Circulatory System 1

Question 1

What does “cardiovascular” refer to?

Answer 1

The heart (“cardio”) and blood vessels (“vascular”).

Question 2

What is the main function of the heart in the circulatory system?

Answer 2

The heart pushes blood through the circulatory system via its constant pumping action.

Question 3

What are some functions of blood as it travels through the body?
Answer:

Answer 3

Carrying substances to cells (e.g., O2, nutrients, hormones)

Carrying substances away from cells (e.g., CO2, wastes).

Regulating the acid-base balance in the body through the use of buffers.

Regulating body temperature by absorbing heat internally and releasing it peripherally (i.e., in the skin).

Helping defend against disease (e.g., WBCs, antibodies).

C.C.R.R.H

Question 4

What are the three basic layers of most blood vessels?

Answer 4

Tunica externa - composed of connective tissue.

Tunica media - consists of smooth muscle and elastic connective tissue.

Tunica interna - made up of epithelial tissue.

Question 5

Tunica externa

Answer 5

composed of connective tissue.

Question 6

Tunica media

Answer 6

consists of smooth muscle and elastic connective tissue.

Question 7

Tunica interna

Answer 7

made up of epithelial tissue.

Question 8

How do slight differences in the composition and thickness of these layers affect blood vessels?

Answer 8

Slight differences in the composition and thickness of these layers account for the functional differences between the different types of blood vessels.

Question 9

What is the primary difference between different types of blood vessels?

Answer 9

In general, the thickness and composition of the tunica media are the primary differences between different types of blood vessels.

Question 10

How are contractions of smooth muscle within the tunica media used?

Answer 10

Contractions of the smooth muscle within the tunica media are used to regulate the diameter of the blood vessels and therefore the distribution of blood to different regions and tissues in the body.

Question 11

Define vasoconstriction and vasodilation.

Answer 11

Vasoconstriction: Refers to a decreased blood vessel diameter resulting from smooth muscle contraction.

Vasodilation: Refers to an increased blood vessel diameter resulting from smooth muscle relaxation.

Question 12

Elastic connective tissue within blood vessel:

Answer 12

allows the blood vessel to stretch and recoil as the pressure within it fluctuates

Question 13

What types of vessels usually contain oxygenated blood?

Answer 13

Arteries and arterioles usually contain oxygenated blood.

Question 14

What types of vessels usually contain deoxygenated blood?

Answer 14

Venules and veins usually contain deoxygenated blood.

Question 15

What is the composition of blood in capillaries?

Answer 15

Capillaries contain a mixture of oxygenated and deoxygenated blood.

Question 16

purpose of arteries:

Answer 16

Carry blood away from the heart

Question 17

arteries have relatively ___ ___ (compared to veins).

Answer 17

Have relatively thick walls (compared to veins)

Question 18

What is the primary reason for the thick walls of arteries?

Answer 18

The thick walls of arteries are primarily due to their thick tunica media, which allows for an increased ability to stretch with each heartbeat.

Question 19

What is the composition of the tunica media in large arteries close to the heart?

Answer 19

The tunica media of large arteries close to the heart contains an abundance of elastic tissue.

Question 20

How does the composition of the tunica media in large arteries affect blood pressure?

Answer 20

The elastic tissue in the tunica media of large arteries allows these vessels to expand and recoil with each heartbeat, thereby increasing the pressure of the blood being propelled away from the heart.

Question 21

What is the composition of the tunica media in medium-sized arteries branching off from large arteries?

Answer 21

The tunica media of medium-sized arteries branching off from large arteries contains an abundance of smooth muscle.

Question 22

What are elastic arteries?

Answer 22

Elastic arteries are the larger arteries of the body, such as the aorta and its major branches, the pulmonary trunk.

Question 23

What is the predominant tissue in the tunica media of elastic arteries?

Answer 23

The tunica media of elastic arteries is predominantly elastic connective tissue.

Question 24

How do elastic fibers in elastic arteries contribute to blood flow?

Answer 24

The recoil of elastic fibers in elastic arteries helps propel blood away from the heart.

Question 25

What are muscular arteries?

Answer 25

Muscular arteries are medium-sized arteries.

Question 26

What is the predominant tissue in the tunica media of muscular arteries?

Answer 26

The tunica media of muscular arteries is predominantly smooth muscle.

