Oxidative stress and vascular function: implications for pharmacologic treatments.
about
Antioxidant Supplementation in the Treatment of Aging-Associated DiseasesThe protective effect of lipoic acid on selected cardiovascular diseases caused by age-related oxidative stressOxygen: Implications for Wound HealingSystemic and renal oxidative stress in the pathogenesis of hypertension: modulation of long-term control of arterial blood pressure by resveratrolDiabetes mellitus and oxidative stress-A concise reviewChronic lead exposure decreases the vascular reactivity of rat aortas: the role of hydrogen peroxideLiposomal Antioxidants for Protection against Oxidant-Induced DamageOxidases and peroxidases in cardiovascular and lung disease: new concepts in reactive oxygen species signalingOf reductionism and the pendulum swing: connecting toxicology and human health.Tetramethylpyrazine Protects against Hydrogen Peroxide-Provoked Endothelial Dysfunction in Isolated Rat Aortic Rings: Implications for Antioxidant Therapy of Vascular DiseasesNovel method for detection of reactive oxygen species in vivo in human skeletal muscleMasquelier's grape seed extract: from basic flavonoid research to a well-characterized food supplement with health benefitsA new oxidative stress model, 2,2-azobis(2-amidinopropane) dihydrochloride induces cardiovascular damages in chicken embryoContribution of oxidative stress to endothelial dysfunction in hereditary hemorrhagic telangiectasia.Stress-related transcription factor AtfB integrates secondary metabolism with oxidative stress response in aspergilli.Hypothalamic inflammation: a double-edged sword to nutritional diseases.Limb ischemic preconditioning protects endothelium from oxidative stress by enhancing nrf2 translocation and upregulating expression of antioxidasesInflammatory cause of metabolic syndrome via brain stress and NF-κB.Angiotensin-(1-7) counteracts angiotensin II-induced dysfunction in cerebral endothelial cells via modulating Nox2/ROS and PI3K/NO pathwaysAdrenal cortex expression quantitative trait loci in a German Holstein × Charolais crossInvestigate the Role of Glutathione S Transferase (GST) Polymorphism in Development of Hypertension in UAE PopulationGuava leaves polyphenolics-rich extract inhibits vital enzymes implicated in gout and hypertension in vitroRole of mitochondrial oxidative stress in hypertension.Apocynin attenuates oxidative stress and cardiac fibrosis in angiotensin II-induced cardiac diastolic dysfunction in mice.Adenosine and blood platelets.The SODyssey: superoxide dismutases from biochemistry, through proteomics, to oxidative stress, aging and nutraceuticals.Optimizing the bioactive potential of wheat bran by processing.Reactive oxygen species as therapeutic targets in pulmonary hypertension.Nutrition and health – transforming research traditions.Food-Derived Bioactives Can Protect the Anti-Inflammatory Activity of Cortisol with Antioxidant-Dependent and -Independent Mechanisms.Cerium oxide nanoparticles protect endothelial cells from apoptosis induced by oxidative stress.Free radical scavenging actions of three Trifolium species in the protection of blood plasma antioxidant capacity in vitro.Platelets and atherogenesis: Platelet anti-aggregation activity and endothelial protection from tomatoes (Solanum lycopersicum L.).Inhibition of JNK by novel curcumin analog C66 prevents diabetic cardiomyopathy with a preservation of cardiac metallothionein expression.Ethers and esters