Changes of Arterial Pulse (Augmentation Index) in Normotensive Subjects with Family History of Hypertension: Implication in Primary Prevention of Hypertension

Family history plays an important role in the development of essential hypertension [1]. A study from the hypertension survey of 24,762 subjects in China showed the prevalence of hypertension in subjects with hypertensive family history (either father or mother or both have hypertension) was significantly higher than those without family history [2]. Furthermore, the onset age of hypertension in subjects with hypertensive family history was younger than those without hypertensive family history. It is well known that blood pressure is a quantitative trait controlled by numerous hormonals, neural, and structural changes. Structural changes in large blood vessels in hypertension include medial degenerative changes, which stiffen the arteries and increase the pulse wave velocity. Such degree of vascular stiffening may lead to the development of hypertension. Accordingly, genetic risk factors affecting the rate of increase in vascular stiffening are being considered as a topic of great interest [3]. Sphygmocardiography ARTICLE INFO AbsTRACT


Introduction:
Family history plays an important role in the development of essential hypertension, and increased arterial stiffening is an important pathogenic component. Applanation tonometry is a novel technology for evaluating arterial stiffening.

Subjects and Methods:
To evaluate the applicability of applanation tonometry, 143 normotensive subjects (51.7% male) with family history of hypertension, and 143 sex and age-matched subjects without family history of hypertension were recruited from a hypertension survey involving 5117 subjects in Macau. Blood pressure was measured by conventional cuff sphygmomanometer. Radial artery-derived aortic Augmentation Index (AI) was measured by the sphygmocardiographic machine (Sphyg-moCor system, Millar pencil strain gauge transducer). Their meanstandard deviation and 95% Confidence Interval (CI) were evaluated.
Conclusion: AI is significantly higher in normotensive subjects with family history than those without family history. Measurement of AI may be promoted as indicator of potential risk of hypertension, with implication in primary prevention.
has been utilized to assess the pulse wave form, involving the mathematical derivation of central aortic pulses wave forms from recordings of peripheral pulses [4,5]. We propose a first study, we trust, of changes in human arterial pulse using applanation tonometry in subjects with family history of hypertension, as a noninvasive indicator of arterial stiffening, in the pre-clinical stage.

Subjects and Methods
5117 Chinese volunteers in the community were enrolled in a hypertension survey. 143 'healthy' subjects with family history of hypertension (either parent has BP >140/90mmHg, or has been prescribed anti-hypertensive treatment) were recruited into the study group, and 143 age and sex-matched 'healthy' subjects without family history, were assigned as the control group. All the subjects were screened for cardiovascular history and physical findings; those with valvular heart disease or chronically treated cardiovascular diseases including hypertension (SBP>140mmHg, DBP>90mmHg) were excluded. Blood pressure was measured by conventional cuff sphygmomanometry. The radial arterial pressure waves by applanation tonometry were recorded by the Sphygmocardiography using a Millar pencil strain gauge transducer (Sphygmocor System, PWV Medical Pty. Australia) after 5 min. resting and at least 2 hour's post-prandial ( Figure 1).

Statistical Analysis
Radial artery-derived aortic AI (meanSD and 95% confidence interval) of the two groups were compared. Statistical analysis was performed using two tails paired Students' test with a significant difference being at the level of '2p'< 0.05. All statistical analyses were performed using Microsoft Excel.

Discussion
Overall control of blood pressure is achieved by a quantitative trait, controlled by numerous hormonals, neural, and other basic mechanisms. A single specific disturbance of these homeostatic mechanisms may not induce hypertension, but the existence of multiple primary defects affecting simultaneously several adaptive mechanisms may lead to hypertension. Genetic influence does not determine only the high or low blood pressure, but the entire range of values [10]. Pickering demonstrated that the first-degree relatives of persons with essential hypertension have higher blood pressures at all ages than the first-degree relatives of those without family history [11]. In a population of 1,989 male industrial workers among 40 and 55 years of age, Ostfeld and Paul showed a continuous distribution of blood pressure, consistent with a polygenetic, but not a single-gene mode of inheritance [12]. Feinleib et al. found monozygotic twins had higher correlation of systolic and diastolic pressure than dizygotic twins [13]. As an instrument of applanation tonometry, Sphygmocardiography is easy to use, minimally timeconsuming and highly reproducible. This noninvasive recording of pulse wave form can be used on large number of subjects and repeatedly on the same subjects.
Previous studies have documented its applicability in evaluating favourable effects on left ventricular afterload by nitroglycerin [14], arterial hemodynamic and ventricular-vascular interaction in hypertension [15,16], and wave reflection in systemic circulation [17]. Similarly the effect of aging on changing arterial compliance and left ventricular load [18][19][20], benefit of arterial dilation and reduced wave reflection [7], and the impact of arterial stiffening on systolic blood pressure and logical anti-hypertension treatment have been demonstrated with utilization of applanation tonometry technique [21][22][23][24]. In the present study, aortic AI as indicator of arterial stiffening is higher in the subjects with the hypertensive family history compared to subjects without the hypertensive family history after the third decade. This finding reiterates that genetic factors have an effect on the development of hypertension. Follow up these normotensive subjects whose AI is higher than the 95-confidence interval of their age group, may be helpful to assess the predictive value of aortic AI, in early development of hypertension, with implication in hypertension prevention. Early lifestyles modification and anti-hypertension treatment can be started, and hopefully hypertensive disease may be prevented.

Study Limitations
Limitations of study include relatively small sample size which has inadequate power to assess the impact of other risk factors, such as smoking, alcohol and tea drinking on AI, apart from family history. The samples were randomly collected from a large community population, making the numbers of age groups not exactly identical for comparison.