Antihypertensive Meds PDF

Summary

This document provides information about various antihypertensive medications, including ACE inhibitors, ARBs, beta-blockers, calcium channel blockers, and diuretics. It covers their mechanisms of action, side effects, and important nursing considerations.

Full Transcript

ANTIHYPERTENSIVE MEDS
All these drugs
drop the blood pressure
and take the workload
off the heart
- Except DIGOXIN which
does not affect BP, but
decreases the heart rate
and improve cardiac
contractility
For meds that
decrease the BP, we
need SLOW
POSITION CHANGES

- When blood pressure
is LOW, we gotta go
SLOW
- The goal is to
prevent
ORTHOSTATIC
HYPOTENSION
A is for
ACE
inhibitors
and
ARBs ACE inhibitors and ARBs

- Lowers the blood pressure
- But not the heart rate
1st choice to
lower the blood
pressure are ACE
inhibitors

- Meds ending in PRIL
SECOND
CHOICE
to lower
BP
- Angiotensin Receptor Blockers (ARBs)
- Meds ending in SARTAN, like losartan
QUESTIO
N

- Do we give PRILS
and SARTANS if the
heart rate is
BRADYCARDIC or
below 60?
ANSWER

YES!

ACE inhibitors and
ARBs act to
 lower the blood
pressure only
Not the heart rate
Renin-Angiotensin-Aldosterone System ​
​
The renin-angiotensin-aldosterone system (RAAS) maintains fluid and salt levels in the
body and, in turn, blood pressure. ​
​
The two main enzymes involved with the RAAS are renin and the ACE. ​
 The body releases renin as a response to low blood pressure
 and converts angiotensinogen into angiotensin I, the first step. ​
​
The next step comes from the ACE, which converts angiotensin I to angiotensin II.
Angiotensin II is important in blood pressure control because it can ​
(1) promote sodium and water reabsorption and ​
(2) maintain vasoconstriction. ​
​
Both actions increase blood pressure. Therefore, we expect a patient with high blood
pressure to get medicines that block areas of the RAAS system​
RENIN-
ANGIOTENSI
N-
ALDOSTERO
NE SYSTEM
(RAAS)
ACE and ARBs
mechanisms
of action
 ACE inhibitors block
the action of ACE​
​
stopping the conversion
from angiotensin I to
angiotensin II. This
blocks fluid retention
and vasoconstriction,
resulting in lower blood
pressure. ​
 ARBs prevent
angiotensin II from binding
to receptor sites on the: ​

kidneys ​
and arteries​

resulting in vasodilation
and preventing sodium
reabsorption.​
Both ACE and ARBs
either inhibit or block
the Renin-
Angiotensin-
Aldosterone System
Aldostero
ne

1. Is BLOCKED from
adding sodium and
water in
2. And letting
potassium out
REMEMBER!

Sodium and potassium have
an INVERSE RELATIONSHIP

 if potassium is high,
sodium is low
 If sodium is high,
potassium is low
Nurses
should WOF
hyperkalemi
a in patients
taking ACE
and ARBs
DEADLY SIDE
EFFECTS OF ACE
AND ARBs

NOTE:
 Angioedema
 And cough

are side effects that can only
be seen in patients taking
ACE inhibitors
HEALTH TEACHING:
AVOID POTASSIUM-
RICH FOODS

Instruct patients taking
ACE and ARBs to avoid
fruits and veggies
particularly:

- Green leafy veggies
- Avocados
- Melons
- And oranges
AVOID
POTASSIUM
-RICH
FOODS
REMEMBER!

