22 Hypertension

Question 1

Hypertension

• Frequency
• Pt awareness, treatment, & control
• BP treatment

Answer 1

• Frequency
  
  • Common in the US (1/3 of adults)
  • Increases w/ age
  • Affects both genders
• Pt awareness, treatment, & control
  
  • 79.6% are aware they have hypertension
  • 70.9% are being treated
  • 47.8% have controlled BP
• BP treatment
  
  • BP is a continuous variable so when to treat varies
  • <60yo, CKD, or diabetes: goal < 140/90
  • >60yo: goal < 150/90

Question 2

Hypertension severity

• HTN is associated with…
• As ppl live longer due to decreased death from MI and CVA…
• As a primary disease, HTN accounts for…
• Risk of ESRD is associated w/…
• Management & risk of HTN
• Who’s at risk for developing HTN

Answer 2

• HTN is associated with…
  
  • Significant morbidity & mortality
  • Esp cerebrovascular accidents, coronary disease, & renal disease
  • HTN control decreases cerebrovascular accidents (hemorrhagic or ischemic brain damage) & coronary artery disease.
• As ppl live longer due to decreased death from MI and CVA…
  
  • They develop the next generation of diseases associated w/ HTN (CHF & renal failure) at an accelerating rate
• As a primary disease, HTN accounts for…
  
  • 30% of the ESRD in the US
• Risk of ESRD is associated w/…
  
  • Ethnicity
  • Severity of HTN
• Management & risk of HTN
  
  • Most common reason for physician visits by non-pregnant adults in the US
• Who’s at risk for developing HTN
  
  • 90% of adults >50yo

Question 3

Pathogenesis of HTN:
Definitions

• Arterial pressure
• HTN
• HTN in adults < 60yo
• HTN in adults > 60yo

Answer 3

• Arterial pressure
  
  • Determiend by CO & systemic vascular resistance (SVR)
  • BP = CO * SVR
• HTN
  
  • Imbalance b/n CO & SVR
  • Occurs when CO &/or SVR (peripheral resistance) increases
• HTN in adults < 60yo
  
  • BP > 140/90
• HTN in adults > 60yo
  
  • BP > 150/90

Question 4

Pathogenesis of HTN:
Cardiac output

• Rare to find a form of HTN where…
• Essential (primary) HTN
• Any sustained rise in BP requires…
• Role of genetics
  
  • Sibling of pt w/ HTN
  • Single gene defects
  • Other genes associated w/ HTN
  • HTN transplant
• Role of excess Na intake
  
  • Salt vs. HTN/BP
  • Essential HTN

Answer 4

• Rare to find a form of HTN where…
  
  • Only one of either CO or SVR is abnormal
  • Even in secondary forms of HTN multiple factors play a role
• Essential (primary) HTN
  
  • 90-95% of all HTN
  • Cause: multifactorial
• Any sustained rise in BP requires…
  
  • Participation of the kidney
• Role of genetics
  
  • Sibling of pt w/ HTN has 3.5x risk of HTN than general population
  • Rare instances of single gene defects causing HTN exist
    
    • Involve increased Na reabsorption due to a primary defect in a Na transport system (e.g. Liddle’s Syndrome affecting ENaC)
  • Other genes associated w/ HTN
    
    • Polygenic (multiple genes involved)
    • Polymorphisms of ACE & RAAS genes
  • HTN can be transplanted (Salt Sensitive Dahl rat)
• Role of excess Na intake
  
  • Salt vs. HTN/BP
    
    • Increase salt intake –> increase frequency of HTN
    • Dietary Na restriction –> decreased BP
  • Essential HTN
    
    • Due to an abnormal kidney that’s unwillingn to excrete sodium

Question 5

Pathogenesis of HTN:
Primary increase in CO

• Guyton’s animal models
• Application of Guyton’s model to pts w/ reduced renal function

