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Hypertension

Discover the causes, classification, physiology, and primary prevention strategies for hypertension, including dietary factors, exercise, and lifestyle changes to lower blood pressure levels. Learn about key nutrients like potassium, calcium, and magnesium for blood pressure regulation. Find out how to reduce sodium intake and alcohol consumption to improve cardiovascular health.

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Hypertension

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  1. Hypertension L. Kathleen Maban and Sylvia Escott-Stump:Food, Nutrition & Diet Therapy, 9th 告報者:劉佩姎 營養師 日期:93/03/25

  2. Hypertension • Hypertension is the most common public health problem in developed countries. • Called Silent Killer • No cure is available, but prevention and management decrease the incidence of hypertension and disease sequelae.

  3. Classification • Essential or Primary hypertension: 90 ~ 95% the cause can’t be determined, therefore treatment is nonspecific. • Secondary hypertension: caused by another disease, ex: renal or endocrine

  4. Definition • SBP (systolic blood pressure)  140 mmHg and/or DBP (diastolic blood pressure)  90 mmHg

  5. Joint National Committee on Detection, Evaluation, and Treatment of High Blood Pressure

  6. Prevalence

  7. Morbidity and Mortality

  8. Physiology • Blood pressure levels: a function cardiac output mutipied by peripheral resistance (the resistance in blood vessels to the flow of blood) • Diameter of blood vessels • Sympathetic nerve system ( for short-term control) • Kidney (for long-term control)

  9. Blood Pressure fail ↓ Sympathetic nerve system ↓ Norepinephrin ↓ Act on small arteries and arterioles ↓ ↑ peripheral resistance ↓ ↑Blood Pressure

  10. Angiotensinase Renal retension Vasoconstriction of salt and water Increased arteial pressure Decreased arterial pressure ↓ Renin (Kidney) ↓ Renin substrate Angiotensin I (Plasma protein) Coverting Enzyme (Lung) Angiotensin II (Inactived)

  11. Regulatory mechanism falter, hypertension develop. • Neurohormonal and intrarenal • Peripheral resistance↑→ left ventricle of heart increase effort in pumping blood → left ventricular hypertrophy → congestive f=heart failure

  12. Primary prevention • A population strategy: lower the blood pressure in general population • A targeted strategy: direct intervention to lower blood pressure at individuals who are at greatest risk of developing hypertension.

  13. Genetic predisposition to H/N interacts Obesity Life-style Dietary components

  14. Diet-related factors influencing development of hypertension • Changing four modifiable factors has documented efficacy in the primary prevention of hypertension. -Overweight -High salt intake -Alcohol consumption -Physical inactivity

  15. Overweight • Two to six times higher in overweight than in normal-weight individuals • Higher prevalence rates are seen in Mexican-Americans and non-Hispanic black women • Greater fluctuation in weight • 50~59 yr non-Hispanic white women • 30~39 yr non-Hispanic black and Mexican-American women • 20~34 yr weight gaining more than 30 lb in a 10 years

  16. Factor associated • Low educational attainment • Low socioeconomic status

  17. Framingham Study • Increase related weight of 10% was predictive of a 7 mmHg rise in blood pressure

  18. Inuslin resistance • hyperinsulinemia • activation of sympathetic nervous and renin-angiotensin system • physical changes in the kidney

  19. BMI Energy intake↑ ↓ plasma insulin ↑ ↓ increase renal sodium reabsorption ↓ blood pressure ↑

  20. Early identification of children as potential hypertensive

  21. Excess consumption of sodium Chloride • Consuming 100 mEq/day or less or sodium was associated with a 2.2 mmHg fall in SBP • The rise in SBP seen with aging over 30 years would be 9 mmHg less and the rise in DBP 4.5 mmHg less if the average sodium intake were lowered by 100 mEq/day

  22. Alcohol Consumption • Three drinks per days (a total of 3 oz of alcohol) is the threshold for raising blood pressure and is associated with a 3 mmHg rise Not more than 1 oz of ethanol/day, which is equal to 2oz of 100-proof whiskey, or 24 oz of beer

  23. Exercise • Physical activity produces a fall in SBP and DBP of about 6 to 7 mmHg Moderate physical activity defined as 30 to 45 minutes of brisk walking, three to five times per week

  24. Other Dietary Factors • Potassium • Calcium • Magnesium • Lipids

  25. Potassium • Inversely related • higher potassium intake→lower blood pressure • reduces peripheral vascular resistance by direct arteriolar dilatation, increase loss of water and sodium from the body • Sodium: potassium ratio of the diet is related to BP

  26. Clinical trails with potassium supplement yielded mixed results • Dietary potassium is an adjunct to weight control and reduced sodium consumption for prevent of H/N • Na:K ratio of 1.0 is the goal

  27. Calcium • African-American and women • Clinical trials showed minimal hypotensive effects of high dietary calcium intake from foods or supplement . • Calcium from dietary sources to meet the RDA is recommended

  28. Magnesium • Mg is a potent inhibitor of vascular smooth muscle contraction and may play a role in blood pressure regulation as a vasodilator. • Most clinical studies, Mg supplement has been ineffective in altering blood pressure, possible because of the confounding effects of antihypertensive medications and the short duration of the studies. • Adequate data are lacking to recommend routine supplement with magnesium to prevent hypertension

  29. lipids • PUFA Precursors of prostaglandins -affect renal sodium excretion -relax vascular musculature

  30. Large doses of fish oils (50 ml daily with 15g -3 PUFA) have lowered BP in mildly hypertensive men Knapp and Fitzgerald, 1989 • Smaller doses (6~20g fish oil/daily) had no effect on BP in hypertensive or normotensive subjects Lofgren, 1993; Sack, 1994

  31. Small doses are hazardous with respect to their effect on bleeding time, weight gain, glycemic control and LDL-cholesterol -3 FA is not recommended for preventing hypertension

  32. Combination of risk factors for cardiovascular disease • Medication • Management • Life-style modification • Weight management • Salt restriction

  33. Medication • Either raise blood pressure or interfere with the effectiveness of antihypertensive drugs, ex: oral contraceptives, steroid, nonsteroidal, anti-inflammatory agent, nasal decongestants, other cold remedies, appetite suppressants, tricyclic antidepressants.

  34. Management • Goal: to reduce morbidity and mortality from stroke, hypertension-associated heart disease and renal disease. -increase to at least 50% the number of people with hypertension whose BP is less than 140/90.

  35. Life-style modification

  36. Life-style modification • Before drug therapy is begun, three to six months of compliant life-style modification should be tried. • Life-style modification can’t completely correct the BP, but they will help increase the efficacy of pharmacological agents and improve other CVD risk factor.

  37. Weight management • The effectiveness of weight reduction has been well documented in high in both mild and severe hypertensives. Lower blood pressure Normalize Blood glucose and lipid Synergistic effect with drug therapy • Some stage 1 hypertensive achieve a normal BP by weight loss alone.

  38. Once weight is lost, maintenance is critical • High fat intake and a low level of physical activity • Weight maintenance goal: (1)not to gain more than 10 to 15 lb after age of 21 (2)not to have more than a 2 to 3 in. Increase in waist circumference after age 21

  39. Salt Restriction • Moderate salt restriction (6g of salt, 100 mEq or 2400 mg Na/day) is recommended for treatment of hypertension. - Normalize Stage 1 hypertension - Enhance drug therapy • Unless congestive hear failure, severe salt restrictions are not necessary.

  40. Thanks for your attention

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