Middle Mediastinum, Heart

Question 1

What are the boundaries of the middle mediastinum?

Answer 1

Within the inferior mediastinum, it is between the transverse thoracic plane (sternal angle to disc between T4 and T5) and the diaphragm

Question 2

What are the contents of the middle mediastinum?

Answer 2

Pericardium + heart, roots of great vessels (ascending aorta, pulmonary trunk, SVC), arch of azygos vein, main bronchi, and phrenic nerves accompanied by pericardiacophrenic vessels

Question 3

What is the fibrous pericardium? What is it attached to?

Answer 3

The external sac of dense connective tissue which lies deep to mediastinal parietal pleura. It is bound to central tendon of diaphragm and is fused with tunica adventitia of great vessels at level of sternal angle

Question 4

What is the functional significance of the fibrous pericardium?

Answer 4

Protects against abrupt overfilling of the heart, as in pericardial effusion.

Question 5

What is the serous pericardium / what are its two layers?

Answer 5

The internal sac filled with pericardial fluid, it is a single epithelial layer composing two layers - parietal + visceral
Parietal - lines the internal surface of the fibrous pericardium
Visceral - lines external surface of heart - it is the epicardium

Question 6

What is the epicardium?

Answer 6

The visceral layer of serous pericardium which sits ontop of the myocardium

Question 7

What is the pericardial cavity?

Answer 7

A potential space between the parietal and visceral layers of serous pericardium which allows the heart to move freely within the sac

Question 8

What two sinuses does the reflection of serous pericardium onto the great vessels make?

Answer 8

transverse pericardial sinus - runs anterior to superior vena cava and posterior to pulmonary trunk (artery) + aortic arch

oblique pericardial sinus - runs between pulmonary veins and inferior vena cava where you get stuck as a cul-de-sac

Question 9

What is the primary blood supply to the pericardium? Secondary supply?

Answer 9

Pericardiacophrenic - branch of ITA running with phrenic nerve

Smaller contributions from: musculophrenic, as well as bronchial, esophageal, and superior phrenic branches from thoracic aorta

Coronary arteries from aortic arch supply visceral layer of serous pericardium only

Question 10

What is the venous drainage of the pericardium?

Answer 10

Mainly pericardiacophrenic veins

• tributaries of brachiocephalic or internal thoracic
• azygos venous system

Question 11

What is the innervation of the pericardium?

Answer 11

Phrenic nerve - primary source of sensory fibers, can lead to referred paid in supraclavicular region
Vagus nerve - function unknown
Sympathetic trunks - vasomotor

Question 12

What is the clinical importance of the transverse pericardial sinus?

Answer 12

It is the place where a surgical clamp or ligature can be placed around aorta & pulmonary trunk, while tubes of coronary bypass machine are inserted to divert circulation of blood during cardiac surgery

Question 13

What is pericarditis?

Answer 13

Inflammation of pericardium, can cause chest pain and result in pericardial friction rub

Question 14

What is pericardial effusion?

Answer 14

Leaking of fluid from pericardial capillaries into pericardial cavity, building up fluid and leading to cardiac tamponade because the heart cannot expand and ventricles will have limited bloodflow

Question 15

What is cardiac tamponade?

Answer 15

compression of the heart by an accumulation of fluid in the pericardial sac

Question 16

What is cardiomegaly?

Answer 16

Heart slowly increasing in size, allowing for enlargement to occur without compression

Question 17

What is hemopericardium?

Answer 17

Blood enters the pericardial cavity via stab wound or weakened area of heart muscle after heart attack. Compression can lead to cardiac tamponade and also engorged veins in face / neck when the superior vena cava compresses

Question 18

What is pericardiocentesis?

Answer 18

Drainage of serous fluid from pericardial cavity, relieving cardiac tamponade

Question 19

What are the three layers of the heart?

Answer 19

Epicardium - Visceral layer of serous pericardium
Myocardium - Cardiac muscle
Endocardium - Endothelium + subendothelial connective tissue, also covers valves

Question 20

Where does the heart sit anatomically?

Answer 20

Posterior to sternum, costal cartilages, and medial ends of ribs 3-5 on left side. It sits obliquely, with 2/3 to left and 1/3 to right of median plane

Question 21

What is the apex of the heart and where is it?

Answer 21

Left inferolateral part of left ventricle, posterior to left 5th intercostal space. It points at a 45 degree angle to medial plane and more anteriorly than base

Question 22

What is the base of the heart and where is it?

Answer 22

It is the posterior aspect of the heart, mainly composed of left atrium, faces towards vertebral bodies of T6-T9, between the bifurcation of the pulmonary trunk called the coronary groove

Question 23

What are the right, left, inferior, and superior borders of the heart?

Answer 23

Right - right atrium, between SVC and IVC
Left - left ventricle and left auricle
Inferior - right ventricle
Superior - right and left atria + auricles

Question 24

What is the sternocostal surface of the heart?

