Heart Anatomy PDF

Summary

This document covers the anatomy and histology of the heart, including the different types of cardiomyocytes and their roles in the conduction system, as well as the structure and function of the cardiac muscle fibers.

Full Transcript

 Cardiovascular system
1- Components of cardiovascular system.
2- Structure of the heart.
3- Differences between cardiac muscles& skeletal
muscles.
4- Growth & regeneration of the cardiac muscles.
 Circulatory system
It consists of:
1- Vascular system: heart, arteries,
capillaries & veins.
2- Lymphatic system.
 Heart
The wall of the heart consists of three
layers:
1- Endocardium: inner layer.
2- Myocardium: middle muscular layer.
3- Epicardium: outer layer.
 Heart
1- Endocardium: consists of:
 Endothelium: simple squamous epithelium.
 Subendothelial connective tissue: which is continuous with that of the
blood vessels entering and exiting from the heart.
 The subendocardium: a layer of connective tissue where branches of
the conducting system are located.
2- Myocardium:
 It is the thickest coat.
 It is composed of cardiac muscle fibers bound together by connective
tissue.
3- Epicardium:
 It is the visceral layer of the pericardium.
 It consists of a simple squamous mesothelium, supported by loose
connective tissue containing the coronary vessels, nerves, and adipose
tissue.
 Cardiac muscle
It is striated & involuntary.
Its contraction is initiated by the
spontaneous depolarization of
pacemaker cells.
 Structure of cardiac muscle
LM
1- Connective tissue
It consists of:
1- Perimysium: highly vascularized,formed
of collagen and elastic fibers, which are
present between the bundles of cardiac
muscle fibers.
2- Endomysium: a network of reticular
fibers surrounds each muscle fiber.
 Structure of cardiac muscle
LM
2- Cardiac muscle fibers
1- They are long cylindrical fibers which
branch and anastomose leaving slit-like
spaces between them. Thus, in the same
section, different cuts in cardiac muscle
fibers could be seen (longitudinal,
transverse&oblique).
2- The fibers show fainter striations than
those seen in skeletal muscle fibers.
3- Each cardiac muscle fiber consists of
short columnar cells called cardiomyocytes
joined by the intercalated discs that run
transversely across the fiber.
4- Each cardiomyocyte has a single, central
& oval nucleus.
 Structure of cardiac muscle
EM
1- Myofibrils
1- The myofibrils branch and anastomose
thus they are not perfectly in register with
one another.
2- The pattern of cross striations are identical
to that of skeletal muscle.
3- The myofibrils diverge around the nucleus
leaving the sarcoplasm at the nuclear poles
containing various organelles & inclusions
(numerous mitochondria, glycogen granules
and lipofuscin pigments).
Why do the cardiac muscle fibers show fainter striations?
 Structure of cardiac muscle
EM
2- T tubules
Definition: inward extensions of the
extracellular space at the sarcolemma.
Characteristic features: large & numerous.
Site: at the Z line.
Function:
Excitation-contraction coupling.
Provide additional surface area for
exchange of metabolites between cardiac
muscle fibers and the extracellular space.
 Structure of cardiac muscle
EM
3- Sarcoplasmic reticulum
It is less organized than the skeletal muscle.
It consists of narrow anastomosing
sarcotubules without the continuous
terminal cisternae that encircle the whole
myofibrils, instead, scattered small
expansions of sarcotubules are in close
apposition with the T tubules forming
diads.
 Structure of cardiac muscle
EM
4- Intercalated discs
Definition: specialized junctions of cell membranes of adjacent
cardiomyocytes.
Site: extend across the fiber at the level of the Z lines.
Shape: stepwise.
Structure:
1- Transverse portion:
 Site: runs across the fibers perpendicular to the myofilaments at the level of
the Z line.
 Structure: It is formed of fascia (zonula adherens)and macula adherens (
desmosomes attached to desmin)
 Function: provide strong adhesion between the adjacent cardiomyocytes.
2- Longitudinal portion:
 Site: runs parallel to the myofilaments
 Structure: many gap junctions.
 Function: allow rapid spread of excitation between the adjacent
cardiomyocytes.
Intercalated discs Transverse portion Longitudinal portion

Site Perpendicular to myofilaments, at the Parallel to myofilaments.
level of Z line.