Since potassium PUMPS THE
MUSCLES
- WOF elevated potassium
levels (above 5 mEq/L)
- Muscle spasms
- Peaked T waves
- ST elevation
NURSING
INTERVENTION

Any potassium
imbalance (high or
low)

The FIRST ACTION of
the nurse should be to
attach the patient to a
CARDIAC MONITOR
REMEMBER
the 3 A’s
for ACE inhibitors and
Angiotensin II receptor
blockers
THE FIRST DOSE
PHENOMENON

If you hear:
 “First dose”
 “Newly prescribed drug”
 “first time taking the drug”

 DO NOT LEAVE THE PATIENT’S
BEDSIDE
 ALWAYS ASSESS FOR BIG SIDE
EFFECTS

For ACEs and ARBs it could be a BIG BP
DROP
BETA
BLOCKERS
BETA BLOCKERS
are meds
ending in LoL

Like AtenoLoL

For beta blockers think:
DOUBLE L’s for DOUBLE
LOWS

LOW heart rate
LOW BP
BETA
BLOCKERS
put the
BREAKS on
the heart
Beta blockers
are bad for
patients with:

 Acute Heart failure
Worsening heart
failure
BETA BLOCKERS
MECHANISM OF
ACTION

Non-selective beta
blockers will cause

 low BP
 slow heart
 narrowed bronchi
Beta-Blockers

There are two beta receptors important to
beta-blocker pharmacology:
beta-1 and
beta-2.
Beta-1 receptors are predominantly located
in the heart while
beta-2 receptors tend to occupy the lungs.

When we block the beta-1 receptor, we lower
heart rate and likely blood pressure.
When we block beta-2, it has more of an
adverse effect, since we now constrict
the lungs.

Because of this, we often avoid first-
generation beta-blockers, which can
affect the lungs in asthmatics.
There are three beta-blocker generations:
1. First generation
a. Includes propranolol (Inderal LA)
b. Has an -olol stem
c. Nonselectively blocks beta-1 and beta-2 receptors
d. Avoid using for asthma/COPD patients due to bronchoconstriction

2. Second generation
a. Includes atenolol (Tenormin), metoprolol tartrate (Lopressor), and metoprolol succinate
(Toprol XL)
b. Has an -olol stem
c. Selectively blocks only beta-1 receptors

3. Third generation
a. Includes carvedilol (Coreg)
b. Has a -dil- stem for vasodilation
c. Blocks both beta-1 and alpha-1: Alpha-1 blockade leads to vasodilation countering the body’s
tendency to vasoconstrict as a response to lower blood pressure
DANGEROUS
SIDE EFFECTS
OF BETA
BLOCKERS

THE FOUR B’s
THE 4 B’s OF
BETA
BLOCKERS

1. We HOLD THE DRUG for:

 BRADYCARDIA
LOW BLOOD PRESSURE

 Any heart rate LESS THAN
60
 Any BP LESS THAN 90 or
100 SYSTOLIC PRESSURE
THE 4 B’s OF
BETA BLOCKERS

2. Since non-selective beta blockers
BLOCK BETA 2 in the lungs
patients experience:

 bronchospasms (wheezing)

DO NOT GIVE in asthma and COPD
patients
THE 4 B’s OF
BETA BLOCKERS

3. Bad for HEART FAILURE patients
 new edema
 worsening crackles
 rapid weight gain
 new jugular vein distention

All these are signs of heavy fluid
accumulation or worsening heart
failure
THE 4 B’s OF
BETA BLOCKERS

4. Do not give in patients with BLOOD
SUGAR BELOW 70 mg/dL

 because beta blockers can mask the
signs and symptoms of hyporglycemia
such as TACHYCARDIA, COOL CLAMY
SKIN, SHAKINESS
 ensure to monitor blood sugar regularly.

REMEMBER! HypoGLY, the brain might DIE
CALCIUM
CHANNEL
BLOCKER
S
Calcium Channel Blockers

Smooth muscle requires calcium for vasoconstriction, a narrowing of the
vessel.

When we block calcium channels in vessels, we can produce the opposite,
a vasodilating or vessel opening effect. The heart also needs calcium
to function properly and regulate contraction timing. Some calcium
channel blockers (CCBs) work to reduce arrhythmias.

We then divide CCBs into two main classes:
 those that affect the heart and
 those that do not.

These may not always be the first choice therapeutically due to adverse
effects. These two CCB classes, the:
 nondihydropyridines and
 Dihydropyridines

Both vasodilate vessels.
Nondihydropyridine CCBs
These CCBs blocks calcium channels in the heart and blood vessels, which
can help patients with cardiac dysrhythmia, hypertension, and angina pectoris
or chest pain.

Side effects include constipation and bradycardia.

Two nondihydropyridines are
 verapamil (Calan) and
 diltiazem (Cardizem).

