Barry, Chicago, IL asked: Show There's a big gap between my blood-pressure numbers (145/75). Is that a problem? Answer: More From Men's Health Yes, says John Elefteriades, M.D., chief of cardiothoracic surgery at Yale University and a Men's Health advisor. In adults, systolic pressure (the top number; the pressure in your blood vessels when the heart beats) should be 120 millimeters of mercury (mm Hg) or less. Diastolic pressure (the bottom number; the pressure when your heart is at rest) should be 80 mm Hg or less. Both numbers are important in your blood-pressure reading, and so is the difference between them. "The two numbers should never be more than 60 points apart," Dr. Elefteriades says. "Being 70 points apart suggests there could be a deeper problem, such as a leaky valve" — a condition in which bloodflow through the heart becomes more turbulent than normal. A leaky heart valve can cause shortness of breath, weakening of the heart, and, ultimately, heart failure. Go to your doctor, and he or she will probably schedule an echocardiogram to see if you have a leaky valve. Journal Article Ian B. Wilkinson, 1 Clinical Pharmacology Unit, University of Cambridge, Addenbrooke’s Hospital , Cambridge , UK Search for other works by this author on: John R. Cockcroft2 Department of Cardiology, Wales Heart Research Institute, University Wales College of Medicine, Heath Park , Cardiff , UK Department of Cardiology, Wales Heart Research Institute, University Wales College of Medicine, Heath Park , Cardiff , UK Search for other works by this author on: Accepted: 05 September 2000 Published: 01 December 2000
Close Navbar Search Filter Microsite Search Term Search H ypertension is an age-old problem, and the importance of arterial blood pressure as a determinant of cardiovascular risk has been clearly demonstrated by a number of major studies since the introduction of the mercury sphygmomanometer nearly 100 years ago. Similarly, the benefits of treating hypertension have been equally well established by randomized, controlled trials. However, many of these studies focused almost exclusively on diastolic pressure, as convention dictated that this was the best predictor of risk. Moreover, despite repeated protests,1 data from the Framingham study2 in particular, demonstrating that systolic blood pressure is probably more important than diastolic pressure in defining cardiovascular risk, were largely ignored in favor of the “conventional view.” However, much recent evidence has challenged the preeminence of diastolic pressure, emphasizing the importance of systolic and, latterly, pulse pressure as more accurate predictors of cardiovascular risk. Essential hypertension is characterized by increased peripheral vascular resistance and, therefore, an increased mean arterial pressure, which is more closely related to diastolic pressure. However, pulse pressure—the “gap” between systolic and diastolic pressure—is defined mainly by the compliance of the large arteries and the cardiac output as, indeed, noted by Bramwell and Hill in 19223: “Hence the difference between systolic and diastolic pressure, that is the pulse pressure, other things being equal will vary directly as the rigidity of the arterial walls.” Aging is associated with stiffening of the large arteries4,5 and a widening of the pulse pressure in almost all populations6: a consequence of arteriosclerosis. The most recent data from the Framingham study have not only confirmed the increase in systolic and decrease in diastolic pressure associated with the normal aging process, but indicate that this increase in pulse pressure, at least in the persons aged more than 50 years, is a better predictor of a cardiovascular event than systolic or diastolic pressure in isolation.7 Similar findings have been reported from epidemiologic studies in normotensive8 and hypertensive individuals,9,10 and in those surviving a myocardial infarction.11 Together, these data suggest that arterial stiffness is a better predictor of cardiovascular risk than peripheral vascular resistance, at least in the middle-aged and older subjects. This view is supported by more direct assessment of arterial stiffness, using aortic pulse wave velocity measurement, in patients with renal failure12 and hypertension.13 Isolated systolic hypertension, defined as an increased systolic (>160 mm Hg) but normal diastolic pressure (<90 mm Hg) affects almost half of those aged more than 60 years14; a burden that is likely to grow with increasing life expectancy. It is a consequence of the age-related stiffening of the large arteries and, therefore, isolated systolic hypertension may be considered as an exaggeration of the natural aging process—something that we might all develop should we live long enough. Moreover, in contrast to essential hypertension, it is not associated with any appreciable change in peripheral vascular resistance. Therefore, isolated systolic hypertension and essential hypertension can no longer be viewed as the same condition. Historically, isolated systolic hypertension was viewed as part of the natural aging process and considered to be essentially a benign condition. However, the emerging importance of pulse pressure, together with