Mediastinum and Heart

Question 1

What is the mediastinum?

Answer 1

it forms a mobile midline between the two lungs and their pleural cavities

Question 2

All structures within the mediastinum are held together by what?

Answer 2

held loosely together by connective tissue

Question 3

How is the mediastinum divided into superior and inferior divisions?

Answer 3

A line drawn from the junction of the manubrium and body of the sternum (sternal angle) posteriorly between the bodies of T4 and T5

Question 4

The inferior mediastinum is further divided into what?

Answer 4

3 more divisions; anterior, middle, and posterior

Question 5

What is the defining structure of the divisions of the inferior mediastinum?

Answer 5

the heart and its pericardial sac, as it lies within the middle division (can be seen from a lateral view)

Question 6

Anterior mediastinum is between what?

Answer 6

the pericardial sac of the heart posteriorly and the posterior aspect of the sternum anteriorly

Question 7

What does the anterior mediastinum containt?

Answer 7

• only fat, connective tissue and a few vessels in the adult

- before puberty it contained the thymus

Question 8

Thymus funtion

Answer 8

T-Cell maturation

Question 9

Posterior mediastinum is between what?

Answer 9

the posterior aspect of the pericardial sac and the anterior aspect of the vertebral column

Question 10

All 3 portions of the inferior mediastinum are bounded inferiorly by the

Answer 10

diaphragm

Question 11

Other important structures in the middle mediastinum besides the heart and pericardial sac?

Answer 11

-the ascending aorta(first part from the heart)
-pulmonary trunk (and its division into rt. and lt. pulmonary aa.),
-portions of the superior vena cava,
-pulmonary vv. as they enter the heart
-the termination of the azygos vein,
-the phrenic nn.
-the bifurcation of the trachea into lt. and rt. main
bronchi

Question 12

What is the pericardium?

Answer 12

also called the pericardial sac, as two layers: outer tough fibrous and
inner serous (slippery) layers

Question 13

What is the fibrous pericardium

Answer 13

tough fibrous layer that restrains the heart during beating from
moving violently around the mediastinum

Question 14

What does the fibrous pericardium fuse with

Answer 14

• superiorly: fuses with the adventitia (outer CT layers) of the great vessels leaving the heart and entering the superior mediastinum
  inferiorly: with the central tendon of the diaphragm

Question 15

The phrenic nerve is sandwiched between what

Answer 15

the mediastinal pleura and the outer aspect of the fibrous pericardium - along the lateral borders of the pericardial sac

Question 16

Phrenic n. on both sides of the heart are accompanied by what?

Answer 16

tiny vessels -the pericardiophrenic br. of the internal thoracic a.

Question 17

How does the fibrous pericardium prevent cardiac tamponade?

Answer 17

due to its unstretchable nature that prevents the accumulation of fluid from inflammation and bleeding from a rupture vessel/chamber letting blood flow into the pericardial sac

Question 18

What is cardiac tamponade?

Answer 18

when extra fluid builds up in the space around the heart which impedes filling of the heart

Question 19

What is the serous pericardium?

Answer 19

Separates the fibrous pericardium from the epicardium (surface of the heart)

Question 20

Serous pericardium is also called what

Answer 20

The serous layer covering the posterior side of the fibrous pericardium is
referred to as the PARIETAL SEROUS PERICARDIUM

Question 21

What is the visceral pericardium?

Answer 21

That portion reflected out onto the surface of the heart, at the roots of the great vessels

• also called the epicardium
• lies directly on surface of the heart

Question 22

What is the pericardial cavity?

Answer 22

a potential space between the parietal serous pericardium and the visceral serous pericardium; it is filled with pericardial fluid

Question 23

Removal of fluid from the sac is referred to as?

Answer 23

pericardial aspiration

Question 24

What are the two pericardial sinuses?

Answer 24

transverse pericardial sinus and oblique pericardial sinus

Question 25

transverse pericardial sinus

Answer 25

the serous pericardium extends up as separate sleeves over the superior vena cava on the right side, and the aorta and pulmonary trunk on the left which leaves a communication of the pericardial cavity between the two sleeves

Question 26

oblique pericardial sinus

Answer 26

With the heart removed, you can also see that the sleeve of serous pericardium that enclosed the superior vena cava also encloses the openings of the inferior vena cava and the pulmonary veins; this irregular outline forms a blind-ending serous-lined cavity

Question 27

What is the transverse pericardial sinus important for?

Answer 27

clinically important being used commonly for vessel ligation in heart surgery

Question 28

How many circulatory systems and what are their names?