Answer 24

Anterior surface - Mainly the right ventricle

Question 25

What is the diaphragmatic surface of the heart?

Answer 25

Inferior surface - mainly left ventricle, related to central tendon

Question 26

What is the pulmonary surface of the heart?

Answer 26

Left surface - mainly left ventricle

Question 27

What are the sources of blood to the right atrium? Where do they open to (what level)

Answer 27

SVC - 3rd costal cartilage
IVC - 5th costal cartilage
Coronary sinus - between right AV opening and IVC opening - receives venous drainage from heart vessels
Anterior cardiac veins of right atrium - minor contribution

Question 28

What are the pectinate muscles? What is their division point?

Answer 28

Muscles forming the rough, anterior wall of the right atrium. They extend into the right auricle, a muscular pouch increasing the capacity of the atrium.

Division point: Terminal sulcus, internally existing as the crista terminalis

Question 29

What is the sinus venarum and what does it form?

Answer 29

It the primordial right atrium, forms the smooth, thin-walled posterior part of right atrium, separated from muscular part by terminal sulcus.

Question 30

What structure is in the interatrial septum and what is it a remnant of?

Answer 30

Fossa ovalis - remnant of foramen ovale which opened the right atrium to the left atrium in the fetus

Question 31

What is the conus arteriosus?

Answer 31

The superior taper of the right ventricule into arterial cone which leads to pulmonary trunk via pulmonary semilunar valve

Question 32

What are trabeculae carneae?

Answer 32

Irregular muscular elevations in the left and right ventricles

Question 33

What is the supraventricular crest?

Answer 33

The ridge separating muscular (rough) inflow area from smooth conus arteriosus (outflow)

Question 34

Where is the right AV orifice and how is backflow prevented?

Answer 34

4/5th intercostal level. Backflow is prevented by tricuspid valve. The three cusps are held by tendinous cords attached to papillary muscles, which attach to the ventricular wall and will contract during systole to prevent prolapse of the valve into the right atrium due to high pressures.

Question 35

What are the two parts of the interventricular septum and why?

Answer 35

Membranous - continuous with fibrous skeleton, posterior 1/3 of IV septum
Muscular - Thick portion the will bulge into the right ventricle because of higher blood pressure in the left ventricle. Anterior 2/3 of IV septum

Question 36

What does the septomarginal trabecula form?

Answer 36

The moderator band, it is attached to inferior interventricular septum and the base of the anterior papillary muscle. It acts as a shortcut for the right bundle of the AV bundle, thus playing a role in the conduction system of the heart

Question 37

What are ventricular septal defects? Where do they happen and what do they cause?

Answer 37

Most common site is the membranous part of the IV septum, where it would combine with the muscular part

Represents 25% of all congenital heart disease, and can be of varying size.

Since BP is higher in left ventricle, blood will be shunted back into right ventricle and lead to increased pulmonary BP and ultimately pulmonary disease

Question 38

What is pulmonary stenosis?

Answer 38

Valve cusps of semilunar valve can fuse, leading to a narrowing. This restricts pulmonary outflow

Question 39

What is the blood flow into the left atrium, and how does its auricle compare to the right atrium?

Answer 39

4 pulmonary veins (2 from each side)
The muscular auricle is smaller,

Left atrium has smooth wall and muscular portion similar to the right atrium.

Question 40

Why is the left atrium clinically important?

Answer 40

It is the site of thrombi (immobile blood clots) formation on the wall of the left atrium. They can become emboli (mobile blood clots) which can occlude an artery

Question 41

How does the left ventricle compare to the right ventricle with respect to size, location, and shape?

Answer 41

Left ventricle walls are 2-3x thicker since arterial pressure is higher in systemic vs pulmonary circulation, and left ventricle does more work than right

Left ventricle forms the apex of the heart, and makes up almost all of the left border + diaphragmatic surface.

Left is more round. Right is more crescent shaped

Question 42

How do the papillary muscles compare in left vs right ventricles?

Answer 42

There are only 2 in the left, since it has the mitral (biscupid) valve, but they are MUCH bigger than the right ventricle because the pressure is so much higher in the left.

Question 43

What is the name for the left semilunar valve, and where does it open into?

Answer 43

Known as the aortic valve, opens into aortic orifice which supplies the ascending aorta

Question 44

What are the aortic sinuses and what do they give rise to?

Answer 44

They are three recesses in the ascending aorta just superior to the aortic valve.
Left and right coronary arteries arise from the aortic sinuses, the posterior sinus has nothing which arises from it

Question 45

What is the most frequently disease valve of the heart? How can this happen?

Answer 45

The mitral (biscupid valve)
Nodules on valve - irregular blood flow
Scarring / shortening of valve - leads to blood regurgitating into left atrium (mitral insufficiency) during systole and heart murmur

Question 46

What is aortic insufficiency?

