Corpus: Myocardium: Unterschied zwischen den Versionen

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Synonym: myocardial tissue

Definition

The myocardium is the layer of cardiac muscle tissue located between the inner lining of the heart (endocardium) and the outer lining (epicardium). It includes structures within the heart chambers, such as the papillary muscles and trabeculae carneae.

Classification

...by function

Working myocardium: muscle cells that generate force to pump blood
Excitatory and conductive muscle cells: muscle cells involved in the conduction system of the heart

...by localization

Atrial myocardium: muscle tissue of the atria
Ventricular myocardium: muscle tissue of the ventricles

Anatomy

Myocardial cells connect to form myocardial fibers, which are grouped into visible bundles by connective tissue (endomysium). These fibers run in circular, oblique, and longitudinal orientations, enabling both concentric contraction of the ventricles and longitudinal shortening between the heart's valve plane and apex.

Atria

The atrial muscle fibers form two layers:

Outer layer: runs horizontally across the front and connects the two atria (horizontal interatrial fascicle). In the back, some fibers cross the interatrial sulcus, linking the right and left atria (transverse fascicles).
Inner layer: consists of horseshoe-shaped muscle tracts (vertical fascicles) that remain within each atrium, especially visible as the pectinate muscles and crista terminalis inside the right atrium.

Ventricles

Ventricular fibers are arranged in a spiral pattern, forming two layers in the right ventricle and three layers in the left ventricle.

Subepicardial layer

In the right ventricle, circular fibers extend through the anterior interventricular sulcus into the left ventricle. The fibers run longitudinally on the diaphragmatic surface and descend obliquely on the lateral and anterior wall. At the apex of the heart, the subepicardial layer forms a twisting pattern known as the vortex cordis. Near the conus arteriosus, fibers attach to the conus tendon.

Middle layer

The middle layer is only present in the left ventricle and the interventricular septum, where fibers run in a circular direction.

Subendocardial layer

The subendocardial layer is the innermost muscle layer in both ventricles, with fibers running predominantly in a longitudinal orientation. This layer is especially thick around the papillary muscles and also covers both sides of the interventricular septum.

Histology

The myocardium is striated, resembling skeletal muscle but functionally intermediate between skeletal and smooth muscle. It consists of individual cardiac muscle cells, or cardiomyocytes, that may have one or two nuclei, located centrally within each cell.

Cardiomyocytes have a branched shape, creating a woven cell network. They are connected by intercalated discs, which contain gap junctions to propagate electrical signals, as well as desmosomes and adherens junctions to stabilize and transmit force across the network.

Similar to skeletal muscle, the myocardium has a structured arrangement of striated fibers. It also has a system for rapid calcium influx through terminal cisterns of the sarcoplasmic reticulum and T-tubules in the cell membrane. Unlike skeletal muscle, which has triads, the myocardium has dyads, each composed of a terminal cisterna and a T-tubule.

Specialized cardiac muscle cells in the sinoatrial node, atrioventricular node, and ventricular conduction system generate and conduct electrical impulses. Thosepacemaker cells have a loose myofibrillar structure and lack T-tubules. Purkinje fibers are large cardiac cells with abundant glycogen and few myofibrils.

Some atrial cardiomyocytes produce and store secretory granules containing atrial natriuretic peptide (ANP), a hormone released when the atrial walls are stretched.

Regeneration

Myocardium that has been destroyed (e.g. as a result of a heart attack) is not replaced by functionally equivalent tissue, but by connective tissue (myocardial remodeling).

According to current knowledge, however, the myocardium is also capable of renewing itself to a limited extent. This has been demonstrated by ¹⁴C analyses of cardiomyocyte DNA. According to this, around 1% of heart muscle cells are replaced per year in a 25-year-old. This rate drops to 0.45% in 75-year-olds. During a lifetime, however, less than 50% of cardiomyocytes are replaced.

Damaged myocardium, such as that from a heart attack, is not replaced by functional muscle tissue but by connective tissue (myocardial remodeling).

Current research suggests the myocardium has a limited capacity for renewal. Radiocarbon analyses of cardiomyocyte DNA indicate that about 1 % of heart muscle cells are replaced per year in a 25-year-old, declining to 0.45 % by the age of 75. However, less than 50 % of cardiomyocytes are replaced over a lifetime.^[1]

Source

↑ Bergmann et al., Evidence for Cardiomyocyte Renewal in Humans, Science, 2009

[1] Bergmann et al., Evidence for Cardiomyocyte Renewal in Humans, Science, 2009

[1]