Answer 28

4; pulmonary circulation, coronary circulation, systemic circulation, hepatic portal system

Question 29

What is pulmonary circulation?

Answer 29

-right ventricle pumps deoxygenated blood returned from the body to the right atrium to the lungs for oxygenation

Question 30

The ___ and ___ of the lungs are a filter between right and left hearts

Answer 30

arteries and capillaries

Question 31

What is coronary circulation?

Answer 31

The right. and left. coronary aa. arising from the aorta supply the myocardium of the heart with freshly oxygenated blood just returned from the lungs to
the left atrium and pumped out into the aorta via the left ventricle

Question 32

The ___ and ___ of the body are a filter between left. and right hearts

Answer 32

arteries and capillaries

Question 33

What is systemic circulation?

Answer 33

-Freshly oxygenated blood enters the aorta from the left ventricle under great
pressure to be pumped to all tissues of the body (including the tissue of the
lungs via the bronchial aa.)

-It is returned to the right atrium from the top and bottom portions of the body via the superior and inferior vena cava.

Question 34

What do the superior and inferior vena cava do?

Answer 34

collect all the deoxygenated blood from the body, including lymphatic drainage and return it to the rt. atrium for reoxygenation via the pulmonary system

Question 35

What is the hepatic portal system?

Answer 35

collects all venous blood returning from the tubular gastrointestinal tract (filled with ingested nutrients, etc.) and takes it to the liver (via the hepatic portal vein) for screening/metabolism prior to its entry back into the systemic system through the hepatic vein

Question 36

While the heart looks like a single organ, it functions as what?

Answer 36

a pair of muscle pumps linked to each other by the pulmonary circulation

• The right pump is fed by venous return (superior and inferior vena cavae).
• The left pump empties into the aorta.

Question 37

The vertical plane between left and right sides of the heart lies _____
in the body

Answer 37

obliquely

Question 38

What is the result of the oblique orientation of the vertical plane of the heart?

Answer 38

the anterior (sternocostal) surface of the heart is composed almost entirely of the right ventricle while the posterior surface is mostly the left ventricle and atrium

Question 39

What are the chambers of the heart?

Answer 39

• right side: right atrium and right ventricle

- left side: left atrium and left ventricle

Question 40

The right atrium receives blow flow from where?

Answer 40

venous return from the body

Question 41

Are there valves that restrict blood flow into or out of the right atrium?

Answer 41

No

Question 42

Features of the right atrium include:

Answer 42

pectinate muscles, crista terminalis, interatrial septum, fossa ovalis, limbus of the fossa ovalis, opening of the coronary sinus, location of the atrioventricular node

Question 43

What is the fossa ovalis?

Answer 43

represents the remnant of an embryonic valve connecting the 2 atria allowing blood to bypass the right ventricle (as it did not need to go to the lungs
while the fetus was in utero)

-This valve remains patent (open) to some degree in about 25% of adults but generally causes no significant problem

Question 44

What is the right atrioventricular valve?

Answer 44

• also called the tricuspid valve;

- Blood flows from the right atrium into the right ventricle

Question 45

Features of the right ventricle include:

Answer 45

a much thicker muscular wall than the atrium, irregular muscular ridges/projections - trabeculae carnae, septomarginal (moderator) band, supraventricular crest above which is the smooth infundibulum, papillary muscles and chordae tendineae attached to the 3 cusps of the right A-V valve

Question 46

How does blood leave the right ventricle?

Answer 46

by passing by the right semilunar (pulmonary) valve into the pulmonary trunk

Question 47

What is the ligamentum arteriosum?

Answer 47

-remnant of the fetal circulation - the ductus arteriosus

Question 48

Describe fetal circulation

Answer 48

• the majority of oxygenated blood comes to the rt. atrium via the IVC from the
  placenta. It bypasses the right ventricle via the foramen ovale (fossa ovalis is the closed opening found in the adult) and is pumped out the aorta to the body

-Deoxygenated blood returning from the head and neck however, falls down into the right ventricle. Ventricular contraction pumps it out into the pulmonary trunk where the majority enters the ductus arteriosus - which joins the aorta after the 3 main branches have been given off the aortic arch

Question 49

At birth, how is the foramen ovale closed?

Answer 49

by a relative increase in left atrial pressure forcing the valve against the septum; in most cases is fuses shut forming the fossa ovalis

Question 50

At birth, how is the ligamentum arteriosus formed?

Answer 50

the ductus arteriosus contracts and eventually obliterates leaving the cord-like ligamentum arteriosus

Question 51

Failure of the formation of the ligamentum arteriosus to form results in what?

Answer 51

surgical intervention

Question 52

The left atrium receives blood through what?

