Perfusion Part 2 Hypertension (Fall 2024).pptx.pdf

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Hypertension
Janelle Thomas MSN, RN-BC, CEN
Learning Objectives

1. Describe the pathophysiology and etiology of hypertension.
2. Identify risk factors for hypertension.
3. Compare and contrast primary and secondary hypertension.
4. Compare and contrast hypertension urgency and hypertension
crisis.
5. Describe normal and abnormal laboratory and physical assessment
findings related to hypertension.
6. List the criterion pressure values identified in the Classification of
Blood Pressure for Adults.
7. Discuss evidenced-based lifestyle management and dietary
education recommendations for a patient with hypertension.
8. Discuss and compare the various medications used in the
pharmacologic management of hypertension.
Exemplars of Perfusion

Congenital
Congenital
Cardiomyopathy
Cardiomyopathy
Heart
Heart
Stroke
Stroke Defects
Defects

Shock
Shock Coronary
Coronary
Artery
ArteryDisease
Disease

Pulmonary
Pulmonary Deep
DeepVein
Vein
Embolism
Embolism Thrombosis
Thrombus
PERFUSIN
PERFUSION
Pregnancy-In
Pregnancy-In Disseminated
Disseminated
duced
duced Intravascular
Intravascular
Hypertension
Hypertension Coagulation
Coagulation

Life
Life Peripheral
Peripheral
-Threatening
-Threatening Heart
Heart Hypertension
Hypertension
Vascular
Vascular Failure
Failure
Dysrhythmias
Dysrhythmias Disease
Disease
REGULATING BLOOD PRESSURE
Blood Pressure

Blood Pressure = CO × SVR
– CO = cardiac output
4-6 L/min. Average

– SVR = systemic vascular resistance
Determined by blood viscosity, length of vessel &
diameter of vessel
Mean Arterial Pressure
– Average pressure in the arterial circulation through the
cardiac cycle
Blood Pressure

Systolic pressure
– The peak pressure exerted against arterial
walls as ventricles contract and eject blood
Diastolic pressure
– The minimum pressure exerted against
arterial walls, between contracts when the
heart is a rest
Regulating Blood Pressure

Pearson. p. 1249
Regulating Blood Pressure

Autonomic Nervous System

Sympathetic Nervous System Parasympathetic Nervous System
Controls energy expenditure Helps conserve energy
(especially stressful situation) Releases acetylcholine (a
Releases norepinephrine cholinergic neurohormone)
(an adrenergic catecholamine) “Rest and Digest” System
“Fight or Flight” System ↓ Heart Rate
↑ Heart Rate ↓ Blood Pressure
↑ cardiac conduction Vasodilation
↑ Blood Pressure Bronchoconstriction
Vasoconstriction Pupil Constriction
Bronchodilation
Pupil Dilation
HYPERTENSION
Hypertension = High Blood Pressure

Based on the average of 2 or more readings taken on
separate occasions
– Systolic BP = 130 mmHg or higher
– Diastolic BP = 80 mmHg or higher
No obvious symptoms “Silent Killer”
Leads to irreparable end organ damage
Major risk factor for causing:
– Coronary artery disease - Stroke
– Heart failure - Renal failure
– Peripheral vascular disease - Retinopathy
Classification of Blood Pressure

Classification Systolic Diastolic
(mmHg) (mmHg)
Normal < 120 And < 80
Elevated 120 – 129 And < 80
Hypertension **
Stage I HTN 130 - 139 Or 80 - 89
Stage II HTN >/= 140 Or >/= 90
Hypertensive > 180 And/ >120
Crisis Or
Primary Hypertension

AKA Essential Hypertension
Persistently elevated systemic blood
pressure
No Known Cause
Accounts for 90-95% of all cases
Possible Causes of Primary Hypertension

Interaction between:
– Overstimulation of alpha-and beta-adrenergic receptors

– Altered function of renin-angiotensin-aldosterone system

– Sodium Intake

– Insulin resistance, hyperinsulinemia

– Environmental and genetic factors
Secondary Hypertension

Elevated blood pressure resulting from an identifiable
underlying process

Accounts for only 2-5% of identified cases

Pattern of secondary hypertension varies depending the
cause

Treatment focused on correcting or controlling the
underlying disease process
 Identifiable Causes of Secondary
Hypertension
Kidney disease
– Renal artery stenosis Medications/Drugs
– Glomerulonephritis or – Estrogen
Pyelonephritis – Oral Contraceptives
– Polycystic kidney disease – Corticosteroids (prednisone)
– Renal failure – Stimulants (Ritalin, Adderall)
Coarctation of aorta – Decongestants (Sudafed)
Endocrine disorders Pregnancy
– Cushing’s Disease Hypothyroidism
– Primary Aldosteronism Obstructive sleep apnea
– Myxedema
– Pheochromocytoma
Hypertensive Urgency vs Emergency
SBP >180 mmHg and/or DBP > 120 mmHg
Hypertensive Urgency
No symptoms of organ damage
Monitor and treat
Hypertensive Emergency/Crisis
Rapid onset / life threatening

