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MCAT Biology Circulatory System

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Answer 50 questions in 15 minutes.
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1. Transportation of blood though the body and exchange of material btw blood and tissues
CNS decreases vagal signal and sympathetic input increases
adrenergic tone
veins
Fxn of circulatory system

2. Which is longer - diastole or systole?
increased hydrostatic pressure in the capillaries - which increases the fluid that leaks out of the capillaries into the interstitum
Functional syncytium
Diastole is longer
High since the concentration of plasma proteins has increased due to movement of water

3. Crosses septum and connects to Purkinje fibers to allow coordinated contraction of ventricles. Key is that is slows transmission across septum to allow ventricles to fully fill before contraction
atria
increase vagal signal and inhibits sympathetic input
Bundle of His
adipocytes

4. Bone marrow cells that give rise to RBC and platelets
fats
Fast Na channels
Frank - Starling Effect
megakaryocytes

5. Breakdown product of the hemogloblin heme group
bilirubin
Repolarization of nodes
Erythrocytes
adrenergic tone

6. Receives deoxygenated blood from systemic circulation (superior and inferior vena cava)
Right atrium
WBC
Na leak channels
Sympathetic regulation of heart

7. Because the veins have essentially 0 pressure - these valves ensure one - way flow - skeletal muscle contraction encourages flow through veins
Bundle of His
Vagal Signal
amino acids and glucose
Valves of the venous system

8. Stretching to greater degree of heart muscle causes more forceful contraction; stretching increase occur by increasing fluid volume
WBC
nutrients - wastes - and WBC
systemic arterial blood pressure
Frank - Starling Effect

9. AV valve between left atrium and left ventricle
chylomicrons
Baroreceptors
fibrin
bicuspid (mitral) valve

10. Vessels that carry blood away from the heart at high pressure
2 components of antigens
arteries
Secondary transportation of CO2 in the blood
eosinophil

11. Voltage - gated channels that stay open longer than Na channels and open later responsible for the plateau phase of cardiac muscle contraction
systemic arterial blood pressure
Slow Ca channels
Perfusion
Right atrium

12. Fat storage cells of the body
Hepatic portal vein
Diastole
adipocytes
coronary sinus

13. Body's mechanism of preventing bleeding
glycolysis. RBC have no ETC - FA oxidation - or TCA cycle
Granulocytes
hemostasis
amino acids and glucose

14. Glucose - amino acids - and fats
nutrients
primary bicarbonate generated from CO2.
veins
when person that is Rh - is exposed to blood that is Rh+

15. Universal donor
varicose veins
O- since there are no surface antigens for antibodies to bind to...
albumin b/c it provides the bulk of oncotic pressure in blood vessels - preventing edema
hypoxia

16. Large particles consisting of fats - cholesterol - and carrier proteins; transport lipids through the blood stream
local autoregulation
nutrients - wastes - and WBC
Lipoproteins
It has the most Na leak channels - allowing to reach threshold potential first; all other nodes leak - but rate at as quick of a rate

17. Open when threshold is reached causing membrane potential to increase/depolarize; operate slower than Na channels
AV node
1. increase total blood volume by retaining more H2O 2. Contraction of large veins - propelling blood toward the heart
to transport O2 to tissues and CO2 to the lungs
Ca channels

18. Vessels where deoxygenated blood from coronary sinus continue to flow into heart
Coronary veins
Waste
when person that is Rh - is exposed to blood that is Rh+
Pulmonary and aortic semilunar valves

19. Where do all components of the blood develop from?
hemostasis
fats
bone marrow
O- since there are no surface antigens for antibodies to bind to...

20. Vessels that carry blood back to the heart at low pressure
Coronary arteries
arteries
veins
bicuspid (mitral) valve

21. Flow of blood through a tissue
Portal systems
Perfusion
Coronary arteries
albumin

22. Return of blood to the heart by the vena cava - where increased venous return causes increased stretching of the muscle (increases stroke volume)
High since the concentration of plasma proteins has increased due to movement of water
Erythrocytes
Systole
venous return

23. Where are RBCs broken down?
Rh blood group
glycolysis. RBC have no ETC - FA oxidation - or TCA cycle
arteries
Spleen and liver

24. The difference in pressure divided blood flow; controlled by the sympathetic nervous system generating adrenergic tone
Peripheral resistance
Vagal Signal
Thrombus
Ischemia

25. Destroy parasites and are involved in allergic rxns
high osmolarity of tissues
eosinophil
veins
High since the concentration of plasma proteins has increased due to movement of water

