Pages that link to "Q57559960"

The following pages link to Flavonoids and Prostate Cancer Risk: A Study in Italy (Q57559960):

Displaying 30 items.

• Dietary antioxidants and prostate cancer: a review (Q26996474) (← links)
• Inhibition of cell growth and VEGF expression in ovarian cancer cells by flavonoids (Q28300710) (← links)
• Kaempferol reduces matrix metalloproteinase-2 expression by down-regulating ERK1/2 and the activator protein-1 signaling pathways in oral cancer cells (Q28535291) (← links)
• The anticancer and antiobesity effects of Mediterranean diet. (Q30244528) (← links)
• Phytoestrogens and risk of prostate cancer: an updated meta-analysis of epidemiologic studies (Q30244993) (← links)
• Kaempferol enhances cisplatin's effect on ovarian cancer cells through promoting apoptosis caused by down regulation of cMyc (Q33914646) (← links)
• The flavonoid nobiletin inhibits tumor growth and angiogenesis of ovarian cancers via the Akt pathway (Q35636447) (← links)
• Suppression of NF-κB and NF-κB-Regulated Gene Expression by Apigenin through IκBα and IKK Pathway in TRAMP Mice. (Q35778505) (← links)
• Kaempferol nanoparticles achieve strong and selective inhibition of ovarian cancer cell viability (Q36136314) (← links)
• Alleviating effects of morin against experimentally-induced diabetic osteopenia (Q36639407) (← links)
• Dietary Total Antioxidant Capacity is Inversely Associated with Prostate Cancer Aggressiveness in a Population-Based Study (Q36767975) (← links)
• Inhibitory effect of baicalin and baicalein on ovarian cancer cells (Q36790496) (← links)
• Anthocyanins and their role in cancer prevention (Q37197566) (← links)
• Kaempferol inhibits angiogenesis and VEGF expression through both HIF dependent and independent pathways in human ovarian cancer cells (Q37406640) (← links)
• Flavan-3-ols consumption and cancer risk: A meta-analysis of epidemiologic studies (Q37687437) (← links)
• Selected aspects of Mediterranean diet and cancer risk. (Q37692312) (← links)
• Apigenin inhibits prostate cancer progression in TRAMP mice via targeting PI3K/Akt/FoxO pathway (Q37697513) (← links)
• Phytoestrogens and risk of prostate cancer: a meta-analysis of observational studies (Q38558029) (← links)
• A new class of flavonol-based anti-prostate cancer agents: Design, synthesis, and evaluation in cell models (Q38754576) (← links)
• Chemistry, Pharmacology and Health Benefits of Anthocyanins. (Q38843382) (← links)
• Is phytoestrogen intake associated with decreased risk of prostate cancer? A systematic review of epidemiological studies based on 17,546 cases (Q38853399) (← links)
• Quercetin-induced apoptosis acts through mitochondrial- and caspase-3-dependent pathways in human breast cancer MDA-MB-231 cells (Q39799455) (← links)
• Relationship of serum levels and dietary intake of isoflavone, and the novel bacterium Slackia sp. strain NATTS with the risk of prostate cancer: a case-control study among Japanese men. (Q40718691) (← links)
• Flavonoids intake and risk of prostate cancer: a meta-analysis of observational studies (Q40845275) (← links)
• Intake of flavonoids and risk of cancer in Finnish men: The Kuopio Ischaemic Heart Disease Risk Factor Study (Q46703838) (← links)
• Intake of Individual Flavonoids and Risk of Carcinogenesis: Overview of Epidemiological Evidence (Q47692407) (← links)
• Soy Consumption and the Risk of Prostate Cancer: An Updated Systematic Review and Meta-Analysis (Q48310699) (← links)
• Dietary flavonoid intake, black tea consumption, and risk of overall and advanced stage prostate cancer (Q50741517) (← links)
• Antiproliferative Efficacy of Kaempferol on Cultured Daudi Cells: An In Silico and In Vitro Study (Q59121626) (← links)
• Luteolin improves heart preservation through inhibiting hypoxia-dependent L-type calcium channels in cardiomyocytes (Q64233343) (← links)