Week 6 Study Guide Peripheral Vascular System Metabolism and Energy Production

Question 1

Know the differences between arteries and veins and know the structure of arteries and veins.

Answer 1

Arteries:
-Carry blood away from the heart
-Supply oxygenated blood to certain areas of the body
-Carry blood under pressure
-Give rise to thinner vessels (arterioles that branch to capillaries)
-Thick walled vessels with three layers
1)Tunica interna (intima)-inner layer
2)Tunica media- middle muscle layer
3) Tunica external (adventitia)-outer layer

• Has smooth muscle
• Has endothelium
• Has elastic fiber
  -Has internal & external elastic membrane
• As arteries move through the body, they will branch until they get to capillaries.

Veins:
-Carry blood to the heart
-Veins drain deoxygenated blood & waste from certain areas of the body
-Carries blood under low pressure
-Contains one way valves(Blood only travels in one direction).
-Thin walled vessels with three layers
1) Tunica intima
2) Tunica media-
3) Tunica externa

-Has Endothelium
-Smooth muscle

• Blood go through the valves that close and don’t allow blood to go back into the circulatory system.

Question 2

What are arterioles, venules and capillaries? Describe the 3 major types of capillaries.

Answer 2

Arterioles:
-Very small arteries
-Delivers blood to the capillaries
-Helps regulate blood flow and blood pressure through vasoconstriction and vasodilation. (They can construct to prevent over bleeding and they can dilate to make room for more blood flow.)

Venules:
-Small veins
-Merge to form veins

Capillaries:
-Smallest and thinnest blood vessels
-Site of gas, nutrient, & waste exchange between capillaries and interstitial fluid in tissues
-Single later of endothelium and a basement membrane(Things can happen in the basement membrane to cause damage to the capillaries like diabetes).

3 types of capillaries:
-1) Continuous (Most Common)
-Plasma membranes form continuous rings around vessels of lumen
-Found in skeletal muscle, smooth muscle, connective tissue, lungs
- least permeable capillary, does not have holes/pores/fenestrations.

2) Fenestrated:
-Plasma membranes contains pores
-Found in kidneys and villi of small intestines
-Large fenestrations (pores/holes)

3) Sinusoids:
-Very big capillaries with thin walls (to store extra blood in areas like the spleen ).
-Contains spaces between endothelial cells with a missing or incomplete

-Found in liver and spleen (Our body stores extra blood in the spleen).

Question 3

Which artery is usually “heard” when taking a normal blood pressure? What is systole and diastole?

Answer 3

The brachial artery is heard.

Systole- Ventricular contraction and constriction.

Diastole-Ventricular relaxation and expansion

Question 4

Describe the factors involved in regulating blood pressure, including neural and hormonal factors. (Know which hormone vasoconstrict & vasodilate to increase or decrease blood pressure)

Answer 4

1. Autoregulation:
   a)Local vasodilators (causes blood vessels to dilate to allow more room for blood flow.)
   -Utilized when tissue conditions are abnormal
   -Causes an increase in blood flow

Examples:
- Tissue oxygen levels
-Tissue carbon dioxide levels
-Lactic Acid
-potassium and/or hydrogen ion concentrations
-local temperature

b) Local vasoconstrictors
-Utilized during an injury (If we cut ourselves the blood vessels will constrict and cause us to lose as less blood as possible).

-Stimulate precapillary sprinters to constrict

Examples:
-Prostaglandins- cause pain
-Thomboxanes- will signal sphincters to constrict when we are losing blood.
-Endothelins- will signal sphincters to constrict when we are losing blood.

2) Neural Regulation:
a)Cardiac and vasomotor Centers(Cardiovascular center) located in the medulla
-Cardioacceleratory center- in cardiac output via sympathetic innervation (increase our heart rate)
-Cardioinhibitory Center-in cardiac output via parasympathetic innervation (can increase or decrease cardiac output).

2) Reflex Control
a) Baronreceptor reflexes
-Aortic sinuses:
-Monitors blood pressure in the ascending aorta (when blood pumps out of the heart. It firsts goes to the ascending aorta.)
-Changes trigger the aortic reflex to adjust blood pressure as needed.

