Chapter 44: Circulatory System

Question 1

What is the circulatory system consist of?

Answer 1

heart, vessels, and fluid (blood) moving important molecules and cells from one tissue to anther

Question 2

What is the lymphatic system?

Answer 2

accessory system of vessels and organs that helps balance the fluid content of the blood and surrounding tissues and participates in the body’s defenses against invading disease organisms

ISF and always removing

Question 3

What type of animals can rely primarily on diffusion? ex?

Answer 3

very small or thin animals, ex) sponges, cnidarians, flatworms

Question 4

What is fluid?

Answer 4

a specialized medium carries cells, O2, nutrients, CO2 and wastes, and plays a major role in homeostasis

ex) blood

Question 5

What is the role of the heart?

Answer 5

the muscle that pumps fluid through the circulatory system

Question 6

What are vessels?

Answer 6

tubular vessels distribute the fluid pumped by the heart

Question 7

What type of circulatory system do sponges have?

Answer 7

water is pumped in through pores in the body wall and exits through a large, central cavity

Question 8

What type of circulatory system do cnidarians have?

Answer 8

have a central gastrovascular cavity with a mouth through which water enters and leaves

Question 9

Describe an open circulatory system?

Answer 9

vessels leaving the heart release bloodlike fluid
(hemolymph) directly into body spaces (sinuses) that surround organs – hemolymph reenters the heart through valves in the heart wall

blood and ISF combined

has valves to create directionality and stop back flow

Question 10

Describe and closed circulatory system?

Answer 10

the fluid (blood) is confined to blood vessels and is distinct from the interstitial fluid –substances are exchanged between blood and interstitial fluid, then between interstitial fluid and cells

capillary beds

Question 11

What is the design of the circulatory systems for invertebrates?

Answer 11

open circulatory systems with one or more muscular hearts

The more active insects and crustaceans have specialized air passages (tracheae) that aid in gas exchange

Question 12

What organisms have closed circulatory systems?

Answer 12

Annelids (earthworms) , cephalopod mollusks, and all vertebrates

Question 13

What part of the heart receives blood returning from the heart?

Answer 13

atria

Question 14

What part of the heart pumps blood from the heart?

Answer 14

ventricles

Question 15

Heart design of sharks and bony fishes?

Answer 15

one atrium and one ventricle

The ventricle pumps blood to capillaries of the gills, where blood releases CO2 and picks up O2

Oxygenated blood is delivered to capillary networks in other body tissues, where it delivers O2 and picks up CO2

Deoxygenated blood returns to the atrium in veins

Question 16

Heart design of turtles, lizards, and snakes?

Answer 16

2 atria and 1 ventricle

A flap of tissue in the ventricle (incomplete septum) keeps oxygenated and deoxygenated blood almost completely separate

The systemic circuit carries oxygenated blood to body tissues

The pulmonary circuit carries deoxygenated blood to the lungs

Question 17

Heart design of Crocodilians, birds, and mammals?

Answer 17

double heart consisting of two atria and two ventricles
—4 chambers

complete septum

Question 18

How much blood does the average adult human have?

Answer 18

4-5 L

Question 19

What percentage does plasma make up in the blood?

Answer 19

55-58%

Question 20

What is hematocrit?

Answer 20

the remaining solid (cellular) components

Question 21

Where do blood cells develop in humans?

Answer 21

develop in red bone marrow – primarily in the vertebrae, sternum, ribs, and pelvis

come from pluripotent stem cells

Question 22

What do pluripotent stem cells differentiate into?

Answer 22

myeloid and lymphoid stem cells

Question 23

What can myeloid stem cells become?

Answer 23

platelets, erythrocyte, basophil, eosinophil, neutrophil, monocyte/macrophage

Question 24

What can lymphoid stem cells become?

Answer 24

B lymphocyte and T lymphocyte

Question 25

What cells are in the bone marrow?

Answer 25

pluripotent stem cell, myeloid and lymphoid stem cells

Question 26

Function of blood?