@@ Zeile 4: / Zeile 4: @@
 ==Definition==
-The '''myocardium''' is the layer of cardiac muscle tissue located between the endocardium (the inner lining of the heart) and the epicardium (the outer lining of the heart). It also includes the papillary muscles and trabeculae carneae located in the cardiac lumen.
+The '''myocardium''' is the layer of cardiac muscle tissue located between the inner lining of the heart (endocardium) and the outer lining (epicardium). It includes structures within the [[Corpus:Heart chamber|heart chambers]], such as the [[Corpus:Papillary muscle|papillary muscles]] and [[Corpus:Trabeculae carneae|trabeculae carneae]].
 ==Classification==
-===...according to function===
+===...by function===
-The myocardium is divided into:
-* working muscles (working myocardium)
-* Muscle cells that belong to the excitation generation and conduction system
-===...according to localization===
+* Working myocardium: muscle cells that generate force to pump blood
-* Atrial myocardium: Musculature of the atria
+* Excitatory and conductive muscle cells: muscle cells involved in the [[Corpus:Conduction system of the heart|conduction system of the heart]]
-* Ventricular myocardium or ventricular myocardium: musculature of the ventricles
+===...by localization===
+* Atrial myocardium: muscle tissue of the [[Corpus:Atrium|atria]]
+* Ventricular myocardium: muscle tissue of the [[Corpus:Ventricle|ventricles]]
 ==Anatomy==
-The myocardial cells are connected to each other to form myocardial fibers, which are combined into visible bundles by endomysial bundles. These bundles run circularly, obliquely and longitudinally, so that a concentric contraction of the ventricles and a longitudinal shortening between the valve level and the apex of the heart is possible.
+Myocardial cells connect to form myocardial fibers, which are grouped into visible bundles by connective tissue (endomysium). These fibers run in circular, oblique, and longitudinal orientations, enabling both concentric contraction of the ventricles and longitudinal shortening between the heart's valve plane and [[Corpus:Cardiac apex|apex]].
 ===Atria===
-The muscle fibers of the atria form two layers:
+The atrial muscle fibers form two layers:
-* Outer layer: runs horizontally on the front and connects both atria to each other (fasciculus interauricularis horizontalis), on the back some fibres cross the sulcus interatrialis and thus also connect the right atrium to the left atrium (fasciculi transversi)
-* Inner layer: horseshoe-shaped muscle tracts (fasciculi verticales) remain limited to the respective atria, clearly visible on the inside of the right atrium (musculi pectinati, crista terminalis)
+* Outer layer: runs horizontally across the front and connects the two atria (horizontal interatrial fascicle). In the back, some fibers cross the interatrial sulcus, linking the [[Corpus:Right atrium|right]] and [[Corpus:Left atrium|left atria]] (transverse fascicles).
+* Inner layer: consists of horseshoe-shaped muscle tracts (vertical fascicles) that remain within each atrium, especially visible as the [[Corpus:Pectinate muscle|pectinate muscles]] and [[Corpus:Crista terminalis|crista terminalis]] inside the right atrium.
 ===Ventricles===
-The fibers of the ventricles run in a helical pattern and form two layers in the right ventricle and three layers in the left ventricle.
+Ventricular fibers are arranged in a spiral pattern, forming two layers in the [[Corpus:Right ventricle|right ventricle]] and three layers in the [[Corpus:Left ventricle|left ventricle]].
 ====Subepicardial layer====
-Circularly arranged fibers of the right ventricle continue via the anterior interventricular sulcus to the left ventricle. The muscle bundles run almost longitudinally on the diaphragmatic facies and descend obliquely on the lateral and anterior wall. At the apex of the heart, the subepicardial layer forms a vortex (vortex cordis). In the area of the conus arteriosus, the fibers are attached to the conus tendon.
+In the right ventricle, circular fibers extend through the anterior interventricular sulcus into the left ventricle. The fibers run longitudinally on the diaphragmatic surface and descend obliquely on the lateral and anterior wall. At the apex of the heart, the subepicardial layer forms a twisting pattern known as the vortex cordis. Near the conus arteriosus, fibers attach to the conus tendon.
-====Mittelschicht====
-The middle layer exists only in the left ventricle and in the interventricular septum. The fibers run circularly.
+====Middle layer====
+The middle layer is only present in the left ventricle and the interventricular septum, where fibers run in a circular direction.
 ====Subendocardial layer====
-The fibres of the subendocardial layer form the innermost muscle layer of both ventricles. They run predominantly longitudinally. This layer is most strongly developed in the area of the papillary muscles. They also cover the interventricular septum on both sides.
+The subendocardial layer is the innermost muscle layer in both ventricles, with fibers running predominantly in a longitudinal orientation. This layer is especially thick around the papillary muscles and also covers both sides of the interventricular septum.
