Effect of dietary patterns on ambulatory blood pressure : results from the Dietary Approaches to Stop Hypertension (DASH) Trial. DASH Collaborative Research Group.

We measured ambulatory blood pressure (ABP) in 354 participants in the Dietary Approaches to Stop Hypertension (DASH) Trial to determine the effect of dietary treatment on ABP (24-hour, day and night) and to assess participants' acceptance of and compliance with the ABP monitoring (ABPM) technique. After a 3-week run-in period on a control "typical" American diet, subjects (diastolic blood pressure [BP], 80 to 95 mm Hg; systolic BP, <160 mm Hg; mean age, 45 years) were randomly assigned to 1 of 3 diets for an 8-week intervention period: a continuation of the control diet; a diet rich in fruits and vegetables; and a "combination" diet that emphasized fruits, vegetables, and low-fat dairy products. We measured ABP at the end of the run-in and intervention periods. Both the fruit/vegetable and combination diets lowered 24-hour ABP significantly compared with the control diet (P<0. 0001 for systolic and diastolic pressures on both diets: control diet, -0.2/+0.1 mm Hg; fruit/vegetable diet, -3.2/-1.9 mm Hg; combination diet, -4.6/-2. 6 mm Hg). The combination diet lowered pressure during both day and night. Hypertensive subjects had a significantly greater response than normotensives to the combination diet (24-hour ABP, -10.1/-5.5 versus -2.3/-1.6 mm Hg, respectively). After correction for the control diet responses, the magnitude of BP lowering was not significantly different whether measured by ABPM or random-zero sphygmomanometry. Participant acceptance of ABPM was excellent: only 1 participant refused to wear the ABP monitor, and 7 subjects (2%) provided incomplete recordings. These results demonstrate that the DASH combination diet provides significant round-the-clock reduction in BP, especially in hypertensive participants.

[1]  A. Distler,et al.  Relationship between ambulatory and resting blood pressure responses to dietary salt restriction in normotensive men , 1997, Journal of hypertension.

[2]  G. Bray,et al.  A clinical trial of the effects of dietary patterns on blood pressure. DASH Collaborative Research Group. , 1997, The New England journal of medicine.

[3]  V. Burke,et al.  Exercise and weight control in sedentary overweight men: effects on clinic and ambulatory blood pressure , 1996, Journal of hypertension.

[4]  J. Staessen,et al.  Ambulatory blood pressure monitoring in clinical trials. , 1996, Annals of the New York Academy of Sciences.

[5]  J A Staessen,et al.  A consensus view on the technique of ambulatory blood pressure monitoring. The Fourth International Consensus Conference on 24-Hour Ambulatory Blood Pressure Monitoring. , 1995, Hypertension.

[6]  M. McCullough,et al.  Rationale and design of the Dietary Approaches to Stop Hypertension trial (DASH). A multicenter controlled-feeding study of dietary patterns to lower blood pressure. , 1995, Annals of epidemiology.

[7]  E. O’Brien,et al.  Clinical trials with ambulatory blood pressure monitoring: fewer patients needed? , 1994, The Lancet.

[8]  P. Williams,et al.  Effects of cessation of caffeinated-coffee consumption on ambulatory and resting blood pressure in men. , 1994, The American journal of cardiology.

[9]  Y. Lacourciére,et al.  Effects of Different Training Intensities on 24‐Hour Blood Pressure in Hypertensive Subjects , 1993, Circulation.

[10]  L. Appel,et al.  Ambulatory Blood Pressure Monitoring and Blood Pressure Self-Measurement in the Diagnosis and Management of Hypertension , 1993, Annals of Internal Medicine.

[11]  L. Howes,et al.  The effects of dietary lipid modification on blood pressure, cardiovascular reactivity and sympathetic activity in man , 1993, Journal of hypertension.

[12]  R. Fogari,et al.  Ambulatory blood pressure monitoring in normotensive and hypertensive type 2 diabetes. Prevalence of impaired diurnal blood pressure patterns. , 1993, American journal of hypertension.

[13]  J. Potter,et al.  Potassium supplementation reduces clinic and ambulatory blood pressure in elderly hypertensive patients , 1992, Journal of hypertension.

[14]  J. Hasford,et al.  24-hour blood pressure measurement in antihypertensive drug trials: data requirements and methods of analysis. , 1992, Statistics in medicine.

[15]  R. M. Lang,et al.  Diurnal blood pressure variation: differences among disparate ethnic groups. , 1991, Journal of hypertension. Supplement : official journal of the International Society of Hypertension.

[16]  J. Blumenthal,et al.  Failure of exercise to reduce blood pressure in patients with mild hypertension. Results of a randomized controlled trial. , 1991, JAMA.

[17]  V. Somers,et al.  Effects of endurance training on baroreflex sensitivity and blood pressure in borderline hypertension , 1991, The Lancet.

[18]  R. Klein,et al.  Salt restriction lowers resting blood pressure but not 24-h ambulatory blood pressure. , 1991, American journal of hypertension.

[19]  K. Shimada,et al.  Silent Cerebrovascular Disease in the Elderly Correlation With Ambulatory Pressure , 1990, Hypertension.

[20]  G. Schillaci,et al.  Circadian blood pressure changes and left ventricular hypertrophy in essential hypertension. , 1990, Circulation.

[21]  D. Altman,et al.  Effects of chronic congestive heart failure secondary to coronary artery disease on the circadian rhythm of blood pressure and heart rate. , 1988, The American journal of cardiology.

[22]  Y. Imai,et al.  Altered circadian blood pressure rhythm in patients with Cushing's syndrome. , 1988, Hypertension.

[23]  W. Haskell,et al.  Effects of weight loss on clinic and ambulatory blood pressure in normotensive men. , 1988, The American journal of cardiology.