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Dose Calculations

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Dose Calculations 6 4 Systems of Measure Three common systems still used today Each deals with units of mass and volume Metric Apothecary Household Metric System Most ... – PowerPoint PPT presentation

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Title: Dose Calculations


1
Dose Calculations
6
4
2
Systems of Measure
  • Three common systems still used today
  • Each deals with units of mass and volume
  • Metric
  • Apothecary
  • Household

3
Metric System
  • Most commonly used
  • Considered the most convenient since based on
    units of 10
  • Basic units are
  • Meter Length
  • Liter Volume
  • Gram (Weight) Mass

4
Metric System
  • Length
  • 1 kilometer (km) 1000 meters
  • 1 hectometer 100 meters
  • 1 decameter 10 meters
  • Meter
  • 1 decimeter 1/10 meter
  • 1 centimeter (cm) 1/100 meter
  • 1 millimeter (mm) 1/1000 meter
  • Volume
  • 1 kiloliter 1000 liters
  • 1 hectoliter 100 liters
  • 1 decaliter 10 liters
  • Liter (L)
  • 1 deciliter 1/10 liter
  • 1 centiliter 1/100 liter
  • 1 milliliter (ml) 1/1000 liter
  • Weight
  • 1 kilogram (kg) 1000 grams
  • 1 hectogram 100 grams
  • 1 decagram 10 grams
  • Gram
  • 1 decigram 1/10 gram
  • 1 centigram 1/100 gram
  • 1 milligram (mg) 1/1000 gram

1 Gram 1 ml 1 cc 1 Kg 1000 g 2.2 lbs 1
mcg (Āµg) one-millionth of a gram (0.000001 g)
5
Apothecary System
  • Old system of measurement
  • Considered to be less precise and convenient
  • Basic units are
  • Minim Volume
  • Grain (Weight) Mass
  • Written prescriptions place abbreviations before
    a roman numeral (gr V 5 grains)
  • Ā¼ of a grain would be written as gr Ā¼ not 0.25 gr

1 Grain (gr) 60 65 mg 1 dram 60 gr 8 dr 1
oz 16 oz 1 lb
6
Household System
  • Approximate system of measurement
  • Basic units are
  • Weight ounces, pounds
  • Volume glass, cup, tablespoon, drop, quart,
    pint and gallon

1 t 4 5 ml 1 T 15 16 ml 1 pt 500 ml 1
qt 1000 ml 2 pt 1 in 2.54 cm
7
Dose calculations
  • As a paramedic you will have to calculate drug
    doses, infusion rates and strengths of drugs in
    the field.
  • Remember
  • All units of measure must be converted to the
    same unit and system
  • The computed dose must be assessed to determine
    if it is reasonable
  • Use the same method of calculation every time

8
Concentrations
  • Refers to the strength of the drug (how many of
    one thing is present in something else)
  • 10 mg of drug in 1 ml of solution
  • Accomplished by dividing the weight of the drug
    by the volume of fluid it is in

9
Concentrations
  • Some drugs are labeled as a percentage
  • Refers to of grams in 100 ml of solution
  • 1 Lidocaine 1 g of Lidocaine in 100 ml
  • 10 MgSO4 10 g of MgSO4 in 100 ml
  • D5W 5 Dextrose in water
  • 5 g of dextrose in 100 ml of Water
  • A 10 ml of 10 MgSO4 has 1 g of drug per 10 ml
    (or 100 mg/ml)

10 g MgSO4 100 ml

100 mg/ml
10 MgSO4

10000 mg 100 ml

10
Calculations
  • Three common types
  • Basic Formula (Most common)
  • Dimensional analysis
  • Ratios and proportions
  • May also see the T method

11
Dimensional Analysis
  • Sets up all conversion factors in one equation
    and separated by X
  • To solve calculation
  • Set up the equation
  • Cancel pairs of units of numerator/denominator
  • Multiply the numerators
  • Multiply the denominators
  • Divide the numerator by the denominator

12
Dimensional Analysis
  • Example 1
  • You are to administer fentanyl 50 mg IM. You
    have 75 mg of the drug in a 1 ml solution. How
    many ml will you give?

50 ml 75
2 ml 3
0.66 ml
ml
1 ml 75 mg
X
50 mg 1




13
Dimensional Analysis
  • Example 2
  • You are to administer 5 mg IV of valium. You
    have 10 mg of the drug in a 1 ml solution. How
    many ml will you give?

