Download presentation
1
MEDIASTINUM G.LUFUKUJA
2
The mediastinum The mediastinum is the central compartment of the thoracic cavity that contains a group of structures within the thorax. The mediastinum contains the heart and its vessels, the esophagus, trachea, phrenic and cardiac nerves, the thoracic duct, thymus and lymph nodes of the central chest G.LUFUKUJA
3
G.LUFUKUJA
4
MEDIASTINUM: The superior mediastinum
The mediastinum is artificially divided into superior and inferior parts for purposes of description. The superior mediastinum extends inferiorly from the superior thoracic aperture to the horizontal plane that includes the sternal angle anteriorly and passes approximately through the junction (IV disc) of the T4 and T5 vertebrae posteriorly, often referred to as the transverse thoracic plane G.LUFUKUJA
5
Contents of the superior mediastinum
It contains the lower ends of sternohyoid, sternothyroid on each side; the aortic arch; the brachiocephalic artery and the thoracic portions of the left common carotid and left subclavian arteries; the brachiocephalic veins and the upper half of the superior vena cava; the vagus, cardiac, phrenic and left recurrent laryngeal nerves; the trachea, oesophagus, and thoracic duct; the remains of the thymus, and lymph nodes. G.LUFUKUJA
6
The inferior mediastinum
The inferior mediastinum is further subdivided by the pericardium into anterior, middle, and posterior parts. The pericardium and its contents (the heart and roots of its great vessels) constitute the middle mediastinum. Some structures, such as the esophagus, pass vertically through the mediastinum and therefore lie in more than one mediastinal compartment. G.LUFUKUJA
7
Contents of the anterior mediastinum:
Sternopericardial ligaments Retro-sternal lymph nodes Branches of Internal thoracic artery G.LUFUKUJA
8
MIDDLE MEDIASTINUM: The middle mediastinum contains the heart enclosed in the fibrous pericardium, the ascending aorta, the lower half of the superior vena cava with the azygos vein opening into it, the bifurcation of the trachea and the right and left principal bronchi, the pulmonary artery dividing into its two branches, the right and left pulmonary veins and phrenic nerves, and some bronchial lymph nodes. G.LUFUKUJA
9
Pericardium… Nerve Supply
The fibrous pericardium and the parietal layer of the serous pericardium are supplied by the phrenic nerves. The visceral layer of the serous pericardium is innervated by branches of the sympathetic trunks and the vagus nerves G.LUFUKUJA
10
Applied Anatomy Pericarditis
Pericarditis is swelling and irritation of the pericardium, the thin sac-like membrane surrounding your heart. Pericarditis often causes chest pain and sometimes other symptoms. The sharp chest pain associated with pericarditis occurs when the irritated layers of the pericardium rub against each other. In pericarditis pericardial fluid may also accumulate excessively, which can compress the thin-walled atria and interfere with the filling of the heart during diastole. This compression of the heart is called cardiac tamponade. Cardiac tamponade (heart compression) is a potentially lethal condition because the fibrous pericardium is tough and inelastic G.LUFUKUJA
11
POSTERIOR MEDIASTINUM:
It contains the descending thoracic aorta and the azygos, hemiazygos and accessory azygos veins; the right and left sympathetic chains, the splanchnic nerves and the right and left vagus nerves; the oesophagus; the thoracic duct and posterior mediastinal lymph nodes. G.LUFUKUJA
12
HEART & GREAT VESSELS G.LUFUKUJA
13
G.LUFUKUJA
14
EXTERNAL FEATURES Atrioventricular groove (coronary sulcus)
Interventricular groove Auricles – extensions of each atria G.LUFUKUJA
15