Answer 5

• Guyton’s animal models
  
  • Decreased renal mass + volume expansion (i.e., give salt & water) –> BP increases due to increased CO
  • Normal kidney function: CO returns to baseline in a few days
  • Reduced kidney function: BP remains elevated due to increased peripheral vascular resistance
    
    • Due to autoregulation in vascular beds
    • Increased CO –> increased delivery to vascular bed –> increased total peripheral resistance –> return nutrient & oxygen delivery to vascular bed back to “normal”
• Application of Guyton’s model to pts w/ reduced renal function
  
  • Young HTN pts: CO remains w/ normal TPR
  • After years of chronic BP elevation due to chronic high salt intake, CO decreases to low levels but TPR increases
  • Due to cardiac and vascular remodeling

Question 6

Pathogenesis of HTN:
Cardiac output:
Abnormality in Na excretion (4 hypotheses)

• Altered pressure natriuresis
• Deficient natriuretic hormone
• Renin and nephron heterogeneity (Laragh-Sealy Hypothesis)
• Reduced nephron number

Answer 6

• Altered pressure natriuresis
  
  • Normally: increased BP –> increased Na delivery to distal nephron –> increased Na excretion
    
    • Na loss –> decreased BP back to normal
  • If pressure natriuresis is “reset”
    
    • Pt will regulate around a higher baseline BP or have decreased sensitivity to volume expansion
    • –> higher pressures
• Deficient natriuretic hormone
  
  • Increase volume –> release natriuretic hormone –> inhibits Na-K ATPase –> decreased Na reabsorption
  • Defect in this hormone –> prevent excretion of excess Na loads
• Renin and nephron heterogeneity (Laragh-Sealy Hypothesis)
  
  • Sub-population of ischemic nephrons chronically releases renin –> HTN
  • Increase BP –> decrease renin
  • Most pts w/ primary HTN have normal or high renin levels (70%) due to…
    
    • Nephron heterogeneity (i.e., subgroup of nephrons that are ischemic and release excess renin)
    • RAAS that doesn’t modulate properly
    • Increased sympathetic drive
• Reduced nephron number
  
  • Congenital reduction in the # of glomeruli –> fewer nephron units to excrete excess Na loads –> HTN

Question 7

Pathogenesis of HTN:
Cardiac output:
Role of SNS

• Baroreceptors
• Excess stress
• SNS net effect

Answer 7

• Reset baroreceptors
  
  • Aortic arch, carotid sinus, & cardiopulmonary baroreceptors
  • Regulate at higher set points of BP
• Excess stress –> increased SNS
  
  • Intermittent stress –> Epi release –> increased BP
    
    • BP remains elevated for some time afterwards
  • Epi acts on pre-synaptic β2 receptor –> NE release
  • Cardiac NE spillover
    
    • Higher in HTN pts
    • Correlates directly w/ Epi release
  • HTN patients have faulty NE re-uptake
• SNS net effect
  
  • –> decreased RBF & GFR
  • –> increased renal Na reabsorption

Question 8

Pathogenesis of HTN:
Role of total peripheral resistance (TPR)

• TPR
• Primary lesion in HTN
  
  • May be…
  • Possible candidates
• Arterial stiffness
  
  • Increase age –>
  • Major determinant of CV risk
• Cell membrane alterations

Answer 8

• TPR
  
  • Increased peripheral resistance maintains HTN
  • Regulated by vascular endothelial cell & vascular smooth muscle cell
• Primary lesion in HTN
  
  • May be structural remodeling of blood vessels in childhood
  • Possible candidates
    
    • RAAS
    • Endothelin-1 – high plasma levels in HTN pts
    • Transforming Growth Factor β1
    • Insulin like growth factor
    • Mechanical forces – hemodynamic shear
    • Nitric oxide – whole body NO production is decreased in pts w/ essential HTN
• Arterial stiffness
  
  • Increase age –> progressive increase in systolic BP
    
    • Collagen deposition in the blood vessels
    • Smooth muscle hypertrophy
    • Altered elastin vascular media
    • Age associated endothelial dysfunction
  • Major determinant of CV risk: increasing pulse pressure
• Cell membrane alterations
  