Question 27

What advantage does the abundance of smooth muscle in muscular arteries provide?

Answer 27

The abundance of smooth muscle in muscular arteries allows for more control of blood flow.

Question 28

What are arterioles?

Answer 28

Arterioles are small blood vessels that connect arteries to capillaries.

Question 29

What is the primary function of the smooth muscle in the tunica media of arterioles?

Answer 29

The smooth muscle in the tunica media of arterioles is used to tightly regulate the amount of blood entering capillaries.

Question 30

what do arteries give rise to?

Answer 30

arterioles

Question 31

Describe the scenario depicted in the left image. (slide 10)

Answer 31

In the left image, all precapillary smooth muscle sphincters are relaxed, allowing blood to distribute fully through the entire capillary bed.

Question 32

Describe the scenario depicted in the right image. (slide 10)

Answer 32

In the right image, some of the precapillary sphincters are contracted, preventing blood from being distributed to certain portions of the capillary bed.

Question 33

What are capillaries?

Answer 33

Capillaries are very small, highly-branched blood vessels that form networks among the individual cells of the body.

Question 34

What is unique about the structure of capillaries compared to other blood vessels?

Answer 34

Capillaries do not contain a tunica externa or tunica media. Their walls are so thin that they allow the exchange of substances between the blood and surrounding cells.

Question 35

What are venules?

Answer 35

Venules are small veins that collect deoxygenated blood from capillary beds and start transporting it back to the heart.

Question 36

What is the primary function of veins?

Answer 36

Veins carry blood to the heart.

Question 37

How do the walls of veins compare to those of arteries?

Answer 37

Veins have relatively thin walls compared to arteries.

Question 38

What prevents veins from collapsing?

Answer 38

Veins would essentially collapse if they were not filled with blood.

Question 39

What are the mechanisms that assist the flow of blood through veins?

Answer 39

1. Pumping action of the heart.
2. Valves projecting into the interior that prevent the backflow of blood.
3. “Skeletal muscle pump” – contraction of skeletal muscles compresses the veins of the upper and lower limbs.
4. “Respiratory pump” – fluctuations in abdominal cavity pressure during respiration compress abdominal veins.

“Pumping, Valves, Skeletal muscles, Respiratory Pump.”

Question 40

What can happen if valves in veins fail?

Answer 40

If valves in veins fail, it can allow blood to pool in certain regions, such as the lower limbs, leading to distension and twisting of veins, a condition known as varicose veins.

Question 41

What is Deep Vein Thrombosis (DVT)?

Answer 41

DVT is when a clot (thrombus) forms in a deep vein, most commonly in the lower limbs.

Question 42

What are some risk factors for DVT?

Answer 42

Risk factors for DVT include trauma, long periods of immobilization (e.g., flights, casts), and certain drugs (e.g., HRT, oral contraceptives).

Question 43

What are the symptoms of DVT?

Answer 43

Symptoms of DVT (if present) include swelling/warmth, local pain/tenderness, and distension of superficial veins.

Question 44

What is Pulmonary Embolism (PE)?

Answer 44

PE occurs when a clot (embolus) detaches and gets trapped within blood vessels, such as the pulmonary artery.

Question 45

What are some symptoms of PE?

Answer 45

Symptoms of PE include chest pain, shortness of breath, and cyanosis.

Question 46

What are the potential consequences of severe cases of PE?

Answer 46

Severe cases of PE can affect both the right side (increased pressure) and left side (decreased ejection) of the heart, potentially leading to cardiac arrest and death.

Question 47

Why is the amount of blood contained within the systemic veins greater than the blood contained within all other types of blood vessels in the body?

Answer 47

The amount of blood contained within the systemic veins is greater due to the sheer number of systemic veins compared to other types of blood vessels in the body.

Question 48

what is the distribution of blood?

Answer 48

9% pulmonary vessels
7% heart
13% systemic arteries and arterioles
7% systemic capillaries
64% systemic veins and venules (blood reservoirs)

Question 49

What is Blood Pressure (BP)?

Answer 49

Blood Pressure (BP) is the pressure exerted on blood vessel walls by the blood.

Question 50

What does Systolic BP represent?

Answer 50

Systolic BP represents the pressure on arterial walls during ventricular contraction.

Question 51

What does Diastolic BP represent?

