circulation part two

Question 1

Depolarization of the heart is

Answer 1

rhythmic and spontaneous

Question 2

what ensures the heart contracts as a unit

Answer 2

gap junctions

Question 3

cardiac muscle contraction graph parts

Answer 3

beginning; Na+ influx shoots to top (depolarization)
plateau where Ca2+ leaks slowly
rushes down where Ca2+ closes and k+ opens (repolarization)

Question 4

E-C coupling occurs as

Answer 4

Ca2+ binds to troponin and sliding of the filaments begins

Question 5

Duration of the Action Potential and the contractile phase is what in comparison to skeletal muscle

Answer 5

Duration of the Action Potential and the contractile phase is much greater in cardiac muscle than in skeletal muscle

Question 6

Intrinsic cardiac conduction system

Answer 6

A network of noncontractile (autorhythmic) cells that initiate and distribute impulses to coordinate the depolarization and contraction of the heart

Question 7

the self excitable myocytes act as

Answer 7

nerves

Question 8

the self excitable myocytes have two important roles

Answer 8

forming the conduction system of the heart and acting as pacemakers within the system

Question 9

autorhythmicity

Answer 9

spontaneously depolarize at a given rate. once one group of A cells start an action potential, all the cells around it also depolarize

Question 10

SA node fires how often

Answer 10

every .8 seconds, or 75 action potentials per minute

Question 11

autorhythmic cells reasoning with graph

Answer 11

Have unstable resting potentials (pacemaker potentials or prepotentials) due to open slow Na+ channels
At threshold, Ca2+ channels open
Explosive Ca2+ influx produces the rising phase of the action potential
Repolarization results from inactivation of Ca2+ channels and opening of voltage-gated K+ channels

Question 12

Heart Physiology: Sequence of Excitation

Answer 12

SA node 
AV node
AV bundle 
right and left bundle branches 
perkinje fibers

Question 13

what Depolarizes faster than any other part of the myocardium

Answer 13

SA node

Question 14

whatDelays impulses approximately 0.1 second

Answer 14

AV node

Question 15

how often does AV node fire

Answer 15

Depolarizes 50 times per minute in absence of SAnode input

Question 16

what is the Only electrical connection between the atria and ventricles

Answer 16

AV bundle

Question 17

how often do AV bundle and purkinje fibers depolarize

Answer 17

AV bundle and Purkinje fibers depolarize only 30times per minute in absence of AV node input

Question 18

Defects in the intrinsic conduction system may result in

Answer 18

Arrhythmias
Uncoordinated atrial and ventricular contractions
Fibrillation

Question 19

Arrhythmias

Answer 19

irregular heart rhythms

Question 20

Fibrillation

Answer 20

rapid, irregular contractions; useless for pumping blood

Question 21

Defective SA node may result in

Answer 21

Ectopic focus: abnormal pacemaker takes over

Question 22

Defective AV node may result in

Answer 22

Partial or total heart block

Few or no impulses from SA node reach the ventricles

Question 23

Heartbeat is modified by the

Answer 23

autonomic nervous system

Question 24

Cardiac centers are located in the

Answer 24

medulla oblongata

Question 25

what does Cardioacceleratory center do

Answer 25

innervates SA and AV nodes, heart muscle, and coronary arteries through sympathetic neurons

Question 26

what does Cardioinhibitory center do

Answer 26

inhibits SA and AV nodes through parasympathetic fibers in the vagus nerves

Question 27

The vagus nerve

(parasympathetic does what

Answer 27

decreases heart rate

Question 28

Sympathetic cardiac

nerves does what

Answer 28

increase heart rate

and force of contraction

Question 29

Electrocardiogram (ECG or EKG

Answer 29

a composite of all the action potentials

Question 30

EKG three waves

Answer 30

P wave: depolarization of SA node
QRS complex: ventricular depolarization
T wave: ventricular repolarization
(go over pictures on powerpoint)

Question 31

EKG six steps

Answer 31

Depolarization of the Atria
Repolarization of the Atria
Septal Depolarization
Apical Depolarization
Late Left Ventricular Depolarization
Repolarization of the Ventricle

Question 32

Junctional rhythm.

Answer 32

p waves absent, weird t waves, look at pictures

Question 33

Second-degree heart block.

Answer 33

Some P waves are not conducted through the AV node; more P than QRS waves are seen

Question 34

Ventricular fibrillation

Answer 34

These chaotic, grossly irregular ECG

deflections are seen in acute heart attack and electrical shock.

Question 35

lub

Answer 35

First sound occurs as AV valves close and signifies beginning of systole

Question 36

dub

Answer 36

Second sound occurs when SL valves close at the beginning of ventricular diastole

Question 37

Heart murmurs

Answer 37

abnormal heart sounds most often indicative of valve problems

Question 38

Cardiac cycle

Answer 38

all events associated with blood flow through the heart during one complete heartbeat

Question 39

Systole

Answer 39

contraction

Question 40

diastole

Answer 40

relaxtion

Question 41

Phases of the Cardiac Cycle

Answer 41

Ventricular filling
Ventricular systole
Isovolumetric relaxation occurs in early diastole

Question 42

Ventricular filling

Answer 42

takes place in mid-to-late diastole
AV valves are open
80% of blood passively flows into ventricles
Atrial systole occurs, delivering the remaining 20%

Question 43

End diastolic volume (EDV

Answer 43

volume of blood in each ventricle at the end of ventricular diastole

Question 44

Ventricular systole

Answer 44

Atria relax and ventricles begin to contract
Rising ventricular pressure results in closing of AV valves
Isovolumetric contraction phase (all valves are closed)
In ejection phase, ventricular pressure exceeds pressure in the large arteries, forcing the SL valves open

Question 45

End systolic volume (ESV

Answer 45

volume of blood remaining in each ventricle

Question 46

Isovolumetric relaxation occurs in early diastole

Answer 46

Ventricles relax
Backflow of blood in aorta and pulmonary trunk closes SL valves and causes dicrotic notch (brief rise in aortic pressure)

Question 47

dont forget!!!