Answer 26

transports cells and molecules

stabilizes pH and salt composition of body fluids

regulates body temperature by transferring heat

Question 27

What is blood plasma made of? (10)

Answer 27

mainly water (91-92%)
glucose and other sugars
amino acids
plasma proteins
dissolved gasses (O2, CO2, N2)
Ions (Na, K, Ca, Cl, HCO3)
lipids
vitamins
hormones
metabolic wastes (urea and uric acid)

Question 28

What are 3 examples of plasma proteins? where do they made?

Answer 28

albumins, globulins, fibrinogen

made in liver

Question 29

What are albumins?

Answer 29

important for osmotic balance and pH buffering

Question 30

What are globulins?

Answer 30

transport lipids and fat-soluble vitamins

Question 31

What are fibrinogens?

Answer 31

used in blood clotting

Question 32

Erythrocyte lifespan? nucleus?

Answer 32

120 days, mammal erythrocytes lose their nucleus

Question 33

What is hemoglobin?

Answer 33

Hemoglobin, which gives erythrocytes their red color, has four polypeptides, each linked to a heme group that contains a central iron atom The iron atom binds O2 molecules in the lungs and releases O2 in other body tissues

Question 34

How does carbon monoxide affect hemoglobin?

Answer 34

blocks and won’t hemoglobin’s ability to combine with O2 let go and can quickly lead to death

Question 35

How many erythrocytes are produced in the average human each second?

Answer 35

2-3 million

Question 36

What and where are erythrocytes destroyed by?

Answer 36

by macrophages in the spleen, liver, and bone marrow

Question 37

What is erythropoietin? (EPO)

Answer 37

stimulates stem cells in bone marrow to increase erythrocyte production

Question 38

What can anemia be caused by? problem it creates?

Answer 38

can also be produced by blood loss from a wound, by certain infections, lack of iron, or by dietary insufficiencies

too few or malfunctioning erythrocytes, which prevent O2 from reaching body tissues in sufficient amounts

Question 39

Do leukocytes retain their nuclei? ribosomes?

Answer 39

yes and yes

Question 40

What do platelets contain?

Answer 40

enzymes and other factors for blood clotting

Question 41

What is thrombin?

Answer 41

what platelets release that travels in the blood. It converts fibrinogen in to fibrin (sticky) to form a blood clot

Question 42

What are atrioventricular (AV) valves?

Answer 42

between atria and ventricles

Question 43

What are seminlunar (SL) valves?

Answer 43

between ventricles and arteries leaving the heart (aorta and pulmonary arteries

Question 44

What are the 2 circuits?

Answer 44

pulmonary and systemic

Question 45

Which organ is the first to receive oxygenated blood?

Answer 45

heart

Question 46

How does the heart receive its blood supply?

Answer 46

via coronary circulation

The aorta gives off two coronary arteries that branch extensively, leading to dense capillary beds that serve the cardiac muscle cells

The blood from the capillary networks collects into veins that empty into the right atrium

Question 47

What happens in systole?

Answer 47

ventricular contraction and emptying

Question 48

What happens in diastole?

Answer 48

relaxation and filling between contractions

Question 49

What makes up 1 heartbeat?

Answer 49

1 systole and 1 diastole

Question 50

What makes up the lub-dub sound?

Answer 50

first sound is the AV valves, the second is the SL valves

sounds come from closing of valves from ventricles

Question 51

What are heart murmurs?

Answer 51

are abnormal sounds produced by turbulence in blood when one or more valves fails to open or close completely and blood flows backward

Question 52

What type of pressure occurs in the blood vessels?

Answer 52

hydrostatic pressure

Question 53

What is the difference between neurogenic and myogenic hearts?

Answer 53

the nervous system controls the heart beats in neurogenic hearts

myogenic hearts can produce heart beats by themselves

Question 54

What animals have neurogenic hearts? myogenic hearts?

Answer 54

some crustaceans

myogenic: insects and vertebrates

Question 55

What does the sinoatrial node (SA node) do?

Answer 55

coordinates contractions of individual cardiac muscle cells, made of pacemaker cells

Question 56

What are pacemaker cells? types of channels used for depolarization?

Answer 56

specialized cells in the upper wall of the right atrium

ion/leak channels

Question 57

Does the vena cava have valves?

