INTRODUCTIONSince Riva-Rocci invented indirect brachial cuff sphygmomanometry in 1896 1 and Korotkoff proposed the auscultatory method in 1905, 2 the method for blood pressure (BP) measurements has remained essentially unchanged for the past 100 years.In 1969, Posey et al. 3 identified mean BP on the basis of the cuff-oscillometric method. With subsequent theoretical and technical improvements, the method to determine systolic and diastolic BP (S and D, respectively) was introduced to the cuff-oscillometric method. As a result, many of the automatic electronic sphygmomanometers available today have adopted this method, and those different from the auscultatory method have begun to be used in general clinical practice. Since the advent of indirect methods for sphygmomanometry, the past century has developed the practical and clinical sciences of hypertension. However, BP information necessary for the diagnosis and treatment of hypertension is still obtained essentially on the basis of casual measurements at the outpatient clinic (clinic BP). However, the reliability of clinic BP was called into question 40 years after the advent of indirect sphygmomanometry. In 1940, Ayman and Goldshine 4 widely adopted the concept of self-BP measurements in the field of clinic BP measurements and demonstrated discrepancies between clinic BP and self-BP measurements. Bevan, 5 in the United Kingdom, first reported the results of ambulatory BP (ABP) monitoring (ABPM) using a direct arterial BP measurement method in 1969, and showed that human BP changes markedly with time. The quantity and quality of BP information vary greatly according to different methods, and the problem of interpreting clinic BP, which is obtained specifically in a medical environment, has been an issue in the clinical practice of hypertension during the past 50 years.However, the practice and epidemiology of hypertension still depend entirely on BP information obtained in a medical environment (clinic BP/BP at a health examination), resulting in the
Although morning surge in blood pressure has been shown to be associated with the occurrence of myocardial ischemic events and stroke, few studies have been done regarding its pathogenesis, probably because of a lack of method for the quantitative assessment of awakening time. We conducted an echocardiographic study and ambulatory blood pressure monitoring in 23 elderly hypertensive patients to evaluate the relationship between the hypertensive cardiac change and morning surge in blood pressure. Of note was that the time of arising from bed was assessed quantitatively by an activetracer equipped with an internal acceleration sensor to monitor the physical activity. The change in systolic blood pressure after arising from bed was correlated significantly with the left ventricular mass index (r = 0.51, P < .02) and the A/E ratio, which represents the diastolic function (r = 0.70, P < .01). In contrast, the change in systolic blood pressure before rising from bed was not correlated with any echocardiographic parameters. We conclude that the magnitude of morning surge in blood pressure after arising from bed was related with the severity of hypertensive target organ damage.
We investigated the relationship between 24-h blood pressure (BP) and cognitive function. We performed the Hasegawa Dementia Scale Revised (HDSR), the Mini-Mental State Examination (MMSE), and the Raven's Coloured Progressive Matrices Test (RCPM) in 88 subjects (71+/-9 years) with no history of stroke. Ambulatory BP was non-invasively measured using a TM2421 for 24 h in all patients. Whereas 90% of the scores converged into a narrow range between 25 and 30 points in the HDSR and the MMSE tests, the RCPM score was widely distributed, ranging from 9 to 36 points. The subjects were therefore divided into three groups of > or =25, 26-30, and 31-36 according to their RCPM scores. Subjects with lower scores were significantly associated with increased short-term BP variability during the daytime (p<0.05) and had a tendency toward higher nighttime SBP (p=0.05) compared with those with higher scores. Increased short-term variability of daytime BP and high nighttime systolic BP were associated with cognitive impairment as assessed by the RCPM. The RCPM, which can assess the capacity for judgment through visual information processing, may detect earlier stages of cognitive impairment related to high BP. To prevent a deterioration of cognitive function, strict control of nighttime BP and suppression of short-term BP variability are thus necessary.
To evaluate the morphological and functional characteristics of the heart in elderly patients with white coat hypertension, we performed an echocardiographic study in 67 elderly individuals older than 60 years: 17 patients with white coat hypertension, 34 patients with true hypertension, and 16 normotensive control subjects. White coat hypertension was defined as a mean 24-hour ambulatory systolic blood pressure of less than 140 mm Hg associated with office hypertension. Cardiac responses to an isometric handgrip exercise test were used to evaluate left ventricular functional reserve. Left atrial dimension and left ventricular mass index were significantly greater in the white coat hypertension group than in the normotension group (P<.05) but were similar to values in the true hypertension group. Left ventricular diastolic function, expressed by peak late-early filling ratio of diastolic mitral flow, showed increasing impairment in the order of the normotension, white coat hypertension, and true hypertension groups (analysis of variance, /*<.O5); the ratio in the white coat hypertension group tended to be higher than that in the normotension group (unpaired I test, P=.O54). The relation between fractional shortening and end-systolic stress did not shift downward after handgrip exercise in the white coat hypertension group, indicating that functional reserve in the left ventricle was maintained. Thus, patients with white coat hypertension had a moderately increased left atrial dimension and left ventricular mass in association with a tendency for disturbed diastolic function, although systolic functional reserve remained the same. These findings suggest that white coat hypertension in the elderly may not be innocent (Hypertension. 1993^2:826-831 have been studied by many investigators. For the clinician, perhaps one of the most important applications of ambulatory recording techniques is the detection of white coat hypertension, which can be defined as an elevated clinic BP in association with a normal 24-hour or daytime ambulatory BP. The prevalence of white coat hypertension has been reported to range from 21% to 56% among hypertensive patients depending on the cutoff point used.'-4 Despite the wide prevalence and important clinical implications of white coat hypertension, only a few studies are available with respect to the prognosis or severity of target-organ damage in such patients. Accordingly, it remains unclear whether or not white coat hypertension should be treated like sustained hypertension.Recent reports 56 indicate that white coat hypertension is common not only in the younger population but Received January 5, 1993; accepted in revised form July 26, 1993.From the Division of Cardiology, Tokyo (Japan) Metropolitan Geriatric Hospital.Correspondence to Iwao Kuwajima, MD, Division of Cardiology, Tokyo Metropolitan Geriatric Hospital, 35-2, Sakaecho, Itabashi-ku, Tokyo 173, Japan. also among the elderly. A high prevalence in the elderly is understandable because of the high variability of BP in that ...
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