Chronobiology international
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Randomized Controlled Trial Multicenter Study Comparative Study
Comparison of ambulatory blood pressure parameters of hypertensive patients with and without chronic kidney disease.
There is strong association between chronic kidney disease (CKD) and increased prevalence of hypertension, risk of end-organ damage, and cardiovascular disease (CVD). Non-dipping, as determined by ambulatory blood pressure (BP) monitoring (ABPM), is frequent in CKD and has also been consistently associated with increased CVD risk. The reported prevalence of non-dipping in CKD is highly variable, probably due to relatively small sample sizes, reliance only on a single, low-reproducibility, 24-h ABPM evaluation per participant, and definition of daytime and nighttime periods by arbitrary fixed clock-hour spans. ⋯ Most important, prevalence of the riser BP pattern, associated with highest CVD risk among all possible BP patterns, was 2.5-fold more prevalent in CKD, and up to 5-fold more prevalent in end-stage renal disease. Patients with CKD also presented significantly elevated ambulatory PP, reflecting increased arterial stiffness and enhanced CVD risk. Collectively, these findings indicate that CKD should be included among the clinical conditions for which ABPM is mandatory for proper diagnosis and CVD risk assessment, as well as a means to establish the best therapeutic scheme to increase CVD event-free survival.
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Randomized Controlled Trial
Sleep-time blood pressure: prognostic value and relevance as a therapeutic target for cardiovascular risk reduction.
Correlation between blood pressure (BP) level and target organ damage, cardiovascular disease (CVD) risk, and long-term prognosis is greater for ambulatory BP monitoring (ABPM) than clinical BP measurements. Nevertheless, the latter continue to be the "gold standard" to diagnose hypertension, assess CVD risk, and evaluate hypertension treatment. Independent ABPM studies have found that elevated sleep-time BP is a better predictor of CVD risk than either the awake or 24-h BP mean. ⋯ The increased event-free survival associated with the progressive reduction in the asleep systolic BP mean during follow-up was significant for subjects with either normal or elevated BP at baseline. The ABPM-derived asleep BP mean was the most significant prognostic marker of CVD morbidity and mortality. Most important, the progressive decrease in asleep BP mean, a novel therapeutic target that requires proper patient evaluation by ABPM and best achieved by ingestion of at least one hypertension medication at bedtime, was the most significant predictor of event-free survival.
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Randomized Controlled Trial
Chronotherapy with low-dose aspirin for prevention of complications in pregnancy.
Preeclampsia and gestational hypertension are major contributors to perinatal morbidity and mortality. Several studies aimed to test the effects of low-dose aspirin (ASA) in the prevention of preeclampsia concluded that the beneficial effects of such treatment outweigh adverse ones. Such benefits have not been fully corroborated by larger randomized trials usually carried out in low-risk women, testing a dose of 60 mg/d ASA presumably ingested in the morning, and including women randomized as late as at 26-32 wks of gestation. ⋯ There was no increased risk of hemorrhage, either before or after delivery, with low-dose ASA relative to placebo (HR: .57, 95% CI: .25-1.33; p = .194). Results indicate that (i) 100 mg/d ASA should be the recommended minimum dose for prevention of complications in pregnancy; (ii) ingestion of low-dose ASA should start at ≤16 wks of gestation; and (iii) low-dose ASA ingested at bedtime, but not upon awakening, significantly regulates ambulatory BP and reduces the incidence of preeclampsia, gestational hypertension, preterm delivery, and IUGR. ABPM evaluation at the first trimester of pregnancy provides sensitive endpoints for identification of women at high risk for preeclampsia who might benefit most from the cost-effective preventive intervention with timed low-dose ASA.
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Specific features of the 24-h blood pressure (BP) pattern are linked to progressive injury of target tissues and risk of cardiovascular disease (CVD) events. Several studies have consistently shown an association between blunted asleep BP decline and risk of fatal and nonfatal CVD events. Thus, there is growing focus on ways to properly control BP during nighttime sleep as well as during daytime activity. ⋯ Likewise, the bedtime, in comparison with morning, ingestion schedule of the angiotensin-II receptor blockers (ARBs irbesartan, olmesartan, telmisartan, and valsartan exerts greater therapeutic effect on asleep BP, plus significant increase in the sleep-time relative BP decline, with the additional benefit, independent of drug terminal half-life, of converting the 24-h BP profile into a more normal dipping pattern. This is the case also for the bedtime versus upon-awakening regimen of combination ARB-CCB, ACEI-CCB, and ARB-diuretic medications. The chronotherapy of conventional hypertension medications constitutes a new and cost-effective strategy for enhancing the control of daytime and nighttime SBP and DBP levels, normalizing the dipping status of their 24-h patterning, and potentially reducing the risk of CVD events and end-organ injury, for example, of the blood vessels and tissues of the heart, brain, kidney, and retina.
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Randomized Controlled Trial
Role of time-of-day of hypertension treatment on the J-shaped relationship between blood pressure and cardiovascular risk.
Several previous studies found that too great a reduction of clinic blood pressure (BP) by treatment increased cardiovascular disease (CVD) risk, whereas moderate reduction decreased it. Thus, it has been suggested that the relationship between BP and CVD events is J-shaped, with CVD risk decreasing as BP is lowered, and then rising as BP is further decreased. Correlation between BP level and CVD risk, however, is stronger for ambulatory BP monitoring (ABPM) than clinical BP measurements. ⋯ There was no single major event, i.e., CVD death, myocardial infarction, or stroke, in patients who achieved an asleep systolic BP mean <103 mm Hg. Our findings indicate that bedtime hypertension treatment is not associated with a J-shaped relationship between achieved BP and CVD risk. The decreased CVD risk associated with the progressive reduction in asleep BP, more feasible by bedtime than morning hypertension treatment, has clinical implications, in particular, the need to consider the proper timing of hypertension medications, in conjunction with ABPM for proper assessment of BP control, as an improved and potentially safer means of reducing CVD risk of hypertensive patients.