5 ml 10
1 ml 2
0.5 ml
ml
1 ml 10 mg
X
5 mg 1




14
Ratio and Proportions
  • Compares two numbers and works like a fraction
  • Example
  • Administer morphine 3 mg IV. You have 10 mg in 1
    ml of solution. How many ml will you give?
  • 10 mg 1 ml 3 mg x ml

Means
  • Therefore
  • 10x 3
  • x 3/10
  • x 0.3 ml

Extremes
15
Basic Formula
  • D desired dose Want
  • H concentration of the drug Have
  • V volume the drug is supplied in Volume

16
Calculation 1
  • The adult patient with nausea has no allergy to
    Dimenhydrinate. The appropriate dose is 20 mg.
    How many milliliters will be administered?
  • D 20 mg
  • How is Gravol supplied?
  • 50 mg in a 5 ml vial
  • H 50 mg
  • V 5 ml

17
Calculation 1
Dose
D H
X
V
  • What is a side effect of Gravol?
  • Burning within the vein
  • How can it be diminished?
  • Dilute with saline prior to administration

5 ml
20 mg 50 mg
X

100 ml 50


2 ml
18
Calculation 2
  • An average size adult patient is actively
    seizing. The appropriate dose for diazepam is
    2.5 mg to 5.0 mg IVP.
  • How is valium supplied?
  • 10 mg in 2 ml
  • Calculate the administration for the smallest dose

19
Calculation 2
Dose
D H
X
V

2 ml
2.5 mg 10 mg
X

5 ml 10

0.5 ml

20
Calculation 3
  • With the same patient, calculate the
    administration for the largest dose (5.0 mg)

21
Calculation 3
Dose
D H
X
V
  • Why can valium not be diluted with saline?
  • Is oil based
  • What would happen if it was diluted in saline?
  • Seizure Salad Dressing

2 ml
5 mg 10 mg
X

10 ml 10

1.0 ml

22
Calculation 4
  • A 28 y/o male has a fracture to the left tib/fib.
    His pain is 10/10. The appropriate dose for
    morphine sulfate is 2.5 5 mg.
  • How is morphine supplied?
  • 10 mg in 1.0 ml
  • Calculate the administration for the smallest dose

23
Calculation 4
Dose
D H
X
V

1 ml
2.5 mg 10 mg
X

2.5 ml 10

0.25 ml

24
Calculation 5
  • With the same patient, calculate the
    administration for the largest dose (5.0 mg)

25
Calculation 5
Dose
D H
X
V
  • How can an ACP administer morphine more
    accurately and safely?
  • Dilute 10 mg in 9 ml of saline in a 10 cc syringe
  • What is the concentration of the drug now?
  • 1 mg/ml

1 ml
5 mg 10 mg
X

5 ml 10

0.5 ml

26
Calculation 5
Dose
D H
X
V
  • What are 3 potential side effects of morphine?
  • Nausea, hypotension, respiratory depression
  • How can we treat these effects?

1 ml
5 mg 10 mg
X

5 ml 10

0.5 ml

27
Calculation 6
  • A 70 y/o female is in extremis due to dyspnea
    preceded by two weeks of general malaise. She is
    lethargic, warm to the touch, diaphoretic, and
    has an Sa O2 of 80 on 100 O2. You decide to
    intubate. The appropriate dose for Versed is 2.0
    5.0 mg.
  • How is Versed supplied?
  • 10 mg in 2 ml
  • Calculate the administration for the 2.0 mg dose

28
Calculation 6
Dose
D H
X
V

2 ml
2.0 mg 10 mg
X

4.0 ml 10

0.4 ml

29
Calculation 7
  • With the same patient, calculate the
    administration for the largest dose (5.0 mg)

30
Calculation 7
Dose
D H
X
V

2 ml
5 mg 10 mg
X

10 ml 10

1 ml

31
Calculation 8
  • A 70 y/o male is c/o dyspnea. He has a PHx of
    CHF and on exam has rales in all lungs fields.
  • He is on Furosemide 40 mg PO but has not had any
    in two days since his prescription ran out and
    has not been refilled.
  • What is the most appropriate method of
    determining how much lasix the patient should
    receive?
  • Contact OLMC
  • How is Lasix supplied?
  • 40 mg in 4 ml
  • Calculate the administration for the 40 mg dose

32
Calculation 8
Dose
D H
X
V

4 ml
40 mg 40 mg
X

160 ml 40

4 ml

33
Calculation 9
  • You are called for a 24 y/o female, third
    trimester, who presents with grand mal seizures.
    Her husband states she has been bedridden with
    HTN X 3 weeks and denies any other PHx,
    medications or drug use.
  • The protocol for seizures with eclampsia states 1
    g of magnesium sulfate
  • How is MgSO4 supplied?
  • 5 g in 10 ml
  • Calculate the administration dose

