Cardiovascular System and Blood

Question 1

Vascular tissue

Answer 1

aka blood

Question 2

What makes up blood

Answer 2

blood cells surrounded by fluid matrix (blood plasma)

Question 3

blood fibers

Answer 3

soluble proteins that are only apparent during blood clotting

Question 4

blood functions

Answer 4

transports nutrients, wastes, respiratory gases, and other substances throughout the body

Question 5

physical characteristics of blood

Answer 5

sticky opaque fluid with metallic taste
-color varies (scarlet means o2 rich, dull red means o2 poor)
-heavier than water, 5x more viscous
-alkaline w/ pH b/w 7.35 and 7.45
Temp is higher than body temp slightly
-accounts for 8% of body weight

Question 6

What components make up the blood

Answer 6

erythrocytes
luekocytes
platelets
plasma

Question 7

erythrocytes

Answer 7

RBC
transport o2
normal count is 5 million/mm3
when rbc increases, blood viscosity increases, vice versa

Question 8

leukocytes

Answer 8

WBC
protect
only complete cell in blood (contain both nuclei and organelles)
typical count is 4,000 to 11,000 per mm3

Question 9

platelets

Answer 9

cell fragments(megakaryocytes) for blood clotting
normal count is 300,000/mm3

Question 10

percentage blood composition

Answer 10

45% erythrocytes
55% plasma
<1% RBC and platelets

Question 11

hematocrit

Answer 11

percentage of RBC in blood

Question 12

plasma

Answer 12

• 90% water w/ other substances
• most plasma proteins made by liver and serve various functions
• albumin
• clotting proteins
• antibodies

Question 13

albumin

Answer 13

maintains osmotic pressure (water in bloodstream)

Question 14

clotting proteins

Answer 14

stops blood loss from injury

Question 15

antibodies

Answer 15

protects body from pathogens

Question 16

Direct Cause: Decrease in RBC number
Resulting From: sudden hemorrhage, lysis of rbcs as a result of bacterial infections, lack of vitamin b12, depression/destruction of bone marrow by cancer, radiation, or certain medications
Leading To….

Answer 16

• Hemorrhagic anemia
• hemolytic anemia
• pernicious anemia
• aplastic anemia

Question 17

Direct Cause: Inadequate hemoglobin content in rbcs
Resulting From: Lack of iron in diet or slow/prolonged bleeding
Leading to…

Answer 17

iron-deficiency anemia

Question 18

Direct cause: abnormal hemoglobin in rbcs
Resulting from: genetic defect leads to abnormal hemoglobin
leading to….

Answer 18

sickle-cell anemia

Question 19

polycythemia

Answer 19

abnormal increase in rbcs

• can be a result of bone marrow cancer of can occur from living at high altitudes where air is thin and o2 is less available
• blood is extremely viscous, limiting flow and circulation

Question 20

diapedesis

Answer 20

move into and out of blood vessels (leukocytes)

Question 21

leukocytosis

Answer 21

wbc count above 11,000 mm3

-happens during bacterial or viral infection

Question 22

leukopenia

Answer 22

abnormally low wbc

-certain drugs cause this (corticosteroids and anti cancer agents)

Question 23

leukemia

Answer 23

bone marrow becomes cancerous, causes huge number of wbcs to form rapidly

• new wbcs are immature and can’t carry out normal protective functions
• body becomes easy prey for disease-causing bacteria and viruses

Question 24

WBC classification

Answer 24

• granulocytes
• neutrophils
• eosinophils
• basophils
• agranulocytes
• lymphocytes
• monocytes

Question 25

granulocytes

Answer 25

granule-containing wbcs

have lobed nuclei

Question 26

neutrophils

Answer 26

phagocytes for acute infections

Question 27

eosinophils

Answer 27

allergies and infections by parasitic worms

Question 28

basophils

Answer 28

contains inflammatory chemical (histamine) to trigger presence of wbc

Question 29

lymphocytes

Answer 29

immune response in lymphatic tissue (B-produces antibodies;t-graft rejection, fights tumors and viruses, activates B)