       -Carotid Sinuses:
           -Monitors blood pressure to the head(brain-to keep oxygen flow in brain)
           -Changes trigger reflexes to adjust blood pressure, as needed.

       -Atrial baroreceptors:
          -Monitors blood pressure at end       of systemic circuit(right atrium-blood flows into the body through the right atrium) -When pressure rises, stimulates cardiac centers to increase cardiac output.
 

  b) Chemoreceptor reflexes
       -Carotid bodies- in the neck
       -Aortic bodies- near aortic arch

    * Chemoreceptors monitor oxygen, carbon dioxide and pH levels in arterial blood. (Normal pH 7.4)

If an increase in CO2 or decrease in pH and or O2 occurs:

• Cardioacceleratory Center stimulated and cardioinhibitory center is inhibited because we need the increase of oxygen in our body.
  -Causes an increase in cardiac output, increase heart rate, peripheral vasoconstriction, and increase in blood pressure.

*In or body carbon dioxide acts like an acid. The more carbon dioxide we have, the more acidic our blood is going to be.

3)Hormonal Regulation:
-Hormones helped regulate blood pressure
1)Epinephrine and norepinephrine (increase blood pressure)
-Increase in cardiac output, heart rate, and vasoconstriction.

*Epinephrine is part of the fight or flight syndrome that vasodilators bronchial tubes and causes us to breathe better.

2) Antidiuretic hormone- increase in blood pressure.
-Peripheral vasoconstriction
-Increase in fluid retention in kidneys

3) Angiotensin II- increase in blood pressure
-Stimulates water reabsorption in the kidneys in response to dehydration
-Stimulates thirst for additional fluid retention
- Increase in cardiac output and arteriole vasoconstriction

4) Erythropoietin-increase in blood pressure
-Stimulates the production and maturation of RBCs(when we need more RBCs)
-Causes vasoconstriction (B/C if we need more RBCs it is because we are bleeding out and we need blood vessels to constrict to keep us from bleeding out).

5) Natriuretic peptides- decrease in blood pressure
-Increase sodium excretion in kidneys
-Increase in urine production
-Reduced thirst
-ADH, aldosterone, epinephrine, and norepinephrine inhibition
-Vasolidation

6) Histamine-decrease in blood pressure
-Vasolidation

• Histamine will dilate blood vessels and constrict bronchial tubes and causes less breathing during allergic reactions.

Question 5

Know the three branches of the aortic arch, in the correct order with regard to blood flow.

Answer 5

1) Brachiocephalic artery-delivers blood to arm & head

2) Left common artery-go toward the head

3)Left Subclavian artery-going toward arm

Brachio- upper arm
Cephalic- head

Question 6

Know the divisions of the aorta and these branches that arise from those divisions. Include in your studying which of those vessels supply blood to which structure or structures:

Answer 6

Ascending Aorta
1. Right and Left Coronary arteries—supplies blood to the myocardium

Question 7

Know the divisions of the aorta and these branches that arise from those divisions. Include in your studying which of those vessels supply blood to which structure or structures:

Answer 7

Aortic Arch
1. Brachiocephalic artery
a. Right Subclavian artery—supplies blood to the right shoulder and upper limb
1. Right Axillary artery–supplies blood to the right armpit
a. Right Brachial artery–supplies blood to the right upper arm
1. Right Radial artery–supplies blood to the right lower arm
2. Right Ulnar artery–supplies blood to the right lower arm
3. Right Palmar arches–supplies blood to the right palm and digits

b. Right Vertebral artery–supplies blood to the right cervical vertebrae and skull
1. Right Basilar artery
a. Circle of Willis–supplies blood to the right side of brain

		b.	Right Common Carotid Artery
			1.	Right External Carotid Artery—supplies blood to right side of 					head and face
			2.	Right Internal Carotid Artery—supplies blood to right side of 					skull and brain

Question 8

Know the divisions of the aorta and these branches that arise from those divisions. Include in your studying which of those vessels supply blood to which structure or structures:

Answer 8

Left Common Carotid Artery
a. Left External Carotid Artery—supplies blood to the left side of head and face
b. Left Internal Common Carotid Artery—supplies blood to left side of skull and brain

3. Left Subclavian artery- supplies blood to the left shoulder and upper limb.
   1). Left Brachial artery–supplies blood to the left upper arm.
   a. Radial artery–supplies blood to the lower arm.
   b. Left Ulnar artery–supplies blood to the left lower arm
   c. Left Palmar arches-supplies blood to the left palm and digits
4. Left Vertebral artery–supplies blood to the left cervical vertebrae and skull
   a. Left Basilar artery
   1. Circle of Willis-supplies blood to the left side of the brain.