34
Calculation 9
Dose
D H
X
V

10 ml
1 g 5 g
X

10 ml 5

2 ml

35
Calculation 10
  • The pt is a 49 y/o female who presents with
    dyspnea, tachycardia and pallor.
  • She is normotensive, has Sa O2 of 98 on RA and a
    regular, narrow complex tachycardia on the
    monitor with a rate of 178.
  • Protocol states that Adenosine is the appropriate
    medication with a starting dose of 6.0 mg.
  • How is Adenosine supplied?
  • 6 mg in 5 ml
  • Calculate the administration dose

36
Calculation 10
Dose
D H
X
V

5 ml
6 mg 6 mg
X

30 ml 6

5 ml

37
Calculation 11
  • Your pt is a 55 y/o male c/o weakness. O/E the
    pt is pale, diaphoretic and has a slow regular
    pulse at 40 with a BP of 90/60. The ECG shows a
    sinus bradycardia with no ectopics.
  • Atropine is indicated. The dose is 0.5 mg
  • How is Atropine supplied?
  • 1 mg in 10 ml
  • Calculate the administration dose

38
Calculation 11
Dose
D H
X
V

10 ml
0.5 mg 1.0 mg
X

5 ml 1

5 ml

39
Calculation 12
  • You are called to the home of an 18 y/o female
    who has been stung by a bee. She has a known
    allergy. She was unable to self administer her
    epi pen due to device malfunction.
  • Your standing orders are for 0.3 mg SQ of 11,000
    solution.
  • How is Epinephrine 11,000 supplied?
  • 1 mg in 1 ml
  • Calculate the administration dose

40
Calculation 12
Dose
D H
X
V

1 ml
0.3 mg 1.0 mg
X

0.3 ml 1

0.3 ml

41
Weight Specific Dosing
  • Some medications require a Dose based on the
    patients weight. (Typically in kilograms)
  • May be a bolus or an infusion
  • 1.5 mg/kg of Lidocaine bolus in an arrest
    protocol
  • 5 Āµg/kg/min of Dopamine
  • To calculate the dose multiply the dose in units
    (g, mg, Āµg) by the pts weight in kg.

42
Calculation 13
  • The pt is a 60 y/o female who presents
    unresponsive falling a fall down a flight of
    stairs. She has snoring respirations, purposeful
    movements of her arms, and an obvious deformity
    to her left parietal region. You decide to
    sedate and intubate the pt. Following the
    administration of Versed, prior to intubating you
    are to administer Lidocaine. She weighs
    approximately 110 lbs.
  • How is Lidocaine supplied?
  • 100 mg in 5 ml
  • Calculate the administration dose

43
Calculation 13
  • First convert the weight of this patient
  • Then calculate the desired dose

Weight
110 lb 2.2 kg/lb
50 kg


Desired Dose
50 kg X 1.5 mg/kg
75 mg


44
Calculation 13
Dose
D H
X
V

5 ml
75 mg 100 mg
X

375 ml 100

3.75 ml

45
Calculation 14
  • The pt is a 40 y/o, 220 lb male. He is 1 week
    post operative bowel surgery, released from
    hospital 3/7 ago, responsive but lethargic
  • His Sa O2 is 95 on RA, HR 124 Reg and Weak, BP
    70/40.
  • Your interventions are 100 O2 and a 1 L bolus of
    NaCl and has not shown a hemodynamic change. The
    protocol states 5 Āµg/kg/min infusion of dopamine.

46
Calculation 14
  • What do we need to know?
  • How is dopamine supplied?
  • 800 mg in 500 ml of D5W
  • Weight of pt in kg
  • How much dopamine is to be delivered per minute
  • Concentration of dopamine per gtt
  • How many gtts per minute (will do this next
    module)

220 lb 2.2 kg/lb
Weight
100 kg


Desired Dose
100 kg X 5 Āµg/kg/min
500 Āµg/min


800 mg 500 ml
1600 Āµg/ml
Concentration
1. 6 mg/ml



47
Practical Session
  • Using the D Kit. Identify all the medications
    found within it and document the following
  • Name
  • Concentration
  • Indications
  • Contraindications
  • Dosing parameters
  • Appropriate calculation of dose

48
To continue
  • We will continue calculations next month during
    the IV session of the program.
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