A&P Test 1- Trivial Shit

Question 1

Formula for EF

Answer 1

EF = SV/EDV

Question 2

Maximal Plateau Levels of CO curve

Normal:
Athlete:

Answer 2

Normal 13L/min
Athlete: 25L/min

Question 3

What resting membrane potential level triggers an AP in SA nodal tissue?

Answer 3

-40mV

Question 4

Vascular Resistance Formula

Answer 4

Pressure Gradient / Blood flow

Pressure gradient = difference between the arteriole and capillary pressures (example).

Question 5

Renal Blood flow Formula

Answer 5

Plasma Flow / Hct

Question 6

Total Peripheral Vascular Resistance Formula

Answer 6

TPVR= (Arterial Pressure - RAP) / CO

Question 7

Formula for resistance to venous return

Answer 7

Psf- RAP/CO

Question 8

Fick Equation

Answer 8

VO2/ pulm arteriovenous difference

Question 9

CO reserve formula

Answer 9

COmax- COrest

Question 10

HyperThyroid disease

Answer 10

Graves

Question 11

HypoThyroid Disease

Answer 11

Hashimoto’s

Question 12

Flow formula

Answer 12

Q (flow) = delta P/ resistance

example
Q = 1/ .68 => 1.47 or 47% increase

Question 13

Change in Resistance Formula

Answer 13

1(before)/ r^4 (after)

example vessel with a 10% increase in diameter. Change in resistance

1/1.1^4 => 0.68 so a 32% decrease in resistance

Question 14

Compartments Fluid

Answer 14

TBW = 60% body weight
ICF = 2/3 of TBW
ECF (interstitial + plasma) = 1/3 of TBW

Question 15

If doing pressure gradient across a valve, how to find resistance to flow.

Answer 15

Example. LV pressure = (systolic/diastolic) = 150/2 mmHg
LAP = 50/32 mmHg
CO= 3L/min

considering mitral stenosis (diastolic) we would need the diastolic difference of the valves / CO..

(32-2)/ 3L/min => 10 mmHg/L/min = resistance to flow

Question 16

Total Peripheral Resistance

Answer 16

Mean Arterial Pressure = CO X TPR

If CO is increased for example the mean arterial pressure could stay the same if the TPR is reduced.. (this is often the case)

Question 17

Pulse Pressure formula

Answer 17

Pulse P = SV/ arterial compliance

Arterial does not happen rapidly

Question 18

MAP formula

Answer 18

MAP = Pd + (Ps - Pd)/3

Question 19

SV factors

Answer 19

SV = arterial compliance X pulse pressure

Question 20

Mean Systemic Arterial Pressure

Answer 20

it’s a from a combination of your CO and TPVR

Question 21

SV formula

Answer 21

CO/HR

Question 22

Compliance Formula

Answer 22

Change in Volume / Change in Pressure

Question 23

Figure MAP for normal BP would be

Answer 23

93mmHg but for our class it’s 100mmHg

Question 24

Aorta pressure range

Answer 24

80-120mmHg

Question 25

Aorta cross-sectional area

Answer 25

2.5cm^2

Question 26

Capillaries cross-sectional area

Answer 26

2500cm^2

Question 27

Pulmonary Vascular resistance vs Systemic

Answer 27

PRV 1/7th the SVR

pulm circuit approx 1 foot.

Question 28

Normal Cap Pressures

Answer 28

30mmHg Arteriolar And 10mmHg Venus for the blood Pressures..
Mean hydrostatic P 17,
28 colloid osmotic ,
-3 interstitial fluid pressure
and 8 interstitial colloid P

Question 29

Pressure add to foot from gravity 1.5m

Answer 29

+90mmHg

for each 1.36cm under the heart = P of 1mmHg

Question 30

Isogravimetric point

Answer 30

Middle of the tricuspid

Question 31

Additional pressure when measuring at arm sitting up

Answer 31

+7mmHg

Question 32

Conductance

Answer 32

1/resistance

Question 33

Vascular Compliance

Answer 33

increase in volume/ increase in P

Question 34

Vascular distensibility

Answer 34

increase in volume/ increase in P X original volume

Question 35

Average veinous P

Answer 35

10mmHg

Question 36

Arterial Volume

Answer 36

700mL
And P is 100mmHg

Question 37

Pulmonary Pulse Pressure

Answer 37

25/8 (systolic/diastolic)

