Need to Work on for Test

Question 1

Intravascular Clotting

Answer 1

Thrombosis and Embolism

Question 2

Three Hemostatic Mechanisms

Answer 2

Platelet Plug
Vasoconstriction
Blood clotting

Question 3

Second Stage of Clotting

Answer 3

Prothrombin + Prothrombin Activator = Thrombin

Question 4

Fourth Stage of Clotting

Answer 4

Fibrin + Factor XIII = Fibrin Polymer

Question 5

Thrombosis

Answer 5

Formation of a clot in an unbroken blood vessel

Question 6

Rh Plasma

Answer 6

Does not contain anti-Rh unless exposed as a fetus

Question 7

Platelets/Thrombocytes

Answer 7

Aid in clotting
130,000-400,000
2nd most abundant

Question 8

Myocardium

Answer 8

Muscular portion

Contracts in a spiral motion

Question 9

Neutrophils

Answer 9

Most abundant (60-70%)
Increase during bacterial infections

Question 10

Fibrous Pericardium

Answer 10

CT membrane

Outer layer

Question 11

Intrinsic

Answer 11

Factor VII activates Factor X

Question 12

Eosinophils

Answer 12

2-4%

Increase during parasitic infections

Question 13

Extrinsic

Answer 13

Factor III + Factor VII + Ca++ = Factor X

Question 14

Lymphocytes

Answer 14

25-33%

B Cells and T Cells

Question 15

Basophils

Answer 15

0.5%

Release heparin and histamine

Question 16

Monocytes

Answer 16

3-8%
Antigen-presenting cells
Macrophages
Increase in viral infections and inflammation

Question 17

Myeloid Leukocytes

Answer 17

Granulocytes

Question 18

Three Features of Intercalated Discs

Answer 18

Interdigitating folds
Mechanical junctions
Electrical junctions

Question 19

Premature Ventricular Contraction

Answer 19

QRS inverted

Common in college students

Question 20

Action Potential of Ventricular Cardiocyte

Answer 20

Na channels open
Na depolarizes membrane
Na closes and voltage peaks at 30mV
Ca enters and causes a plateau
Ca closes and K repolarizes

Question 21

Left Coronary Artery

Answer 21

Anterior Interventricular Artery

Circumflex Artery

Question 22

Pacemaker Physiology

Answer 22

Slow leak Na enters
Ca opens at -40mV
K channels open at 0mV
Repeat once polarization is complete

Question 23

Right Coronary Artery

Answer 23

Posterior Interventricular Artery

Marginal Artery

Question 24

Myocardial vs. Skeletal

Answer 24

Skeletal: voluntary, excitation coupling
Myocardial: involuntary, SA node

Question 25

Heart Block

Answer 25

Conduction is weak through AV bundle

Question 26

Similarities Between Myocardial and Skeletal

Answer 26

Striated
Z-discs
Tropomyosin and troponin

Question 27

Conduction System of the Heart

Answer 27

SA node fires
Excitation through atrial myocardium
AV node fires
Excitation travels down AV bundle
Purkinje fibers distribute

Question 28

Electrical Activity

Answer 28

Atria depolarize (P)
Depolarization complete
Ventricles depolarize while atria repolarize (QR)
Ventricular depolarization is complete (S)
Ventricles repolarize (T)
Repolarization ocmplete

Question 29

Structure of Cardiac Muscle

Answer 29

Cardiocytes
Intercalated discs
T-tubules
Fatty acids as fuel, glucose at rest

Question 30

Intercalated Discs

Answer 30

Join all cardiac cells

Question 31

Atrial Fibrillation

Answer 31

Atria quiver

Common in elderly

Question 32

Ventricular Fibrillation

Answer 32

Heart cannot pump
Irregular waves of depolarization
Most serious

Question 33

Parasympathetic

Answer 33

Decreases HR

Bradycardia

Question 34

Ventricular Diastole (value)

Answer 34

30mL

Question 35

Nerve Supply to Heart

Answer 35

Autonomous: Intrinsic Rate
Sympathetic and parasympathetic
Additional input from CNS