data from both observational and interventional studies, indicate that individuals with isolated systolic hypertension have a substantially increased risk of cardiovascular disease and death.15 The benefits of treating isolated systolic hypertension have been clearly demonstrated by three large, multicenter intervention trials in which antihypertensive therapy significantly reduced cardiovascular morbidity and mortality.16,17,18 Moreover, data from the latest Cochrane review19 indicate that treating isolated systolic hypertension in the elderly confers a similar relative risk reduction in cardiovascular morbidity and mortality to that obtained from antihypertensive therapy in younger individuals with essential hypertension. However, because the elderly are at a substantially higher absolute risk of events, they stand to benefit significantly more from treatment. Indeed, the number of elderly patients with isolated systolic hypertension that need to be treated for 5 years to prevent one stroke, is around half that of the number of younger subjects with “mild” hypertension.20 As such, treating isolated systolic hypertension could be considered more cost effective. Moreover, concerns regarding the tolerability of drug therapy in older individuals seem largely unjustified. Indeed, in the Systolic Hypertension in the Elderly Program pilot study21 and Swedish Trial in Old Patients with Hypertension (STOP) study,22 discontinuation rates were similar in the active treatment and placebo groups. However, a number of questions regarding therapy for isolated systolic hypertension remain, such as what target pressure to aim for and whether conventional antihypertensive drugs, developed mainly for treating essential hypertension, will enable these targets to be achieved. Such issues need to be addressed by large randomized, controlled trials. Despite the evidence regarding the risks associated with isolated systolic hypertension, and the benefits of treatment, it is frequently ignored and undertreated. Recent data from the National Health and Nutrition Examination Survey (NHANES) III demonstrate that despite isolated systolic hypertension being the predominant form of hypertension in both treated and untreated hypertensives over the age of 50 years, there is still a selection bias in favor of treating diastolic rather than systolic blood pressure, and in targeting younger subjects.23 Similar results were obtained by recent polls of British General Practitioners and Hospital Consultants.24,25 The roots of this intransigence originate from a century of overreliance on diastolic pressure,26 and have been perpetuated by unjustified concerns about potential adverse consequences of treatment and ageism within the medical profession itself. Almost 100 years since the introduction of the mercury sphygmomanometer we have finally come to recognize the ascendancy of systolic over diastolic pressure for accurate assessment of cardiovascular risk. Nevertheless, although suggested by some researchers,26 diastole cannot be abandoned, as the gap between systolic and diastolic pressure—the pulse pressure—is probably the best predictor of cardiovascular risk for most individuals. The latest World Health Organization–International Society of Hypertension guidelines27 for the management of hypertension emphasize the importance of pulse pressure and arterial stiffness as predictors of cardiovascular risk and call for further investigation of the prognostic relevance of other indices of arterial distensibility and stiffness. However, the importance of arterial stiffness as a measure of health was recognized by nineteenth century physicians, who developed devices to assess stiffness in a qualitative manner.28 Moreover, Bramwell and Hill3 not only understood the physiological basis and clinical relevance of a raised pulse pressure in 1922, but also the need for more accurate methods of assessing arterial stiffness. Perhaps the current problem is as noted by Andre Gide in 1891, that: “Everything has been said before, but since nobody listens we have to keep going back and beginning all over again.” The major challenge, at present, is in persuading the medical profession to accept the evidence, change practice, and to treat the elderly with isolated systolic hypertension. Perhaps, then we can address the important issues such as defining target pressure, and developing new therapies to specifically reduce large artery stiffness. References1.: The ascendancy of diastolic blood pressure over systolic . Lancet 1985 ; ii : 1349 – 1350 . 2., , : Systolic versus diastolic blood pressure and the risk of coronary heart disease . Am J Cardiol 1971 ; 27 : 335 – 346 . 3., : Velocity of transmission of the pulse-wave and elasticity of the arteries . Lancet 1922 ; i : 891 – 892 . 4., , , : Non-invasive determination of age-related changes in the human arterial pulse . Circulation 1989 ; 80 : 1652 – 1659 . 5., , , , , , : Effects of ageing on arterial distensibility in populations with high and low prevalence of hypertension: comparison between urban and rural communities in China . Circulation 1985 ; 71 : 202 – 210 . 6., , , , , , : Hemodynamic patterns of age-related changes in blood pressure: The Framingham Heart Study . Circulation 1997 ; 96 : 308 – 315 . 