Outline of cardiology


The following outline is provided as an overview of and topical guide to cardiology, the branch of medicine dealing with disorders of the human heart. The field includes medical diagnosis and treatment of congenital heart defects, coronary artery disease, heart failure, valvular heart disease and electrophysiology. Physicians who specialize in cardiology are called cardiologists.

What type of thing is cardiology?

Cardiology can be described as all of the following:

Branches of cardiology

  • Adult cardiology -
  • * Cardiac electrophysiology - study of the electrical properties and conduction diseases of the heart.
  • ** Clinical cardiac electrophysiology -Clinical cardiac electrophysiology, is a branch of the medical specialty of cardiology and is concerned with the study and treatment of rhythm disorders of the heart. Cardiologists with expertise in this area are usually referred to as electrophysiologists. Electrophysiologists are trained in the mechanism, function, and performance of the electrical activities of the heart.
  • * Cardiogeriatrics -Cardiogeriatrics, or geriatric cardiology, is the branch of cardiology and geriatric medicine that deals with the cardiovascular disorders in elderly people.
  • * Echocardiography - use of ultrasound to study the mechanical function/physics of the heart.
  • * Interventional cardiology - use of catheters for the treatment of structural and ischemic diseases of the heart.
  • * Nuclear cardiology - use of nuclear medicine to visualize the uptake of an isotope by the heart using radioactive sources.
  • Pediatric cardiology - Pediatric cardiologists specialize in diagnosing and treating heart problems in children.

Anatomy of the heart

Heart -

Physical exam

The cardiac physical exam focuses on portions of the physical exam that elucidate information about diseases and disorders outlined below.
Clinical judgment, of course, should guide the physical exam but the following are pertinent things related to a general / broad cardiac exam.

Heart disorders

Hypertension - elevated blood pressure above "normal." Long term high blood pressure is a major risk factor for coronary artery disease, stroke, heart failure, peripheral vascular disease, vision loss, and chronic kidney disease. Lowering blood pressure is key for preventing these diseases.

Procedures to counter coronary artery disease

Coronary artery disease is not currently reversible and eventually requires surgical management if it progresses.
  • Coronary artery bypass surgery : Grafting an artery or vein from elsewhere to bypass a stenotic coronary artery. Performed by cardiothoracic surgeons, a sternotomy is performed to open the chest and then grafts are performed. Cardiopulmonary bypass may be necessary. The internal mammary artery or saphenous vein can be used as grafts. The grafts are used to provide an alternate path for blood flow around a stenosis.
  • Enhanced external counterpulsation : Pneumatically assisting the heart to move blood using inflatable cuffs on the legs.
  • Percutaneous coronary intervention - Procedures to treat stenotic coronary arteries by accessing through a blood vessel. Angioplasty in this manner is PTCA but may also involve the insertion of stents to keep vessels open.
  • Percutaneous Transluminal Coronary Angioplasty : Insertion of a catheter through the skin into a blood vessel to enlarging the lumen of a coronary artery by forcibly expanding it with a balloon, hence the name. It is a form of PCI and generally what is implied when referring to "PCI."
  • Atherectomy - Enlarging the lumen of an artery by removal of atherosclerotic plaque by means of catheterization. This is in contrast to angioplasty that does not remove the plaque but merely pushes it out of the way to increase the lumen size. This method is primarily used in peripheral disease, but has been used for coronary disease as well.
  • Endarterectomy - Enlarging the lumen of an artery by removal of atherosclerotic plaque by means of open surgery. This is primarily done on the carotid arteries but was first performed on the superficial femoral artery. While not performed on coronary arteries, it is mentioned here for completeness.
  • Stenting: Enlarging the lumen of an artery by forcibly expanding it with a metal wire tube by means of catheterization. Typically, the artery is expanded first through angioplasty.

Devices used in cardiology

  • Stethoscope - Acoustic device for hearing internal sounds including heart sounds. The stethoscope is the quintessential medical icon, regardless of specialty. Modern stethoscopes can have a diaphragm and a bell, and be sized for adults or children. In cardiology, it is primarily used to listen to heart sounds it can also be used to listen for bruits, bowel sounds, and lung sounds. Electronic stethoscopes can amplify and record sounds.
  • EKG calipers - A type of divider caliper that can be used to measure intervals and compare intervals on EKGs. Special rulers can be used to measure the intervals as well.
  • Devices used to maintain normal electrical rhythm:
  • * Pacemaker - An implanted electrical device that replaces the heart's natural pacemaker.
  • * Defibrillator - Electrical devices to alter the heart's rhythm with electrical energy. As the name implies, a defibrillator is used to stop fibrillation of the heart. It can be used to cardiovert atrial fibrillation if certain conditions are met, but is mainly used to cardiovert ventricular fibrillation which is life-threatening. Contrary to popular media's use, a defibrillator cannot and should not be used for asystole as it has been shown to be ineffective in restoring a rhythm. If a person is in a rhythm not convertible by a defibrillator, then cardiopulmonary resuscitation or more advanced care should be started.
  • ** Automated external defibrillator - An external defibrillator that is commonly found outside of health care settings and is often designed for anyone to use through verbal instructions. AED's have increased in popularity and dispersal so that people with cardiac arrest in public can be cardioverted to a safer rhythm before help can arrive.
  • ** Implantable cardioverter-defibrillator : An implanted device to prevent life-threatening conditions in people predisposed to these rhythms.
  • Devices used to maintain blood pressure:
  • * Artificial heart - An internal pump that wholly replaces the pumping action of the heart.
  • * Cardiopulmonary bypass / heart-lung machine: External pump to take over the function of both the heart and lungs. Commonly used in cardiothoracic surgery when the heart is being operated on for such surgeries like open valve replacement or CABG on the posterior side of the heart. The bypass machine is responsible for oxygenation of blood, removal of carbon dioxide, heating the blood to maintain core body temperature or cooling blood for controlled hypothermia, and providing volatile anesthetics if the lungs are not ventilated during bypass. A cardioplegic solution is used to stop the heart from beating and combination with hypothermia reduces oxygen demand of the heart significantly such that surgery is possible without causing damage.
  • * Intra-aortic balloon pump : A balloon placed in the thoracic aorta to supplement cardiac output from the heart. It pulsates opposite to the heart such that it inflates during diastole and relaxes during systole. Deflation during systole decreases afterload, thus decreasing myocardial oxygen demand, and inflates during diastole to increase diastolic pressure which increases coronary artery perfusion of the endocardium.
  • * Ventricular assist device - Internal pump to supplement or replace the pumping action of a ventricle. Can be referred to RVAD or LVAD depending on if it's attached to the right or left ventricle.