 ==Histology==
-Like the skeletal musculature, the myocardium is striated. Morphologically, it occupies an intermediate position between the smooth musculature and the skeletal musculature. The tissue consists of individual mononuclear or binuclear cells, the cardiomyocytes, which form a functional syncytium. In contrast to the peripherally located nuclei of the skeletal muscles, however, the cell nucleus is located centrally.
+The myocardium is striated, resembling [[Corpus:Skeletal muscle|skeletal muscle]] but functionally intermediate between skeletal and [[Corpus:Smooth muscle|smooth muscle]]. It consists of individual cardiac muscle cells, or cardiomyocytes, that may have one or two nuclei, located centrally within each cell.
-The cell body of the cardiac muscle cells is branched and the cell network is arranged in a braided pattern. The cells are connected to each other by so-called intercalary discs. Through the gap junctions they contain, they ensure the propagation of excitation between the cardiac muscle cells. They also contain desmosomes and fasciae adhaerentes to stabilise the cell network and transmit force.
+Cardiomyocytes have a branched shape, creating a woven cell network. They are connected by intercalated discs, which contain gap junctions to propagate electrical signals, as well as desmosomes and adherens junctions to stabilize and transmit force across the network.
-Like the skeletal musculature, the myocardium has a regular structure of special striated muscle fibres. It also has a system for rapid calcium influx in the form of terminal cisterns of the sarcoplasmic reticulum and T-tubules of the cell membrane. In contrast to the triads of the skeletal musculature, the myocardium contains units consisting of a terminal cisterna and a T-tubule, so-called diads.
+Similar to skeletal muscle, the myocardium has a structured arrangement of striated fibers. It also has a system for rapid calcium influx through terminal cisterns of the sarcoplasmic reticulum and T-tubules in the cell membrane. Unlike skeletal muscle, which has triads, the myocardium has dyads, each composed of a terminal cisterna and a T-tubule.
-<dcembed><dcembedurleasyzoom src="https://easyzoom.com/imageaccess/2dab870430a442dabef8cd831cc7ca18"></dcembedurleasyzoom></dcembed>
+Specialized cardiac muscle cells in the [[Corpus:Sinus node|sinoatrial node]], [[Corpus:Atrioventricular node|atrioventricular node]], and ventricular conduction system generate and conduct electrical impulses. Thosepacemaker cells have a loose myofibrillar structure and lack T-tubules. Purkinje fibers are large cardiac cells with abundant glycogen and few myofibrils.
-Specialized cardiac muscle cells exist in the sinus node, AV node and in the conduction bundle of the ventricles. The pacemaker cells have only a loose myofibrillar system and no T-tubules. The Purkinje fibers are significantly larger cardiac muscle cells with a lot of glycogen and few myofibrils.
+Some atrial cardiomyocytes produce and store secretory granules containing atrial natriuretic peptide (ANP), a hormone released when the atrial walls are stretched.
-Some cardiomyocytes of the atrium synthesize and store secretory granules. These contain the hormone ANP (atrial natriuretic peptide), which is secreted when the atrial muscles are stretched.
 ==Regeneration==
 Myocardium that has been destroyed (e.g. as a result of a heart attack) is not replaced by functionally equivalent tissue, but by connective tissue (myocardial remodeling).
-According to current knowledge, however, the myocardium is also capable of renewing itself to a limited extent. This has been demonstrated by <sup>14</sup>C analyses of cardiomyocyte DNA. According to this, around 1% of heart muscle cells are replaced per year in a 25-year-old. This rate drops to 0.45% in 75-year-olds. During a lifetime, however, less than 50% of cardiomyocytes are replaced.<ref> Bergmann O et al. Evidence for Cardiomyocyte Renewal in Humans, Science 03 Apr 2009:Vol. 324, Issue 5923, pp. 98-102, retrieved 17 Sep 2019</ref>
+According to current knowledge, however, the myocardium is also capable of renewing itself to a limited extent. This has been demonstrated by <sup>14</sup>C analyses of cardiomyocyte DNA. According to this, around 1% of heart muscle cells are replaced per year in a 25-year-old. This rate drops to 0.45% in 75-year-olds. During a lifetime, however, less than 50% of cardiomyocytes are replaced.
+Damaged myocardium, such as that from a heart attack, is not replaced by functional muscle tissue but by connective tissue (myocardial remodeling).
+Current research suggests the myocardium has a limited capacity for renewal. Radiocarbon analyses of cardiomyocyte DNA indicate that about 1 % of heart muscle cells are replaced per year in a 25-year-old, declining to 0.45 % by the age of 75. However, less than 50 % of cardiomyocytes are replaced over a lifetime.<ref> Bergmann et al., [https://pubmed.ncbi.nlm.nih.gov/19342590/ Evidence for Cardiomyocyte Renewal in Humans], Science, 2009</ref>
 ==Source==
 <references/>
@@ Zeile 54: / Zeile 63: @@
 [[Kategorie:Corpus]]
+[[Kategorie:Muscle]]
+[[Kategorie:Heart]]