7., , , , : Is pulse pressure useful in predicting risk for coronary heart disease? The Framingham Heart Study . Circulation 1999 ; 100 : 354 – 360 . 8., , , , , , : Pulse pressure: A predictor of long-term cardiovascular mortality in a French male population . Hypertension 1997 ; 30 : 1410 – 1415 . 9., , , : Pulse pressure and cardiovascular mortality in normotensive and hypertensive subjects . Hypertension 1998 ; 32 : 560 – 564 . 10., , , , , , , , : Pulse pressure not mean pressure determines cardiovascular risk in older hypertensive patients . Arch Intern Med 2000 ; 160 : 1085 – 1089 . 11., , , , , , , : Sphygmomanometrically determined pulse pressure is a powerful independent predictor of recurrent events after myocardial infarction in patients with impaired left ventricular function . Circulation 1997 ; 96 : 4254 – 4260 . 12., , , , , : Impact of aortic stiffness on survival in end-stage renal disease . Circulation 1999 ; 99 : 2434 – 2439 . 13., , , , : Aortic pulse wave velocity as a marker of cardiovascular risk in hypertensive patients . Hypertension 1999 ; 33 : 1111 – 1117 . 14., , , , , , , : Guidelines for management of hypertension: Report of the Third Working Party of the British Hypertension Society . J Hum Hypertens 1999 ; 13 : 569 – 592 . 15., , : Isolated systolic hypertension as a major risk factor for stroke and myocardial infarction and an unexploited source of cardiovascular prevention: A prospective population-based study . J Hum Hypertens 1995 ; 9 : 175 – 180 . 16. SHEP Cooperative Research Group Prevention of stroke by antihypertensive drug treatment in older persons with isolated systolic hypertension: Final results of the Systolic Hypertension in the Elderly Program . JAMA 1991 ; 265 : 3255 – 3265 . 17., , , , , , , , , , , , , , , , , : Randomised double-blind comparison of placebo and active treatment for older patients with isolated systolic hypertension . Lancet 1997 ; 350 : 757 – 764 . 18., , , , : Comparison of active treatment and placebo in older Chinese patients with isolated systolic hypertension . J Hypertens 1998 ; 16 : 1823 – 1829 . 19., , , : Pharmacotherapy for hypertension in the elderly (Cochrane Review) , in: The Cochrane Library , Issue 1 Edition. Oxford , Update Software. 2000 . 20. Medical Research Council Working Party MRC trial of treatment of mild hypertension: Principal results . Br Med J 1985 ; 291 : 97 – 104 . 21., , , , , , , , , : Morbidity and mortality in the Systolic Hypertension in the Elderly Program (SHEP) pilot study . Stroke 1989 ; 20 : 4 – 13 . 22., , , , , , , , , , , , , : Morbidity and mortality in the Swedish trial in old patients with hypertension (STOP-Hypertension) . Lancet 1991 ; 338 : 1281 – 1285 . 23., , , , : The need to focus on systolic hypertension: Analysis of NHANES III blood pressure data . J Am Coll Cardiol 2000 ; 35 : 334A . (Abstract)
24., : Influence of age on general practitioners’ definition and treatment of hypertension . Br Med J 1995 ; 310 : 574 . 25., , : Doctors’ attitudes towards the detection and treatment of hypertension in older people . J Hum Hypertens 1997 ; 11 : 271 – 276 . 26.: Abandoning diastole: A personal view . Br Med J 1999 ; 318 : 1773 . 27., , : 7th WHO-ISH Meeting on Hypertension, Fukuoka, Japan, 29 September to October, 1998: 1999 World Health Organization–International Society of Hypertension Guidelines for the Management of Hypertension . J Hypertens 1999 ; 17 : 151 – 183 . 28.: The physiological and clinical use of the sphygmograph . Medical Times Gazette 1872 ; 1 : 62 – 64 . © 2000 by the American Journal of Hypertension, Ltd. American Journal of Hypertension, Ltd. © 2000 by the American Journal of Hypertension, Ltd. What does it mean when your systolic and diastolic are far apart?What Does It Mean? A wide pulse pressure means that the difference between your systolic blood pressure and diastolic blood pressure is large, or wide. It is generally a sign of arterial stiffness and may increase your risk for heart disease and other conditions [6].
What is widening pulse pressure indicative of?A widened (or larger) pulse pressure occurs with several diseases, including aortic regurgitation, aortic sclerosis (both heart valve conditions), severe iron deficiency anemia (reduced blood viscosity), arteriosclerosis (less compliant arteries), and hyperthyroidism (increased systolic pressure).
How far apart should systolic and diastolic be?The top number (systolic) minus the bottom number (diastolic) is the pulse pressure. For example, if the resting blood pressure is 120/80 millimeters of mercury (mm Hg), the pulse pressure is 40 — which is considered a healthy pulse pressure. Generally, a pulse pressure greater than 40 mm Hg is unhealthy.
Which is more worrisome systolic or diastolic?Over the years, research has found that both numbers are equally important in monitoring heart health. However, most studies show a greater risk of stroke and heart disease related to higher systolic pressures compared with elevated diastolic pressures.
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What does a wide gap between systolic and diastolic mean
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