Diltiazem (Cardizem): The -tiazem stem identifies diltiazem as a
nondihydropyridine.

The brand name Cardizem adds the first five letters from cardiac to the last
three letters of the generic diltiazem.

Verapamil (Calan): The -pamil stem identifies diltiazem as a
nondihydropyridine. The brand name Calan takes three letters from the word
calcium.
Dihydropyridine CCBs
Dihydropyridines block calcium channels only in the blood vessels and
have no cardiac activity. Thus, we cannot use them for dysrhythmias.
Therefore, the most common use for these medications is to treat
hypertension.
Examples include
 amlodipine (Norvasc) and
 nifedipine (Procardia).

Adverse reactions include peripheral edema and headache.

Amlodipine (Norvasc): The -dipine stem comes from dihydropyridine.
We can often look at this as a drug that produces a dip in blood
pressure.

Nifedipine (Procardia XL): Procardia takes the “pro” from promotes and
“cardia” from cardiac. Thus, you can remember the brand Procardia XL
as promoting cardiac health.
Nondihydropyridine Dihydropyridine CCBs

Indications: Most often used for hypertension
Indications: Most often used for and angina pectoris.
hypertension, angina pectoris, and cardiac
dysrhythmias. Contraindications: Patients with cardiogenic
Contraindications: Patients with shock and use with caution in patients with heart
failure or who are post–myocardial infarction.
hypotension, severe left ventricular
dysfunction or hypersensitivity.
Adverse effects: Peripheral edema and
Adverse effects: Side effects include headache.
constipation and bradycardia.
Patient education and care: Patients Patient education and care: If a patient needs
may have significant constipation and a low-dose CCB to prevent uterine contractions,
nifedipine (Procardia XL), a dihydropyridine, is a
should alert their provider. proper choice because it does not suppress the
mother’s and fetus’s hearts as the
nondihydropyridines would.
NONDIHYDROPYRIDI
NES
KEY NURSING
CONSIDERATIONS
FOR CALCIUM
CHANNEL
BLOCKERS

particularly
nondihyropyridines

MNEMONIC:
C-C-B
MNEMON
IC is CCB

1. Always before giving, count
the HEART RATE and BP
 If systolic BP is 90 or 100
mmHg…WE HOLD THE
DRUG!
 If heart rate is 60 or less…
WE DON’T GIVE THE
DRUG!

Except for amlodipine and
nifedipine
MNEMONIC
is CCB

2. Change position S-L-O-W-L-Y.
Just like any meds that
DECREASES BP we want to
prevent:

 FAINTING
 ORTHOSTATIC
HYPOTENSION
MNEMONIC
is CCB

3. BAD HEADACHE, which is
typically NORMAL
WHEN DO WE
HOLD GIVING CCB?

1. Heart rate below 60 bpm
2. Systolic BP below 90 or 100
mmHg
3. Slow or stop any IV drip that
is DROPPING the BP TOO
QUICKLY
DIGOXIN
DIGS for a DEEPER
CONTRACTION (increasing
the force of the heart’s
contraction)

- Usually given to patients
with SYSTOLIC HEART
FAILURE
 Digoxin is a NEGATIVE
CHRONOTROPIC. Meaning
it DECREASES HEART
RATE
CAUTION!

Digoxin is a TOXIN!
 Very narrow therapeutic index
THREE NURSING
CONSIDERATION
S FOR DIGOXIN
THREE NURSING
CONSIDERATIONS
FOR DIGOXIN

MNEMONIC:
A T P
1. Always check apical
pulse for A FULL 60
SECONDS
“if heart rate is LESS THAN
60, it gets RISKY “
 don’t give the drug!
THREE NURSING
CONSIDERATIONS FOR
DIGOXIN
MNEMONIC:
A T P
2. Toxicity – Anything over 2.0 could be
TOXIC!
 Normal level is 0.8-2.0 ng/mL
Early signs of digoxin toxicity:
1. Vision changes
2. Nausea and vomiting
3. Anorexia
4. Dizziness or light headedness
NOTIFY DOCTOR IMMEDIATELY!
REMEMBER!
OLDER PATIENTS WITH DECREASED
KIDNEY FUNCTIONS are at high risk
for TOXICITY!