Diagnostic tests and procedures

Various cardiology diagnostic tests and procedures.

Drugs

There are several classes of pharmaceutical drugs used in cardiology to manage various diseases and many of them have cardiovascular side effects.

Drugs for the cardiovascular system

Drugs that manipulate the cardiovascular system do so through several ways.
The first is ion channels, which are often manipulated to manage arrhythmias.
The second is receptors of various types.
The third is manipulation of enzymes.

Ion channels

Ion channels are responsible for cell membrane voltage, depolarization, and repolarization.
These actions lead to conduction of signals down nerves and contraction of cardiomyocytes.
Perhaps the most prominent manipulation of ion channels is through antiarrhythmic agents.
These agents are commonly classified by the type of ion they manipulate and named the Vaughan Williams classification:
Specifically, types I, III, & IV manipulate ion channels while the others are not.

Receptors

The adrenergic receptor is a set of receptors that are commonly manipulated.
Four properties of the heart — chronotropy, dromotropy, inotropy, & lusitropy — are manipulated by adrenergic receptors.
For example, the β1 receptor increases all four of these properties: chronotropy at the SA node, dromotropy through the AV node, inotropy of the cardiomyocytes through increased calcium, and lusitropy through phosphorylation of phospholamban. Catecholamines are a set of drugs and hormones that manipulate the adrenergic receptors. The natural catecholamines are norepinephrine, epinephrine, and dopamine. There are numerous other drugs that manipulate the adrenergic receptors and have variable specificity for the receptors and are, thus, used for various reasons.
Angiotensin II receptor antagonists block the angiotensin II receptors that are linked to hypertension and heart failure, mainly through vasodilation & heart remodeling inhibition.

Enzymes

ACE inhibitors works upstream from angiotensin II receptor antagonists and have similar effects on management of hypertension and heart failure.
Sodium nitroprusside and nitroglycerin function by causing vasodilation through nitric oxide, which manipulates cGMP levels through guanylate cyclase.
COX inhibitors, warfarin, direct Xa inhibitors, direct thrombin inhibitors, heparin, low-molecular weight heparins, antibodies, and a few others are used for anticoagulation therapy.
This is important in those predisposed to blood clots but also for thrombus formation when an atherosclerotic plaque rupture that would, otherwise, lead to myocardial infarction.

Drugs with cardiovascular side effects

Numerous drug classes have well-known cardiovascular side effects.
  • Anesthetics - As a general rule, all agents used in anesthesia have depressant effects on the cardiovascular system with the notable exception of ketamine.
  • Chemotherapy - Doxorubicin is one agent known to have heart toxicity. Another is trastuzumab. Immune checkpoint inhibitors can also lead to cardiotoxicity.
  • Diuretics - The primary effect of diuretics is removal of intravascular volume, which then has secondary benefits to the cardiovascular system in diseases like heart failure.
  • Lithium - Teratogenic effect of causing Ebstein's anomaly in mothers taking lithium.
  • Opioids - Decreases blood pressure.
  • Selective serotonin reuptake inhibitors - Toxicity causes arrhythmias including sinus tachycardia, junctional rhythms, and trigeminy. SSRI's also have interactions with anti-coagulation therapy and increases the risk of bleeding while on them.
  • Serotonin–norepinephrine reuptake inhibitors - Due to manipulation of norepinephrine, SNRI's can cause hypertension and so hypertension should be reduced before starting an SNRI.
  • Tricyclic antidepressants - TCAs behave like type Ia antiarrhythmics and could terminate ventricular fibrillation and decrease contractility. They can also cause tachycardia and hypotension.

Cardiology organizations

Cardiology publications

Acta CardiologicaAmerican Journal of CardiologyAnnals of Cardiac AnaesthesiaCardiologyCardiology in ReviewCirculationCirculation ResearchClinical and Experimental HypertensionClinical CardiologyEP – EuropaceEuropean Heart JournalExperimental & Clinical CardiologyHeartHeart RhythmInternational Journal of CardiologyJournal of the American College of Cardiology

Persons influential in cardiology