Certificate Course In Cardiovascular Pharmacology
Published 10/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 20.26 GB | Duration: 15h 11m
Master cardiovascular drugs, mechanisms, and clinical applications.
What you'll learn
Understand the mechanisms of action, pharmacokinetics, and therapeutic effects of cardiovascular drugs, including common side effects and toxicity.
Analyze how different cardiovascular drugs interact with the heart and blood vessels, influencing conditions like hypertension and arrhythmias.
Evaluate the clinical application of cardiovascular pharmacology in managing diseases such as heart failure, coronary artery disease, and angina.
Apply knowledge of drug interactions, contraindications, and patient characteristics when prescribing cardiovascular medications safely.
Requirements
Requirements or Prerequisites for the Cardiovascular Pharmacology Course: • A basic understanding of human anatomy and physiology, particularly related to the cardiovascular system, is helpful but not mandatory. • Prior knowledge of fundamental pharmacological principles, such as drug metabolism and receptor mechanisms, is advantageous but not required. • No specific tools or equipment are required, just access to a computer or mobile device with an internet connection to access course materials. • This course is designed to accommodate beginners, making it accessible to anyone interested in learning about cardiovascular pharmacology, regardless of prior experience.
Description
The Certificate Course in Cardiovascular Pharmacology provides a comprehensive understanding of cardiovascular drugs, their mechanisms, and clinical applications. This course is designed for medical students, healthcare professionals, pharmacists, and anyone with an interest in understanding how medications impact the cardiovascular system.Through this course, you will explore the pharmacokinetics and pharmacodynamics of major cardiovascular drugs, including antihypertensives, antiarrhythmics, anticoagulants, and diuretics. You'll learn how these drugs function at the molecular level, their therapeutic uses, and potential side effects. Emphasis is placed on understanding how these medications interact with different components of the cardiovascular system, including the heart, blood vessels, and blood clotting mechanisms.The course will also cover key cardiovascular conditions such as hypertension, heart failure, angina, arrhythmias, and coronary artery disease, illustrating how various pharmacological agents are used in their management. In addition, you'll learn how to assess patient-specific factors, contraindications, and drug interactions, ensuring safe and effective use of cardiovascular medications.With a focus on both theory and practical clinical applications, this course is designed to equip learners with the knowledge to make informed decisions when prescribing or administering cardiovascular drugs. Whether you're a beginner or looking to enhance your clinical skills, this course offers valuable insights into cardiovascular pharmacology.
Overview
Section 1: Pharmacology of Congestive Heart Failure
Lecture 1 Pathophysiology of Heart Failure
Lecture 2 Compensatory Mechanisms of Heart Failure
Lecture 3 Drug Neutralizing Compensatory Mechanism Seen In Heart Failure
Lecture 4 Drugs used in acute congestive heart failure - Part 1
Lecture 5 Drugs used in acute congestive heart failure - Part 2
Lecture 6 Drugs used in acute congestive heart failure - Part 3
Lecture 7 Drugs Used In Chronic Congestive Heart Failure - Introduction
Lecture 8 Drugs Used In Chronic Congestive Heart Failure - Vasodilators
Lecture 9 Drugs Used In Chronic Congestive Heart Failure - ACE Inhibitors & ARBs
Lecture 10 Drugs used in chronic congestive heart failure - Beta blockers
Lecture 11 Drugs used in chronic congestive heart failure - Ivabradine
Section 2: Hypertension
Lecture 12 Hypertension - Introduction
Lecture 13 Diuretics
Lecture 14 Sympathoplegics - Introduction
Lecture 15 Sympathoplegics - Drugs decreasing central sympathetic outflow
Lecture 16 Sympathoplegics - Ganglion blockers
Lecture 17 Sympathoplegics - Adrenergic Neuronal Blockers
Lecture 18 Sympathoplegics - Adrenergic Receptor Antagonists - Part 1
Lecture 19 Sympathoplegics - Adrenergic Receptor Antagonists - Part 2
Lecture 20 Sympathoplegics - Adrenergic Receptor Antagonists - Part 3
Lecture 21 Vasodilators - Introduction
Lecture 22 Vasodilators - Potassium channel openers
