Obstructive sleep apnea (OSA) causes blood pressure (BP) surges during sleep, which may lead to increased sleeponset cardiovascular events. The authors recently developed a triggered nocturnal BP monitoring system that initiates BP measurements when oxygen desaturation falls below a variable threshold. The distribution and reproducibility of hypoxia-triggered nocturnal BP parameters compared with those of fixed-interval nocturnal BP parameters for two consecutive nights in 147 OSA patients (mean age 59.4 years, 86.4% men) were evaluated. The mean and distribution (standard deviation [SD]) of the hypoxia-peak systolic BP (SBP) were significantly greater than that of the mean nocturnal SBP (meanAESD: 148.8AE20.5 vs 123.4AE14.2 mm Hg, P<.001). The repeatability coefficient (expressed as %MV) of hypoxia-peak SBP between night 1 and night 2 was comparable to that of mean nocturnal SBP (43% vs 32%). In conclusion, hypoxia-peak nocturnal BP was much higher than mean nocturnal BP, and it was as reproducible as mean nocturnal BP.
Asians have specific characteristics of hypertension (HTN) and its relationship with cardiovascular disease. The morning surge in blood pressure (BP) in Asians is more extended, and the association slope between higher BP and the risk for cardiovascular events is steeper in this population than in whites. Thus, 24-hour BP control including at night and in the morning is especially important for Asian patients with HTN. There are 3 components of "perfect 24-hour BP control": the 24-hour BP level, adequate dipping of nocturnal BP (dipper type), and adequate BP variability such as the morning BP surge. The morning BP-guided approach using home BP monitoring (HBPM) is the first step toward perfect 24-hour BP control. After controlling morning HTN, nocturnal HTN is the second target. We have been developing HBPM that can measure nocturnal BP. First, we developed a semiautomatic HBPM device with the function of automatic fixed-interval BP measurement during sleep. In the J-HOP (Japan Morning Surge Home Blood Pressure) study, the largest nationwide home BP cohort, we successfully measured nocturnal home BP using this device with data memory, 3 times during sleep (2, 3, and 4 am), and found that nocturnal home BP is significantly correlated with organ damage independently of office and morning BP values. The second advance was the development of trigger nocturnal BP (TNP) monitoring with an added trigger function that initiates BP measurements when oxygen desaturation falls below a variable threshold continuously monitored by pulse oximetry. TNP can detect the specific nocturnal BP surges triggered by hypoxic episodes in patients with sleep apnea syndrome. We also added the lowest heart rate-trigger function to TNP to detect the "basal nocturnal BP," which is determined by the circulating volume and structural cardiovascular system without any increase in sympathetic tonus. This double TNP is a novel concept for evaluating the pathogenic pressor mechanism of nocturnal BP. These data are now collected using an information and communication technology (ICT)-based monitoring system. The BP variability includes different time-phase variability from the shortest beat-by-beat, positional, diurnal, day-by-day, visit-to-visit, seasonal, and the longest yearly changes. The synergistic resonance of each type of BP variability would produce great dynamic BP surges, which trigger cardiovascular events. Thus, in the future, the management of HTN based on the simultaneous assessment of the resonance of all of the BP variability phenotypes using a wearable "surge" BP monitoring device with an ICT-based data analysis system will contribute to the ultimate individualized medication for cardiovascular disease.
It is well-known that cardiovascular events occur more frequently in the morning, with blood pressure (BP) levels shown to increase during the period from night to early morning.1 In recent years, clinical research using ambulatory BP monitoring (ABPM) or home BP monitoring (HBPM) has clarified that morning BP and BP surge are more closely related to cardiovascular risk than clinic BP. [2][3][4][5] In this issue of The Journal of Clinical Hypertension, Cho and colleagues 6 demonstrated that morning BP surge was significantly increased in patients with obstructive sleep apnea syndrome (OSAS).
MORNING BP SURGEThere are several factors associated with morning BP surge and morning hypertension. Morning BP surge is increased by various factors, including aging, hypertension, high-normal normotension, diabetes, inflammation, alcohol intake, smoking, physical stress, and FIGURE 1. Exaggerated morning blood pressure surge detected by ambulatory blood pressure monitoring in a 76-year-old woman with obstructive sleep apnea syndrome. Nocturnal blood pressure was considered normotensive at <120/70 mm Hg.
The UA-1200BLE device had a high level of accuracy and fulfilled all ISO 81060-2:2013 standard requirements in adults with a wide range of arm circumference measurements. It is therefore suitable as a wireless blood pressure monitoring tool in patients with hypertension.
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