Stress of contraction ↑↑ ↓

Structure 1- fascia adherence Gap junctions
2- macula adherence

Function Strong adhesion between the cells during Rapid spread of excitation from one cell
contraction to the other
 Types of cardiomyocytes
1- Contractile cardiomyocytes
Definition: They are the ordinary
cardiomyocytes that form the
majority of the myocardium of the
atria and ventricles.
Function: contraction.
 Types of cardiomyocytes
2- Endocrine cardiomyocytes
Definition: They are cardiomyocytes which
have an endocrine function.
Site: in the atria, especially the right atrium.
Structure: They differ from contractile
cardiomyocytes in:
1- They have fewer myofibrils.
2- They have numerous electron dense secretory
granules containing the atrial natriuretic factor
which has a role in control of blood pressure and
electrolyte balance.
 Types of cardiomyocytes
3-Cardiomyocytes of the conduction system
Definition: modified cardiomyocytes that are
specialized in the initiation and propagation of
depolarization through the myocardium faster
than the contractile cardiac muscle fibers.
Types:
a) Nodal cells:
Site: in the sinoatrial node, the atrio-ventricular
node and the trunk of the bundle of His.
Structure:
1-They are smaller than the surrounding atrial
muscle fibers.
2- Contain fewer myofibrils.
3- Lack typical intercalated discs.
 Types of cardiomyocytes
3-Cardiomyocytes of the conduction system
Definition: modified cardiomyocytes that
are specialized in the initiation and
propagation of depolarization through the
myocardium faster than the contractile
cardiac muscle fibers.
Types:
a) Nodal cells:
Site: in the sinoatrial node, the atrio-
ventricular node and the trunk of the
bundle of His.
 Types of cardiomyocytes
3-Cardiomyocytes of the conduction system
b) Purkinje fibers:
Site: in the myocardium of the ventricles.
Structure:
1- They are present in groups of two or more.
2- They are often binucleated.
3- They are larger than the ventricular muscle fibers
4- They contain fewer myofibrils which are located
peripherally.
5- Their cytoplasm is rich in mitochondria and glycogen,
so they are pale in H&E sections.
6- They do not contain typical intercalated discs,
although, they contain many gap junctions more than in
contractile cardiomyocytes.
Because of the large amounts of stored glycogen,
Purkinje fibers are more resistant to hypoxia than contractile cardiac muscle fibers.
Cardiomyocytes of the conduction Nodal cells Purkinje fibers
system
Sites SAN, AVN& trunk of bundle of His. Myocardium of ventricles.

Function Generation& conduction of excitation. Transmission of impulses 4.5 times faster
than the contractile cardiomyoctes.

Structure Smaller than contractile atrial myocytes. Larger, in groups, binucleated.
Few myofibrils. Few myofibrils.
lack typical intercalated discs. lack typical intercalated discs.
↑glycogen,mitochondria.
↑gap junctions.
Cardiomyocytes Contractile Purkinje fibers Endocrine

Sites The wall of the atria & ventricles. Myocardium of ventricles. In the atria, especially the
right atrium.

Function Contraction. Transmission of impulses 4.5 times Secretes the atrial natriuretic
faster than the contractile factor which has a role in
cardiomyoctes. control of blood pressure and
electrolyte balance.

Structure 1- Smaller than Purkinje fibers. 1- Larger, present in groups.
2- Each cell contains a single nucleus. 2- The cells are often binucleated.
3- The myofibrils fill the cytoplasm. 3- Fewer peripheral myofibrils. 1- Fewer myofibrils.
4- They have less glycogen than 4- They have more glycogen, so they 2- They have numerous
Purkinje fibers, so they are less are more resistant to hypoxia. electron dense secretory
resistant to hypoxia. granules.
5-Typical intercalated discs joined the 5- They lack typical intercalated discs
adjacent cardiomyocytes. but contains many gap junctions.
 Growth & regeneration of the cardiac muscle
fibers
The cardiac muscle fibers have no ability
for regeneration, because:
1-They are static cell population
(can not divide by mitosis).
2- Satellite cells are absent.
The injured cardiac fibers are replaced by
fibrous tissue.
The heart muscle responds to increased
functional demands by compensatory
hypertrophy.
What is the best statement describing the
pointed structure?
1- It is present at the A-I junction.
2- It bisects the A band.
3- It connects the adjacent cardiac muscle
cells.
4- It contains keratin intermediate
filaments.
What is the best statement describing the
pointed structure?
1- It is present at the A-I junction.
2- It bisects the A band.
3- It connects the adjacent cardiac muscle
cells.
4- It contains keratin intermediate
filaments.