Role of sleep-wake cycle on blood pressure circadian rhythms and hypertension.
about
Longitudinal associations of sleep curtailment with metabolic risk in mid-childhood.Non-dipping blood pressure profile in narcolepsy with cataplexyCircadian variation in the circulatory responses to exercise: relevance to the morning peaks in strokes and cardiac events.Napping is associated with increased risk of type 2 diabetes: the Guangzhou Biobank Cohort Study.Blood pressure dipping and sleep disturbance in African-American and Caucasian men and womenAssociation of napping and night-time sleep with impaired glucose regulation, insulin resistance and glycated haemoglobin in Chinese middle-aged adults with no diabetes: a cross-sectional studyEffect of pranayama on rate pressure product in mild hypertensives.Abnormal sleep-cardiovascular system interaction in narcolepsy with cataplexy: effects of hypocretin deficiency in humansEffects of exercise timing on sleep architecture and nocturnal blood pressure in prehypertensives.Sleep quality and duration - potentially modifiable risk factors for Coronary Artery Disease?Sleep duration and sleep quality in relation to 12-year cardiovascular disease incidence: the MORGEN studyAltered sleep-related blood pressure profile in hypocretin-deficient narcoleptic patients.Disruption of Transitional Stages in 24-h Blood Pressure Recording in Renal Transplant RecipientsMarkers of Sleep-Disordered Breathing and Prediabetes in US Adults.Non-dipping phenomenon in children with monosymptomatic nocturnal enuresis.Daytime napping, sleep duration and increased 8-year risk of type 2 diabetes in a British population.Ethnic differences in electroencephalographic sleep patterns in adolescents.Twenty-four-hour patterns in occurrence and pathophysiology of acute cardiovascular events and ischemic heart disease.Dipper and non-dipper blood pressure 24-hour patterns: circadian rhythm-dependent physiologic and pathophysiologic mechanisms.Administration-time differences in effects of hypertension medications on ambulatory blood pressure regulation.Chronotherapy improves blood pressure control and reduces vascular risk in CKD.Chronotherapeutics of conventional blood pressure-lowering medications: simple, low-cost means of improving management and treatment outcomes of hypertensive-related disorders.Sleep-time ambulatory blood pressure as a novel therapeutic target for cardiovascular risk reduction.Around-the-clock ambulatory blood pressure monitoring is required to properly diagnose resistant hypertension and assess associated vascular risk.Daytime napping and risk of type 2 diabetes: a meta-analysis of prospective studies.Pioneering medical advances through nanofluidic implantable technologies.When and why do heart attacks occur? Cardiovascular triggers and their potential role.To sleep, perchance to dip: obstructive sleep apnea, blood pressure, and cardiovascular disease.Sympathetic Hyperactivity, Sleep Fragmentation, and Wake-Related Blood Pressure Surge During Late-Light Sleep in Spontaneously Hypertensive Rats.Daytime napping and mortality, with a special reference to cardiovascular disease: the JACC study.2013 ambulatory blood pressure monitoring recommendations for the diagnosis of adult hypertension, assessment of cardiovascular and other hypertension-associated risk, and attainment of therapeutic goals.Treatment-time regimen of hypertension medications significantly affects ambulatory blood pressure and clinical characteristics of patients with resistant hypertension.Cardiovascular-sleep interaction in drug-naïve patients with essential grade I hypertension.Ambulatory blood pressure monitoring: importance of sampling rate and duration--48 versus 24 hours--on the accurate assessment of cardiovascular risk.Prevalence and clinical characteristics of isolated-office and true resistant hypertension determined by ambulatory blood pressure monitoring.Perspectives on the chronotherapy of hypertension based on the results of the MAPEC study.Blood pressure status and post-exercise hypotension: an example of a spurious correlation in hypertension research?Sleep and Physiological Dysregulation: A Closer Look at Sleep Intraindividual Variability.Chronotherapy with low-dose aspirin for prevention of complications in pregnancy.Chronotherapy with conventional blood pressure medications improves management of hypertension and reduces cardiovascular and stroke risks.
