Module 5 PPT - Pharm Updated 3.23 PDF

Summary

This PowerPoint presentation covers various medication classes related to cardiovascular and renal systems, including diuretics and hypertension. It details common medications, their effects, and nursing practices.

Full Transcript

CH. 44 DIURETICS
CH. 47 DRUGS ACTING ON THE
RA AS
CH. 48 CALCIUM CHANNEL
BLOCKERS
CH. 50 DRUGS FOR HTN
CH. 51 DRUGS FOR HEART
FAILURE
CH. 52 ANTIDYSRHYTHMIC
DRUGS
 Recognize common medications used to treat clients with
disorders related to the cardiovascular and renal systems.
Contrast the various classes of medications used to treat
common disorders related to the cardiovascular and renal

MODULE systems.
Recognize the indications, pharmacokinetics, laboratory

5 monitoring, and side effects of medications that are commonly
used to treat common disorders related to the cardiovascular
and renal systems.

LEARNIN Discuss accepted nursing practice for the care of clients taking
medications that affect the cardiovascular and renal systems.

G Explain the common adverse reactions and client education for
frequently prescribed medications that affect the cardiovascular

OBJECTIV
and renal systems.

ES
 HYPERTENSION (HTN)
An increase in the blood Primary/essential HTN is the most
pressure such that the systolic common type with no identifiable
pressure is >140mm/Hg and cause. (no cure, worse with age)
the diastolic is >90mm/Hg.
Secondary HTN is less than 10% of
Contributing factors include: HTN cases and brought on by an
family history of HTN, identifiable cause. (can be cured by
hyperlipidemia, African treating the underlying cause)
American heritage, diabetes,  Cushing’s
 Tumor
age, sex, stress, excess alcohol
 Hormonal contraceptives
intake, smoking & inactivity.

Untreated HTN can lead to heart
disease, kidney disease, stroke, etc.
NONPHARMALOGIC CONTROL OF
HYPERTENSION
Stress reduction Alcohol restriction
Aerobic exercise Smoking cessation
Salt restriction

www.bulletpr
oofexec.com
 HYPERTENSION
Cardiac Output is influenced by: Consequences
 Heart rate
 Myocardial contractility (force of contraction) Myocardial ischemia & Infarction
 Blood volume Heart Failure
 Venous blood return
Angina
CVA (Stroke)/Brain hemorrhage
Kidney damage, and more...

3 Regulatory Systems for
BP:
Sympathetic nervous
system
RAAS
 PHARMALOGIC CONTROL OF
HYPERTENSION
Drugs for HTN: Additional classes:
 Centrally Acting Alpha2 Agonists
Diuretics  Alpha Adrenergic Blockers

Beta Adrenergic Blockers
Calcium Channel Blockers
Blo
cke
Inhibitors of the RAAS System ACE rs &
 Angiotensin Converting Enzyme (ACE) AR B s &
Inhibitors s, O
My. h
 Angiotensin Receptor Blockers (ARBs)..
 Direct Renin Inhibitor
 Aldosterone Antagonists

www.ondemandstr
esssolutions.com
CH. 44 DIURETICS
 DIURETICS
Produce increased urine outflow. Basic functions of the kidneys:
 Cleansing and maintaining ECF volume and
applications: composition
 Treatment of HTN  Maintenance of acid-base balance
 Mobilization of edematous fluid  Excretion of metabolic wastes and foreign
associated with heart failure, cirrhosis, or substances
kidney disease.
 Also used to prevent renal failure
Small particles such as electrolytes,
amino acids, drugs, glucose & waste
Every minute the kidney produces products are filtered in the glomeruli.
125mL of filtrate… about 180
L/day.
Larger products such as protein and
lipids remain in circulation.
99% of water, electrolytes, and
nutrients that are filtered are
reabsorbed.
Diuretics can cause:
Hypovolemia
Diuretics that promote potassium
Acid-base imbalances
excretion are called “potassium-
Altered electrolyte levels
wasting” diuretics.