 Check for BUN and Creatinine levels
 Between the two, Creatinine is the
No.1 kidney lab
 Normal creatinine level (0.6 – 1.2
mg/dL)
Creatinine OVER 1.3, means KIDNEY
INJURY!
THREE NURSING
CONSIDERATIONS FOR
DIGOXIN

MNEMONIC:
A T P
3. Low potassium
 Potassium level below 3.5 mEq/L
increases the risk for DIGOXIN
TOXICITY
CLARIFICATION:
 Digoxin does not cause low
potassium
 But low potassium does increase
DIGOXIN TOXICITY
NITRATE
S
Nitroglycerin converts to
nitric oxide, a vasodilator.
 Make sure the patient
sits when taking the
medication because it
causes significant
dizziness.
 With Nitroglycerin, think
“nitrous” from sports
cars—the patient and
blood pressure drop
“stat.”
NITRO
makes the
blood
pressure
GO LOW
KILLER
CONSIDERATIO
N!
Indications: Anginal pain.
Contraindications:
1. Watch for PDE-5 inhibitors such as
sildenafil (Viagra).
2. The combination can create
dangerously low blood pressure.
Adverse effects: Severe
hypotension.
Patient education and care: The
patient should carry nitroglycerin at
all times.
The patient should be asked for the
bottle at every visit to check the
expiration date and remind the
patient specifically how to take the
medication.
KILLER
CONSIDERATIO
N!
STOP NITRO IF:
1. Systolic BP is less than 90 or
100 mmHg
2. Or if we see a drop of 30
POINTS or more
 s/sx
 confusion
 Agitation
 Pale
 Cold clammy skin
 diaphoresis
NORMAL
SIDE
EFFECTS
3 H’s
Usually present after
very first dose

Health Teaching:
1. Slow position changes
2. Always check BP
before giving this
drug
TWO FORMS OF
NITROGLYCERIN

Pill
 Given for stable angina
 Stress induced
 angina that ceases when at rest

Nitro Patch
 Given for UNPREDICTABLE
ANGINA
 angina that can happen anytime
 Sleeping/awake, at home/at work
TAKE NITRO
BEFORE
ANY
STRENUOU
S ACTIVITY
IMPORTANT
INFO ABOUT
NITRO PILL
1. Call EMERGENCY
HOTLINE if there is still
pain 5 MINS AFTER
FIRST DOSE
2. Give only MAXIMUM OF
THREE DOSES 5 MINS
APART
3. No swallowing (given
SUBLINGUALLY)
4. Storage: NO light, NO heat
 Replace nitro EVERY SIX
MONTHS
IMPORTA
NT INFO
ABOUT
NITRO
PATCH
DIURETIC
S
The order of diuretics would then be:
1. Osmotic diuretics such as mannitol (Osmitrol) work by increasing osmotic pressure
inside the lumen (tube) of the PCT. This action increases water diuresis and in turn,
decreases blood volume and lowers blood pressure.
2. Loop diuretics such as furosemide (Lasix) inhibit sodium and chloride reabsorption in the
ascending loop of Henle.
3. Thiazide diuretics such as hydrochlorothiazide (Microzide) inhibit sodium and chloride
resorption in the DCT.
4. Potassium-sparing diuretics such as triamterene (Dyrenium) and spironolactone
(Aldactone) work at the collecting duct. They exchange sodium for potassium and inhibit
potassium excretion, “sparing” potassium or keeping more of it in the body.
Diuretics produce less diuresis as they continue down. The order from most to least
diuresis is:
osmotic
loop
thiazide
potassium sparing
Osmotic Diuretic
Mannitol (Osmitrol) is an osmotic diuretic that reduces
intraocular and intracranial pressure, usually in an emergency.
It acts on the PCT, preventing reabsorption of sodium and
water, increasing urine volume.
Adverse reactions can include:

The brand name Osmitrol combines the class of medication,
osmotic, and adds that it helps control brain swelling.