Lecture 23 Vasodilators - Nitric oxide releasers
Lecture 24 Dopamine Agonists
Lecture 25 Vasodilators - Calcium channel blockers - Part 1
Lecture 26 Vasodilators - Calcium channel blockers - Part 2
Lecture 27 Vasodilators - Calcium channel blockers - Part 3
Lecture 28 Drugs Decreasing Action Of Raas - Renin Inhibitors
Lecture 29 Drugs Decreasing Action Of Raas - ACE Inhibitors
Lecture 30 Drugs Decreasing Action Of Raas - Angiotensin Receptor Blockers
Lecture 31 Hypertension in pregnancy Management
Lecture 32 Drugs used in co-existing conditions in HTN
Section 3: Drugs used in Angina pectoris
Lecture 33 Angina - Pathophysiology
Lecture 34 Classification of Antianginal Drugs
Lecture 35 Nitrates - Part 1
Lecture 36 Nitrates - Part 2
Lecture 37 Nitrates - Part 3
Lecture 38 Calcium channel blockers
Lecture 39 Beta Blockers in the treatment of Angina
Lecture 40 Partial Fox Inhibitors
Lecture 41 Anti anginal Drugs - New drugs
Lecture 42 Types of Angina
Lecture 43 Stable Angina
Lecture 44 Unstable Angina
Lecture 45 Variant angina
Lecture 46 Antianginal Drugs - Important Points
Section 4: Drugs used in the treatment of Heart Failure
Lecture 47 Classification of Heart Failure
Lecture 48 Heart Failure With Reduced Ejection Fraction
Lecture 49 Heart failure with preserved ejection fraction
Lecture 50 Right Ventricular Failure
Lecture 51 Right ventricular failure - Part 2
Lecture 52 Left Heart Failure
Lecture 53 Investigations of Heart Failure
Lecture 54 Treatment of heart failure - Part 1
Lecture 55 Treatment of heart failure - Part 2
Lecture 56 Treatment of heart failure - Part 3
Lecture 57 Treatment of heart failure - Part 4
Lecture 58 Non-pharmacological treatment of heart failure Part - 1
Lecture 59 Non-pharmacological treatment of heart failure Part - 2
Lecture 60 Non-pharmacological treatment of heart failure Part - 3
Lecture 61 Non-pharmacological treatment of heart failure Part - 4
Section 5: Antiarrhythmic Drugs
Lecture 62 Anti Arrhythmatics - Introduction
Lecture 63 Cardiac Action Potential - Part 1
Lecture 64 Cardiac Action Potential - Part 2
Lecture 65 Cardiac Action Potential - Part 3
Lecture 66 Antiarrythmatics - classification & class 1 agents
Lecture 67 Antiarrthythmatics - Class 1A Agents (Part 1)
Lecture 68 Antiarrthythmatics - Class 1A Agents (Quinidine)
Lecture 69 Antiarrhythmics - Class 1A Agents (Procainamide)
Lecture 70 Antiarrhythmic Drugs - Class 1B Agents
Lecture 71 Antiarrhythmatic Drugs - Class 1C Agents
Lecture 72 Anti Arrhythmatics - Class 2 Agents
Lecture 73 Anti Arrhythmatics - Class 3 Agents (Lignocaine, Mexiletine, Tocainide)
Lecture 74 Anti Arrhythmatics - Class 3 Agents (Amiodarone)
Lecture 75 Anti Arrhythmatics - Class 3 Agents (Part - 3)
Lecture 76 Anti Arrhythmatics - Class 4 Agents
Lecture 77 Anti Arrhythmatics - Class 5 Agents
Lecture 78 Anti Arrhythmatics - Summary
Section 6: Dyslipedimia
Lecture 79 Lipids and lipoproteins Part - 1
Lecture 80 Lipids and lipoproteins Part - 2
Lecture 81 Primary hyperlipoproteinemia
Lecture 82 Anti Dyslipidemic drugs (introduction)
Lecture 83 Statins Part - 1
Lecture 84 Statins Part - 2
Lecture 85 Intestinal Cholesterol Absorption Inhibitors
Lecture 86 Bile Acid Binding Resins
Lecture 87 Fibric Acid Derivatives
Lecture 88 Nicotinic acid
Lecture 89 Miscellaneous Drugs
Lecture 90 Newer drugs
• Medical Students and Healthcare Professionals: Ideal for those pursuing MBBS, nursing, or pharmacy, and healthcare workers seeking a deeper understanding of cardiovascular pharmacology to enhance their clinical practice. • Pharmacists and Pharmacology Enthusiasts: Beneficial for individuals working in or studying pharmacology who want to specialize in cardiovascular drug therapy and its applications. • Physicians in Training: Resident doctors, interns, or any medical professional in training who seeks to strengthen their knowledge of cardiovascular pharmacology for better patient care. • Researchers in Cardiovascular Medicine: Researchers focused on cardiovascular drug development or related fields looking to understand the pharmacological principles that drive cardiovascular treatments. • Beginners and Healthcare Enthusiasts: The course is accessible to anyone with an interest in cardiovascular health, even without extensive prior knowledge of pharmacology, making it suitable for beginners. This course will be valuable for anyone aiming to enhance their understanding of cardiovascular pharmacology in both academic and clinical settings.
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