Cardiac muscle histology

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Cardiac muscle histology

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ETP CVS

Introduction to the cardiovascular system
Anatomy of the heart
Anatomy of the coronary circulation
Anatomy clinical correlates: Heart
Anatomy of the superior mediastinum
Anatomy of the inferior mediastinum
Anatomy clinical correlates: Mediastinum
Development of the cardiovascular system
Fetal circulation
Cardiac muscle histology
Artery and vein histology
Arteriole, venule and capillary histology
Cardiovascular system anatomy and physiology
Lymphatic system anatomy and physiology
Coronary circulation
Blood pressure, blood flow, and resistance
Pressures in the cardiovascular system
Laminar flow and Reynolds number
Resistance to blood flow
Compliance of blood vessels
Control of blood flow circulation
Microcirculation and Starling forces
Measuring cardiac output (Fick principle)
Stroke volume, ejection fraction, and cardiac output
Cardiac contractility
Frank-Starling relationship
Cardiac preload
Cardiac afterload
Law of Laplace
Cardiac and vascular function curves
Altering cardiac and vascular function curves
Cardiac cycle
Cardiac work
Pressure-volume loops
Changes in pressure-volume loops
Physiological changes during exercise
Cardiovascular changes during hemorrhage
Cardiovascular changes during postural change
Normal heart sounds
Abnormal heart sounds
Action potentials in myocytes
Action potentials in pacemaker cells
Excitability and refractory periods
Cardiac excitation-contraction coupling
Cardiac conduction system
Cardiac conduction velocity
ECG basics
ECG rate and rhythm
ECG intervals
ECG QRS transition
ECG axis
ECG normal sinus rhythm
ECG cardiac infarction and ischemia
ECG cardiac hypertrophy and enlargement
Baroreceptors
Chemoreceptors
Renin-angiotensin-aldosterone system
Arterial disease
Angina pectoris
Stable angina
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Myocardial infarction
Prinzmetal angina
Coronary steal syndrome
Peripheral artery disease
Subclavian steal syndrome
Aneurysms
Aortic dissection
Vasculitis
Hypertension
Hypertensive emergency
Conn syndrome
Hypotension
Orthostatic hypotension
Abetalipoproteinemia
Familial hypercholesterolemia
Hypertriglyceridemia
Hyperlipidemia
Chronic venous insufficiency
Thrombophlebitis
Deep vein thrombosis
Lymphedema
Lymphangioma
Shock
Vascular tumors
Human herpesvirus 8 (Kaposi sarcoma)
Angiosarcomas
Persistent truncus arteriosus
Transposition of the great vessels
Total anomalous pulmonary venous return
Hypoplastic left heart syndrome
Atrial septal defect
Coarctation of the aorta
Patent ductus arteriosus
Tetralogy of Fallot
Ventricular septal defect
Atrial flutter
Atrial fibrillation
Premature atrial contraction
Atrioventricular nodal reentrant tachycardia (AVNRT)
Wolff-Parkinson-White syndrome
Ventricular tachycardia
Brugada syndrome
Premature ventricular contraction
Long QT syndrome and Torsade de pointes
Ventricular fibrillation
Atrioventricular block
Bundle branch block
Pulseless electrical activity
Tricuspid valve disease
Pulmonary valve disease
Mitral valve disease
Aortic valve disease
Dilated cardiomyopathy
Restrictive cardiomyopathy
Hypertrophic cardiomyopathy
Heart failure
Cor pulmonale
Endocarditis
Myocarditis
Rheumatic heart disease
Pericarditis and pericardial effusion
Cardiac tamponade
Dressler syndrome
Cardiac tumors
Acyanotic congenital heart defects: Pathology review
Cyanotic congenital heart defects: Pathology review
Atherosclerosis and arteriosclerosis: Pathology review
Coronary artery disease: Pathology review
Peripheral artery disease: Pathology review
Valvular heart disease: Pathology review
Cardiomyopathies: Pathology review
Heart failure: Pathology review
Supraventricular arrhythmias: Pathology review
Ventricular arrhythmias: Pathology review
Heart blocks: Pathology review
Aortic dissections and aneurysms: Pathology review
Pericardial disease: Pathology review
Endocarditis: Pathology review
Hypertension: Pathology review
Shock: Pathology review
Vasculitis: Pathology review
Cardiac and vascular tumors: Pathology review
Dyslipidemias: Pathology review
Sympatholytics: Alpha-2 agonists
Adrenergic antagonists: Presynaptic
Adrenergic antagonists: Alpha blockers
Adrenergic antagonists: Beta blockers
ACE inhibitors, ARBs and direct renin inhibitors
Thiazide and thiazide-like diuretics
Calcium channel blockers
cGMP mediated smooth muscle vasodilators
Class I antiarrhythmics: Sodium channel blockers
Class II antiarrhythmics: Beta blockers
Class III antiarrhythmics: Potassium channel blockers
Class IV antiarrhythmics: Calcium channel blockers and others
Lipid-lowering medications: Statins
Lipid-lowering medications: Fibrates
Miscellaneous lipid-lowering medications
Positive inotropic medications
Cardiomyopathies: Clinical
Congenital heart defects: Clinical
Valvular heart disease: Clinical
Infective endocarditis: Clinical
Pericardial disease: Clinical
Chest trauma: Clinical
Hypertension: Clinical
Pulmonary hypertension
Aortic aneurysms and dissections: Clinical
Raynaud phenomenon
Peripheral vascular disease: Clinical
Heart failure: Clinical
Coronary artery disease: Clinical
Deep vein thrombosis and pulmonary embolism: Pathology review
Fascia, vessels and nerves of the upper limb
Vessels and nerves of the forearm
Vessels and nerves of the hand
Anatomy of the abdominal viscera: Blood supply of the foregut, midgut and hindgut
Fascia, vessels and nerves of the lower limb
Vessels and nerves of the gluteal region and posterior thigh
Anatomy of the popliteal fossa
Ventilation
Ventilation-perfusion ratios and V/Q mismatch
Gas exchange in the lungs, blood and tissues
Oxygen binding capacity and oxygen content
Oxygen-hemoglobin dissociation curve
Carbon dioxide transport in blood
Trypanosoma cruzi (Chagas disease)
Yellow fever virus
Rickettsia rickettsii (Rocky Mountain spotted fever) and other Rickettsia species
Arteriovenous malformation
Cerebral circulation