Borders: Superior, Inferior, Right , Left
SURFACES AND BORDERS: Surfaces: Anterior (Sternocostal) & Inferior (diaphragmatic) Borders: Superior, Inferior, Right , Left APEX: Formed by the left ventricle, Located in the left 5th intercostal space Just medial to the midclavicular line G.LUFUKUJA
16
BASE: Formed by the left atrium and a small part of the right atrium; Openings of four pulmonary veins & Openings of superior and inferior vena cavae G.LUFUKUJA
17
G.LUFUKUJA
18
G.LUFUKUJA
19
ARTERIAL SUPPLY TO THE HEART
Right and Left coronary arteries G.LUFUKUJA
20
RCO LCO TCAO RAV LAV G.LUFUKUJA
21
AA LCA G.LUFUKUJA
22
VENOUS DRAINAGE OF THE HEART
G.LUFUKUJA
23
G.LUFUKUJA
24
Applied Anatomy Angina pectoris – commonly known as angina – is chest pain due to ischemia of the heart muscle, generally due to obstruction or spasm of the coronary arteries. The main cause of Angina pectoris is coronary artery disease, due to atherosclerosis of the arteries feeding the heart G.LUFUKUJA
25
RIGHT ATRIUM Receives venous blood from the whole body & Sends it to the right ventricle through the tricuspid orifice G.LUFUKUJA
26
Sinus venarum RIGHT ATRIUM – INTERNAL FEATURES
Divided into three parts Smooth posterior wall – sinus venarum Rough anterior wall – pectinate part Septal wall Musculi pectinati Crista terminalis Fossa ovalis Sinus venarum Superior vena cava Inferior vena cava Coronary sinus Thebasian valve Eustachian valve G.LUFUKUJA
27
Receives blood from the right atrium & Pumps it through the pulmonary trunk to the lungs
RIGHT VENTRICLE Chordae tendinae – Strings that attach the tips of the papillae to the free edges of the cusps Have trabeculae carneae G.LUFUKUJA
28
LEFT ATRIUM Receives the four pulmonary veins
Most of the interior is smooth Musculi pectinati are present only in the left auricle Fossa lunata – corresponds to the fossa ovalis G.LUFUKUJA
29
LEFT VENTRICLE Interior has a rough inflow part and a smooth outflow part Inflow part has trabeculae carneae G.LUFUKUJA
30
G.LUFUKUJA
31
G.LUFUKUJA
32
Lymphatic drainage Subendocardial plexus myocardial plexus subpericardial plexus bronchomediastinal trunks G.LUFUKUJA
33
Nerve supply of heart Nerve of the heart are derived from cardiac plexus, which is formed by the sympathetic and parasympathetic (vagal) fibres. cardiac plexus G.LUFUKUJA G.LUFUKUJA 33
34
Effect of sympathetic and parasympathetic fibres
Sympathetic fibres supply the atria,ventricles and conducting system of heart. -sympathetic stimulation lead to (a) increase in heart rate. (b) increase in cardiac output. (c) vasodilation of coronary artery. 2) Parasympathetic will do the reverse G.LUFUKUJA
35
Conducting system of the heart
1) Sinuatrial node ( SA node) 2) Atrioventricular Bundle(AV Bundle of HIS) 3) Right and left branches G.LUFUKUJA
36
G.LUFUKUJA
37
G.LUFUKUJA
38
G.LUFUKUJA
39
G.LUFUKUJA
40
Applied anatomy- arrhythmias
Failure of the Conduction System of the Heart The sinuatrial node is the spontaneous source of the cardiac impulse. The atrioventricular node is responsible for picking up the cardiac impulse from the atria. The atrioventricular bundle is the only route by which the cardiac impulse can spread from the atria to the ventricles. Failure of the bundle to conduct the normal impulses results in alteration in the rhythmic contraction of the ventricles (arrhythmias) or, if complete bundle block occurs, complete dissociation between the atria and ventricular rates of contraction. The common cause of defective conduction through the bundle or its branches is atherosclerosis of the coronary arteries, which results in a diminished blood supply to the conducting system. G.LUFUKUJA
41
G.LUFUKUJA
Similar presentations
© 2024 SlidePlayer.com Inc.
All rights reserved.