Question 38

Mean Pulm Artery P

Answer 38

16mmHg

1/7th MAP

Question 39

% of Blood in veins

Answer 39

84%

Question 40

Normal HCT

Answer 40

0.4

Question 41

% of blood in heart

Answer 41

7% of 5L

350cc

Question 42

% of blood in pulm circulation

Answer 42

9%

450cc

Question 43

% of blood in large arteries

Answer 43

13%

Question 44

% of blood in Venules, veins , sinuses

Answer 44

64%

3200mL

Question 45

Carotid Baroreceptors

Answer 45

Afferent signal
1st Herring’s nerve, 2nd glossopharyngeal (9) -> vasomotor

100mmHg setpoint

Question 46

Aorta Baroreceptor

Answer 46

Vagus nerve -> Vasomotor

130-150mmHg setpoint

Question 47

Atrial stretch

Answer 47

low pressure
increase CO 10-15%
internal pathway

Question 48

Bainbridge relex

Answer 48

Vagal stimulation of SA and AV- afferent
increase CO by 50-60%
external

Question 49

How Much does BP increase if clamp both carotids

Answer 49

50-60mmHg

Question 50

Atrial Kick Volume

Answer 50

10cc

Question 51

CI

Answer 51

CO/body surface m2

70Kg male body surface 1.7m2
IC is 3L/min/m2

Question 52

Artery specific vasodialator

Answer 52

hydralazine

Question 52

Congential aorta

Answer 52

1-2% population
normally right and left cusp or right and posterior

Question 53

Coronary Blood Flow

Answer 53

70ml/min/100grams muscle
225ml/min

Question 54

oxygen content

Answer 54

20mL O2/ dL

Question 55

Guyton SVR formula

Answer 55

MAP – RAP / CO.

100 - 0 mmHg/ 100mL/sec (rounded if was 6L/min)..

The result of all this is 1 PRU (Peripheral resistance Unit) or mmHg/mL/sec

Question 56

Guyton PVR formula

Answer 56

16 (mean pulmonary arterial pressure) – 2 (LAP) / 100mL/sec (CO)

0.14 PRU …. if multiplied by 7 very close to 1..

Question 57

Miller SVR formula

Answer 57

MAP - CVP/ CO X 80

(100-0 )/5L/min = 20 mmHg/L/min X 80 => 1600 mmHg/L/min or CGS units

centimeters gram second- or dynes x sec / cm^5

Question 58

Convert PRU to CGS

Answer 58

multiply PRU x 1333

Question 58

Miller PVR formula

Answer 58

MPAP - PAWP / CO x 80

MPAP (16) – 10 (PAWP- estimate of pulmonary cap pressure which is substantially higher that LAP) / 5L/min (CO) X 80

(16-10)/5 X 80 => 96CGS

underestimation

Guyton => 0.14PRU X 1333 = 186 CGS units

Question 58

Normal PAWP

Answer 58

10mmHg

Question 58

SVR #s

Answer 58

normal is 1200 GCS units (dynes X secs/ cm5)

range 800- 1600

Question 58

PVR #s

Answer 58

normal 80 GCS
range 40-180

Question 59

Mixed Venous Oxygen Content

Answer 59

15mL/dL

Question 60

Arteriovenous Oxygen Difference

Answer 60

5mL

Question 61

Oxygen Consumption

Answer 61

5L/min = 50dL/min so CO = 5L/min

5 x 50 = 250mL

Question 62

HR without parasympathetic tone (atropine)

With no SNS

Answer 62

110bpm

60bpm

sympathetic tone from c-spine down to T-2

Question 63

S1 and S2 duration

Answer 63

0.14sec- AV
0.11sec- Semilunar

Question 64

3rd heart sound

Answer 64

.. If the heart is not accommodating with volume (not stretchy), the Ventricular walls can vibrate, sets off the cartilaginous ring.. Most likely time is when the heart is getting pretty full.. Typically, at the begging of the 2nd 3rd of diastole.. 1/3 into diastole

Question 65

4th heart sound

Answer 65

typically happens when the atria contact. Last 3rd during filling.. Someone who is sick who is reliant of atrial kick to fill ventricle.. Typically, Only about 10% of the diastolic volume.. Should not hear atrial kick (4th heart sound) in a health adult

can be out of normal hearing range

Question 66

Normal Hearing Range

Answer 66

20Hz-20kHz

Question 67

Right Coronary Dominance of PDA

Answer 67

85%

Question 68

Heart Adenosine production

Answer 68

2% every 30min

Question 69

Thyroid blood flow

Answer 69

5x mass

Question 70

Recurrent Laryngeal nerve

Answer 70

Left lower under aortic arch
Right higher under brachiocephalic

Question 71

Treatment for hyperthyroidism

Answer 71

PTU- propyl thiouracil-> inhibits peroxidase
high dose of Iodine
I-131

Question 72

Iodide trapping

Answer 72

30x increase in cellular concentration gradient

Question 73

Peroxidase enzyme

Answer 73

H2O2

makes peroxide
Oxidizes I-, makes positive

Question 74

CV transport protein of T3 and T4

Answer 74

TBG - thyroxine binding globulin

Question 75

Decompensated shock blood loss

Answer 75

40%- CNS ischemic response
or 45mmHg MAP

Question 76

Fluid shifts

Answer 76

70Kg male, TBW of 42L
28L intracellular.. 14L interstitial –
3L plasma, still have a lot of interstitial fluid to shift in CV.. ¼ to 1/5 plasma to interstitial fluid ratio.. Still follows this ratio..

Question 77

Normal cardiac reserve

Answer 77

400%

maximal plateau was 23L/min

Question 78

Pulse Pressure Variation

Answer 78

Higher the preload, the lower PPV
If sytolic pulse pressure variation drops by 10% or more during inspiration, hypovolemic