This document presents information on calcium channel blockers (CCBs), including their classifications, examples of each type, mechanisms of action, and details on specific CCBs amlodipine, nifedipine, verapamil, and diltiazem. It discusses how CCBs work by disrupting calcium movement through calcium channels, their uses in treating hypertension and angina, their mechanisms and side effects. Nursing considerations are provided for monitoring patients taking these medications.
1. SUMANDEEP COLLEGE OF NURSING
DRUG PRESENTATION ON
CALCIUM CHANNEL BLOCKERS
PRESENTED BY
NIKHIL VAISHNAV
M.SC. NURSING 2ND YEAR
2. CALCIUM CHANNEL BLOCKERS
Calcium channel blockers (CCBs) also known as calcium
antagonists.
These medications disrupt the movement of calcium (Ca2+)
through calcium channels.
they are first line antihypertensive drugs.
They are also used to treat angina.
5. DIHYDROPYRIDINE
Dihydropyridine CCBs are derived from the
molecule dihydropyridine.
They are mostly used to reduce systemic vascular
resistance and arterial pressure.
Sometimes they are used to treat angina.
They are easily identified by their suffix “dipine”.
8. PHENYLALKYLAMINE
• The Phenylalkylamine class of CCBs mainly
affect the cells of the heart .
• They have negative inotropic and negative
chronotropic effects .
• They have minimal vasodilatory effects
compared with dihydropyridine.
• Examples are : verapamil etc.
9. BENZOTHIAZEPINE
• It belongs to the molecule Benzothiazepine.
• These drugs are intermediate class between
dihydropyridine and Phenylalkylamine.
• They have both cardiac depressor and
vasodilator action.
10. MECHANISM OF ACTION
• CCBs has four effects:
1) They act on vascular smooth muscle, reduce
contraction of the arteries and cause vasodilation .
2) They act on cardiac muscles (myocardium), they
reduce the force of contraction of the heart( Negative
inotropic ).
3) They slow down the conduction of electrical activity
within the heart, slow down the heartbeat ( Negative
chronotropic ).
4) They block the calcium signal on adrenal cortex cells,
they directly reduce aldosterone production, which
correlates to lower blood pressure.
11.
12.
13.
14.
15. • Calcium + Troponin complex in the heart and
actin and myosin interaction - Heart contacts.
• Calcium + Calmodulin complex in the vessels
and
16. AMLODIPINE
• Trade name: Norvasc.
• It is a medication used for treatment of
hypertension and coronary artery disease.
• It is also used in Stable angina
17. MECHANISM OF ACTION
It produces coronary vasodilation by inhibiting
the entry of calcium ions into the voltage
gated channels of the vascular smooth muscle
and myocardium during depolarization.
It decreases cardiac work, decrease cardiac
oxygen consumption.
18. • Indications: Hypertension, Stable angina,
Prinzmetal’s angina.
• Contraindications: Known hypersensitivity to
dihydropyridine, Second or third degree heart
block, Lactation.
• Availability:It is available in Tablets—2.5, 5,
10 mg.
19. • Side effects: Dizziness, light-headedness,
headache, asthenia, fatigue, lethargy, peripheral
edema, somnolence, flushing, nausea, abdominal
pain.
• Nursing care: Monitor patient carefully (BP,
cardiac rhythm, and output) while adjusting drug
to therapeutic dose; use special caution if patient
has CHF..
• Monitor BP very carefully if patient is also on
nitrates.
• Monitor cardiac rhythm regularly
20. NIFEDIPINE
• It is calcium channel blocker used as an
antianginal and antihypertensive drug.
• Brand name: Adalat, Adalat CC.
21. MECHANISM OF ACTION
It produces peripheral and coronary
vasodilatation, reduces afterload,
peripheral resistance and BP.
It has little or no effect on cardiac
conduction and rarely has negative
inotropic activity.
23. NURSING CONSIDERATIONS
• Allergy to nifedipine; pregnancy; lactation
• Ensure that patients do not chew or divide
sustained-release tablets.
• Protect drug from light and moisture.
24. VERAPAMIL
• It is used to treat hypertension, chest pain
from cardiac ischemia and supraventricular
tachycardia.
25. ACTION
Verapamil inhibits entry of calcium ions
into arterial smooth muscle as well as
the myocytes and conducting tissues.
Verapamil reduces BP, relieves angina
and slows AV conduction.
26. INDICATIONS
• Angina pectoris due to coronary artery spasm
(Prinzmetal’s variant angina)
• Effort-associated angina
• Chronic stable angina
• Unstable, crescendo, preinfarction angina
• Essential hypertension
• Parenteral: Treatment of supraventricular
tachyarrhythmia.
• Parenteral: Temporary control of rapid ventricular rate
in atrial flutter or atrial fibrillation
28. SIDE EFFECTS
• Bradycardia.
• CHF.
• MI.
• AV block.
• transient Asystole.
• hypotension.
• pulmonary and peripheral edema.
• nausea. Constipation.
• fatigue, hypotension, dizziness, headache.
29. NURSING CONSIDERATIONS
Ensure that patient swallows SR tablets whole;
patient should not cut, crush, or chew them.
Protect IV solution from light.
Allergic to verapamil.
30. DILTIAZEM
• Diltiazem, a benzothiazepine calcium-channel
blocker.
• It is used alone or with an angiotensin-converting
enzyme inhibitor.
• Trade name: Cardizem, Cardizem CD, Cardizem LA,
Cardizem SR.
31.
32. MECHANISM OF ACTION
• Slows SA and AV node conduction
(antiarrhythmic effect) without affecting
normal arterial action potential or
Interventricular conduction.
34. CONTRAINDICATIONS
Known hypersensitivity to drug; sick sinus syndrome
(unless pacemaker is in place and functioning).
second- or third-degree AV block.
severe hypotension (systolic <90 mm Hg or diastolic <60
mm Hg).
patients undergoing intracranial surgery; bleeding
aneurysms.
36. NURSING IMPLICATIONS
• Check BP and ECG before initiation of therapy
and monitor particularly during dosage
adjustment period.
• Lab tests: Do baseline and periodic liver and
renal function tests.
• Monitor for and report S&S of CHF.
• Monitor for headache. An analgesic may be
required.
• Supervise ambulation as indicated.