Question 36

Conducting Arteries

Answer 36

Largest

Main highways

Question 37

Cardiac Reserve

Answer 37

Difference between maximum output and output at rest

Question 38

Distributing Arteries

Answer 38

Distribute blood to specific organs

Question 39

Continuous Capillaries

Answer 39

Intercellular Clefts

Allow glucose, ions, and amino acids

Question 40

Small Vessels

Answer 40

Resistance vessels

Neighborhoods

Question 41

Fenestrated Capillaries

Answer 41

Holes to allow passage of H2O, retains proteins

Question 42

Sinusoids

Answer 42

Many fenestrations

Allow clotting factors to enter circulation

Question 43

Autonomic Regulation

Answer 43

Sympathetic originates in cervical–thoracic

Speeds up heart

Question 44

Parasympathetic

Answer 44

Originates in vagus nerve in medulla oblongata

Slows the heart

Question 45

Ventricular Diastole

Answer 45

Ventricular filling
Atrial filling
Atrial systole

Question 46

Stroke Volume

Answer 46

Volume ejected per beat

EDV-ESV

Question 47

End Systolic Volume (value)

Answer 47

50-60mL

Question 48

Ejection Fraction

Answer 48

Blood at beginning of systole ejected during systole

SV/EDV

Question 49

Atrial Systole (value)

Answer 49

40mL

Question 50

Afterload

Answer 50

Pressure that must be overcome in order to open semilunar valves

Question 51

Stroke Volume (value)

Answer 51

70mL

Question 52

Veins

Answer 52

Lower BP
Reservoirs for blood
Accommodate increased volume

Question 53

Venous Sinuses

Answer 53

No smooth muscle

Question 54

Varicose Veins

Answer 54

Caused by leaky venous valves

Pooling of blood

Question 55

Portal System

Answer 55

Blood flows to two consecutive capillary networks before returning to the heart

Question 56

Venous Anastomosis

Answer 56

Most common blockage
Less serious
Alternative drainage of organs

Question 57

Arterial Anastomosis

Answer 57

Collateral circulation (coronary)

Question 58

Venous Constriction

Answer 58

Constriction of veins during muscular activity or hemorrhage

Increased venoconstriction = increased preload, stroke volume, and cardiac output

Question 59

Capillary Exchange

Answer 59

Only occurs across capillary walls between blood and surrounding tissues

Question 60

Three Routes of Capillary Exchange

Answer 60

Intercellular clefts
Fenestrations
Through cytoplasm

Question 61

Mechanisms Involved in Capillary Exchange

Answer 61

Diffusion
Transcytosis
Filtration and reabsorption

Question 62

Filtration

Answer 62

BP drives fluid out of capillary

High on arterial side, low on venous side

Question 63

Reabsorption

Answer 63

Colloid osmotic pressure draws fluid into capillary
Same on both ends
Results from plasma proteins

Question 64

Oncotic Pressure

Answer 64

Net colloid osmotic pressure

Question 65

Dynamics of Capillary Exchange

Answer 65

Provides tissue with nutrients

Question 66

Net Filtration

Answer 66

20L/day at arterial end

Question 67

Net Reabsorption

Answer 67

17L/day at venous end

Question 68

Starling’s Law of Capillaries

Answer 68

Volume of fluid and solutes reabsorbed is almost as large as the volume filtered

Question 69

Net Filtration Pressure

Answer 69

Determines whether fluids leave or enter capillaries

Question 70

Net Outward Pressure

Answer 70

10mmHg at arterial end

Question 71

Net Inward Pressure

Answer 71

9mmHg at venous end

Question 72

Edema

Answer 72

Buildup of fluid

Not noticeable until 30% above normal

Question 73

Result of Excess Filtration

Answer 73

Increased BP and increased permeability of capillaries allow plasma proteins to escape

Question 74

Result of Inadequate Reabsorption

Answer 74

Decreased concentration of plasma proteins lowers blood colloid osmotic pressure
Inadequate synthesis or loss from liver disease, burns, malnutrition, or kidney disease

Question 75

Causes of Edema

Answer 75

Poor venous return
Kidney failure
Histamine makes capillaries more permeable
Obstructed lymphatic drainage

Question 76

Consequences of Edema

Answer 76

Circulatory shock

Tissue necrosis

Question 77

Vasoconstriction

Answer 77

Sympathetic stimulation of arterial alpha receptors

Decreases diameter, increases BP

Question 78

Vasodilation

Answer 78

Sympathetic stimulation of beta receptors

Increases diameter, promotes blood flow

Question 79

Factors Affecting Circulation

Answer 79

Pressure differences that drive blood flow
Resistance to flow
Venous return

Question 80

Blood Flow

Answer 80

Amount of blood flowing through a vessel at any given time

Question 81

Perfusion

Answer 81

Rate of blood flow per given mass of tissue

Question 82

Flow Equation

Answer 82

Delta P/R

Question 83

Resistance Equation

Answer 83

1/r^4

Question 84

Blood Flow Equation

Answer 84

r^4