Answer 51

Diastolic BP represents the pressure on arterial walls during ventricular relaxation

Question 52

How does blood pressure change through the circulatory system?

Answer 52

Blood pressure progressively decreases through the circulatory system as the distance from the left ventricle increases.

Question 53

120/80 mmHg

Answer 53

Systolic BP = 120 mmHg
Diastolic BP = 80 mmHg

Question 54

“mmHg”

Answer 54

The pressure exerted by 1mm of mercury

Question 55

What regulates cardiovascular function?

Answer 55

Various feedback systems, including neural and endocrine mechanisms.

Question 56

Where is the cardiovascular (CV) center located?

Answer 56

The cardiovascular (CV) center is located in the medulla oblongata of the brainstem.

Question 57

How does the CV center regulate cardiovascular function?

Answer 57

The CV center receives input from various sources and relays output signals to the heart and blood vessels via the autonomic nervous system (ANS).

Question 58

What are some sources of input to the cardiovascular center?

Answer 58

Input to the cardiovascular center comes from various sources, including barrel receptors in the blood vessel walls and higher brain centers.

Question 59

How does the cardiovascular center provide parasympathetic output?

Answer 59

The cardiovascular center provides parasympathetic output via connections with the vagus nerve.

Question 60

How does the cardiovascular center provide sympathetic output?

Answer 60

The cardiovascular center provides sympathetic output via connections with the thoracolumbar spinal cord segments.

Question 61

What are the targets of the outputs from the cardiovascular center?

Answer 61

The targets of these outputs are the cardiac muscle within the heart walls and the smooth muscle within the walls of blood vessels.

Question 62

What is the Baroreceptor Reflex?

Answer 62

a neural negative feedback system.

Question 63

What serves as the input for the Baroreceptor Reflex?

Answer 63

Baroreceptors in the arch of the aorta and carotid arteries send sensory signals to the cardiovascular (CV) center via Cranial Nerve IX (carotids) and Cranial Nerve X (aorta).

Question 64

What serves as the output for the Baroreceptor Reflex?

Answer 64

The CV center sends autonomic motor signals to the heart via sympathetic nerves or Cranial Nerve X (parasympathetic).

Question 65

What is the baroreceptor reflex initiated by?

Answer 65

The baroreceptor reflex is initiated by input from blood pressure receptors in the carotid arteries and arch of the aorta.

Question 66

How are visceral sensations from the carotid arteries and arch of the aorta transmitted to the brain?
(provide specific name for these vessels)

Answer 66

Visceral sensations from these receptors are transmitted to the brain via the glossopharyngeal nerve and vagus nerve.

Question 67

How does the cardiovascular center respond if blood pressure is too low?

Answer 67

If blood pressure is too low, the cardiovascular center can increase its input to the thoracolumbar spinal cord segments and/or decrease its input to the vagus nerve, causing the heart rate and force of contraction to increase, thereby raising blood pressure.

Question 68

How does the cardiovascular center respond if blood pressure is too high?

Answer 68

If blood pressure is too high, the cardiovascular center can decrease its input to the thoracolumbar spinal cord segments and/or increase its input to the vagus nerve, causing the heart rate and force of contraction to decrease, thereby lowering blood pressure.

Question 69

How can the effect of the baroreceptor reflex be clinically induced?

Answer 69

The effect of the baroreceptor reflex can be clinically induced in specific situations by massaging the carotid arteries, which essentially tricks the center into thinking that the blood pressure is too high.

Question 70

What is carotid sinus syncope?

Answer 70

Carotid sinus syncope refers to fainting induced by pressure on particularly sensitive carotid sinus receptors.

Question 71

What are the two main circuits of the circulatory system?

Answer 71

The two main circuits of the circulatory system are systemic circulation and pulmonary circulation.

Question 72

Describe systemic circulation.

Answer 72

Systemic circulation is the system of blood vessels that carry oxygenated blood from the heart to the majority of the body and return deoxygenated blood to the heart. Therefore, blood loses oxygen in this circuit.

Question 73

Describe pulmonary circulation.

Answer 73

Pulmonary circulation is the system of blood vessels that carry deoxygenated blood from the heart to the lungs and return oxygenated blood to the heart. Therefore, blood gains oxygen in this circuit.

Question 74

What is the largest artery in the body?

Answer 74

The largest artery in the body is the AORTA.

Question 75

How is the aorta divided?