  • IC Na is higher in cells from HTN pts
  • Altered Na/H exchange
  • Altered membrane composition
  • Ca transport & binding – calcium content increased in the membranes of HTN pts

Question 9

Pathogenesis of HTN:
Other factors

• Weight
  
  • Framingham study
  • Associated w/…
• Mineral metabolism
• Tobacco
• Caffeine
• Alcohol
  
  • Moderate quantities
  • Larger quantities

Answer 9

• Obesity
  
  • Framingham study: gain 10lb –> increase systolic BP by 4.5 mmHg
  • Associated w/…
    
    • Increased CO
    • Intravascular volume
    • SNS activity
    • Increased RAAS
    • Diminished NO mediated vasodilation
    • Hyperinsulinemia
• Mineral metabolism
  
  • Decreased Ca intake + increased Ca excretion –> increased HTN
  • Decreased dietary K &Mg –> increased BP
  • Lead causes HTN
• Tobacco
  
  • BP increases for 30 minutes following tobacco use
• Caffeine
  
  • Increases BP
  • Tolerance develops to pressor effect
• Alcohol
  
  • Moderate quantities: may contribute to HTN
  • Larger quantities: significant contributor
    
    • 10% of HTN in men –> directly linked to ethanol
    • BP decreases when heavy drinkers abstain
    • HTN pts should drink < 2 standard drinks / day
      
      • Standard drink = 12 oz beer, 5 oz wine, 1.5 oz hard liquor

Question 10

Pathogenesis of HTN:
Secondary causes of HTN

• Presentation
• Renal parenchymal disease
• Renovascular HTN

Answer 10

• Presentation
  
  • < 35yo with abrupt onset of HTN
  • No family hx of HTN
  • Fail empiric therapy.
• Renal parenchymal disease
  
  • Decreased ability to excrete Na & water –> volume expansion & increased CO
  • Autoregulation –> increae TPR –> decrease CO –> HTN
• Renovascular HTN
  
  • Caused by > 80% renal artery stenosis
    
    • 1% of unselected pts w/ HTN have this lesion
    • Surgically correctable
  • Arterial constriction –> decreased renal perfusion –> increased renin & AII –> increase BP
  • Causes
    
    • Atherosclerosis aortic aneurysm, emboli, and arteritis.
  • Fibromuscular dysplasia: disease of the layers of the blood vessel (usually medial fibroplasia)

Question 11

Pathogenesis of HTN:
Secondary causes of HTN

• Adrenal gland causes of HTN
  
  • Pheochromocytoma
  • Primary aldosteronism
  • Cushing’s syndrome
• Miscellaneous Causes of secondary HTN

Answer 11

• Adrenal gland causes of HTN
  
  • Pheochromocytoma
    
    • Chromaffin cell tumors episodically increase BP
    • Associated w/ tachycardia, sweating, flushing & tremor
  • Primary aldosteronism
    
    • Due to adrenal adenomas or adrenal hyperplasia
    • Classic features: HTN, hypokalemia, excess urinary K losses, metabolic alkalosis, & hypernatremia
  • Cushing’s syndrome
    
    • Caused by excess cortisol
    • Due to excess ACTH from the pituitary –> excess adrenal production of cortisol
    • May be from excess unstimulated production of cortisol by the adrenal gland
• Miscellaneous Causes of secondary HTN
  
  • Coarctation of the Aorta
  • Hypothyroidism and hyperthyroidism
  • Hyperparathyroidism
  • Sleep apnea
  • Meds
    
    • Erythropoietin
    • Cyclosporine
    • Tacrolimus (FK 506)
  • Street Drugs
    
    • Cocaine
    • Bath salts
    • Amphetamines

Question 12

Evaluation of HTN:
History

• Family hx
• Review of systems (ROS)
• Evaluate…
• Diet
• Meds

Answer 12

• Family hx
  
  • High BP
  • Early heart disease
  • Cerebrovascular accidents (CVA)
  • Peripheral vascular disease
  • DM
  • Lipid abnormalities.
• Review of systems (ROS)
  
