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Systolic hypertension: Wikis


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In medicine, systolic hypertension is defined as an elevated systolic blood pressure.

If systolic blood pressure is elevated (>140) with a normal diastolic blood pressure (<90), it is called "isolated systolic hypertension". [1] [2]



Systolic hypertension may be due to reduced compliance of the aorta with increasing age[3]. This increases the load on the ventricle and jeopardizes coronary blood flow, which can eventually result in left ventricular hypertrophy, coronary ischemia, and heart failure. [4]

Contemporary physics shows us an Immersed Boundary Method of computational illustration of a single heartbeat Template:Courant Intitute. Applied to physiologic models, immersed boundary theory sees the heart as a great folded semisolid Sail fielding and retrieving a viscous blood mass. The sail, likened to Windkessel physiology gives and receives a load under time ordered phases. Decreasing compliance of the sail heralds the onset of systolic hypertension.


The goal of treating systolic hypertension is to delay and reduce the extent of damage to the heart, the cerebrovascular system, and the kidneys. Lifestyle interventions are a crucial element of successful treatment, including a diet (such as the DASH diet) which is low in sodium and rich in whole grains, fruits, and vegetables. Clinical trials have also documented the beneficial effects of weight loss, increased physical activity, and limiting alcohol consumption.[4]

Most individuals will require medication in addition to lifestyle changes in order to reduce systolic hypertension to safe levels. Two randomized controlled trials have established the value of treating systolic hypertension[5][6].


SHEP study

This randomized controlled trial showed a reduction of three strokes per 100 patients treated for five years with chlorthalidone[5][7]

  • Patients: inclusion criteria were SBP greater than 160 to 219 mm Hg and DBP less than 90 mm Hg. Mean initial BP was 170/77.
  • Treatment goal: 20 mmHg reduction in systolic pressure or a systolic pressure of less than 160 mmHg, whichever was lower
  • Mean final blood pressure in the treatment group: 143/68

Syst-Eur Trial

This randomized controlled trial showed a reduction of 0.3 strokes per 100 patients treated with nitrendipine for a median follow-up of two years[6].

  • Patients: inclusion criteria were systolic of 160-219 mm Hg and diastolic blood pressure lower than 95 mm Hg. Average was 174/86.
  • Treatment goal: "We aimed to reduce the sitting systolic blood pressure by at least 20 mm Hg to less than 150 mm Hg"
  • Mean final blood pressure in the treatment group: 151/79. 44% of patients reached the target blood pressure goals.

The treatment goal

Based on these studies, treating to a systolic blood pressure of 140, as long as the diastolic blood pressure is 68 or more seems safe. Corroborating this, a re-analysis of the SHEP data suggest that allowing the diastolic to go below 70 may increase adverse effects.[7].

A meta-analysis of individual-patient data from randomized controlled trials found that the nadir diastolic blood pressure below which cardiovascular outcomes increase is 85 mm Hg for untreated hypertensives and 85 mm Hg for treated hypertensives.[8] The authors concluded "poor health conditions leading to low blood pressure and an increased risk for death probably explain the J-shaped curve".[8] Interpreting the meta-analysis is difficult, but avoiding a diastolic blood pressure below 68-70 mm Hg seems reasonable because:

  • The nadir value of 85 mm Hg for treated hypertensives in the meta-analysis is higher than the value of 68-70 mm Hg that is the nadir suggested by the two major randomized controlled trials of isolated systolic hypertension
  • The two largest trials in the meta-analysis, Hypertension Detection and Follow-up Program (HDFP)[9] and Medical Research Council trial in mild hypertension (MRC1)[10] were predominantly middle aged subjects, all of whom had diastolic hypertension before treatment.
  • The independent contributions of diseases and factors other than hypertension versus effects of treatment are not clear in the meta-analysis.

Newer treatments have emerged since these trials which address the underlying causes of hypertension in novel ways. For instance, a direct inhibitor of the kidney hormone renin, called aliskiren, has recently been released in the United States. It has antihypertensive efficacy similar to ACE inhibitors and angiotensin receptor blockers. By suppressing renin activity directly rather than indirectly (as these other medications do), it avoids a rebound in renin levels that gradually interferes with their efficacy. [4] However, over the long term it may lead to increases in the physiological precursor of renin. Its role as a single agent without the concomitant use of other antihypertensives is not yet clear. [11]

Medications that act on the sympathetic nervous system, which is important in the cause of hypertension, also show promise. European studies show that selective imidazoline agonists, such as moxonidine and rilmenidine, are reasonably effective against hypertension while improving glucose tolerance and lipid metabolism. [4]


  1. ^ "Isolated systolic hypertension: A health concern? -". Retrieved 2008-12-22.  
  2. ^ "The Cleveland Clinic Center for Continuing Education". Retrieved 2008-12-22.  
  3. ^ Smulyan H, Safar ME (February 2000). "The diastolic blood pressure in systolic hypertension". Ann. Intern. Med. 132 (3): 233–7. PMID 10651605.  
  4. ^ a b c d DeLoach, SS; Townsend, RR (March 2008), "Systolic Hypertension: A Guide to Optimal Therapy", Consultant 48 (3),  
  5. ^ a b , (June 1991). "Prevention of stroke by antihypertensive drug treatment in older persons with isolated systolic hypertension. Final results of the Systolic Hypertension in the Elderly Program (SHEP). SHEP Cooperative Research Group". JAMA 265 (24): 3255–64. doi:10.1001/jama.265.24.3255. PMID 2046107.  
  6. ^ a b Staessen JA, Fagard R, Thijs L, et al. (September 1997). "Randomised double-blind comparison of placebo and active treatment for older patients with isolated systolic hypertension. The Systolic Hypertension in Europe (Syst-Eur) Trial Investigators". Lancet 350 (9080): 757–64. doi:10.1016/S0140-6736(97)05381-6. PMID 9297994.  
  7. ^ a b Somes GW, Pahor M, Shorr RI, Cushman WC, Applegate WB (September 1999). "The role of diastolic blood pressure when treating isolated systolic hypertension". Arch. Intern. Med. 159 (17): 2004–9. doi:10.1001/archinte.159.17.2004. PMID 10510985.  
  8. ^ a b Boutitie F, Gueyffier F, Pocock S, Fagard R, Boissel JP (2002). "J-shaped relationship between blood pressure and mortality in hypertensive patients: new insights from a meta-analysis of individual-patient data". Ann. Intern. Med. 136 (6): 438–48. PMID 11900496.  
  9. ^ , (1979). "Five-year findings of the hypertension detection and follow-up program. I. Reduction in mortality of persons with high blood pressure, including mild hypertension. Hypertension Detection and Follow-up Program Cooperative Group". JAMA 242 (23): 2562–71. doi:10.1001/jama.242.23.2562. PMID 490882.  
  10. ^ "MRC trial of treatment of mild hypertension: principal results. Medical Research Council Working Party". British medical journal (Clinical research ed.) 291 (6488): 97–104. 1985. PMID 2861880.  
  11. ^ Vidt, DG (January 2008), "What's New in the Treatment of Hypertension?", Consultant 48 (1),  


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