Diuretics can cause the loss of electrolytes Diuretics that promote potassium
including:
retention are called “potassium-
Sodium
sparing” diuretics.
Potassium
Magnesium
Chloride
Bicarbonate

DIURETICS
 Loop diuretics
 (furosemide)

Thiazide diuretics
 (hydrochlorothiazide)

Osmotic diuretics
 (mannitol)

Potassium-Sparing diuretics
 Aldosterone antagonists
(spironolactone,
Eplerenone)
 Nonaldosterone antagonists

DIURETIC CLASSES
(triamterene)
 LOOP DIURETICS
Act on the thick ascending
loop of Henle to block
furosemide (Lasix)
reabsorption of sodium and Torsemide
chloride preventing water
reabsorption. bumetanide (Bumex)
Ethacrynic Acid
Sodium & water are lost along
with potassium, calcium & Generally reserved for situations
magnesium. that require rapid or massive
mobilization of fluid.
Most effective diuretics
Useful in patients with severe renal
available and are very potent; impairment (can promote diuresis
can cause marked depletion of even when GFR and renal blood flow
water and electrolytes. are low).
 LOOP DIURETICS
furosemide (Lasix) Side effects:
 Dehydration
bumetanide (Bumex)  Hypotension
Should be taken in the morning  Electrolyte imbalances
due to diuresis.  Hyponatremia
 Hypokalemia
used in IV form for emergent  Hyperglycemia
treatment of pulmonary edema
 Ototoxicity
or acute heart failure.
Assess vital signs, daily weights Drug Interactions:
(report gain or loss >2lbs in 24  Digoxin-secondary to low potassium
hours) & electrolytes.  Ototoxic drugs
 Lithium-secondary to low sodium
Caution patients about possible  Antihypertensive agents
orthostatic hypotension.  NSAIDs-can counteract diuretic effect
 WARNING: FUROSEMIDE
(LASIX)
When administering a dose into an IV,
with a syringe, it must be pushed
SLOWLY, not to exceed 20mg/min.
Too rapid IV push is associated with
ringing in the ears (tinnitus) and
permanent hearing loss (ototoxicity),
especially when combined with other
ototoxic drugs like gentamicin or
vancomycin.
Best practice is to use an infusion
pump with drug library.
POTASSIUM
SUPPLEMENT
S
Patients on potassium-
wasting diuretics are
usually on potassium
supplements.

Monitoring of serum
potassium levels is
essential.

Normal serum potassium
levels are 3.5-5.0
POTASSIUM RICH FOODS
Good idea for people
on potassium-wasting
diuretics.

Large quantities: Bad
idea for people on
potassium-sparing
diuretics.

www.projectnext.eu
 DIURETICS: THIAZIDES
hydrochlorothiazide (HCTZ), Side effects:
Chlorthalidone  Electrolyte imbalances
 Can cause hyperglycemia
Acts on the distal convoluted
 Dehydration
tubule (not as effective).
Promotes sodium, potassium, Use only in patients with normal
chloride & water excretion. renal function
 If BUN and/or Creatinine are elevated, or
Used to treat hypertension & if GFR is Low- do not give this class
peripheral edema.
 First-line drugs for HTN

Not effective for immediate,
emergency diuresis.
 Diuresis begins about 2 hours after oral
administration

www.canadianpharm
acy365.net
 DIURETICS: THIAZIDES
First line drugs for the treatment of HCTZ is often prescribed in combination
hypertension. with other antihypertensive agents
because Many antihypertensive drugs
HCTZ is the most frequently can cause fluid retention.
prescribed diuretic for controlling
mild hypertension, by decreasing
excess fluid volume. Loop diuretics, like furosemide, are best
in patients with decreased renal
function because they do not cause
decreased renal blood flow like thiazide
diuretics.
T Z c an
HC s e rum
e c re ase v els!
d l e
t a s siu m ls:
po l e v e
o rm al
N t o 5.0
3.5
 POTASSIUM-SPARING
DIURETICS PG. 461
Spironolactone-Aldosterone If serum potassium is >5 mEq/L the
antagonist potassium-sparing diuretic should
be discontinued.
Amiloride-Nonaldosterone
antagonist
Triamterene-Nonaldosterone
antagonist
Weaker than thiazides & loop diuretics.
Used alone but mostly in conjunction
with a potassium-wasting diuretic
(HCTZ) to have better diuresis.
 POTASSIUM-SPARING
DIURETICS PG. 461
Spironolactone Triamterene
Aldosterone antagonist Nonaldosterone antagonist
Prescribed because of its potassium Inhibits sodium and potassium
retaining effects. exchange in the distal nephron.
 Because of this, it acts much faster than
Effects take up to 48 hours to develop spironolactone (within hours)

