**A&P 2 Unit 17 & 18 (Lab) [Blood Vessels]

Question 1

The Blood Flow of the Brain

Answer 1

The arterial supply of the brain comes primarily from the internal carotid arteries & the basilar artery.

Question 2

Basilar Artery

Answer 2

Located on the base of the brainstem & is derived from the fusion of 2 branches off of the subclavian arteries called the vertebral arteries.

Question 3

Cerebral Arterial Circle

Answer 3

Once the internal carotid arteries & basilar artery enter the brain, they contribute to a structure called the circle of Willis or Cerebral Arterial Circle​

Question 4

Cerebral Arterial Circle (Composition)

Answer 4

• This circle is composed of branches of these vessels & a set of anterior & posterior communicating arteries.
• These vessels are connected to provide alternate routes of circulation to the brain if one of the arteries supplying the brain becomes blocked.

Question 5

Veins that Drain into the Hepatic Portal Vein

Answer 5

• Splenic Vein
• Gastric Veins
• Superior Mesenteric Vein
• Inferior Mesenteric Vein

DO NOT drain directly into the Inferior Vena Cava.

Question 6

Splenic Vein

Answer 6

Drains the Spleen

Question 7

Gastric Veins

Answer 7

Darin the Stomach

Question 8

Superior Mesentric Vein

Answer 8

Drains the Small Intestine & much of the Large Intestine

Question 9

Inferior Mesentric Vein

Answer 9

Drains the remainder of the Large Intestine

Question 10

Renal Veins

Answer 10

• Drain the Kidneys
• Empties into the Inferior Vena Cava

Question 11

Hepatic Portal Vein

Answer 11

• Here, the nutrient-rich blood percolates through the liver, where it is processed & detoxified.
• In this way, everything we ingest (except lipids) must travel through the liver before entering the systemic circulation.
• Once the blodd has filtered through the hepatic portal system, it exits via Hepatic Veins & drains into the Inferior Vena Cava
• Blood glucose (absorbed during digestion) is converted to glycogen for storage in the liver. We’ll breakdown that glycogen between meals. Environmental toxins (e.g. pesticides, drugs) can be broken down by liver cells as a means of detoxification. Pathogens (e.g. bacteria) are phagocytosed by macrophages in the liver. The blood, now “cleaner” and “detoxed” leaves the liver through the hepatic veins which drain into the inferior vena cava.

Question 12

Three Layers of the Walls of Arteries & Veins

Answer 12

• Tunica Interna
• Tunica Media
• Tunica Externa

Question 13

Tunica Interna

Answer 13

• The innermost lining of the blood vessel.
• It consists of a specialized type of simple squamous epithelium called endothelium.
• It rests on top of a thin layer of connective tissue.

Question 14

Tunica Media

Answer 14

• The middle layer of the blood vessel wall & consists of smooth muscle & elastic fibers.
• The smooth muscle, innervated by the sympathetic nervous system, controls the diameter of the vessel & plays an important role in tissue perfusion & blood pressure.
• The elastic fibers allow the vessel to expand with changing pressure & return to its original shape & diameter.

Question 15

Tunica Externa

Answer 15

• Also known as Tunica Adventitia
• The outermost layer of the blood vessel, which consists of dense irregular collagenous connective tissue with abundant collagen fibers. The collagen fibers reinforce the blood vessel & prevent it from rupturing when the pressure in the vessel increases.

Question 16

Artery (Mean Diameter)

Answer 16

4.0 mm

Question 17

Artery (Mean Wall Thickness)

Answer 17

1.0 mm

Question 18

Arteriole (Mean Diameter)

Answer 18

30.0 µm

Question 19

Arteriole (Mean Wall Thickness)

Answer 19

6.0 µm

Question 20

Capillary (Mean Diameter)

Answer 20

8.0 µm

Question 21

Capillary (Mean Wall Thickness)

Answer 21

0.5 µm

Question 22

Venule (Mean Diameter)

Answer 22

20.0 µm

Question 23

Venule (Mean Wall Thickness)

Answer 23

1.0 µm

Question 24

Vein (Mean Diameter)

Answer 24

5.0 mm

Question 25

Vein (Mean Wall Thickness)

Answer 25

0.5 mm

Question 26

Arteries (Composition) [Most to Least]

Answer 26

1. Smooth Muscle
2. Elastic Tissue
3. Fibrous Tissue
4. Endothelium

Question 27

Capillaries (Composition) [Most to Least]

Answer 27

1. Endothelium

Question 28

Veins (Composition) [Most to Least]

Answer 28

1. Smooth Muscle
2. Elastic Tissue & Fibrous Tissue
3. Endothelium

Question 29

Three Types of Capillaries

Answer 29

• Continuous Capillary
• Fenestrated Capillary
• Sinusoid

Question 30

Continuous Capillary

Answer 30

Are continuous in the sense that the endothelial cells provide an uninterrupted lining, and they only allow smaller molecules, such as water and ions to diffuse through tight junctions, leaving gaps of unjoined membrane called intercellular clefts.

Question 31

Continuous Capillary (Location)

Answer 31

Most common, found in most locations in the body.

Question 32

Fenestrated Capillary

Answer 32

• Have pores in the endothelial cells (60-80 nm in diameter) that are spanned by a diaphragm of radially oriented fibrils and allow small molecules and limited amounts of protein to diffuse.
• In the renal glomerulus there are cells with no diaphragms called podocyte foot processes or “pedicels,” which have slit pores with an analogous function to the diaphragm of the capillaries.
• Both of these types of blood vessels have continuous basal lamina.