Answer 47

go over graphs

Question 48

Cardiac Output (CO

Answer 48

Volume of blood pumped by each ventricle in one minute

Question 49

CO =

Answer 49

heart rate (HR) x stroke volume (SV)

Question 50

heart rate

Answer 50

number of beats per minute

Question 51

stroke volume

Answer 51

volume of blood pumped out by a ventricle with each beat

Question 52

At rest

CO (ml/min)

Answer 52

HR (75 beats/min) × SV (70 ml/beat)

= 5.25 L/min

Question 53

Maximal CO

Answer 53

is 4–5 times higher than resting CO in nonathletic people

Question 54

Maximal CO may reach — in athletic people

Answer 54

35L/min in trained athletes

Question 55

Cardiac reserve:

Answer 55

difference between resting and maximal CO

Question 56

SV = formula

Answer 56

EDV – ESV

Question 57

Three main factors affect SV

Answer 57

Preload
Contractility
Afterload

Question 58

starlings law of the heart

Answer 58

the more the heart muscle is stretched before contraction (preload), the more forcefully the heart will contract

Question 59

Preload

Answer 59

degree of stretch of cardiac muscle cells before they contract

Question 60

cardiac muscle cells stretching

Answer 60

At rest, cardiac muscle cells are shorter than optimal length
Slow heartbeat and exercise increase venous return
Increased venous return distends (stretches) the ventricles and increases contraction force

Question 61

Contractility

Answer 61

contractile strength at a given muscle length, independent of muscle stretch and EDV

Question 62

Positive inotropic agents increase contractility

Answer 62

Increased Ca2+ influx due to sympathetic stimulation

Hormones (thyroxine, glucagon, and epinephrine)

Question 63

Negative inotropic agents decrease contractility

Answer 63

Acidosis
Increased extracellular K+
Calcium channel blockers

Question 64

Afterload

Answer 64

pressure that must be overcome for ventricles to eject blood

Question 65

what does hypertension increased afterload result in

Answer 65

resulting in increased ESV and reduced SV

Question 66

how do Positive and negative chronotropic factors affect heart rate

Answer 66

Positive chronotropic factors increase heart rate

Negative chronotropic factors decrease heart rate

Question 67

sympathetic nervous system is activated by

Answer 67

emotional or physical stressors

Question 68

what does Norepinephrine do

Answer 68

causes the pacemaker to fire more rapidly (and at the same time increases contractility)

Question 69

what does Acetylcholine do

Answer 69

Acetylcholine hyperpolarizes pacemaker cells by opening K+ channels

Question 70

at rest is the heart parasympathetic or sympathetic

Answer 70

The heart at rest exhibits vagal tone (parasympathetic)

Question 71

Atrial (Bainbridge) reflex:

Answer 71

a sympathetic reflex initiated by increased venous return

Question 72

Stretch of the atrial walls stimulates

Answer 72

the SAnode

Also stimulates atrial stretch receptors activating sympathetic reflexes

Question 73

what does Epinephrine do

Answer 73

enhances heart rate and contractility

Question 74

what does Thyroxine do

Answer 74

increases heart rate and enhances the effects of norepinephrine and epinephrine

Question 75

Other Factors that Influence Heart Rate

Answer 75

Age
Gender
Exercise
Body temperature
hormones
ions

Question 76

Tachycardia

Answer 76

abnormally fast heart rate (>100bpm)

Question 77

tachycardia can lead to

Answer 77

may lead to fibrillation if persistent

Question 78

Bradycardia

Answer 78

heart rate slower than 60bpm

Question 79

Bradycardia can lead to

Answer 79

May result in grossly inadequate blood circulation

May be desirable result of endurance training

Question 80

Congestive Heart Failure (CHF)

Answer 80

Progressive condition where the CO is so low that blood circulation is inadequate to meet tissue needs

Question 81

Congestive Heart Failure (CHF) caused by

Answer 81

Coronary atherosclerosis
Persistent high blood pressure
Multiple myocardial infarcts
Dilated cardiomyopathy (DCM)

Question 82

Age-Related Changes Affecting the Heart

Answer 82

Sclerosis and thickening of valve flaps
Decline in cardiac reserve
Fibrosis of cardiac muscle
Atherosclerosis

Question 83

systolic blood pressure

Answer 83

higher pressure measured during left ventricular systole when the aortic valve is open

Question 84

diastolic blood pressure

Answer 84

lower pressure measured during left ventricular diastole when the valve is closed

Question 85

normal blood pressure

Answer 85

about 120mm Hg systolic over 80 mmHg diastolic in healthy adult. females normally 10mmHg less `