Associated with ischemic organ damage

Symptoms of target organ damage
– Blurred vision, papilledema (swelling of optic nerve)
– Chest pain, back pain, shortness of breath
– Severe headache, confusion, difficulty speaking
– Motor & sensory deficits – numbness, weakness

Requires treatment within 1 hour to:
– Prevent cardiac, renal, and vascular damage
– Decrease morbidity & mortality
Treatment of Hypertensive
Emergency/Crisis Stroke
Emergency/Crisis
– Administer medications IV
Nitroprusside
Labetalol
Nicardipine

– Decrease BP gradually
– Monitor BP continuously (every 5-15 min)
– Assess neurological status
– Continuous ECG monitoring
Risk Factors for Hypertension

Modifiable Non-Modifiable
Mineral intake Genetic Factors
– Excessive sodium intake Age
– Low potassium, calcium, and
Sex
magnesium intake
– Men
Low vitamin D levels – Women after menopause
Physical inactivity Family history
Obesity Race
Insulin resistance – African American
Excess alcohol consumption
Smoking
Hyperlipidemia
Stress /Depression
Possible Clinical Manifestations

May have few or no symptoms (Silent Killer)
– Seen most with extremely high BP
Vague symptoms
– Headaches, particularly in the morning
– Fatigue, dizziness, fainting
– Facial flushing
Symptoms targeting specific organ damage
– Nocturia
– Confusion
– N/V
– Chest pain
– Shortness of breath
– Visual disturbances – blurred vision
– Retinal changes
Labs and Diagnostic Testing

No specific labs or diagnostic tests are used to
diagnose HTN; however, they can be used to
diagnose:
– Underlying cause(s) of HTN
– CV risk factors
– Presence/absence of target organ damage
Labs and Diagnostic Testing

Tests may include:

ECG Vit D & Ca levels

Urine Analysis Cholesterol panel

Blood Glucose GFR, Creatinine Clearance

Serum creatinine
LIFESTYLE AND DIETARY
MODIFICATIONS
Lifestyle Modifications – Patient Education
Weight reduction and maintenance

Engage in Exercise
– Aim for 30 minutes most days of the week (5–6
days/week)
Limit alcohol
– Women:1 serving/day; Men: 2 servings/day
Smoking cessation
Stress reduction
– Meditation, relaxation, deep breathing, yoga
Dietary Modifications – Patient Education

Eat a diet rich in fruits, vegetables, and
low-fat dairy products
Reduce sodium intake
Reduce intake of total and saturated fats
Increase potassium, calcium, magnesium intake
High fiber diet
Limit caffeine intake
DASH Diet (Dietary Approach to Stop Hypertension)
DASH Diet Recommendations

Based on
Grains: 6-8 servings/day 2000
calories/day
Vegetables: 4-5 servings/day
Fruits: 4-5 servings/day
Meats, poultry, & fish: 6 or fewer servings/day (1 oz each)
Fat-free or low-fat dairy products: 2-3 servings/day
Fats & oils: 2-3 servings/day
Sodium: 1500-2300 mg/day
Nuts, seeds, & dry beans: 4-5 servings/week
Sweets/added sugars (low fat): 5 or fewer servings/week
PHARMACOLOGICAL THERAPY
Site of Antihypertensive Drug Therapy

Pearson, p.1254
Alpha-Adrenergic Blockers (-osin)

doxazosin (Cardura)
Alpha-Adrenergic Blockers (-osin)

Mechanism of Action
– Blocks alpha receptors in vascular smooth muscle
– Decreases vasomotor tone and vasoconstriction
– Cause venous and arterial dilation
Assess apical pulse & BP
Adverse effects
– Bradycardia
– Hypotension
– First dose syncope (administer at bedtime)
– Impotence
Beta Adrenergic Blockers (-olol)

Cardioselective: B1 (affects heart only)
– metoprolol (Lopressor)
Beta Adrenergic Blockers (-olol)
Cardioselective: B1 (affects heart only)