Answer 57

nope

Question 58

What does the atrioventricular node (AV node) do? location?

Answer 58

Cells of the AV node are excited by the atrial wave of contraction, generating a signal that travels to the bottom of the heart via Purkinje fibers

A short delay in transmission from AV node to ventricles allows atria to finish contraction before ventricles contract

located in the heart wall between the right atrium and right ventricle

Question 59

know eeg

Answer 59

okay

Question 60

What are the three layers of the artery walls?

Answer 60

􏰀 An outer layer of connective tissue containing collagen and elastin fibers, which gives the vessel recoil ability

􏰀 A relatively thick middle layer of vascular smooth muscle cells, also mixed with elastin fibers

􏰀 A thin inner layer of flattened cells (endothelium)

Question 61

What is the structure of a capillary wall?

Answer 61

Capillary walls consist of a single layer of endothelial cells through which gases, nutrients, and wastes are exchanged with the interstitial fluid

Question 62

What is a precapillary sphincter?

Answer 62

A small ring of smooth muscle at the junction between an arteriole and a capillary adjusts the rate of flow through the capillary networks

Question 63

If the resistance to blood flow in capillaries high or low? what does this cause?

Answer 63

high, so blood slows down allowing maximum time for exchange of substances between blood and tissues

Question 64

What can freely move between blood and ISF?

Answer 64

water, ions, small molecules (glucose), leukocytes

Question 65

What cannot freely move between blood and ISF?

Answer 65

erythrocytes, platelets, and plasma proteins

Question 66

What are the 2 major mechanisms drive exchange of molecules and ions between capillaries and interstitial fluid?

Answer 66

(1) diffusion along concentration gradients

(2) bulk flow

Question 67

Where is diffusion greatest?

Answer 67

Total diffusion is greatest near the arterioles, where the concentration differences between blood plasma and interstitial fluid are highest

Question 68

How does bulk flow work? highest?

Answer 68

Bulk flow carries water, ions, and molecules out of the capillaries through spaces between capillary endothelial cells

driven by blood pressure, which is higher than the pressure of the interstitial fluid

greatest near the arterioles, where the pressure difference is highest

Question 69

What happens to the valves in the veins when muscles contract?

Answer 69

valves open and blood returns to heart

Question 70

What can a lack of skeletal muscle activity can lead to?

Answer 70

blood clots (deep vein thrombosis)

Question 71

What is the difference between an ischemic stroke and hemorrhagic stroke?

Answer 71

ischemic stroke is an area deprived of blood and hemorrhagic stroke is an area of bleeding in the brain

Question 72

What are the 3 main mechanisms for regulating blood pressure?

Answer 72

1. controlling cardiac output,
2. degree of constriction of blood vessels (primarily arterioles),
3. total blood volume

Question 73

What are baroreceptors? pathways used?

Answer 73

Baroreceptors in the cardiac muscle, aorta, and carotid arteries
constantly provide information about blood pressure

Signals from baroreceptors go to the medulla in the brain stem – the brain stem sends signals via the autonomic nervous system that adjust the rate and force of the heartbeat

Question 74

What can vasodilation be caused by?

Answer 74

low O2 and CO2 (exercising), NO

Question 75

Purpose of lymphatic system?

Answer 75

collects excess interstitial fluid (lymph) and returns it to the venous blood

also collects fats that have been absorbed from the small intestine and delivers them to the blood circulation

key part of immune system

Question 76

What tissues and organs make up the lymphatic system?

Answer 76

lymph nodes, spleen, thymus, and tonsils

Question 77

How does the lymphatic system work in the immune system?

Answer 77

These filter viruses, bacteria, damaged cells, and cellular debris from the lymph and bloodstream, and help defend the body against infection and cancer

Question 78

What do lymph nodes contain?

Answer 78

macrophages and leukocytes

Question 79

What do lymphatic vessels allow in?

Answer 79

everything

Question 80

Pathway for lymphatic vessel? how can you help this movement?

Answer 80

Lymph vessels lead to the thoracic duct and the right lymphatic duct, which empty the lymph into a vein beneath the clavicles (collarbones)

Movements of skeletal muscles and breathing movements help move the lymph through the vessels