Answer 46

Defective aortic valve - blood regurgitates back into left ventricle. Leads to heart murmur and collapsing pulse

Question 47

What is the one cusp of the triscupid valve you need to remember?

Answer 47

The septal cusp. Both bicuspid and tricuspid valves have anterior and posterior cusps.

Question 48

What are the cusps of the aortic + pulmonary valves?

Answer 48

Aortic = left, right, posterior
Pulmonary = left, right, anterior

Question 49

What are the branches of the right coronary artery?

Answer 49

SA nodal branch - supplies SA node - 60%
Right marginal branch - supplies right border of heart
AV nodal branch - supplies AV node - 80%
Posterior interventricular branch (posterior descending)

Question 50

What does the right coronary artery supply?

Answer 50

Right atrium, most of right ventricle, part of left ventricle + IV septum, SA node (60%), AV node (80%)

Question 51

What does the left coronary artery supply?

Answer 51

Left atrium, most of left ventricle + IV septum, part of right ventricle, and SA node (40%)

Question 52

What are the branches of the left coronary artery?

Answer 52

SA nodal branch - SA node (40%)
Anterior IV artery - supplies left ventricle and IV septum
Circumflex branch - supplies posterior surface, runs along coronary groove
Left marginal branch - branches from the circumflex branch and supplies left ventricle

Question 53

Where does the posterior IV branch arise from normally, and when would this be different?

Answer 53

normally arises from right coronary artery

15% of the time the left coronary artery is dominant, and it arises from the circumflex branch

Question 54

Where can the circumflex artery come off sometimes directly from?

Answer 54

Normally it’s from the left coronary artery, but it can sometimes arise directly from the right aortic sinus

Question 55

Why are coronary artery branches considered end arteries?

Answer 55

They supply the myocardium without functional overlap

Small branches do anastomose, however, and this may be important in coronary artery disease

Question 56

What is coronary insufficency?

Answer 56

Insufficient blood flow to coronary arteries, can lead to ischemic heart disease, often characterized by angina pectoris - chest pain in substernal region and down medial side of left arm + forearm

Question 57

What is the venous drainage of the heart?

Answer 57

Drains via coronary sinus (primary), as well as anterior cardiac veins of right ventricle, which also drain directly into right atrium.

Coronary sinus receives blood from great cardiac vein anteriorly, and middle and small cardiac veins posteriorly.

Question 58

How is lymph drained from the heart?

Answer 58

Myocardium and subepithelial connective tissue drains into the subepicardial lymphatic plexus, travels in coronary groove and empties into inferior tracheobronchial lymph nodes

Question 59

What is the SA node? Where is it?

Answer 59

The pacemaker of the heart, located just deep to the epicardium, at junction of superior vena cava and right atrium. Sends impulse 70x per minute

Sends impulses to atria first

Question 60

What is the AV node? Where is it?

Answer 60

Just posteriorinferor of interatrial septum, near the opening of the coronary sinus. It is ABOVE the tricuspid valve

Will send impulses through the ventricles second, since it sends fibers to both ventricles

Question 61

What is diastole and what valves are opened / closed during that time?

Answer 61

Diastole - ventricular filling
AV valves - open
Semilunar valves - closed

Question 62

What occurs in the final moments of diastole?

Answer 62

Atria contract to expel final blood into the ventricles

Question 63

What is the isovolumetric contraction? What sound does this cause?

Answer 63

Ventricles first contraction in systole, which closes the AV valves.
This causes the “lub”

Question 64

What is systole and what valves are opened / closed during that time?

Answer 64

Systole - ventricular ejection
AV valves - closed
Semilunar valves - opened

Question 65

What is the isovolumetric relaxation and what sound does that does that cause?

Answer 65

The end of systole, when the semilunar valves close

causes the “dub” sound

Question 66

What marks the beginning of diastole?

Answer 66

Closure of semilunar valves. There is a subsequent opening of AV valves to let blood start flowing back into ventricles

Question 67

What does sympathetic stimulation of the heart do?

Answer 67

Increases the heart’s rate and force of contraction, dilates coronary arteries (inhibits parasympathetic constriction), thus supplying more oxygen and nutrients to myocardium during increased activity

Question 68

What does parasympathetic stimulation of the heart do?

Answer 68

Slows the heart rate, reduces the force of the heartbeat, and constricts the coronary arteries, saving energy

Question 69

Why does ischemia (lack of blood supply) of the heart lead to pain of skin on medial aspect of upper limb?

Answer 69

Ischemia causes sensory pain endings to be stimulated in the myocardium, although the heart is insensitive to touch and temperature.

Afferent pain fibers enter the spin at T1 - T4/T5, especially on the right side, and your brain sometimes thinks this is coming from upper limb or chest

Question 70

What are the cardiac plexuses?

Answer 70

The sympathetic / parasympathetic stimulation to heart. Located anterior to tracheal bifurcation, posterior to ascending aorta, and superior to the bifurcation of the pulmonary trunk