derived from apocynin avoid the interaction between p47phox and p22phox subunits of NADPH oxidase: evaluation in vitro and in silico.Microvascular Endothelial Dysfunction in Sedentary, Obese Humans Is Mediated by NADPH Oxidase: Influence of Exercise Training.Xanthine Oxidase Activation Modulates the Endothelial (Vascular) Dysfunction Related to HgCl2 Exposure Plus Myocardial Infarction in Rats.Attenuation of vascular dementia by sodium butyrate in streptozotocin diabetic rats.Pomegranate Juice Supplementation Alters Utero-Placental Vascular Function and Fetal Growth in the eNOS Mouse Model of Fetal Growth RestrictionMicrovascular Reactivity in Response to Smoking and Oral Antioxidants in Humans
P2860
Q26768165-AF697A22-700A-457D-838D-608680B58960Q26822734-C70AD9FB-DAB9-4F90-8B8E-D2728E5B6804Q26823067-D2B2B2F3-7D0C-4A22-B53C-89A60ED0421AQ26999376-B39BFA18-AB55-42A3-8751-B15644E37CAAQ28068603-CC930137-F429-44A0-89C9-50376DA258D6Q28390587-47A285E9-9796-4008-B1C5-150456BACF08Q28391211-FDDFCDAF-DE05-436B-AE70-85BD424044D1Q28393242-57EF1DB0-41DC-48B1-BD77-D817557A15BBQ30395151-F6F70F4B-EBD3-47C8-8DFF-CEF56B642653Q34199298-3C47ACA2-1D4B-4171-B12A-B1B6FDEFD3E6Q34217821-49B48409-E03F-44D4-8D99-9CAC282BA4D8Q34549674-8166301C-02A9-4C53-BA09-C62DFF8ADEA5Q34613201-FCFF034C-DFBC-4388-96C6-1A31ACA0F250Q35082312-C2C0BCBC-35AC-4021-AB2E-0F38678585EAQ35266821-0999D5F0-65CB-4A5D-AAF5-A82B129400A4Q35318592-3AA46514-74CB-4A27-B3BE-006549F45959Q35647621-3D348B06-146F-405B-8379-27860C4D4EA6Q35857192-9B90779C-F020-4840-B569-175F6C18D23EQ35875449-02E0C2FD-6EF3-4DA6-85FA-2A1FDF3A2C0EQ36156382-30C9146A-B369-43E4-BE96-2E4DF0787D99Q36315822-84457472-9C5B-4D27-A7FA-5307FB7B4E9BQ36810873-E944427D-3966-4A7E-8908-BA2E8A1D5086Q37342179-8CD5ADEB-B91B-431E-B1EE-67E6BB3DC824Q37728293-FC9752FC-203F-4EFA-B5A1-ADA6164CB0CEQ37864112-082B4D1F-D229-43C6-96B4-040B3CC5ACA4Q37890428-229963B5-3AD0-48B8-B8A1-BC9AA5E7B5E7Q37984191-9BBCCAC7-45C2-45B7-930E-647C80EDF10AQ38074770-0321E81F-8C87-4679-809D-EA05E661F408Q38219129-FBBA5684-7780-447F-B7A2-405458181DD2Q38793000-40D65229-0FD9-49BF-BCD5-FB639F325D9DQ39143475-81024585-DF97-4A62-9DBF-61A2AE1DF5D1Q41097458-EA2CB888-9164-456E-85B9-DAD9468B1286Q42324464-98837FF6-E580-4072-95A1-94B25A3DE998Q42457139-1BCB5C5F-DA3C-46B7-A64C-7B1A8585F085Q43063380-DEABF5DC-0ED9-4768-B347-447099D6822CQ46474325-15E6D585-631E-4C4C-99E6-32CC97E3610AQ47037319-7ECF3485-F047-429A-A54E-64A694AF17EDQ51024160-32F8DC1B-0728-40E8-9B21-CBD8AD2D4343Q58781094-79A0FEAF-349B-44AA-81C9-D4AA5225242DQ59306965-9E7D9B5B-575A-458F-93DA-E8CC671DC620
P2860
Oxidative stress and vascular function: implications for pharmacologic treatments.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on June 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Oxidative stress and vascular function: implications for pharmacologic treatments.
@en
Oxidative stress and vascular function: implications for pharmacologic treatments.
@nl
type
label
Oxidative stress and vascular function: implications for pharmacologic treatments.
@en
Oxidative stress and vascular function: implications for pharmacologic treatments.
@nl
prefLabel
Oxidative stress and vascular function: implications for pharmacologic treatments.
@en
Oxidative stress and vascular function: implications for pharmacologic treatments.
@nl
P2860
P921
P1476
Oxidative stress and vascular function: implications for pharmacologic treatments.
@en
P2093
Antje R Weseler
P2860
P2888
P304
P356
10.1007/S11906-010-0103-9
P577
2010-06-01T00:00:00Z