  • Emphasis on cardiac & neurologic complaints
  • Previous hx of renal diseases, DM, or lipid abnormalities
  • Previous HTN or anti-HTN therapy
• Evaluate…
  
  • Weight hx
  • Smoking
  • Physical activity
• Diet
  
  • Fat, alcohol, & Na intake
• Meds
  
  • Drugs that increase BP
    
    • Oral contraceptives
    • Steroids
    • Immunosuppresive drugs
    • NSAIDs
    • Decongestants
    • Appetite suppressants
    • Tricyclic antidepressants
    • Monoamine oxidase inhibitors
  • Street drugs

Question 13

Evaluation of HTN:
History

• Symptoms suggestive of secondary HTN (uncommon)
• When the pt considered to have HTN

Answer 13

• Symptoms suggestive of secondary HTN (uncommon)
  
  • Episodic tachycardia, tremor, orthostatic HoTN, sweating, pallor & anxiety –> pheochromocytoma
  • Severe HTN in a young pt w/ no family hx of HTN
  • HTN poorly responsive to interventions
  • Well-controlled HTN that becomes poorly controlled
  • Sudden onset of HTN or presentation w/ accelerated or malignant HTN
• When the pt considered to have HTN
  
  • Diagnosis not made on basis of single measurement
  • Confirm elevation on > 2 subsequent visits over several weeks
    
    • Unless BP is in severe or very severe range –> hospitalization or more frequent outpatient visits
  • Severe HTN in presence of target organ damage (TOD)
    
    • CHF, angina, stroke, or renal failure
    • Indication for hospitalization

Question 14

Evaluation of HTN:
Measuring & monitoring BP

• Measuring BP
• Role of 24 hour ambulatory BP monitoring
  
  • Why
  • When
• Advantages of self-measurement

Answer 14

• Measuring BP
  
  • Pt seated w/ arm bared, supported, & at heart level
  • No nicotine or caffeine within 30 minutes before measurement
  • Measure after 10-15 minutes of rest
  • Use appropriate cuff size
    
    • Cuff bladder must cover >80% of arm circumference.
  • First appearance of sound is the systolic pressure
  • Disappearance of sound is true diastolic (Phase V)
    
    • Muffling (Phase IV) is not true diastolic
  • > 2 measurements separated by 2 minutes should be averaged
    
    • If values differ by > 5 mm Hg –> additional readings
  • Initial exam should include BP in both arms
    
    • Higher BP = true BP
• Role of 24 hour ambulatory BP monitoring
  
  • BP measurements in the office may not reflect the pt’s usual BP
  • When 24 hour ambulatory BP monitoring may be helpful
    
    • BP elevated on multiple occasions in clinic setting but repeatedly normal out of hospital
      
      • Aka “white coat” HTN
    • Drug therapy appears to be ineffective
    • Episodic HTN
    • Evaluation of nighttime BP changes
    • Excess anti-HTN effect (i.e., orthostatic HoTN)
• Advantages of self-measurement
  
  • Identifies “white-coat HTN”
  • Assess response to meds
  • Improves adherence to treatment
  • Potentially reduces costs
  • Usually provides lower readings than those recorded in clinic

Question 15

Evaluation of HTN:
Physical & lab exams

• Physical
• Labs

Answer 15

• Physical
  
  • > 2 BP readings > 2 minutes apart w/ pt supine or seated & after standing for > 2 minutes
  • Check opposite arm & use higher value
  • Measure height & weight.
  • Fundoscopic exam
  • Examine neck for carotid bruits, enlarged thyroid, & venous distention
  • Cardiac exam looking for tachycardia, laterally displaced PMI, precordial heave, clicks, murmurs, & S3 / S4 gallops
  • Examine abdomen for bruits (anteriorly and posteriorly), enlarged kidneys, masses, & abdominal aortic pulsation
  • Examine extremities for diminished pulses (coarctation or peripheral vascular disease [PVD]), bruits, or edema
  • Neuro exam
• Labs
  