Question 33

Fenestrated Capillary (Location)

Answer 33

• Endocrine Glands
• Intestines
• Pancreas
• Glomeruli of Kidney.
• Less common, fenestrated capillaries are found, for example, in the kidneys for the filtration of blood during urine production.

Question 34

Sinusoid Capillary

Answer 34

• A special type of fenestrated capillaries that have larger openings (30-40 μm in diameter) in the endothelium.
• These types of blood vessels allow redand white blood cells (7.5μm - 25μm diameter) and various serum proteins to pass aided by a discontinuous basal lamina.
• These capillaries lack pinocytotic vesicles, and therefore utilize gaps present in cell junctions to permit transfer between endothelial cells, and hence across the membrane.
• Some sinusoids are special, in that they do not have the tight junctions between cells.
• They are called discontinuous sinusoidal capillaries, and are present in the liver and spleen where greater movement of cells and materials is necessary.
• Their extremely porous walls allow new formed elements to easily enter the circulation from their “birthplace” in the red marrow.

Question 35

Sinusoid Capillary (Location)

Answer 35

• Bone Marrow
• Lymph Nodes
• Adrenal Gland

Question 36

Pulse

Answer 36

A rhythmical throbbing of the arteries as blood is propelled through them

Question 37

Pulse Palpation

Answer 37

• The process of feeling the pulse with the fingertips.
• It is performed to assess rate, rhythm, & regularity of the heartbeat & to assess the arterial circulation to different parts of the body

Question 38

Pulse Palpation Measuring Locations

Answer 38

• Radial
• Ulnar
• Brachial
• Carotid
• Temporal
• Femoral
• Popliteal
• Posterior Tibial
• Doralis Pedis

Question 39

Carotid Bruit

Answer 39

• It may occur as the result of carotid artery stenosis (though some disagree); however, most carotid bruits, particularly those found in younger or asymptomatic patients, are not related to any disease and are termed “innocent carotid bruits”.
• A carotid bruit is unlikely to be heard if the stenosis occludes less than 40% of the diameter of the artery.
• Likewise, a stenosis of greater than 90% may not be heard, as the flow may be too low.

Question 40

Capillary Refill Time

Answer 40

The time it takes for capillary beds to refill after they have been forcibly emptied by pressure.

Question 41

Capillary Refill Time (Examination)

Answer 41

• Done to evaluate a patient for a variety of vascular diseases, particulary arterial disease.
• A normal capillary refill time measures 1-3 seconds; a value greater than 3 seconds may signify some sort of pathology.
• Finger nail test

Question 42

Blood Pressure

Answer 42

The pressure exerted by the blood on the walls of the blood vessels.

Question 43

Cardiac Output

Answer 43

• The amount of blood each ventricle pumps in 1 minute.
• It is a product og stroke volume, or the amount pumped with each beat, & heart rate.

Question 44

Peripheral Resistance

Answer 44

• Any impedance to blood flow encountered in the blood vessels.
• It is determined largely by the degree of vasoconstriction (increase) or vasodilation (decreases) in the systemic circulation.
• Other factors that influence resistance include obstructions, such as atheromatous plaques, within arteries.

Question 45

Blood Volume

Answer 45

• The amount of blood found in the blood vessels at any given time is known as the bloof volume.
• It is greatly influenced by overall fluid volume & is largely controlled by the kidmeys & hormones of the endocrine system.

Question 46

Systolic Pressure

Answer 46

• The pressure in the arteries during ventricular systole.
• This is the larger of the two readings, averaging between 100 & 120 mmHg.
• Taken when the first sounds are heard

Question 47

Diastolic Pressure

Answer 47

• The pressure in the arteries during ventricular diastole.
• This is the smaller of the two readings, averaging between 60 & 80 mmHg.
• Taken when the sounds disappear.

Question 48

Answer 48

Vertebral Artery

Question 49

Answer 49

Common Carotid Artery

Question 50

Answer 50

Subclavian Artery

Question 51

Answer 51

Brachiocephalic Trunk

Question 52

Answer 52

Axillary Artery

Question 53

Answer 53

Ascending Aorta

Question 54

Answer 54

Brachial Artery

Question 55

Answer 55

Radial Artery

Question 56

Answer 56

Ulnar Artery

Question 57

Answer 57

Digital Arteries

Question 58

Answer 58

Palmer Arches

Question 59

Answer 59

Popliteal Artery

Question 60

Answer 60

Fibular Artery

Question 61

Answer 61

Dorsalis Pedis Artery

Question 62

Answer 62

Plantar Arch

Question 63

Answer 63

Aortic Arch

Question 64

Answer 64

Descending Aorta

Question 65

Answer 65

Celiac Trunk

Question 66

Answer 66

Renal Artery

Question 67

Answer 67

Gonadal Artery

Question 68

Answer 68

Lumbar Artery

Question 69

Answer 69

Common Iliac Artery

Question 70

Answer 70

Internal Iliac Artery

Question 71

Answer 71

External Iliac Artery

Question 72

Answer 72

Deep Femoral Artery

Question 73

Answer 73

Femoral Artery

Question 74

Answer 74

Posterior Tibial Artery

Question 75

Answer 75

Anterior Tibial Artery