Question 9

Know the divisions of the aorta and these branches that arise from those divisions. Include in your studying which of those vessels supply blood to which structure or structures:

Answer 9

Left Subclavian artery—supplies blood to the left shoulder and upper limb
a. Left Axillary artery–supplies blood to the left armpit
1. Left Brachial artery–supplies blood to the left upper arm
a. Left Radial artery–supplies blood to the left lower arm
b. Left Ulnar artery–supplies blood to the left lower arm
c. Left Palmar arches–supplies blood to the left palm and digits
2. Left Vertebral artery–supplies blood to the left cervical vertebrae and skull
a. Left Basilar artery
1. Circle of Willis–supplies blood to the left side of brain

Question 10

Know the divisions of the aorta and these branches that arise from those divisions. Include in your studying which of those vessels supply blood to which structure or structures:

Answer 10

Descending Aorta
1. Thoracic Aorta
a. Intercostal artery—supplies blood to the intercostal cartilage and chest muscles
b Superior phrenic artery—supplies blood to the superior portion of the diaphragm
c. Bronchial artery–supplies blood to the bronchi of the lungs
d Esophageal artery—supplies blood to the esophagus

Question 11

Know the divisions of the aorta and these branches that arise from those divisions. Include in your studying which of those vessels supply blood to which structure or structures:

Answer 11

Abdominal Aorta
a. Inferior phrenic artery—supplies blood to the inferior diaphragm
b. Celiac trunk
1. Common hepatic artery—supplies blood to the liver
2. Left gastric artery—supplies blood to the left stomach
3. Splenic artery—supplies blood to the spleen
c. Superior mesenteric artery—supplies blood to the small intestine, cecum, pancreas, ascending and transverse colon
d. Suprarenal artery—supplies blood to the adrenal gland
e. Renal artery—supplies blood to the kidney
f. Gonadal artery—supplies blood to the ovary/testis
g. Inferior mesenteric artery—supplies blood to the descending and sigmoid colon, rectum

Question 12

Know the divisions of the aorta and these branches that arise from those divisions. Include in your studying which of those vessels supply blood to which structure or structures:

Answer 12

The aorta terminates into the right and left common iliac arteries. Those arteries branch to form and supply:
A. External iliac artery–supplies blood to the hip and lower limbs
1. Femoral artery–supplies blood to the thigh
a. Popliteal artery–supplies blood to the knee
1. Posterior tibial artery–supplies blood to the lower leg
2. Anterior tibial artery–supplies blood to the lower leg
a. Dorsalis pedis artery–supplies blood to the ankle
b. Plantar artery–supplies blood to the foot and digits

Question 13

Blood is drained and returned to the heart in the venous system. Many of the names of the veins and the area in which they drain blood are the same as their arterial counterpart. For example, the femoral artery SUPPLIES blood to the thigh, whereas the femoral vein DRAINS blood from the thigh. Know the venous vessels like the arterial vessels mentioned above, with the following additions:

Answer 13

Jugular vein
1. External jugular vein–drains blood from the face and scalp
2. Internal jugular vein–drains blood from the brain

Question 14

Blood is drained and returned to the heart in the venous system. Many of the names of the veins and the area in which they drain blood are the same as their arterial counterpart. For example, the femoral artery SUPPLIES blood to the thigh, whereas the femoral vein DRAINS blood from the thigh. Know the venous vessels like the arterial vessels mentioned above, with the following additions:

Answer 14

Brachiocephalic vein–Formed from the union of the subclavian and jugular veins to drain blood from the should and arm

Question 15

Cont’d: Know the venous vessels like the arterial vessels mentioned above, with the following additions:

Answer 15

Median cubital vein—used as a normal venipuncture site

Question 16

Cont’d: Know the venous vessels like the arterial vessels mentioned above, with the following additions:

Answer 16

Superior vena cava–formed from the union of the right and left brachiocephalic veins and drains blood from the head and upper limbs

Question 17

Cont’d: Know the venous vessels like the arterial vessels mentioned above, with the following additions:

Answer 17

Coronary sinus—formed from the union of the cardiac veins and drains blood from the myocardium

Question 18

Cont’d: Know the venous vessels like the arterial vessels mentioned above, with the following additions:

Answer 18

Great saphenous vein–longest vein in the body and drains blood from the lower limbs

Question 19

Cont’d: Know the venous vessels like the arterial vessels mentioned above, with the following additions:

Answer 19

Inferior vena cava–drains blood from the abdominal area and lower limbs

Question 20

Cont’d: Know the venous vessels like the arterial vessels mentioned above, with the following additions:

Answer 20

Hepatic portal system
1. Hepatic vein
2. Hepatic portal vein
a. Gastric vein–drains blood from the stomach
b. Mesenteric vein–drains blood from the intestines
c. Splenic vein–drains blood from the spleen

Question 21

Know the difference between a catabolic and anabolic reaction.

Answer 21

Metabolism -building up and breaking down of substances in our body.

-Catabolism(CTA)
-Breakdown reactions
-Exergonic- releases heat energy
-Breakdown Polymers to Monomers
-Breaking bonds releases energy
AB in water breaks apart to: A+B + Energy
Example: hydrolysis

-Anabolism (ANAB)
-Building Reactions
-Endergonic- Keep heat energy (It stores energy)
-Builds up monomers to polymers
-Forming bonds holds energy

A+B without water(dehydration) builds up to AB + Water+ ATP

Example: Dehydration

Question 22

Know the difference between potential energy and kinetic energy.

Answer 22

Kinetic Energy- energy in motion
Potential Energy- stored energy

• Energy cannot be created or destroyed. It can only be converted. (Converting matter to energy) Energy can’t be converted to matter.
• Each time conversion occurs energy is lost in the form of heat.

ATP- main source of energy. Produce ATP through cellular respiration in our bodies

Question 23

What is an enzyme-substrate complex and what is an active site?

Answer 23

Biological catalysts that accelerate reactions.

Active site-an enzyme will only work on a certain compound…Enzyme A will on work on compound A.

Usually a protein.

In, our body catalysts are enzymes that are usually proteins.

• Act by lowering the activation energy required to start the reaction.

Heat can be an enzyme if you put sugar in hot water. Heat is a catalyst.

Question 24

How is energy released from ATP?

Answer 24

Through cellular respiration - through the catabolism (breakdown) of glucose.

The process of animal cells using energy stored in food to produce ATP.

Overall 36 ATP yielded in cellular respiration

Question 25

Know the steps of cellular respiration and the end products of glycolysis, conversion step, and Kreb’s cycle.

Answer 25

1. Glycolysis-Start with glucose and end with pyruvic acid-Do not need oxygen
2. Conversation Step- Begin with pyruvate and end with Acetyl Coenzyme A (CoA)-occurs with oxygen
3. Kreb’s Cycle -Start with Acetyl CoA and ends with citric acid.
4. Electronic Transport Chain-Final electron acceptor is oxygen

Question 26

What is the final electron carrier in the electron transport chain?

Answer 26

Oxygen

Question 27

Circuits

Answer 27

Pulmonary Circuit
-Blood enters the right atrium and leaves the left ventricle via the ascending aorta.

Systemic Circuit
-Blood exits the ascending aorta and enters the right atrium via the superior vena cava, the inferior vena cava, and coronary sinus.

Question 28

Arterial System

Answer 28

1) Ascending Aorta:(coronary artery is part of the ascending aorta)
-Comes directly from left ventricle

2)Aortic arch:
-Where the aorta makes a turn and head toward the descending aorta

3)Descending Aorta:(Separated into these two:
- Thoracic Aorta-In the thoracic cavity
-Abdominal Aorta-called the abdominal aorta once it passes through the diaphragm.

*The descending aorta is the portion above the diaphragm