16.1-16.11

Question 1

6 goals of circulatory system

Answer 1

1. Distribute nutrients (from digestion, liver, fat)
2. Transport oxygen, eliminate CO2
3. Remove metabolic waste (to kidneys)
4. Transport hormones
5. Maintain homeostasis of body temperature
6. Blood clotting

Question 2

capillaries

Answer 2

very thin, 1 cell thick

exchange b/t blood and tissues

Question 3

arterioles

Answer 3

increasingly smaller arteries, with SMOOTH muscle on walls

Question 4

endothelial cells (4 purposes)

Answer 4

INNER LINING of all blood vessels

capillaries are 1 SINGLE LAYER of endothelial cells

intracellular clefts make up the wall, allows for transport of nutrients wastes and WBCs

vasodilation/constriction
inflammation
angiogenesis (new blood vessels)
thrombosis (clot)

implicated in diseases like hypercholesterolemia, hypertension, bad clots, CAD, and atherosclerosis (!)

Question 5

AV valve

Answer 5

prevents backflow to atrium

left is bicuspid - mitral

right is tricuspid

Question 6

what is the valve leaving the ventricle called?

Answer 6

aortic and pulmonary SEMILUNAR valve

Question 7

intercalated disks

Answer 7

the connections between cardiac muscle cells

Question 8

muscle cell

Answer 8

ability to propagate AP across the surface.

Question 9

diastole

Answer 9

when the blood is filling the heart

when dup and lub

Question 10

systole

Answer 10

shorter, the space between lub and dup

Question 11

functional syncytium

Answer 11

cytoplasm of two cells can communicate via GAP JUNCTIONS in the heart

NO CHEMICAL SIGNALING WITHIN HEART

cardiac muscle -> intercalated disks -> electrical synapse

Calcium goes down its gradient (MORE outside than inside)

Strength of contraction == extracellular concentration of Calcium

Phase 3: Outward K+ current through voltage-gated channels

Question 12

atrial synctium is connected to the ventricles through…

Answer 12

cardiac conduction system

delayed as it passes through this CONDUCTION SYSTEM known as the AV NODE

Question 13

two voltage-gated channels in heart

Answer 13

fast sodium channels (voltage gated) - cardiac muscle and neurons

slow calcium channel - calcium comes IN once change in membrane potential to the threshold voltage occurs

slow Ca channels allow passage of calcium DOWN ITS GRADIENT, longer depolarization than neurons

Question 14

depolarization of membrane lasts *** in cardiac muscle

Answer 14

LONGER, therefore longer absolute refractory period

Question 15

SA node

Answer 15

in right atrium
- PACEMAKER of the heart (has most Na leak channels)
- automaticity, divided into three phases: phase 0, 3 and 4
UNSTABLE RESTING POTENTIAL (-50-40 mV)

Phase 0: Inward Ca2+ current through VOLTAGE-GATED channels (DEPOLARIZATION due to Ca2+, NOT Na+ influx in myocytes and skeletal muscle cells); this is VERY GRADUAL

Phase 3: Repolarization: closure of Ca2+ channels and opening of K+ channels

Has the MOST Na+ leak channels, so reaches threshold voltage FIRST

Question 16

RBC

Answer 16

NO NUCLEUS or other organelles like mitochondria

120-day lifespan

requires ATP for ion pumping and basic maintenance of structure

relies on glycolysis

large surface area with millions of hemoglobin

Question 17

transfusion reaction

Answer 17

antibodies to A and B cause clumping and destruction of red blood cells with the wrong antigen

the immune system must be exposed before it produces antibodies for it

Question 18

hemolytic disease of the newborn

Answer 18

anti-Rh antibodies can cross the placental barrier and destroy the Rh+ baby’s red blood cells

must inject with anti-Rh antibodies

Question 19

which WBCs move by amoeboid?

Answer 19

macrophages, neutrophils

Question 20

6 types of WBC

Answer 20

p. 420

Question 21

what are magekaryocytes?

Answer 21

large bone marrow cells that produce platelets

Question 22

what helps platelets

Answer 22

fibrin

plasma protein fibrinogen is converted into FIBRIN by a protein called THROMBIN when bleeding occurs. THROMBUS is a blood clot circulating the bloodstream

activated by CALCIUM

hemophilia X-linked recessive

Question 23

cooperative binding

Answer 23

hemoglobin -> increased affinity for each oxygen

SIGMOIDAL CURVE

Question 24

Bohr effect (3 factors)

Answer 24

1. decreased pH
2. increased CO2
3. increase temperature

these factors stabilize TENSE hemoglobin, REDUCING oxygen affinity.

Question 25

carbonic anhydrase

Answer 25

found in RBC enzyme

converts CO2 into carbonic acid (H2CO3)

carbonic acid -> HCO3- + H+

CO2 can be dissolved in blood

CO2 binds to OTHER sites on hemoglobin - STABILIZES tense hemoglobin

Question 26

spaces between endothelial cells in capillaries

Answer 26

intercellular clefts

Question 27

Liver

Answer 27

hepatic portal system: direct transport from intestine to liver

stores glucose / AAs

Question 28

Pressure = Flow * Resistance

Answer 28

increase resistance, DECREASE flow

Question 29

Pressure = Flow * Resistance

Answer 29

increase resistance, DECREASE flow

SNS controls precapillary sphincters that control peripheral resistance; SNS causes PSphincters in the gut to CONTRACT (reduce blood flow). Vasoconstriction reduces blood flow. SNS also causes PSphincters in skeletal muscles to relax.

More Q = higher blood pressure (!)

Vasodilation can also be regulated automatically by waste build up. (Local autoregulation). This affects coronary blood flow.

Question 30

blood

Answer 30

transport of glucose
lipoproteins - fats, cholesterol, carrier proteins - transport lipids
urea - breakdown of amino acids
bilirubin - breakdown of heme
serum - lacks proteins for clotting

Question 31

Chylomicrons

Answer 31

lipoproteins that PACKAGE fats, which enter lymphatic vessels in the intestinal wall called LACTEALS (draining into large vein in the neck, THORACIC duct). FAT BYPASS THE HEPATIC VEIN.

lipemia

chylomicrons are taken up by liver and converted to another lipoprotein, which carries fats to adipocytes for storage

adipocyte triglycerides are HYDROLYZED to release free fatty acids released in the bloodstream. they pass through capillary pores

Question 32

Albumin

Answer 32

too large to fit through clefts, remains in capillaries and keeps water in the blood

Question 33

pulmonary edema

Answer 33

Increased blood pressure, fluid is forced out of capillaries into surrounding tissues

Question 34

pulmonary edema

Answer 34

Increased blood pressure, fluid is forced out of capillaries into surrounding tissues

Question 35

surfactant

Answer 35

REDUCES surface tension (Type II alveolar cell)

Question 36

partial pressure

Answer 36

portion of total pressure due to a particular gas

Question 37

hyperventilation

Answer 37

INCREASES pH, while acidosis occurs with depressed respiration

Question 38

lymphatic system

Answer 38

suction

WATER, PROTEINS, and Leukocytes

lympahtic ducts form the THORACIC duct

Question 39

lymph nodes

Answer 39

millions of WBCs