Answer 75

The aorta is divided into four sections.

Question 76

What are the branches of the ascending aorta?

Answer 76

The branches of the ascending aorta supply blood to the heart.

Question 77

What regions are supplied by the branches of the arch of the aorta?

Answer 77

The branches of the arch of the aorta supply blood to the head, neck, and upper limbs.

Question 78

What regions are supplied by the branches of the thoracic aorta?

Answer 78

The branches of the thoracic aorta supply the organs and tissues within the thoracic cavity.

Question 79

What regions are supplied by the branches of the abdominal aorta?

Answer 79

The branches of the abdominal aorta supply the organs and tissues within the abdominal cavity, as well as the organs of the pelvic cavity and lower limbs.

Question 80

What are the branches of the ascending aorta?

Answer 80

The branches of the ascending aorta are the coronary arteries, which supply blood to the heart.

Question 81

How many branches does the arch of the aorta have?

Answer 81

The arch of the aorta has three branches.

Question 82

What is the first branch of the arch of the aorta?

Answer 82

The first branch of the arch of the aorta is the brachiocephalic trunk.

Question 83

What does the brachiocephalic trunk supply?

Answer 83

The brachiocephalic trunk supplies blood to the upper limb and head.

Question 84

What are the branches of the brachiocephalic trunk?

Answer 84

The branches of the brachiocephalic trunk are the right common carotid artery and the right subclavian artery.

Question 85

What is the branch that supplies blood to the right side of the neck and head?

Answer 85

The branch that supplies blood to the right side of the neck and head is the right common carotid artery.

Question 86

What is the branch that supplies blood to the right upper limb?

Answer 86

The branch that supplies blood to the right upper limb is the right subclavian artery.

Question 87

How do the left common carotid artery and left subclavian artery branch off?

Answer 87

The left common carotid artery and left subclavian artery branch off directly from the arch of the aorta.

Question 88

What branches off the common carotid artery in the neck?

Answer 88

About halfway up the neck, each common carotid artery branches into an external carotid artery and an internal carotid artery.

Question 89

What does the external carotid artery supply?

Answer 89

The external carotid artery supplies blood to structures outside the skull.

Question 90

What does the internal carotid artery supply?

Answer 90

The internal carotid artery passes into the cranial cavity via the carotid foramen and supplies blood to the brain.

Question 91

What branches off the subclavian artery?

Answer 91

Branching off each subclavian artery is a vertebral artery.

Question 92

What is the pathway of the vertebral artery?

Answer 92

The vertebral artery passes up the neck through the transverse foramina of the cervical vertebrae and into the cranial cavity via the foramen magnum to help supply blood to the brain.

Question 93

What forms the basilar artery?

Answer 93

The vertebral arteries join inside the cranium to form the basilar artery.

Question 94

What arteries join with the basilar artery?

Answer 94

The basilar artery has branches that join with the internal carotid arteries.

Question 95

What is the cerebral arterial circle also known as?

Answer 95

The cerebral arterial circle is also known as the “circle of Willis.”

Question 96

ring of communicating arteries is called the ___ ___ ___ (“_ _ _”)

Answer 96

cerebral arterial circle (“circle of Willis”)

Question 97

What happens to the subclavian artery after passing under the clavicle?

Answer 97

After passing under the clavicle, each subclavian artery enters the shoulder region, at which point its name changes to the axillary artery.

Question 98

What artery does the axillary artery continue into?

Answer 98

The axillary artery continues into the anterior arm, at which point its name changes to the brachial artery.

Question 99

What arteries do the brachial artery branch into near the elbow?

Answer 99

Near the elbow, the brachial artery branches into a radial artery and ulnar artery.

Question 100

What regions do the radial artery and ulnar artery pass into?

Answer 100

Each passes into one of the two forearm compartments.

Question 101

What types of branches does the thoracic aorta have?

Answer 101

The thoracic aorta has both visceral branches that supply blood to the viscera inside the thoracic cavity and parietal branches that supply the structures that make up the thoracic cage.

Question 102

How is blood supplied to the heart?

Answer 102

Blood to the heart is supplied by the coronary arteries, which are branches of the ascending aorta, not branches of the thoracic aorta.

Question 103

What is the function of the pulmonary arteries?

Answer 103

The pulmonary arteries carry deoxygenated blood to the lungs, where it gains more oxygen.