Question 30

agranulocytes

Answer 30

lack cytoplasmic granules

Question 31

monocytes

Answer 31

macrophage against chronic infections

Question 32

hematopoiesis

Answer 32

blood cell formation

-occurs in red bone marrow

Question 33

where does hematopoiesis occur in adults

Answer 33

flat bones of skull, pelvis, ribs, sternum, and epiphyses of humerus and femur

Question 34

where does hematopoiesis occur in children

Answer 34

diaphysis of long bones

Question 35

hemocytoblasts

Answer 35

blood stem cells

-can form lymphoid stem cell or myeloid stem cell

Question 36

lymphoid stem cell

Answer 36

forms lymphocytes

Question 37

myeloid stem cell

Answer 37

forms all other formed elements

Question 38

creation of rbc

Answer 38

rbcs continue to divide, so large production of hemoglobin

• when enough hemoglobin is produced, organelles are ejected out and cell collapses inward (produces reticulocyte-contains ER)
• w/in 2 days, eject remaining ER and become fully functional

Question 39

what controls rate of hematopoiesis

Answer 39

erythropoietin

Question 40

hemostasis

Answer 40

stoppage of blood flow

Question 41

3 major phases of hemostasis

Answer 41

1. platelet plug forms
2. vascular spasms occur
3. coagulation occurs

Question 42

thromboplastin

Answer 42

clotting factor

Question 43

undesirable clotting

Answer 43

• thrombus

- embolus

Question 44

thrombus

Answer 44

clot that develops and persists in an unbroken blood vessel

Question 45

embolus

Answer 45

clot that breaks away from the vessel wall and floats freely in the blood stream

Question 46

bleeding disorders

Answer 46

thrombocytopenia

-hemophilia

Question 47

thrombocytopenia

Answer 47

results from insufficient platelets causing numerous small bleedings

Question 48

hemophilia

Answer 48

hereditary bleeding disorders that result from lack of needed clotting factors

Question 49

Antigen

Answer 49

foreign substance in the body

Question 50

agglutination

Answer 50

clogging of small blood vessels

occurs when blood is transfused with different antigens

Question 51

Rh blood groups

Answer 51

• rh+ carries rh antigen

- rh- does not carry rh antigen

Question 52

development of blood

Answer 52

before birth, hematopoiesis occurs in many areas

• by birth, hematopoiesis occurs in red marrow
• after birth, fetal rbcs are replaced by mature rbcs
• increasing ages are at more risk for leukemias, anemias, and blood clot disease

Question 53

anatomy of heart(location)

Answer 53

• size of a person’s fist
• weighs less than a pound
• apex points to left hip, resting on diaphragm between each lung
• base points to the right shoulder and lies beneath second rib

Question 54

coverings of heart

Answer 54

• enclosed by pericardium

- serous fluid is produced to help heart beat in frictionless environment

Question 55

parietal pericardium

Answer 55

loosely around base of heart, reinforced by dense connective tissue
-used for protection and anchorage

Question 56

3 layers of heart wall

Answer 56

endocardium
myocardium
epicardium

Question 57

pulmonary circuit

Answer 57

superior and inferior vena cava receive o2 poor blood that empties into the right atrium thru right ventricle, thru the tricuspid valve to the pulmonary arteries

Question 58

systemic circtuit

Answer 58

blood pumps out of heart into aorta supplying blood to all tissues of the body
-o2 poor blood enters back to right atrium thru systemic veins and empty into vena cava

Question 59

valves

Answer 59

allow blood to flow one direction

Question 60

Atrioventricular valves

Answer 60

located between atrial and ventricular chambers

• open during heart relaxation
• close when ventricles contract

Question 61

chordae tendinae

Answer 61

heart strings

-close valves when BP increases inside ventricles

Question 62

semilunar valves

Answer 62

guard bases of two large arteries leaving ventricular chambers

• each have 3 flaps
• closed during heart relaxation
• forced open when ventricles contract

Question 63

cardiac circulation

Answer 63

coronary arteries supply o2 to myocardium

-cardiac veins drain myocardium, emptying into coronary sinus, which empties into right atrium

Question 64

different portions of heart beat separately

Answer 64

atrial 60 bpm

ventricular 20-40 bpm

Question 65

intrinsic conduction system

Answer 65

composed of special tissue crossed between muscle and nervous tissue

• causes heart muscle depolarization in one direction
• enforces contraction rate (75 bpm)
• Impulse spreads from SA node to AV node

Question 66

SA node

Answer 66

sinoatrial node

pacemaker

Question 67

av node

Answer 67

atrioventricular node

Question 68

AV node damage leads to…

Answer 68

release ventricles from control of sa node, causing ventricles to beat at own rate

Question 69

sa node damage leads to..