Answer 52

2-4 pulmonary veins, blood returning from the lungs

Question 53

Pectinate muscles are present where in the left atrium?

Answer 53

only out in the auricle

Question 54

How does the blood flow from the left atrium into the left ventricle?

Answer 54

by passing through the left A-V oriface which is guarded by the left
A-V valve

Question 55

The left AV valve is also called what

Answer 55

bicuspid or mitral valve

Question 56

The left ventricle does not have what structures that the right ventricle does?

Answer 56

• moderator band

- supraventricular crest

Question 57

Why are the walls twice as thick in the left ventricle compared to the right?

Answer 57

due to the pressure generated to pump to the systemic circulation (body)

Question 58

How is blood pumped out of the left ventricle?

Answer 58

it is pumped into the aorta passing over the left semilunar (aortic) valve

Question 59

Semilunar valves separate?

Answer 59

ventricles from outflow vessels

Question 60

Atrio-ventricular valves separate?

Answer 60

atria from ventricles

Question 61

What is the fibrous skeleton of the heart?

Answer 61

The myocardium (cardiac muscle) around each of the valves of the heart contains a region of fibrous thickening used to anchor the valves into the myocardium- this forms the skeleton

Question 62

The fibrous rings of the AV valves appear was what structure?

Answer 62

ring like structure

Question 63

The fibrous rings of the semilunar valves appear like what structure?

Answer 63

cuff-like appearance

Question 64

What is the inter-ventricular septum?

Answer 64

septum between the right and left hearts; has 3 parts

• thicker, muscular part between the ventricles
• thinner, fibrous parts between where the valves attach
• -> interatrial septum and interventricular septum

Question 65

The rate and force of the heartbeat is controlled by what?

Answer 65

the autonomic nervous system

Question 66

the sympathetic division sends what kind of fibers to the heart?

Answer 66

post-ganglionic fibers

Question 67

Where do the post-ganglionic fibers come from?

Answer 67

via the cervical cardiac rami from as high as the superior cervical ganglion, but mostly the primarily the sympathetic ganglion of T1-T5 into the cardiopulmonary plexus

Question 68

What do the sympathetic postganglionic fibers do for the heart?

Answer 68

accelerate heat beat and increase the strength of its contractions

Question 69

Parasympathetic innervation to the heart?

Answer 69

The vagus nerve contributes parasympathetic preganglionics via the cervical cardiac br. to the cardiopulmonary plexus

Question 70

What does parasympathetic innervation do for the heart?

Answer 70

slow the heat beat and weaken the strength of the contractions

Question 71

What is the cardiopulmonary plexus?

Answer 71

aggregation of postganglionic fibers from the sympathetic division and preganglionics from the parasympathetic division of the ANS

Question 72

How is the cariopulmonary plexus distributed?

Answer 72

over the tracheal bifurcation and extends out to the hilus of the lung. It is also found covering the pericardial sac of the heart.

Question 73

The fibers from the cardiopulmonary plexus stimulate or inhibit what of the heart?

Answer 73

The SA node, which is the pacemaker of the heart

Question 74

Why do cardiac muscle fibers need an SA node?

Answer 74

Because they beat intrinsically, so they require a pacemaker to coordinate their contraction

Question 75

Where is the SA node located?

Answer 75

on the external surface of the heart (inside the pericardial sac) - referred to as being subepicardial
-found where the upper end of the sulcus terminalis reaches the base of the
superior vena cava

Question 76

How are impulses spread from the SA node?

Answer 76

impulse to contract is spread over the atrial wall in groups of fibers referred to as the internodal fibers

Question 77

The internodal fibers of the atrium transmit the impulses where?

Answer 77

to the atrioventricular (A-V) node

Question 78

Where is the AV node located?

Answer 78

located subendocardially on the floor of the right atrium between the opening of the coronary sinus and the tricuspid valve

Question 79

How does the electrical impulse leave the AV node?

Answer 79

via the atrio-ventricular (A-V) bundle, which contains modified cardiac muscle cells referred to as Purkinje fibers

Question 80

How do purkinje fibers differ from regular muscle cells?

Answer 80

10-20X larger than musclecells, lose their ability to contract and gain the ability to conduct electrical impulses efficiently

Question 81

Once the bundle of His reaches the interventricular septum, it breaks up into what?

Answer 81

bundles of His, or right and left bundle branches that continue on down to the apex of the heart and then up around the surface walls of the heart

Question 82

Each group of papillary muscles receives what?

Answer 82

a group of purkinje fibers

Question 83

The moderator band of the right side of the heart always contains what

Answer 83

a tract of purkinje fibers

Question 84

The moderator band passes where?