Adverse Effects:
life-threatening
hyperkalemia, especially if
given with an ACE
inhibitors, ARBs, or direct
renin inhibitor.
 POTASSIUM-SPARING
DIURETICS...
Your patient has
hypertension and
takes
triamterene/HCTZ and
tells you they have
tried to reduce the
sodium in their diet,
by using a salt
substitute instead. Is
this a good idea, or
not?
www.walmart.com
 OSMOTIC DIURETICS
Inhibits passive reabsorption of
water (causing diuresis)
mannitol
used frequently in emergency
Has no significant effect on the situations to treat excess
excretion of potassium or other intracranial pressure.
electrolytes.

Used to prevent kidney failure to
decrease intracranial pressure and
intraocular pressure.
Side effects:
 Edema-when the drug leaves the
capillaries, it draws water long.

www.mcfarlanemedical.co
m.au
CH. 47 DRUGS ACTING ON THE
RAAS
 BLOOD PRESSURE VIDEO
Ted Ed Blood Pr
essure Video (4
min)
 REGULATION OF BLOOD
Kidneys regulate blood
PRESSURE
pressure, blood volume, and
fluid and electrolyte balance
through the renin-angiotensin-
aldosterone (RAAS) system.

The RAAS raises blood pressure
through vasoconstriction and
water and sodium retention.

www.cdc.gov
RAAS SYSTEM

medicalassessmentonline.com
 ANGIOTENSIN CONVERTING ENZYME
INHIBITORS (ACE INHIBITORS)

ACE inhibitors block the production Used to treat: HTN, heart failure,
of Angiotensin II: reduce levels of diabetic nephropathy, MI, and
angiotensin II, increase levels of prevention of cardiovascular events.
bradykinin (cause cough).
Prevention of angiotensin I from  Can cause angioedema
being converted to angiotensin II
and prevent the release of
aldosterone (a promoter of sodium Should not be used in pregnancy due
and water retention) which leads to decreased placental blood flow.
to diuretic-type effects.
 The results are prevention of
vasoconstriction and the excretion of Drug of choice for diabetics with
sodium of and water; these promote HTN
diuresis, improve circulation, and
improve cardiac function.
 ANGIOTENSIN CONVERTING ENZYME
INHIBITORS (ACE INHIBITORS)
Used primarily to treat HTN. Side Effects (for all ACE)
 captopril  Dry, hacking cough (10%)
 enalapril  NOT AN ALLERGY

 lisinopril  ****If bothersome, drug can be
 ramipril discontinued and replaced with
 benazepril an ARB.***
 First dose hypotension
 Hyperkalemia
 ***Angioedema
 Tongue
 Lips
 Eyes
 ANGIOTENSIN II RECEPTOR
BLOCKERS (ARBS)
treats
 HTN losartan (Cozaar)
 Heart failure
 Diabetic nephropathy olmesartan (Benicar)
 MI
 Prevention of cardiovascular events
valsartan (Diovan)

Blocks the actions of angiotensin II from Adverse effects for all:
receptors found at many tissue sites  Orthostatic Hypotension
(very similar to ACE Inhibitors)  Hyperkalemia (lower risk)
 Cause vasodilation & decrease peripheral  Angioedema
vascular resistance.
 Inhibits aldosterone, producing diuretic-type Do not cause the ACE cough.
effects.
Should not be taken in
pregnancy.
Can be taken alone or in combination
with diuretics.
 ALDOSTERONE ANTAGONIST
(DIURETIC)
FOR HTN: Eplerenone
 Can be used alone or in combination with
other antiHTN Side effects:
 Reserved for patients who have not  Hyperkalemia-avoid salt substitutes
responded to traditional antiHTN drugs

FOR heart failure:
 Can reduce hospitalizations and prolong
life
 DIRECT RENIN INHIBITOR
aliskiren
Inhibit the conversion of Side effects:
antiotensinogen into angiotensin I,  Less likely to cause hyperkalemia,
angioedema, or cough
thereby suppressing the entire RAAS.