P2860
Q27331991-2F52EECA-5BF4-4718-A1A0-85F62AF7AE19Q28480931-69C478C1-2AC4-4362-B4FA-E918776B6DA3Q33605967-EC01A0AD-4733-4393-A810-48E22B766FE7Q33700796-4671580B-6A10-40AF-9D85-4FA5ED0A8A05Q33932259-A48FFDE8-3ACE-48F8-B427-901239D03777Q33995587-ECC24727-DF7E-4809-9545-DEC9E5F6628DQ34064666-DB6C0C3D-A093-47B5-8D22-F57836B1E202Q34216671-37A6FBC8-C567-4292-B46C-5CBD80F5F213Q34731177-FC6933A4-0729-455E-A05A-DE525B81326AQ35028566-D9794A3A-9BE9-4ADA-9DE2-D7796F715DF4Q35406975-8CD2074E-076C-4DFE-ADE8-9FCF79D4AC68Q35812426-5470EC85-D724-446E-8CC1-532972ED3352Q35835074-06D36CB9-375A-4BFB-9A74-E81CA1661E94Q36099909-86728451-B4A2-434A-AC8B-B0E3D022A956Q36868571-126C0CD4-46FF-45EB-B36C-C0DD39903622Q37375288-F86A0DE3-F784-4A60-8AB3-E91F7431E9C6Q37449799-777D4B70-71E1-4DE3-A1AF-ABB7C07B7500Q38045901-686552CB-0DD4-4CA4-9DB5-D2BA11BC4304Q38045905-42997C91-184C-4A3A-B0AE-143F80C6999CQ38053166-52640FB3-341E-46C5-B23B-62B9C1B1BE0BQ38100986-8C0FE94F-B32A-4D67-8113-EA445D17093DQ38177166-88D6DD5D-418A-4212-8224-CA7BDAB8F571Q38185598-98A7EF51-E6C6-4A7A-9411-EC0406ECD55EQ38208966-08922DD5-DF18-4C06-842B-D1F54C76254EQ38671245-DDDA0FB7-557D-4285-99AD-107724DB9503Q38745290-5E59BFF4-637F-4A6A-AE75-9F62A57F2A43Q39111792-C6247925-E89E-4C8B-84A8-14302CE843FAQ39649649-0C512718-E5F4-4A0A-9D58-E7B9386C1381Q40561815-B6844317-2E1B-4597-8123-7FDA822CDE46Q43245411-BBC0B9E9-1F97-4112-B425-481CD3B9BBB3Q44360459-2F066CF4-D228-47CA-AB33-22A29432B12FQ44373377-2E7A919C-67F9-474A-8B27-20E16C29D24FQ44410147-1316CBD2-07AA-4406-BC5C-07ACA04D386EQ44927482-9AF70063-FD41-4C54-99C7-351DB1A25645Q45238291-0037F95E-B36C-4633-88CA-00803564631AQ45559214-42F47A64-2E66-4062-98DE-8560662509CFQ46059312-81E2646A-57B9-463A-84FB-6BD9468088ECQ46752939-1C28C686-9823-4257-8B44-CB9031F7F5CCQ47831280-821C87B4-ED44-46C8-A666-268BFF607D73Q47910182-23361C7D-796F-4B53-A52F-B39C6A3B42F3
P2860
Role of sleep-wake cycle on blood pressure circadian rhythms and hypertension.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Role of sleep-wake cycle on blood pressure circadian rhythms and hypertension.
@ast
Role of sleep-wake cycle on blood pressure circadian rhythms and hypertension.
@en
type
label
Role of sleep-wake cycle on blood pressure circadian rhythms and hypertension.
@ast
Role of sleep-wake cycle on blood pressure circadian rhythms and hypertension.
@en
prefLabel
Role of sleep-wake cycle on blood pressure circadian rhythms and hypertension.
@ast
Role of sleep-wake cycle on blood pressure circadian rhythms and hypertension.
@en
P1433
P1476
Role of sleep-wake cycle on blood pressure circadian rhythms and hypertension
@en
P2093
Michael H Smolensky
Ramón C Hermida
P304
P356
10.1016/J.SLEEP.2006.11.011
P577
2007-03-26T00:00:00Z