Light-mediated perturbations of circadian timing and cancer risk: a mechanistic analysis.
about
Neurotoxins: free radical mechanisms and melatonin protectionMelatonin and stable circadian rhythms optimize maternal, placental and fetal physiologyCommon sense: folk wisdom that ethnobiological and ethnomedical research cannot afford to ignore.Urinary melatonin-sulfate/cortisol ratio and the presence of prostate cancer: A case-control studyNight shift work and levels of 6-sulfatoxymelatonin and cortisol in menSleep and cancer: Synthesis of experimental data and meta-analyses of cancer incidence among some 1,500,000 study individuals in 13 countries.Estimation of effective day length at any light intensity using solar radiation data.Shift work and cancer: the evidence and the challenge.Scientific basis for the potential use of melatonin in bone diseases: osteoporosis and adolescent idiopathic scoliosis.Melatonin, noncoding RNAs, messenger RNA stability and epigenetics--evidence, hints, gaps and perspectives.Residential Exposure to Road and Railway Noise and Risk of Prostate Cancer: A Prospective Cohort Study.Shift Work and Prostate Cancer Incidence in Industrial Workers: A Historical Cohort Study in a German Chemical Company.Sleep duration, spot urinary 6-sulfatoxymelatonin levels and risk of breast cancer among Chinese women in SingaporeMelatonin inhibits the expression of vascular endothelial growth factor in pancreatic cancer cells.Impact of lifestyle and technology developments on sleep.Obesity and metabolic syndrome: association with chronodisruption, sleep deprivation, and melatonin suppression.Melatonin, the circadian multioscillator system and health: the need for detailed analyses of peripheral melatonin signaling.Molecular mechanisms of melatonin's inhibitory actions on breast cancers.Diagnosis and Treatment of Non-24-h Sleep-Wake Disorder in the Blind.Melatonin prevents human pancreatic carcinoma cell PANC-1-induced human umbilical vein endothelial cell proliferation and migration by inhibiting vascular endothelial growth factor expression.Functional interplay between melatonin receptor-mediated antiproliferative signaling and androgen receptor signaling in human prostate epithelial cells: potential implications for therapeutic strategies against prostate cancer.Role of CD4+ CD25+ regulatory T cells in melatonin-mediated inhibition of murine gastric cancer cell growth in vivo and in vitro.The association between artificial light at night and prostate cancer in Gwangju City and South Jeolla Province of South Korea.Quantification of interactions among circadian clock proteins via surface plasmon resonance.Progressive decrease of melatonin production over consecutive days of simulated night work.Melatonin production and light exposure of rotating night workers.Diets enriched with a Jerte Valley cherry-based nutraceutical product reinforce nocturnal behaviour in young and old animals of nocturnal (Rattus norvegicus) and diurnal (Streptopelia risoria) chronotypes.Bone marrow and peripheral white blood cells number is affected by sleep deprivation in a murine experimental model.
P2860
Q22305781-82285C26-F9E5-48B4-ADE8-DCD0A8F059CCQ26825609-977356E9-9EB9-470E-A47F-71B9EF865098Q27690794-0DD9D5F4-35A9-448D-94C5-4338F37CBE69Q28383609-F07F42D3-8AEF-4F13-AEE1-F5135CDF7B58Q28388457-A0002F83-0BDD-42BC-983E-F7411D405876Q31061663-2B9DCAD0-B8D3-466D-8B62-EED375593824Q34098052-5D7E1140-A53F-4A88-B132-9EACCACB9EFEQ34196631-FF3B1989-283B-4FB3-BB63-B62339148902Q34211436-81B1A131-216A-4527-952D-58640644F2C0Q34486777-1884E878-6990-4141-9837-4B6A02AF18B5Q35754518-334593CF-1598-419D-AED5-10A622F6389EQ35916383-3E852C64-B253-4C2A-BF1E-C6B6AB29E416Q36335735-7EB9C5D0-0C99-4215-B2B6-3A9C06459FBBQ36551143-AE4230BC-1A92-4EBD-BDE4-63D9F6DF626DQ36779876-4DF0B509-B8D0-4F66-A2D2-BC57D4E4535CQ37888682-820B7766-5E51-48DD-867D-CE46D83B441FQ37950409-7CA2F49D-EB3D-45C0-BA6B-9CFE4289E49FQ38046127-4907AB87-79C0-4BA5-A6AE-EAD76E6B1BAEQ39147457-5D476769-071A-4916-9591-1117CBC594F8Q39474556-0FD78D44-0CB2-41DF-8BA7-94B330708678Q39538005-4026F910-4D97-47BE-8F82-89CD38048A09Q39574224-1BE202E7-68EA-41FE-9414-FA2B475D0B4BQ40429784-ECA277B9-6084-473C-AA3E-CC75CF3A7998Q45898576-CB1EF236-7CCE-483C-92BA-34388307D5F6Q48030149-5BCC057E-F35B-4F26-9D00-C0838842670FQ48259194-F5B577AF-B3BE-43FB-8AD9-391A6EAC128AQ48274657-8CA1CEEF-D67D-48A2-894B-ABAF26CB3544Q48310749-1233FAAC-E9CF-412C-9398-A53DD7E1AE68
P2860
Light-mediated perturbations of circadian timing and cancer risk: a mechanistic analysis.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on December 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Light-mediated perturbations of circadian timing and cancer risk: a mechanistic analysis.
@en
Light-mediated perturbations of circadian timing and cancer risk: a mechanistic analysis.
@nl
type
label
Light-mediated perturbations of circadian timing and cancer risk: a mechanistic analysis.
@en
Light-mediated perturbations of circadian timing and cancer risk: a mechanistic analysis.
@nl
prefLabel
Light-mediated perturbations of circadian timing and cancer risk: a mechanistic analysis.
@en
Light-mediated perturbations of circadian timing and cancer risk: a mechanistic analysis.
@nl
P2860
P50
P356
P1476
Light-mediated perturbations of circadian timing and cancer risk: a mechanistic analysis
@en
P2093
Dan Xian Tan
Thomas C Erren
P2860
P304
P356
10.1177/1534735409352026
P577
2009-12-01T00:00:00Z