPO expression in chronic moderate hyperoxia in the mouse brain | Q36266605 | ||
National, regional, and global trends in adult overweight and obesity prevalences | Q36526941 | ||
Effect of chronic intermittent hypoxia on triglyceride uptake in different tissues. | Q36709586 | ||
Differentiation of human adipocytes at physiological oxygen levels results in increased adiponectin secretion and isoproterenol-stimulated lipolysis | Q36719115 | ||
Local adipose tissue depots as cardiovascular risk factors | Q36782381 | ||
A review of oxygen therapy in ischemic stroke | Q36794011 | ||
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Oxygen, a source of life and stress | Q36857204 | ||
Gene regulation under low oxygen: holding your breath for transcription. | Q36877199 | ||
Pulmonary gas exchange in the morbidly obese | Q37106623 | ||
Hypoxia in adipose tissue: a basis for the dysregulation of tissue function in obesity? | Q37132401 | ||
Oxidative stress is fundamental to hyperbaric oxygen therapy | Q37139019 | ||
Protein domain mimetics as in vivo modulators of hypoxia-inducible factor signaling. | Q37203888 | ||
Cellular hypoxia and adipose tissue dysfunction in obesity | Q37583982 | ||
Impact of oxygen availability on body weight management | Q37632791 | ||
Human adipose tissue macrophages are enhanced but changed to an anti-inflammatory profile in obesity. | Q37704756 | ||
Hyperbaric oxygen therapy. Part 2: application in disease | Q37773455 | ||
Hyperbaric oxygen: its mechanisms and efficacy | Q37825753 | ||
Immune cells in adipose tissue: key players in metabolic disorders | Q37867252 | ||
Pathophysiological implications between chronic inflammation and the development of diabetes and obesity | Q37883622 | ||
A systematic review and meta-analysis of the effect of aerobic vs. resistance exercise training on visceral fat. | Q37939357 | ||
Regulation of triglyceride metabolism by Angiopoietin-like proteins | Q37953715 | ||
Oxidative stress and inflammation interactions in human obesity | Q37986642 | ||
The potentials of selected therapeutic targets for inflammation: a snapshot | Q37995341 | ||
Obesity: lessons from evolution and the environment | Q38014106 | ||
Dietary factors, epigenetic modifications and obesity outcomes: progresses and perspectives. | Q38024562 | ||
Hypoxia and adipose tissue function and dysfunction in obesity. | Q38072900 | ||
Counteracting oxidative stress in pregnancy through modulation of maternal micronutrients and omega-3 fatty acids | Q38166036 | ||
Role of dietary and endogenous antioxidants in diabetes | Q38192085 | ||
Hypoxia and adipocyte physiology: implications for adipose tissue dysfunction in obesity. | Q38211166 | ||
Low-grade chronic inflammation perpetuated by modern diet as a promoter of obesity and osteoporosis | Q38221539 | ||
Can metabolically healthy obesity be explained by diet, genetics, and inflammation? | Q38270746 | ||
Hypoxia is a potential risk factor for chronic inflammation and adiponectin reduction in adipose tissue of ob/ob and dietary obese mice | Q38299555 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P407 | language of work or name | English | Q1860 |
P921 | main subject | inflammation | Q101991 |
oxygen | Q629 | ||
cell biology | Q7141 | ||
inorganic compound | Q190065 | ||
obesity | Q12174 | ||
physiological phenomenon | Q66615932 | ||
body size | Q66711810 | ||
P5008 | on focus list of Wikimedia project | ScienceSource | Q55439927 |
P304 | page(s) | 8957827 | |
P577 | publication date | 2015-12-01 | |
P1433 | published in | Oxidative medicine and cellular longevity | Q26840015 |
P1476 | title | Effects of Hyperoxia on Oxygen-Related Inflammation with a Focus on Obesity | |
P478 | volume | 2015 |
Q46611412 | Adapting to obesity with adipose tissue inflammation. |
Q38728642 | Hypoxia in Obesity and Diabetes: Potential Therapeutic Effects of Hyperoxia and Nitrate. |
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