  • Urinalysis for proteinuria
    
    • Centrifuged urine sediment exam for acute renal disease
  • CBC, glucose, electrolytes, BUN, Creatinine, uric acid, fasting lipid profile & EKG

Question 16

Evaluation of HTN:
Optional tests & procedures

Answer 16

• Creatinine clearance
• Microalbuminuria
• 24-hour urinary protein
• Serum calcium
• Serum uric acid
• Fasting triglycerides
• LDL cholesterol
• Glycosolated hemoglobin
• Thyroid-stimulating hormone
• Plasma renin activity/ urinary sodium determination
• Limited echocardiography
• Ultrasonography
• Serum Aldosterone

Question 17

Consequences of HTN

• Cardiac
• Cerebrovascular
• Peripheral vasculature
• Renal
• Retinopathy
  
  • Grade 1
  • Grade 2
  • Grade 3
  • Grade 4
  • Grade 3 & 4

Answer 17

• Cardiac
  
  • Clinical, electrocardiographic, or radiologic evidence of coronary artery disease
  • EKG shows LVH
    
    • LVH detected by echo is highly predictive of future cardiac events (MI, CHF)
  • CHF and LV dysfunction frequently seen
  • Direct correlation of incidence of coronary heart disease & systolic BP
• Cerebrovascular
  
  • Transient ischemic attack (TIA)/CVA
  • Direct correlation of BP elevations & incidence of strokes
  • Anti-HTN therapy has the greatest impact.
• Peripheral vasculature
  
  • Accelerated atherosclerosis of distal arteries –> diminished circulation to extremities –> ischemia w/ exertion and pain (claudication)
  • Ischemia at rest –> ischemic ulcers of the toes, feet, lower legs, & fingers
• Renal
  
  • Serum Creatinine > 1.5
  • Clinical proteinuria (1+ or more on standard dipstick)
  • Microalbuminuria
• Retinopathy
  
  • Grade 1 - first crossing AV nicking
  • Grade 2 - copper wire narrowing of retinal arterioles, second crossing AV nicking
  • Grade 3 - silver wire narrowing of retinal arterioles Cotton wool exudates, hemorrhage
  • Grade 4 - hemorrhage and exudates with papilledema
  • Grade 3 & 4 - high association w/ progressive renal failure

Question 18

Pathophysiology of essential hypertensive renal disease

• 20-30yo: phase 1
• 30-40yo: phase 2
• 40-50yo: phase 3
• >50yo
  
  • Phase 4
  • Phase 5

Answer 18

• 20-30yo: phase 1
  
  • Increase in Renal Vascular Resistance (RVR) due to…
    
    • Functional disturbance of renal vasculature
    • Over active vasoresponse to endogenous AII
    • NE
• 30-40yo: phase 2
  
  • Further increase in RVR w/ both functional & structural disturbances in renal vasculature
  • Decrease in renal perfusion
  • Preservation of GFR (although glomeruli may be ischemic)
  • Increase in FF
  • Microalbuminuria
• 40-50yo: phase 3
  
  • Further increase in RVR
  • Structural disturbances involving renal vasculature & glomeruli (arteriolar nephrosclerosis)
  • Decrease in perfusion disproportionately > decrease in filtration
  • Sustained rise in FF
  • Proteinuria
• >50yo
  
  • Phase 4
    
    • Critical decrease in renal mass
    • Decrease in RVR (reduction in afferent arteriolar resistance)
    • Increase in glomerular capillary hydraulic pressure
    • Progressive decrease in GFR
    • Nephrosclerosis
    • Glomerulosclerosis
  • Phase 5
    
    • Chronic renal insufficiency progressing to ESRD