heart

Question 1

orientation of heart

Answer 1

size of fist; in center of chest

angled downward to right

Question 2

mediastinum

Answer 2

portion of thoracic cavity that contains the heart

Question 3

pericardium

Answer 3

sac covering the heart

2 layers- fibrous and serous

Question 4

fibrous pericardium

Answer 4

outermost, protective layer
anchors heart in place
made of dense CT

Question 5

3 layers of serous pericardium

Answer 5

parietal layer
visceral layer
pericardial cavity

Question 6

parietal layer of serous pericardium

Answer 6

attached to mediastinum

Question 7

visceral layer of serous pericardium

Answer 7

outer surface of heart

aka epicardium

Question 8

pericardial cavity

Answer 8

space between parietal and visceral layers

filled with pericardial fluid

Question 9

function of pericardial fluid

Answer 9

prevent friction

dissipate heat

Question 10

layers of heart (outer to inner)

Answer 10

epicardium
myocardium
endocardium

Question 11

epicardium

Answer 11

visceral layer

made of CT

Question 12

myocardium

Answer 12

muscular layer

made of cardiac muscle

Question 13

endocardium

Answer 13

lines internal chambers of heart

made of squamous epithelial tissue

Question 14

atria

Answer 14

2 chambers at base of heart

Question 15

ventricles

Answer 15

2 chambers at apex of heart

Question 16

which ventricle is thicker

Answer 16

left

Question 17

markings of heart

Answer 17

interatrial septum
inter ventricular septum
coronary sulcus
inter ventricular groove

Question 18

interatrial septum

Answer 18

separates left and right atria

Question 19

inter ventricular septum

Answer 19

separates left and right ventricles

Question 20

coronary sulcus

Answer 20

outer groove that runs between where atria and ventricles go on outside
near top of heart

Question 21

inter ventricular groove

Answer 21

groove on outside of heart that runs between atria

Question 22

when apex is at 6:00, on the front of heart which way is inter ventricular groove? on the back?

Answer 22

diagonal; vertical

Question 23

auricles

Answer 23

2 flaps at top of heart

increase surface area for increased volume of blood to be held in atria

Question 24

pectinate muscles

Answer 24

muscles on inside all of atria

Question 25

fossa ovalis

Answer 25

seal of leftover shortcut connection between atria in interatrial septum

Question 26

trabeculae carnae

Answer 26

muscle in walls of ventricles

Question 27

papillary muscles

Answer 27

muscles that extend into ventricle (not just on wall)

connect to flaps of valves by chord tendonae

Question 28

how do chordae tendinae function?

Answer 28

contraction of papillary muscles pulls on chordae tendinae
this puts tension on the flaps of valves so they won’t turn inside out when ventricles contract and put blood back into atrium

Question 29

chamber-related blood vessels

Answer 29

vena cava
coronary sinus
pulmonary veins
pulmonary artery
aorta

Question 30

vena cava

Answer 30

vein that empties blood from the body directly into right atrium

Question 31

superior vena cava drains blood from:

Answer 31

upper body into right atrium

Question 32

inferior vena cava drains blood from :

Answer 32

lower body into R atrium

Question 33

coronary sinus

Answer 33

brings all blood going to nourish myocardium into right atrium
on back of heart

Question 34

pulmonary veins

Answer 34

bring oxygenated blood from lungs into left atrium

Question 35

right pulmonary vein brings blood from:

Answer 35

right lung to left atrium

Question 36

left pulmonary vein brings blood from:

Answer 36

left lung to left atrium

Question 37

pulmonary artery (pulmonary trunk)

Answer 37

carries blood away from right ventricle of heart to lungs

Question 38

aorta

Answer 38

carries blood away from left ventricle of heart to bring it to the body

Question 39

how does blood pass through the heart twice?

Answer 39

1. deoxygenated blood goes to right atrium, right ventricle to lungs
2. lungs oxygenate blood and push it to left atrium, left ventricle to the body

Question 40

pulmonary circulation

Answer 40

right side of heart to lungs

oxygenates blood

Question 41

systemic circulation

Answer 41

left side of heart to body

deoxygenates blood

Question 42

coronary arteries

Answer 42

first branch off aorta

deliver myocardium’s blood supply

Question 43

cardiac veins

Answer 43

receive all blood that went to heart muscle; empty into coronary sinus

Question 44

list the cardiac veins

Answer 44

great cardiac vein
middle cardiac vein
small cardiac vein
anterior cardiac vein

Question 45

anastomes

Answer 45

connections which make alternative pathways (collateral channels)

Question 46

purpose of anastomes

Answer 46

so that if there is a blockage in a blood vessel somewhere, blood can still get to heart

Question 47

flow of blood is determined by:

Answer 47

change in pressure (pressure gradients)

Question 48

atrioventricular valves

Answer 48

prevent back blow from ventricles to atria; tricuspid and bicuspid valve

Question 49

tricuspid valve

Answer 49

right AV valve

Question 50

bicuspid valve

Answer 50

left AV valve

Question 51

when atrial pressure > ventricular pressure, _______

Answer 51

• walls of atria begin to contract (while ventricles are relaxed)
• blood flows from atria to ventricles

Question 52

how does cordae tendinae control blood flow?

Answer 52

cordae tendinae and papillary muscles contract to keep valve closed, so it doesn’t turn inside out

Question 53

action of cordae tendnae and papillary muscles

Answer 53

papillary muscle contracts before rest of ventricle

when it contracts, it pulls tension on cordae tendinae–> when ventricle contracts, blood cannot push backward

Question 54

semilunar valves

Answer 54

prevent back flow from arteries to ventricle

pulmonary and aortic valves

Question 55

pulmonary valve

Answer 55

right SL valve

between right ventricle and pulmonary trunk

Question 56

aortic valve

Answer 56

left SL valve

between L ventricle and aorta

Question 57

how is blood pushed through the heart? (mechanical)

Answer 57

• atria contract and push blood into ventricles
• as ventricles start to fill with blood, ventricular pressure increases
• change in pressure causes atria to relax, ventricles start contracting
• ventricular pressure > atrial pressure, so AV valves close and SL valves open
• blood is pushed from ventricles –> arteries –> away from heart

Question 58

starting at left ventricle, go through cardiac cycle

Answer 58

left ventricle
aortic valve
body
vena cava
right atria
tricuspid valve
right ventricle
pulmonary valve
pulmonary artery
lungs
pulmonary veins
left atrium
bicuspid valve
left ventricle

Question 59

characteristics of cardiac muscle

Answer 59

striated
uninucleate
sliding filament mechanism of action
intercalated discs
adj, cells linked by desmosomes and gap junctions

Question 60

how do desmosomes and gap junctions help heart?

Answer 60

heart contracts as a unit; atrias together, ventricles together