Chp 3- Cardiovascular And Lymphatic System

Question 1

Pericardium

Answer 1

Fibrous protective sac enclosing heart

Question 2

Epicardium

Answer 2

Inner layer of pericardium

Question 3

Myocardium

Answer 3

Heart muscle, the major portion of the heart

Question 4

Endocardium

Answer 4

Smooth lining of the inner surface and cavities of the heart

Question 5

Right atrium

Answer 5

Receives blood from systemic circulation through superior and inferior vena cava

Question 6

Right ventricle

Answer 6

• Blood from RA
• pumps blood via pulmonary artery to lungs for oxygenation
• low pressure pulmonary pump

Question 7

Left atrium

Answer 7

-receives oxygenated blood from lungs+ 4 pulmonary veins

Question 8

Left ventricle

Answer 8

• blood from LA
• pumps blood to systemic circulation via aorta
• high pressure pump
• LV walls are thicker and stronger than RV
• forms most of the left side and apex of heart

Question 9

Atrioventricular valves

Answer 9

• Prevent backflow of the blood into atria during ventricular systole
• anchored by chordae tendineae to papillary muscles
• values close when ventricular walls contract
• Tricuspid and Bicuspid valves

Question 10

Tricuspid valves

Answer 10

Right heart valve

Question 11

Bicuspid valve

Answer 11

Left heart valve

Question 12

Semilunar Valves

Answer 12

• prevent backflow of blood from aorta and pulmonary arteries into ventricles during diastole
• pulmonary and aortic valves

Question 13

Pulmonary valve

Answer 13

Prevents right back flow

Question 14

Aortic valve

Answer 14

Prevents left backflow

Question 15

Systole

Answer 15

Period of ventricular contraction

Question 16

End systolic volume

Answer 16

Amount of blood in the ventricles after systole

-about 50mL

Question 17

Diastole

Answer 17

Period of ventricular relaxation and filing of blood

Question 18

End diastolic volume

Answer 18

Amount of blood in the ventricles after diastole

-about 120mL

Question 19

Atrial contraction

Answer 19

Occurs during the last third of diastole and completes ventricular filling
-compromises last 20-30% of end diastolic volume

Question 20

Coronary circulation

Answer 20

Blood circulates to myocardium during diastole

Question 21

Right coronary artery

Answer 21

Supplies:

• right atrium
• most of right ventricle
• inferior wall of left ventricle
• AV node and bundle of His
• SA node 60% of the time

Question 22

left coronary artery supplies?

Answer 22

• most of left ventricle

- has two divisions: left anterior descending and circumflex artery

Question 23

Left anterior descending artery (LAD) supplies?

Answer 23

• most of left ventricle
• interventricular septum
• inferior areas of the apex

Question 24

Circumflex artery supplies?

Answer 24

• lateral and inferior walls of the left ventricle
• portions of left atrium
• 40% of SA node

Question 25

Where does coronary sinus receive blood from?

Answer 25

-receives venous blood from heart and empties into right atrium

Question 26

Specialized conduction tissue

Answer 26

Allows rapid transmission electrical impulses throughout the myocardium

Question 27

Where is the Sinoatrial (SA) node located?

Answer 27

-located at junction of superior vena cava and right atrium

Question 28

What does the SA node do?

Answer 28

Main pacemaker of the heart, initiates the impulse rate of 60-100 bpm

Question 29

What type of innervation does the SA node have?

Answer 29

Has sympathetic and parasympathetic innervation affecting both HR and strength of contraction

Question 30

Where is the Atrioventricular (AV) node located?

Answer 30

At the junction of right atrium and right ventricle

Question 31

What innervation does the AV node have and what is it’s intrinsic firing rate?

Answer 31

• Parasympathetic and sympathetic

- 40-60 bpm

Question 32

What is Purkinje tissue and why is it important?

Answer 32

• specialized conducting tissue spread throughout the ventricles
• Right and left bundle branches of the AV node terminate here
• intrinsic firing rate of 20-40 bpm

Question 33

Normal sinus rhythm originates where and what is the path it takes?

Answer 33

SA note–> impulse through both atria which contract together–>stimulates AV node–>transmitted down bundle of His to Purkinje fibers–>impulse spreads through both ventricles which contract together (atrial kick)

Question 34

Muscle tissue

Answer 34

• striated muscle fibers with numerous mitochondria
• exhibits rhythmicity of contraction
• fibers contract as a functional unit

Question 35

What type of muscle tissue is found in the walls of blood vessels?

Answer 35

Smooth muscle tissue

Question 36

Define stroke volume and the normal range

Answer 36

• amount of blood ejected with each myocardial contraction

- 55-100 mL/beat

Question 37

What is stroke volume influenced by

Answer 37

-LV end diastolic volume= the amount of blood left in the ventricle at the end of diastole= preload

Question 38

Define Frank-Starling law

Answer 38

The greater the amount of preload, the greater the quantity of blood pumped

Question 39

Define afterload

Answer 39

The force the LV must generate during systole to overcome aortic pressure to open the aortic valve

Question 40

Define cardiac output

Answer 40

Amount of blood discharged from the left or right ventricle per minute

Question 41

What is the normal range of cardiac output

Answer 41

4-5 L per minute

Question 42

How is cardiac output determined?

Answer 42

HRxSV=CO

Question 43

How is cardiac index calculated and what is the normal range?

Answer 43

Cardiac index= CO/body surface area

-2.5-3.5L/min

Question 44

What is the normal range for left ventricular end diastolic pressure?