Question 104

What is the function of the pulmonary veins?

Answer 104

The pulmonary veins carry oxygenated blood back to the heart.

Question 105

How is lung tissue itself primarily supplied with oxygenated blood?

Answer 105

Lung tissue itself is primarily supplied with oxygenated blood by the bronchial arteries, which are visceral branches of the thoracic aorta.

Question 106

NOURISHMENT/WASTE REMOVAL

Answer 106

Bronchial arteries/veins

Question 107

GAS EXCHANGE (O2, CO2)

Answer 107

Pulmonary arteries/veins

Question 108

What types of branches does the abdominal aorta have?

Answer 108

The abdominal aorta has both visceral branches that supply the viscera inside the abdominal cavity and parietal branches that supply structures that make up the abdominal wall.

Question 109

How many unpaired visceral arteries branch off the anterior surface of the abdominal aorta?

Answer 109

Three unpaired visceral arteries branch off the anterior surface of the abdominal aorta.

Question 110

What is the most superior unpaired visceral artery of the abdominal aorta?

Answer 110

The most superior unpaired visceral artery of the abdominal aorta is the celiac trunk.

Question 111

What organs does the celiac trunk supply blood to?

Answer 111

The celiac trunk has branches that supply blood to the organs located in the upper third of the abdominal cavity.

Question 112

After the celiac trunk, what is the next unpaired visceral artery of the abdominal aorta?

Answer 112

The next unpaired visceral artery of the abdominal aorta is the superior mesenteric artery.

Question 113

What portions of the intestines does the superior mesenteric artery supply blood to?

Answer 113

The superior mesenteric artery has branches that supply blood to the portions of the small and large intestines located within the middle third of the abdominal cavity.

Question 114

What is the final unpaired visceral artery of the abdominal aorta?

Answer 114

The final unpaired visceral artery of the abdominal aorta is the inferior mesenteric artery.

Question 115

What portion of the large intestine does the inferior mesenteric artery supply blood to?

Answer 115

The inferior mesenteric artery has branches that supply blood to the portion of the large intestine located within the lower third of the abdominal cavity.

Question 116

What are the three paired visceral arteries that branch off the abdominal aorta?

Answer 116

The three paired visceral arteries that branch off the abdominal aorta are the suprarenal, renal, and gonadal arteries.

Question 117

What structures do the suprarenal arteries supply blood to?

Answer 117

The suprarenal arteries supply blood to the adrenal glands.

Question 118

What structures do the renal arteries supply blood to?

Answer 118

The renal arteries supply blood to the kidneys.

Question 119

What structures do the gonadal arteries supply blood to?

Answer 119

The gonadal arteries supply blood to the gonads (testes in males, ovaries in females).

Question 120

What are the branches of the abdominal aorta around the level of the L4 vertebra?

Answer 120

Around the level of the L4 vertebra, the abdominal aorta branches into left and right common iliac arteries.

Question 121

What arteries do the common iliac arteries branch into?

Answer 121

Each common iliac artery branches into an internal iliac artery and an external iliac artery.

Question 122

What structures does the internal iliac artery supply blood to?

Answer 122

The internal iliac artery has branches that supply blood to the organs of the pelvic cavity and external genitals.

Question 123

What happens to the external iliac artery?

Answer 123

The external iliac artery passes into the lower limb deep to the inguinal ligament.

Question 124

What happens to each external iliac artery after passing under the inguinal ligament?

Answer 124

After passing under the inguinal ligament, each external iliac artery enters the anterior thigh, at which point its name changes to the femoral artery.

Question 125

What is the name of the artery in the anterior thigh?

Answer 125

The artery in the anterior thigh is called the femoral artery.

Question 126

What happens to the femoral artery as it enters the posterior thigh?

Answer 126

The femoral artery passes through an opening in the adductor Magnus to enter the posterior thigh.

Question 127

What is the name of the artery in the posterior thigh?

Answer 127

The artery in the posterior thigh is called the popliteal artery.

Question 128

What arteries does the popliteal artery branch into just distal to the knee?

Answer 128

Just distal to the knee, the popliteal artery branches into an anterior tibial artery, posterior tibial artery, and fibular artery.

Question 129

What structures do the anterior tibial artery, posterior tibial artery, and fibular artery supply blood to?

Answer 129

Each of these arteries passes through one of the three leg compartments.