Answer 69

slower heart rate

Question 70

ischemia

Answer 70

lack of adequate blood supply to heart

leads to fibrillation

Question 71

fibrillation

Answer 71

rapid uncoordinated shuddering in heart muscles

Question 72

tachycardia

Answer 72

rapid heart rate over 100 bpm

Question 73

bradycardia

Answer 73

slow heart rate less than 60 bpm

Question 74

systole

Answer 74

ventricle contraction of heart

Question 75

diastole

Answer 75

ventricle relaxation of heart

Question 76

cardiac cycle

Answer 76

all events of one complete heartbeat

approx .8 sec

Question 77

3 phases of cardiac cycle

Answer 77

1. mid-to late diastole
2. ventricular systole
3. early diastole

Question 78

Cardiac output

Answer 78

amount of Blood pumped out by each side of heart in1 minute

-determined by heart rate and stroke volume

Question 79

stroke volume

Answer 79

volume of blood pumped by ventricle with each heartbeat

Question 80

congestive heart failure

Answer 80

pumping efficiency of heart is depressed so circulation is inadequate
-reflects weakening of heart by athersclerosis, hypertension, or multiple MIs

Question 81

3 tunics of blood vessels

Answer 81

• tunica interna
• tunica media
• tunica externa

Question 82

arterior walls

Answer 82

thicker tunica media to withstand high pressure

Question 83

lumens of veins

Answer 83

larger, more skeletal muscle activity, respiratory pump due to low BP

Question 84

Capillaries

Answer 84

only have tunica media for gas exchange efficiency

Question 85

arterial pulse locations

Answer 85

brachial artery
radial
popliteal
posterior tibial
temporal
facial
carotid
femoral
dorsalis pedis

Question 86

Blood pressure

Answer 86

pressure blood exerts against inner walls of vessels, keeping blood circulating continuously even between heartbeats
-uses auscultatory method

Question 87

factors on bp

Answer 87

relies on cardiac output and peripheral resistance

Question 88

peripheral resistance

Answer 88

amount of friction encountered by blood as it flows thru vessels

Question 89

normal systolic pressure

Answer 89

b/w 110-140 mm Hg

Question 90

normal diastolic

Answer 90

75-80 mm Hg

Question 91

hypotension

Answer 91

systolic <100

Question 92

orthostatic hypotension

Answer 92

dizziness when rising

Question 93

hypertension

Answer 93

140/90 or higher

Question 94

development of cardiovascular system

Answer 94

heart begins as neural tube

• beats by 4th week of pregnancy
• by 7th week, becomes 4 chambered heart w/ shunted lungs and liver
• at birth, shunts become blocked, heart function begins
• as we age, venous valves weaken, varicose veins, progressive athersclerosis
• at least 30% of pop have hypertension by 50
• heart diseases caused death in more than half pop 65+

Question 95

Pericarditis

Answer 95

What: inflammation of pericardium
Cause: decrease in serous fluid
Complication: adhesions in heart wall

Question 96

Incompetent Valve

Answer 96

What: allows blood to leak back into previous chamber
Cause: heartstrings not working, issues contracting, congenital
Complication: backflow of blood, poor circulation

Question 97

Valvular Stenosis

Answer 97

What: stiffening of valve
Cause: multiple bacterial infections
Complication: need valve replacement

Question 98

Myocardial infarction

Answer 98

What: heart attack
Cause: one or more coronary arteries become blocked, overuse, stress, poor diet
Complication: death, weakening of heart

Question 99

athersclerosis

Answer 99

What: clogging of vessels
Cause: cholesterol and fat deposits
Complication: heart disease of any kind, aneurysms

Question 100

murmur

Answer 100

What: abnormal sounds
Cause: thin heart walls
Complication: valve replacement, bp issues, heart attack

Question 101

congestive heart failure

Answer 101

What: weakens b/c of overuse
Cause: athersclerosis, hypertension, poor diet, poor exercise
Complication: pulmonary edema and suffocation or edema in body, heart failure

Question 102

thrombophlebitis

Answer 102

What: clot in a vessel that can’t get out
Cause: increased blood viscosity clot already there
Complication: pulmonary embolism, suffocation