Mechanism of Action
– Block sympathetic nervous system
– Blocks the beta-receptor stimulation in heart, resulting in
decreased heart rate & cardiac output

Assess BP and apical pulse

Adverse Effects
– Bradycardia, hypotension, decrease cardiac output
– Mask symptoms of hypoglycemia and tachycardia
Beta Adrenergic Blockers (-olol)
Nonselective: B1 & B2 (affects heart & lungs)
– propranolol (Inderal)

Mechanism of Action
– Blocks the Beta1 & Beta2 receptor stimulation in heart and lungs, resulting in
decreased heart rate & cardiac output

Assess BP and apical pulse

Adverse Effects
– Bradycardia, hypotension, decrease cardiac output
– Mask symptoms of hypoglycemia and tachycardia
– Bronchospasm (shortness of breath)
Beta Adrenergic Blockers (-olol)

Dual Acting Alpha, Beta Blockers (A1, B1, B2 Blocked)
– carvedilol (Coreg)
– labetalol (Normodyne)
Beta Adrenergic Blockers (-olol)
Dual Acting Alpha, Beta Blockers

Mechanism of Action
– Reduce BP by blocking Beta1 Beta2 and Alpha receptor
– Receptors in the heart, lungs, and causes vasodilation

Assess BP and apical pulse
Adverse Effects
– Bradycardia, hypotension, decrease cardiac output
– Bronchospasm (shortness of breath)
– Fatigue, weakness, depression, & impotence
– Mask symptoms of hypoglycemia (tachycardia)
– Rebound hypertension if stopped abruptly
Angiotensin Converting Enzyme Inhibitors (-pril)

ACE Inhibitors
lisinopril (Prinivil, Zestril)
benazepril (Lotensin)
ACE Inhibitors (-pril)

Mechanism of Action
– Lower BP by preventing conversion of angiotensin I to
angiotensin II
– Causes vasodilation and excretion of sodium and water
Assess blood pressure
Adverse Effects
– First dose orthostatic hypotension
– Hyperkalemia
– Angioedema
– Persistent cough (very common)
Angiotensin II Receptor Blockers (-sartan)
ARBs
losartan (Cozaar)
valsartan (Diovan)
Angiotensin II Receptor Blockers (-sartan)
Mechanism of Action
– Blocks effects of angiotensin II
– Decreases peripheral resistance
– Decreases release of aldosterone (increased excretion of sodium &
water)
– Blocks vasoconstriction and promote relaxation of blood vessels
(vasodilation)

Assess BP

Adverse Effects
– Orthostatic hypotension
– Hyperkalemia (less than ACE Inhibitors)
– Angioedema (swelling lips or face)
Calcium Channel Blockers (- dipine)

amlodipine (Norvasc)
diltiazem (Cardizem)
Calcium Channel Blockers (- dipine)
Mechanism of Action
– Inhibit flow of calcium ions across the cell membrane of vascular
tissue and cardiac cells
– Relax arterial smooth muscle, lowering peripheral resistance
through vasodilation

Assess BP & apical pulse (rate & rhythm)

Adverse Effects
– Hypotension (common)
– Bradycardia or tachycardia
– Orthostatic hypotension
– Peripheral edema
Thiazide Diuretics

hydrochlorothiazide
Thiazide Diuretics

hydrochlorothiazide
Mechanism of Action
– Prevent tubular reabsorption of sodium
– Prevents water reabsorption (increased urine output)
– Reduce systemic vascular resistance

Assess BP & serum K+

Adverse Effects
– Hypokalemia, hyponatremia, hypochloremia
– Hyperglycemia
Loop Diuretics (- ide)

furosemide (Lasix) bumetanide (Bumex)

Mechanism of Action
– Inhibits sodium, chloride reabsorption & reabsorption of
water. Causes extensive diuresis.

Assess BP & serum K+
Monitor daily weights and I & O

Adverse Effects
– Dehydration, hyponatremia, hypochloremia, hypokalemia
– Hypotension - Ototoxicity (IV route)
Potassium Sparing Diuretics

Spironolactone (Aldactone)

Mechanism of Action
– Block action of aldosterone (sodium & water retention), resulting
in potassium retention and excretion of sodium & water

Used as an add on drug to treat heart failure and hypertension
Avoid using with ACE inhibitors, ARBs, and potassium supplements

Assess Serum K+ and blood pressure

Adverse Effects
– Hyperkalemia
Vasodilators
Vasodilators

hydralazine (Apresoline)
– Direct acting peripheral arteriolar vasodilator
nitroprusside (Nipride)
– IV route used to treat hypertensive emergency
– Causes rapid lowering of BP

Mechanism of Action
– Cause dilation of blood vessel

Adverse Effects
– hypotension
Class Activity (NCLEX)
NCLEX Questions

A 66-year old client has his blood pressure checked at a
health fair. The BP is 168/98. Which action should the
nurse implement first?

