Important Equations Flashcards

Question 1

Q

Sensitivity

Answer

A

^{<img></img>TP} / _{(TP + FN)}

_or

^A/ _{(A + C)}

_{or}

_{1 - False Negative Rate}

Question 2

Q

Specificity

Answer

A

^{<img></img>TN} / _{(TN + FP)}

_or

^D/ _{(D + B)}

_{or}

_{1 - False Positive Rate}

Question 3

Q

PPV

Answer

A

^{<img></img>TP} / _{(TP + FP)}

_or

^A/ _{(A + B)}

Question 4

Q

NPV

Answer

A

^{<img></img>TN} / _{(FN + TN)}

_or

^D/ _{(C + D)}

Question 5

Q

Odds Ratio

Answer

A

^{<img></img>A/C} / _B/D

_{or}

^{<img></img>A/B} / _C/D

_or

^{<img></img>AD} / _BC

FOR CASE CONTROL STUDIES

Question 6

Q

Relative Risk

Answer

A

^{<img></img>A / (A + B)} / _{C / (C + D)}

Question 7

Q

Attributable Risk

Answer

A

( ^A / _{(A + B)}) - ( ^{C} / _{(C + D)})

Question 8

Q

RRR

Question 9

Q

Attributable Risk Reduction

Answer

A

( ^C / _{(C + D)}) - ( ^A / _{(A + B)})

Question 10

Q

Number Needed to Treat

Answer

A

¹ / _ARR

Question 11

Q

Number Needed to Harm

Question 12

Q

Hardy-Weinberg Equilibrium

Answer

A

p² + 2pq + q² = 1

p + q = 1

Question 13

Q

Half-life

Answer

A

t½ = ^{.693 x Vd} / _CL

_{Vd= Volume of Distribution}

CL= Clearance

Question 14

Q

Clearance

Answer

A

^{Rate of elimination of drug} / _{plasma drug concentration}

or

Vd x Ke (Ke=elimination constant)

or

^{U x V}/ _P

Question 15

Q

Loading Dose

Answer

A

^{Cp x Vd} / _F

Cp= Desired plasma concentration

Vd= Volume of distribution

F= Bioavailability

Question 16

Q

Maintenance Dose

Answer

A

^{Cp x CL x t} / _F

Cp= Desired plasma concentration

CL= Clearance

t = infusion rate/frequency

F= Bioavailability

Question 17

Q

Cardiac Output

Answer

A

CO= SV x HR

or

Ficks Equation:

^{Rate of O₂ Consumption} / _{arerial O² content - venous O² content}

Question 18

Q

Mean Arterial Pressure

Answer

A

MAP = CO x TPR

_or

MAP = ²/₃ Diastolic + ¹/₃ Systolic

Question 19

Q

Stroke Volume

Answer

A

SV= EDV - ESV

Question 20

Q

Ejection Fraction

Answer

A

^SV / _EDV

_or

^{EDV - ESV}/ _EDV

Question 21

Q

Resistance

Answer

A

^{Driving Pressure (▲P)} / _{Flow (Q)}

_or

^{8n x length}/ _π_r⁴

n= viscosity

r= radius

Question 22

Q

Capillary Fluid Exchange

Answer

A

Net Fluid Flow = K_f [(P_c - P_i) - σ(π_c - π_i)]

K_f= constant of filtration?

P_c/i= hydrostatic pressure of capillary or interstitium

π_c/i= oncotic pressure of capillary or interstitium

σ= Reflection coeficient

Postitive Net Fluid Flow = Filtration

Negtive Net Fluid Flow = Reabsorption

Question 23

Q

Renal Clearance

Answer

A

^U^x^V / _P_x

Question 24

Q

Glomerular Filtration Rate

Answer

A

^U^inulin^V / _P_inulin

_or

GFR = K_f [(P_GC - P_{BS}) - (π_GC - π_BS)]

Question 25

Q

Effective Renal Plasma Flow

Answer

A

eRPF = ^U^PAH ^V / _P_PAH

Question 26

Q

Renal Blood Flow

Answer

A

^RPF / _{1 - Hct}

RPF can be determined from PAH

Question 27

Q

Filtration Fraction

Answer

A

^GFR / _RPF

Question 28

Q

Henderson Hasselbalch Equation

(for extraceullar pH)

Answer

A

pH = 6.1 + log( ^[^HCO^{3}^-] / _.03_P_CO2 )

Question 29

Q

Winters Formula

Answer

A

P_CO₂ = 1.5 [HCO₃-] + 8 _{^+/-}2

Question 30

Q

Physiologic Dead Space

Answer

A

VD = VT x ( ^Pa^CO2^{- PE}^CO2 / _{PaCO}₂)

Pa_CO₂= Arterial P_CO₂= Alveolar P_CO₂

Pa_CO₂= P_CO₂ of Expired Air

Question 31

Q

Pulmonary Vascular Resistance

Answer

A

PVR = ^(P^{pulm artery}^{- P}^{L atrium}⁾ / _{Cardiac Output}

Question 32

Q

Alveolar Gas Equation

Answer

A

P_AO₂ = P_iO₂ - (^Paco² / _R)

R= respiratory gas quotient (usually .8)

or

P_AO₂ = P_iO₂ - 1.2(P_aCO_{2})

Question 33

Q

Serum Osmolality Equation

Answer

A

Osm = 2Na + ^Glucose/₁₈+ ^BUN/_2.8 + ^EtOH/_4.6

Use in Anion Gap Metabolic Acidosis (MUDPILES)

If Actual Osm - Calculated Osm is > 10 : indicates presence of unaccounted osmoles

Indicates Ethylene Glycol, Propylene Glycol, or Methanol causing anion gap (all are active osmoles)

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Important Equations Flashcards

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