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Content Reviewers

Rishi Desai, MD, MPH

There are three types of muscles: cardiac, skeletal, and smooth muscle.

Each type has distinct functions as well as structural characteristics that can be identified histologically.

Cardiac muscle makes up the majority of tissue found in the wall of the heart.

Each mature cardiac muscle cell or cardiomyocyte is relatively short, with a length approximately 85-120 µm long and a diameter approximately 15-30 µm.

Histologically, cardiac muscles have quite a few unique characteristics that make it easier to differentiate them from skeletal muscles.

Unlike skeletal muscle, cardiac muscle fibers are branched cells with only 1-2 centrally located nuclei.

Also unique to cardiac muscles are the intercalated discs, which are the specialized junctions between neighboring cells that allow the cells to have synchronized contractions and pump blood out of the heart efficiently.

Let’s first take a look at a longitudinal section of cardiac muscle cells that was stained with Hematoxylin and Eosin (or H&E for short).

If we compare cardiac muscle cells to skeletal muscle cells, we can see there are some key differences between the two muscle types.

Key Takeaways

The cardiac muscle is a specialized type of involuntary muscle tissue that makes up the bulk of the heart. Cardiac muscle cells, or cardiomyocytes, are elongated and spindle-shaped, with one to two centrally located nuclei. These cell fibers are arranged in a branching network and intercalated discs, which are junctions that allow these muscle cells to contract in synchronization. The cardiac muscle is capable of self-excitation, meaning it can generate electrical impulses that coordinately contract all of the heart muscles to pump blood. The cardiac muscle has many unique properties that allow it to function effectively. For example, cardiomyocytes have a high mitochondria density, providing them adequate energy to contract repeatedly. In addition, cardiac muscle cells have a large number of myofibrils, which are specialized protein filaments that allow for efficient contraction. Finally, the intercalation between cardiac muscle cells allows for rapid and coordinated contractions of the heart.

Sources

  1. "Histology. A Text and Atlas" Wolters Kluwer (2018)
  2. "Wheater's Functional Histology" Churchill Livingstone (2013)
  3. "Junqueira's Basic Histology: Text and Atlas, Fourteenth Edition" McGraw-Hill Education / Medical (2015)
  4. "Robbins Basic Pathology" Elsevier (2017)
  5. "Diagnostic Immunohistochemistry" Elsevier (2021)
  6. "Cytology" Saunders (2013)
  7. "Left ventricular twist mechanics in the context of normal physiology and cardiovascular disease: a review of studies using speckle tracking echocardiography" American Journal of Physiology-Heart and Circulatory Physiology (2016)
  8. "Cardiac T-Tubule Microanatomy and Function" Physiological Reviews (2017)