Answer 44

5-12 mmHg

Question 45

Define ejection fraction

Answer 45

Percentage of blood emptied from the ventricle during systole
-clinically useful measure of LV function

Question 46

How is EF calculated?

Answer 46

EF=SV/left ventricular end diastolic volume

Question 47

What is the normal range of EF, and the consequences of low EF?

Answer 47

• lower EF= more impaired LV

- >55%

Question 48

Define atrial filling pressure

Answer 48

-the difference between the venous and atrial pressures

Question 49

What happens to right atrial filling pressure during strong ventricular contractions?

Answer 49

• decreased pressure

- enhanced atrial filling

Question 50

What affects right atrial filling pressure?

Answer 50

• changes in intrathoracic pressure
• decreases during inspiration
• increases during coughing or forced expiration

Question 51

When does venous return increase?

Answer 51

-when blood volume expands

Question 52

When does venous return decrease?

Answer 52

-during hypovolemic shock

Question 53

How is myocardial oxygen demand clinically measured?

Answer 53

HR x SBP= rate pressure produce

Question 54

What is the job of arteries in peripheral circulation?

Answer 54

Transports oxygenated blood from areas of high pressure–>low pressure

Question 55

What are arteries in peripheral circulation influenced by?

Answer 55

Elasticity and extensibility of vessel walls and by peripheral resistance

Question 56

What are the function of arterioles?

Answer 56

Primary site of vascular resistance

Question 57

What are capillaries?

Answer 57

Small blood vessels that connect the ends of arteries with the beginning of veins

Question 58

What type of veins accompany arteries?

Answer 58

Deep veins

Question 59

What is venous circulation influenced by?

Answer 59

• muscle contraction
• gravity
• respiration (increased return with inspiration)
• compliance of right heart

Question 60

What is the job of the lymphatic system?

Answer 60

-drains lymph from bodily tissues and returns it to venous circulation

Question 61

Lymphatic contraction occurs by:

Answer 61

1) parasympathetic, sympathetic, and sensory nerve stimulation
2) contraction of adjacent muscles
3) abdominal and thoracic cavity pressure changes during normal breathing
4) mechanical stimulation of dermal tissues
5) volume changes within each lymphatic vessel

Question 62

Where is parasympathetic control located in the brain?

Answer 62

Medulla oblongata

Question 63

parasympathetic stimulation occurs via which method?

Answer 63

Via the Vagus nerve and cardiac plexus

Question 64

Where does parasympathetic innervation occur?

Answer 64

• innervates the SA node, AV node, and sparsely myocardium

- releases Acetylcholine

Question 65

What are the effects of parasympathetic stimulation on the heart?

Answer 65

• slows rate and force of myocardial contraction
• decreases myocardial metabolism
• causes coronary artery vasoconstriction

Question 66

Sympathetic stimulation occurs via which method?

Answer 66

Cord segments T1-T4, upper thoracic to superior cervical chain ganglia

Question 67

What does sympathetic stimulation innervate?

Answer 67

• SA node, AV node, conduction pathways, myocytes

- releases epinephrine and norepinephrine

Question 68

What does sympathetic stimulation cause?

Answer 68

• increase in rate and force of myocardial contraction and metabolism
• coronary artery vasodilation

Question 69

What occurs when skin and peripheral vasculature receive sympathetic innervation?

Answer 69

-vasoconstriction of cutaneous arteries

Question 70

What types of drugs increase sympathetic functioning?

Answer 70

Sympathomimetics

Question 71

What types of drugs decrease sympathetic functioning?

Answer 71

Sympatholytics

Question 72

What are baroreceptors?

Answer 72

Main mechanisms controlling heart rate

Question 73

Where are baroreceptors located?

Answer 73

Walls of aortic arch and carotid sinus

Question 74

Describe the process that occurs with circulatory reflex when BP increases.

Answer 74

Parasympathetic stimulation–> decreased rate and force of cardiac contraction–> sympathetic inhibition–> decreased peripheral resistance

Question 75

Describe the process that occurs with circulatory reflex when BP decreases.

Answer 75

Sympathetic stimulation–> increased HR and BP and vasoconstriction of peripheral blood vessels

Question 76

Where are chemoreceptors located?

Answer 76

Carotid body

Question 77

What occurs when CO2 is increased, O2 is decreased, and pH levels are decreased?

Answer 77

Increased HR

Question 78

What is hyperkalemia?

Answer 78

Increased concentration of potassium ions in the blood

Question 79

What are the cardiovascular affects of hyperkalemia?

Answer 79

• decreases the rate and force of contraction
• produces widened PR interval and QRS
• tall T waves

Question 80

Define Hypokalemia

Answer 80

Decreased concentrations of potassium ions

Question 81

What are the effects of hypokalemia?

Answer 81

• flattened T waves
• prolonged PR and QT intervals
• produces arrhythmias which may progress to ventricular fibrillation

Question 82

Define hypercalcemia and its affects on the cardiovascular system

Answer 82

Increased calcium concentration increases heart actions

Question 83

Define hypocalcemia and its affects on the cardiovascular system

Answer 83

• decreased calcium concentrations

- depresses heart actions

Question 84

What can hypermagnesemia do to the cardiovascular system?

Answer 84

-lead to arrhythmias or cardiac arrest

Question 85

What are the effects of hypomagnesemia

Answer 85

• ventricular arrhythmias
• coronary vasospasms
• sudden death

Question 86

What are the effects of increased peripheral resistance?

Answer 86

-increases arterial blood volume and pressure

Question 87

What is peripheral resistance influenced by?

Answer 87

Arterial blood volume- viscosity of blood and diameter of arterioles and capillaries