Treatment for HTN only

Can be used alone or in combination
with other antiHTN.
 CH. 48 CALCIUM
CHANNEL BLOCKERS
CALCIUM CHANNEL
BLOCKERS
CALCIUM CHANNEL BLOCKERS
Relax and widen blood vessels by
blocking calcium channels in arterial
smooth muscle, which leads to improved
blood flow to the heart and can lead to a
reduction in chest pain.

Treatment of
simmaronresearch.
com choice for
Angina with
Cau
ti HTN
Wid on:
e
Vess ned Blo
e o
to P ls can l d
o ead
Hyp stural
oten
sion shriver.umassmed.edu
CALCIUM CHANNEL BLOCKERS
(CCB)
Prevent calcium ions from entering In the heart, beta adrenergic
cells…promotes vasodilation. receptors are coupled with
Calcium channels

Used to treat:
 HTN Beta blockers and CCBs have
 Angina the same effects on the
 Cardiac dysrhythmias heart.
 Reduce force of contraction
 Slow heart rate
 Suppress conduction of AV node
Also called:
 Slow channel blockers
 Calcium antagonists
CALCIUM CHANNEL
BLOCKERS

VERY = Verapamil
NICE = nifedipine
Drugs = diltiazem
 CALCIUM CHANNEL BLOCKERS
(CCB)
Phenylalkylamines Each group has slightly different uses
and considerations.
verapamil
Benzothiazepines
diltiazem
Dihydropyridines
amlodipine
nifedipine
nicardipine
 CCB-AGENTS THAT ACT MAINLY ON
VASCULAR SMOOTH MUSCLE & THE
HEART
Blocks calcium channels in blood verapamil
vessels and in the heart. Side effects:
Causes:  Constipation
 Dilation → reduces arterial pressure  Bradycardia
 Increase in coronary perfusion  Facial flushing/redness
 Reduction in heart rate (countered by  Headache
release of NE)
 Decrease in AV nodal conduction  Dizziness
 Decrease in force of contraction  Peripheral edema
 Decrease in BP  Hypotension
ta ke
Indications for use: Diltiazem N OT
 Angina DO
 Essential HTN
Same as verapamil with efruit
 Cardiac dysrhythmias grap !
e
j uic
 CCB-AGENTS THAT ACT MAINLY ON
VASCULAR SMOOTH MUSCLE

Promotes Nifedipine (table 45.2, pg.
vasodilation by 501)
Side Effects:
blocking vascular  Constipation-increase fiber and fluid intake
smooth muscle, ↓  Facial flushing
 Headache
BP and ↓ angina.  Dizziness
 Peripheral edema
 Hypotension
 Gingival hyperplasia
 Reflex tachycardia (sympathetic stimulation)
 Give beta blocker
CH. 50 DRUGS FOR HTN
 BETA ADRENERGIC BLOCKERS
Prevent sympathetic stimulation of the
heart: Do not stop
 Heart rate decreases
 Myocardial contractility decreases abruptly! Can
 Suppress renin release (↓ Angiotensin II)
 Peripheral vasodilation cause rebound
 Renal vasodilation
 Suppression of aldosterone
HTN!!
Decreases cardiac output by decreasing HR
and contractility.
Suppress reflex tachycardia.
This Photo by Unknown Author is
Decrease peripheral vascular resistance. licensed under CC BY-SA

Decrease the release of renin..
BETA ADRENERGIC BLOCKERS
SELECTIVE NON-SELECTIVE
atenolol propanolol
metoprolol Inhibit beta1 (heart) and beta2 (lung)
Act Mainly on beta1 (heart) receptors.
receptors. Blood pressure decreases secondary
Adverse Effects: to decreases in heart rate.

Bradycardia Bronchoconstriction occurs (not the
drug of choice for asthmatics).
Hypotension
Inhibit the liver’s ability to convert
Reduced contractility stored glycogen to glucose in
response to hypoglycemia (not the
Decreased AV conduction drug of choice for diabetics).
Masks hypoglycemia  Masks hypoglycemia
BETA ADRENERGIC BLOCKERS
metoprolol, Block epinephrine from beta
atenolol, receptors.
labetolol, Decrease heart rate and force.
carvedilol,
propanolol...

m
m ters
on :
o...
Co
a m e
Par if a 60
p
ld is < !
i c al
S Check HR and
BP before
H o e