Indications: Generally, we use osmotic diuretics for elevated
cerebral or intraocular pressures, whether from trauma or
disease. Also, they are used if the patient is in danger of acute
renal failure.
We give POTASSIUM-WASTERS if
potassium level is within NORMAL
RANGE
 3.5-5.0 mEq/L
Encourage patients to eat:
 melons
 Bananas
 green leafy veggies
 liver
 AVOID licorice root (lowers
potassium)
Loop Diuretic
Furosemide (Lasix) is a loop diuretic named after the loop of
Henle.
It prevents sodium from being reabsorbed in the loop and the
water follows the sodium’s lead, staying in the tube and exiting
as urine.

Prescribers often use loop diuretics for edema.
Hypokalemia (low potassium) and ototoxicity (damage to
hearing) are potential side effects.
The -semide stem indicates a furosemide-type loop diuretic.
The brand name Lasix indicates it lasts six hours.
Indications: Most often used for hypertension and edema.

Contraindications: Watch for hypokalemia, anuria, and
hypovolemia.

Adverse effects: May include diarrhea, nausea, ototoxicity
presenting as tinnitus (ringing in the ears) or hearing loss,
orthostatic hypotension, hyperglycemia, and electrolyte
imbalances.
Thiazide Diuretic

Hydrochlorothiazide (Microzide)—
Thiazide diuretics get their class name from the stem of
generic drugs such as hydrochlorothiazide. Prescribers
often abbreviate hydrochlorothiazide as HCTZ.
Thiazides don’t produce as much diuresis as loop
diuretics, but are good for initial hypertension
treatment.
They work by preventing sodium reabsorption in the
DCT. Water once again follows sodium, and urine
volume increases.
While the “hydro” in hydrochlorothiazide stands for the
hydrogen atom, you can think of “hydro” as “water” for
diuretic to remember its use.
Indications: Most often used for hypertension and
edema.
Contraindications: Watch for hypokalemia and anuria.
LOOP
DIURETICS
Are the FIRST DRUGS
USED in:

 Acute Heart Failure
or
 Worsening Heart
Failure
We give –IDEs
to make the
body DRIED

- IDEs block
reabsorption of sodium
in the kidneys

 LESS SODIUM
means less swelling
REMEMBER!
Potassium-wasting diuretics can
can HYPOKALEMIA which can
result to abnormal ECG findings
FOR POTASSIUM
REPLACEMENT
 we never give potassium via
IV PUSH, this would result to
INSTANT DEATH! Dsf
 Always give potassium in an
IV bag and give for over:
 for OVER AN HOUR or more
 typically for FOUR HOURS
BLOCKS
ALDOSTERONE
DIRECTLY

“Lets fluid OUT OF THE BODY
and INTO THE POTTY”

 Avoid potassium-rich foods
POTASSIUM-
SPARING
DIURETICS
Can cause SEVERE
HYPERKALEMIA
ANY POTASSIUM
ABNORMALITY
The FIRST nursing action is to
attach the patient to a CARDIAC
MONITOR
Potassium-Sparing Diuretic
Spironolactone (Aldactone) is one potassium-sparing
diuretic, but this drug can cause gynecomastia, an
enlargement of male breasts. Spironolactone blocks
aldosterone, an important steroid hormone in retaining
sodium and water under hypotensive conditions.

Indications: Most often used for hypertension, heart
failure, hypokalemia (low potassium), and edema
associated with CHF and nephrotic syndrome.
Potassium-Sparing Diuretic
Contraindications: With increased potassium comes the danger of other
medications that raise potassium levels, including angiotensin-converting
enzyme (ACE) inhibitors such as
 lisinopril or
 enalapril.

Adverse effects: May include
 gynecomastia, a swelling of breast tissue in men and
 irregular menses or amenorrhea in women as well as electrolyte imbalances.