Answer 84

from the septal wall to the base of the anterior papillary muscle and is thought to represent a short-cut for these fibers

Question 85

Location of the right and left coronary arteries?

Answer 85

open as orifices from the vessel wall in the right and left coronary cusps of the aortic semilunar valve
-These openings are functionally related to the cusps

Question 86

What happens during ventricular systole?

Answer 86

(contraction) blood is ejected from the left ventricle into the aorta and the cusps are forced back again the vessel wall, closing off the orifices of the coronary arteries - preventing backflow of blood from the myocardium (under contraction) back into the aorta

Question 87

What happens during ventricular diastole?

Answer 87

(relaxation) blood from the aorta falls back into the aortic semilunar cusps, filling them to functionally occlude the aortic opening, and freshly oxygenated blood flows freely our into the coronary vessels and into the myocardium which is now relaxed

Question 88

During the next ventricular systole following diastole what happens?

Answer 88

the atria are relaxed (low pressure) so that the high pressure
within the contracting ventricles forces blood through the cardiac veins, into the coronary sinus and into the right atrium

Question 89

What maintains a one-way flow of blood through the myocardium of the heart

Answer 89

the relation of the orifices of the coronary arteries to the aortic semilunar valve cusps

Question 90

Where does the RCA arise from?

Answer 90

the right coronary cusp of the aortic semilunar valve

Question 91

What is the first branch off the RCA?

Answer 91

SA node branch, which supplies the SA node about 60-70% of the time (with the rest of the supply coming from a branch of the LCA on the posterior aspect of the heart)

Question 92

The RCA extends along the heart in the

Answer 92

right anterior A-V groove

Question 93

What is the next branch the RCA gives rise to?

Answer 93

the marginal artery that extends along the inferior (acute) margin of the heart

Question 94

The RCA then passes onto the posterior surface of the heart and runs along what

Answer 94

the right posterior A-V groove

Question 95

The RCA terminates how?

Answer 95

by dividing into the posterior interventricular branch and a continuation of
variable size that anastomoses with the circumflex br. of the LCA

Question 96

The posterior interventricular branch of the RCA continues along the?

Answer 96

posterior interventricular groove

Question 97

The posterior interventricular branch of the RCA anastomoses with what?

Answer 97

anterior interventricular branch of the LCA

Question 98

The LCA is a short branch that terminates into what?

Answer 98

terminates at the tip of the left auricle into the circumflex branch
and the anterior interventricular branch (left anterior descending)

Question 99

The anterior interventricular branch of the LCA continues along the heart in the what?

Answer 99

anterior interventricular groove to the apex of the heart where it passes posteriorly and continues in the posterior interventricular groove to anastomose with the posterior interventricular br. of the RCA

Question 100

The circumflex branch of the LCA extends where?

Answer 100

wraps around the obtuse margin of the heart in the left A-V groove to terminate by anastomosing with the terminal br. of the RCA

Question 101

Both anastomotic sites are located where?

Answer 101

on the posterior surface of the heart

Question 102

The anastomotic sites are classified as what and why?

Answer 102

insufficient anastomoses because their size is insufficient to protect the heart from damage due to blockage of one of the coronary aa

Question 103

Both interventricular branches are sending what into the heart?

Answer 103

penetrating br. into the muscular interventricular septum

Question 104

The venous return of the heart is said to be indirect why?

Answer 104

because the individual veins returning blood to the heart do not actually drain into the right atrium individually, they instead drain into the coronary sinus which then drains into the right atrium

Question 105

Location of the great cardiac vein?

Answer 105

-begins at the apex of the heart and accompanies the anterior interventricular br. of the LCA

Question 106

When does the great cardiac vein become the coronary sinus?

Answer 106

Once it rounds the obtuse margin of the heart and accepts the posterior vein of the left ventricle

Question 107

What other veins does the coronary sinus accept?

Answer 107

oblique vein of the left atrium, the middle cardiac vein and the small cardiac vein

Question 108

Aside from a small amount of blood returned from the myocardium directly
by small veins opening into all four chambers of the heart (the venae cordis minimae), the only other direct venous drains are?

Answer 108

inconsistent anterior cardiac veins that drain the right ventricle into the rt. atrium

Question 109

Anterior cardiac veins drain where?

Answer 109

drain the right ventricle in to the right atrium, but they are inconsistent

Question 110

All cardiac veins have a valve that prevents backflow where they terminate at the coronary sinus, except for the

Answer 110

oblique vein

Question 111

Does the coronary sinus have a valve?

Answer 111

Yes, where it terminates in the right atrium