A. Recommend the client have their BP checked in
a month.
B. Instruct the client to see their health-care
provider as soon as possible.
C. Discuss the importance of eating a low-salt,
low-fat, and a low-cholesterol diet.
D. Explain that the BP is within the normal range
for an elderly person.
NCLEX Questions

The nurse is obtaining a blood pressure for a client
with primary hypertension. The nurse ensures
accuracy of the blood pressure by avoiding which of
the following?

A. Placing the arm in a supportive position,
bare-armed, and at the level of the heart
B. Measuring the blood pressure after the client has
rested for 5 minutes
C. Using a cuff that covers 80% of the limb
D. Taking the blood pressure within 10 minutes of
the client ingesting caffeine
 NCLEX Questions

Identify the patient assessments the nurse will
monitor when furosemide is prescribed. (Select
All That Apply.)

A. Apical pulse
B. Blood pressure
C. Hemoglobin and Hematocrit
D. Intake and Output
E. Sodium, potassium, and magnesium levels
NCLEX Questions

A nurse is caring for a patient admitted with hypertension
who has been prescribed losartan, furosemide, and
doxazosin. The client’s current blood pressure is 162/86
with a heart rate of 64. Serum potassium level is 3.2 mEq.
Which of the following is the best action by the nurse?

A. BP is elevated, administer all medications to assist in
lower BP.
B. Administer the losartan and the furosemide, hold the
doxazosin, and notify the prescriber.
C. Hold all medications and notify the prescriber.
D. Administer doxazosin and losartan, hold furosemide
and notify prescriber.
NCLEX Questions

Identify blood pressures that fall in the
elevated blood pressure classification.
(Select All That Apply.)

A. 118/70
B. 120/72
C. 130/ 82
D. 146/88
E. 128/68
F. 124/76
G. 122/58
H. 129/78
NCLEX Questions
An angiotensin-converting enzyme (ACE) inhibitor for
a patient with hypertension. Which statement is the
most appropriate rationale for administering this
medication?

A. ACE inhibitors prevent beta receptor
stimulation in the heart.
B. This medication blocks the alpha receptors in
the vascular smooth muscle.
C. This medication prevents vasoconstriction, and
sodium and water retention.
D. ACE inhibitors decrease blood pressure by
relaxing vascular smooth muscle.
NCLEX Questions

A nurse is preparing to administer medications for a
patient admitted with essential hypertension, who has
a history of hypercholesterolemia and atrial
fibrillation. Assessment data includes apical pulse 68,
BP 118/64, and serum potassium 4.5 mEq. Which of
the prescribed medications will the nurse administer?
(Select All That Apply.)

A. valsartan
B. hydrochlorothiazide
C. digoxin
D. diltiazem
E. atorvastatin
 NCLEX Questions

The nurse is administering metoprolol to a patient
diagnosed with essential hypertension. Which
intervention should the nurse implement?

A. Notify the health-care provider if the potassium
level is less than 3.8 mEq.
B. Question administering the medication if the BP
is 94/56.
C. Do not administer the medication if the patient’s
heart rate is greater than 100.
D. Monitor the patient’s BP while lying, sitting, and
standing.
NCLEX Questions

Identify the medication that causes water and
sodium excretion from the kidneys but does not
deplete potassium?

A. Furosemide
B. Angiotensin II Receptor Blockers
C. Spironolactone
D. Hydrochlorothiazide
E. Angiotensin-Converting Enzyme Inhibitors
NCLEX Questions

The nurse caring for a diabetic client with
chronic renal failure classifies the
hypertension as:

A. Malignant
B. Secondary
C. Primary
D. Genetic
NCLEX Questions

A nurse is teaching a family with several members at
risk for hypertension about measures that can be
taken to help prevent hypertension. The nurse
includes which of the following in the teaching?
(Select All That Apply.)

A. Eat a diet rich in fruits and vegetables.
B. Increase sodium intake.
C. Reduce cholesterol intake.
D. Stop smoking.
E. Engage in isometric exercises.
NCLEX Questions

Hyperkalemia is a side effect of which
medications? (Select All That Apply.)

A. diltiazem
B. captopril
C. valsartan
D. metoprolol
E. doxazosin