Patient education and care: Watch for electrolyte and fluid imbalances by
monitoring weight and intake and output ratios. May need to watch diet for
potassium-rich foods that may contribute to electrolyte imbalances.
THREE
IMPORTANT NSG
CONSIDERATION
S BEFORE
GIVING
DIURETICS: (B-
B-P)
THREE IMPORTANT
NSG CONSIDERATIONS
BEFORE GIVING
DIURETICS:

1. B for Blood
pressure
 You hold diuretics
for low blood
pressure
 Anything less than
100 systolic
THREE IMPORTANT
NSG CONSIDERATIONS
BEFORE GIVING
DIURETICS:

2. B for BUN and
Creatinine
 The kidney labs, we
always check before
giving since it can
hurt the kidneys by
giving TOO MUCH
or TOO QUICKLY
THREE IMPORTANT
NSG CONSIDERATIONS
BEFORE GIVING
DIURETICS:

3. P for potassium imbalances
Since POTASSIUM PUMPS
THE HEART, we always put
patients on a cardiac
monitor
WOF:
Muscle spasms
Cramps
Weakness
parethesia
 FIVE
GENERAL
TIPS
ABOUT
DIURETICS
FIVE GENERAL
TIPS ABOUT
DIURETICS

1. Give in the
morning not at
night
Rationale: this made
drains fluids, we do
not want potty breaks
all the time during the
night
FIVE GENERAL
TIPS ABOUT
DIURETICS

2. This medication
makes patients dizzy
(just like any BP meds)

Slow position changes
to avoid fainting
(orthostatic
hypotension/postural
hypotension)
FIVE GENERAL
TIPS ABOUT
DIURETICS

3. Monitor patient’s
weight DAILY (not
weekly)

 REPORT if patient
gained 2-3 lbs of
weight in a single day
 Usually indicates fluid
accumulation in the
body
FIVE GENERAL
TIPS ABOUT
DIURETICS

4. Risk for sunburn
 Advice patient to
wear sunblock
FIVE GENERAL
TIPS ABOUT
DIURETICS
5. Low sodium diet
Rationale: The principle of
osmosis teaches that…
“where salt goes, water
follows:
Avoid:
 Chips
 Fried foods
 No canned foods
 No packaged foods
AVOID THESE
MEDS WHEN
TAKING
DIURETICS

Mnemonic is:
C-A-A-N
These meds contain
high amount of sodium
which SWELLS THE
BODY
CAUTION
ABOUT
FUROSEMIDE:
If given too fast..
CAUTION ABOUT
FUROSEMIDE:
Given too much for long-term
this medication can cause

1. Renal damage, monitor BUN
and creatinine levels
2. Long-term doses may cause
HYPOKALEMIA
Alpha-2
Adrenergic
Agonist

CLONIDINE
Oppose the effects of
the Sympathetic
Nervous System
When to
give
Clonidine?
1. Clonidine is USED
LAST because it is a
VERY POTENT blood
pressure lowering drug
2. Given to lower blood
pressure when the
ELEVATED BLOOD
PRESSURE US
PERSISTENT and is not
responsive to other
medications
REMEMBE
R!
For Clonidine think…
“CARDIAC DOWN for
CLONIDINE”

 the C in Clonidine
stands for CARDIAC
 the D in clonidine
stands for DOWN
Alpha-2
Adrenergic
Agonists
 Reduces
sympathetic outflow
in the brainstem
 The brainstem also
contains THE
CARDIOVASCULAR
CENTER which:
1. controls heart rate
2. and blood pressure.
CLONIDINE’s
MECHANISM
OF ACTION
1. Decreases heart
rate
2. Decreases cardiac
output
3. Decreases blood
pressure
TWO
FORMS OF
CLONIDIN
E:
HEALTH TEACHING
ABOUT CLONIDINE
PATCH

1. Change patch
EVERY SEVEN
DAYS
2. Apply patch on:
 hairless
 intact skin
 on upper arm
REMEMBER!
Do not stop taking SUDDENLY
because this can cause:

1. Severe rebound hypertension
 Systolic BP over 180 mmHg
(hypertensive crisis) which can
cause
Heart attack or
stroke
REMEMBE
R!
2. Nurses should
SLOWLY TAPER OFF
Clonidine
REMEMBE
R!
“When the blood pressure
is LOW, we gotta go
SLOW”

3. Nurses should teach
patients and relatives to
change positions veery
slowly to prevent:
Postural hypotension
Orthostatic
hypotension
AVOID OTHER CNS
DEPRESSANTS
WHILE TAKING
CLONIDINE

1. NO alcohol
2. NO sedatives
Which can drive blood
pressure even lower