NAPLEX required formulas

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RRR

(%risk in control group-%risk in trt group) / % risk in control group

correction dose

(blood glucose now) - (target blood glucose) / CF = correction dose

compounds and their valencies

*valency of 1* Ammonium Chloride (NH4Cl) Potassium Chloride Kcl potassium gluconate KC6H11O7 sodium acetate NaC2H3O2 sodium bicarb NaHCO3 sodium chloride *valency of 2* calcium carbonate CaCO3 calcium chloride CaCl2 ferrous sulfate FeS02-4 magnesium sulfate MgSO2-4 *(divalent ions 1 mEq=0.5mmol)*

rule of 500

for use with rapid acting insulin 500/TDD = grams of carbs covered by 1 unit of rapid acting insulin

rule of 450

for use with regular insuin 450/TDD = grams of carbs covered by 1 unit of regular insulin

mols or mmols

g/MW or mg/mw

SG

g/mL

HR

hazard rate in trt group / hazard rate in control group

mEq

mg x valence / MW or mEq = mmol x valence

ARR

(% risk in control group) - (%risk in treatment group)

t1/2

0.693/ke

NNT or NNH

1/ARR

ratio strength

100/percentage strength

percentage strength

100/ratio strength

correction factor

1800 rule - rapid acting insulin 1800/TDD = CF for 1 unit of rapid acting insulin 1500 rule - regular insulin 1500/TDD = CF for 1 unit of regular insulin

1 oz

28.4g

IBW for females

45.5kg + (2.3kg)(# of inches over 5 feet)

IBW for men

50kg + (2.3kg)(# inches over 5 feet)

1 grain

65mg

OR

AD/BC

dehydration

BUN:Scr > 20:1

Farenheit -- celsius

C = (F-32)/1.8 F = (Cx1.8) + 32

Corrected Calcium (when alb <3.5, unless ionized Ca given)

Calcium reported + [(4.0-albumin) x 0.8]

isotonicity

E = (58.5)(i) / (MW of drug)(1.8) i = ionization factor/dissociation factor number of dissociated ions being 1 a dissociation factor of 1 then everything after that you add 0.8 so a number of dissocated ions being 2 = dissoc factor of 1.8

Bioavailability

F (%) = 100 x AUCev/AUCiv X DOSEiv/DOSEev

ABW

IBW + 0.4(TBW-IBW)

Elimination Rate constant

Ke = cl/vd

Anion Gap

Na-Cl-HCo3

Cl

Rate of elim (ke) / Conc or F X dose / AUC

BSA calculations

SQUARE ROOT!!! OF (ht (cm) x wt (kg) ) / 3600 sidenote: carboplatin is dosed by the calvert formula -- total carbo dose (mg) = target AUC x (GFR+25)

ANC

WBC x [(segs + bands )/100]

BMI

Weight (kg) / height (m2) <18.5 underweight 18.5-24.9 normal 25-29.9 overweight 30+obese

calcium % elemental

carbonate 40% elemental citrate 21% elemental

LD

desired concentration x Vd / F

Calculating a dose of new dosage form

dose of new dosage form = amount absorbed from current dosage form/F of new dosage form

Vd

dose/cp (amount of drug in body/conc. of drug in plasma)

Dubois-Dubois formula

for BSA for oncology BSA (m2) = 0.007184 x [cm]^0.725 / [kg]^0.425

PPM --> percentage strength

move the decimal 4 places left

percentage strength --> PPM

move the decimal place 4 places right

Risk

number of subjects with unfavorable event in group/total number of subjects in the group

percent ionization weak base

pH = pKa + log [base/salt]

percent ionization weak acid

pH = pKa + log [salt/acid]

ABG

pH/pCO2/PO2/HCO3/O2sat pH <7.35 --> acidosis pH >7.45 --> alkalosis CO2: 35-45 HCO3 22-26

RR

risk in trt group / risk in control group

Sensitivity and specificity

see sheet

MWQ (minimum weighable quantity)

sens. requirement / 0.05

phenytoin correction

total pheny measured / (0.2xalbumin) + 0.1

calculating osmolarity mOsm/L

wt of substance (g/L) / MW x # particles x 1,000 # of particles: Kcl, NaCl, Na acetate = 2 CaCl2 = 3 Na Citrate (Na3C6H5O7) = 4


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