26. Why is the SA node the primary pacemaker?
nutrients
hemostasis
chylomicrons
It has the most Na leak channels - allowing to reach threshold potential first; all other nodes leak - but rate at as quick of a rate

27. Peptide hormone secreted from the kidneys to increase RBC production in bone marrow
Erythropoetin
ABO blood group
oncotic pressure
Baroreceptors

28. 2 portal systems to know
venous return
hepatic portal system and hypothalamic - hypophosial portal system
Repolarization of nodes
WBC

29. Flow from the heart to the rest of the body; pumped by the left side of the heart
Na leak channels
systemic circulation
Erythropoetin
nutrients - wastes - and WBC

30. Buffer in blood. Keeps pH around 7.4
increase vagal signal and inhibits sympathetic input
Diastole
It is the same - otherwise it would lead to fluid backup
primary bicarbonate generated from CO2.

31. As low as pressure gets btw heart beats in arteries
diastolic blood pressure
capillaries
primary bicarbonate generated from CO2.
to transport O2 to tissues and CO2 to the lungs

32. Lipoproteins that enter lacteal vessels of lymphatic system in the intestinal wall
basophil
Vagal Signal
chylomicrons
diastolic blood pressure

33. Occurs when increased cardiac output is needed; the postganglionic nerve directly innervates the heart - releasing norepinephrine - increasing heart rate and force of contraction
to transport O2 to tissues and CO2 to the lungs
bone marrow
Frank - Starling Effect
Sympathetic regulation of heart

34. Rh factor that follows dominant pattern (Rh+ in heterozygote)
varicose veins
Rh blood group
Functional syncytium
bilirubin

35. Valves between the large arteries and the ventricles
atrioventricular valves
Spleen and liver
Pulmonary and aortic semilunar valves
Ca channels

36. Neural sympathetic input by postganglionic neuron of norepinephrine innervating arterial smooth muscle
adrenergic tone
macrophage
heart rate
Erythropoetin

37. Aggregate at site of damage to a blood vessel and form a platelet plug to stop bleeding
Diastole is longer
Platelet fxn
pulmonary circulation
systolic blood pressure

38. CO2 is soluble in H2O - and thus some is dissolved and carried to lungs and tissues in plasma - O2 is not soluble in plasma at all
Fast Na channels
amino acids and glucose
Diastole is longer
Third transportation of CO2 in the blood

39. Purpose of erythrocytes?
to transport O2 to tissues and CO2 to the lungs
1. increase total blood volume by retaining more H2O 2. Contraction of large veins - propelling blood toward the heart
Sympathetic regulation of heart
nutrients - wastes - and WBC

40. 2 chambers of the heart
atria and ventricles
venous blood pressure
Glucose
Repolarization of nodes

41. Precursor to fibrin - which is necessary for blood clotting
Functional syncytium
fibrinogen
B cells and T cells
SA node

42. Store and release histamine and are involved in allergic rxns
basophil
increased hydrostatic pressure in the capillaries - which increases the fluid that leaks out of the capillaries into the interstitum
megakaryocytes
Tense

43. 73% of CO2 converted to carbonic acid by carbonic anhydrase - and carbonic acid is converted to bicarbonate - which acts a buffer
fibrin
Primary transportation fo CO2 in the blood
Erythrocytes
Peripheral resistance

44. Neutrophil - eosinophil - and basophil
bicuspid (mitral) valve
Thrombus
Capillaries
Granulocytes

45. Opposing friction force to flow - which increases with decreased radius; determined by degree of contraction of arterial smooth muscle
veins
Right atrium
Internodal tract
resistance

46. Protein in RBC that transport O2 though the blood since O2 is too hydrophobic in plasma; protein has 4 subunits that change confirmation cooperatively depending on the concentration of O2
WBC
serum
Coronary arteries
Hemoglobin

47. Hematocrit or RBC those compose 35-45% of the blood; cells are non - nucleated and have no organelles. Acquire ATP through glycolysis have biconcave shape to maximize surface area for binding O2
Granulocytes
local autoregulation
when person that is Rh - is exposed to blood that is Rh+
Erythrocytes

48. What causes tendency of water flow out of blood?
high osmolarity of tissues
ABO blood group
hemophilia
Inflammation

49. Site of exchange btw blood and tissues; smallest vessels that allow one RBC through at a time
Slow Ca channels
capillaries
Functional syncytium
varicose veins

50. Number of systole contractions per unit time
nutrients - wastes - and WBC
hemostasis
bicuspid (mitral) valve
heart rate

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MCAT Biology Circulatory System

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