PSCIG 1541L Pharmacy Compounding Lab 06 Fall 2024 PDF

Summary

This document is a laboratory exercise for a pharmacy compounding course, covering the preparation of solutions, including electrolyte and controlled substance solutions, using various co-solvent systems.

Full Transcript

PSCIG 1541L: Pharmacy Compounding Laboratory 06 – Fall 2024 – KEY

Laboratory 06: Solutions
Learning Objectives
PERFORM calculations necessary to the preparation of solution dosage forms.

ANALYZE the appropriateness of a prescribed product for a patient.

SELECT an appropriate vehicle for the preparation of a solution.

PREPARE an electrolyte solution dosage form using a prepared syrup vehicle and appropriate flavoring.

PREPARE a controlled substance solution dosage form using a co-solvent system.

PACKAGE solutions within an amber prescription bottle.

Pre-Laboratory Activities
1) Review the material provided below on Solution Dosage Forms and Labeling of Solution
Preparations.

Refer to Chapters 9 – 11 in Applied Pharmaceutics in Contemporary Compounding (Shrewsbury)
or Chapters 15, 16, 17, 21, 22, and 27 in A Practical Guide to Contemporary Compounding (Elder)
for more information.

Solution Dosage Forms
(USP Pharmaceutical Dosage Forms)

Solution – a preparation that contains one or more dissolved chemical substances in a suitable
solvent or mixture of mutually miscible solvents.

Oral solutions are frequently sweetened and/or flavored to improve palatability and mask
drug taste.

Injectable and ophthalmic solutions must be sterile (see PSCIG 1542 – Winter Quarter)

Vehicles for Solution Dosage Forms

The vehicle (solvent) for a solution dosage form should be selected based on the route of administration
and solubility of the drug(s). Remember: “like dissolves like” so polar solvents will dissolve polar solutes
while less polar solvents will dissolve less polar solutes. The most common solvent is water (polar,
nontoxic, inexpensive – water-based vehicles include syrups (e.g. Simple Syrup; OraSweet®) and
suspending vehicles (e.g. methylcellulose; OraPlus®)) but other solvents may be used:

Oral – alcohol,USP; glycerin; propylene glycol; oils

Topical – acetone; isopropanol; polyethylene glycol; collodion; oils; polymers

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The solubility of a drug should always be confirmed prior to preparation of a solution dosage form to
ensure that a simple solution can be prepared. However, when a single solvent such as water will not
solubilize a drug (e.g. a nonionic or less polar drug substance) then a change in pH (i.e. to shift the
ionization status of the molecule) or a mixture of co-solvents of varying polarity may be used to improve
solubilization.

Co-Solvent Systems

Development of a co-solvent system can be done experimentally by dissolving the solute in various
concentrations of non-aqueous solvents (e.g. alcohol, USP or glycerin). For example, the solubility for
phenobarbital in water is reported as being 1 g/1000 mL (or ~0.1%), which is significantly below the
desired therapeutic concentrations. Therefore, solutions must be prepared using a co-solvent system.

The following data have been reported to facilitate the preparation of phenobarbital solutions using a
purified water/alcohol, USP/glycerin co-solvent system that has the appropriate solvating ability, safety,
and viscosity.
Phenobarbital Solubility in Water/Alcohol, USP/Glycerin Mixtures
Glycerin (% (v/v))
0 5 15 20 25 40
Phenobarbital Solubility (% (w/v)) Alcohol, USP (% (v/v))
0.22 15 13 9 7 5 3
0.44 30 27 21 18 15 9
0.66 35 32 26 23 20 15
0.88 40 37 31 28 25 19
1.33 45 42 36 33 30 25
1.77 50 47 41 38 35 29

These data have been plotted for you on the following page. The graphs can be used to determine the
specific amount of alcohol, USP needed to prepare water-based solutions at known phenobarbital and
glycerin concentrations.

For example, if a particular solution is to be prepared having a phenobarbital concentration of 1%(a), and
a glycerin concentration of 25%(b), then an alcohol, USP concentration of approximately 26.5%(c) would
also be needed to achieve the desired solubility (see graph).

In addition, 2% is conventionally added to the needed alcohol, USP concentration to ensure solubility
under all conditions. So, for the previous example, a solution having 28.5% alcohol (i.e. 26.5% + 2%)
would actually be prepared.

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2.0

1.8
Phenobarbital Solubility (%)

1.6

1.4

1.2
(b)
(a)
1.0

0.8 0% Glycerin
5% Glycerin
0.6
15% Glycerin
0.4 20% Glycerin
25% Glycerin
0.2
(c) 40% Glycerin
0.0
0 10 20 30 40 50 60

Alcohol, USP (%)

Flavoring Oral Liquid Dosage Forms

When flavoring liquid dosage forms such as solutions several factors must be accounted for including:

Ability of the flavor to mask the drug
Flavor to Mask Suggested Flavors
Salty Cinnamon, raspberry, orange, maple,
e.g. salts, especially low molecular weight butterscotch, licorice (glycyrrhiza), apricot,
caramel
Sweet Fruit, berry, bubblegum, vanilla
e.g. Organic esters, alcohols, aldehydes
Bitter Cocoa, chocolate, mint, cherry, walnut, licorice,
e.g. nitrogen containing compounds e.g. alkaloids, free bases anise, raspberry, tutti-frutti, passionfruit
of amides
Sour/Acidic Fruit, citrus, cherry, raspberry
e.g. acids and phenols
Oily Wintergreen, peppermint oil, lemon, anise
Metallic Mint, marshmallow
Applied Pharmaceutics in Contemporary Compounding (Shrewsbury)

Age of the patient (i.e. pediatric versus adult)
o Pediatric patients: more sensitive to taste; prefer sweet flavors; dislike bitter flavors
o Geriatric patients: decreased sense of taste and smell might require increased flavor

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Patient species (for veterinary products)
Species Flavors
Birds Grape, molasses, orange, pina colada, tutti-frutti, other sweet flavors
Cats Beef, butterscotch, cheese, chicken, liver, molasses, peanut butter,
salmon, sardine, tuna
Dogs Beef, cheese, chicken, liver, marshmallow, peanut butter, raspberry,
strawberry
Horses Alfalfa, apple, bluegrass, caramel, cherry, molasses, clover
Ferrets Fish, fruits, molasses
Gerbils, iguanas, rabbits Fruits, vegetables
Applied Pharmaceutics in Contemporary Compounding (Shrewsbury)

Stability of the product upon addition of flavoring (e.g. consider the co-solvent system above)

The pharmaceutical elegance of the product can also be increased by including coloring that matches
the flavor of the final product (e.g. yellow for lemon, purple for grape). As with flavors, check the
stability of the color with the product. Taste masking may be improved by including viscosity enhancing
agents such as methylcellulose (e.g. OraPlus®)

Labeling of Solution Preparations
Directions for use (appropriate verb)
- “Give/Take…orally…” used for oral solutions
- “Apply…(indicate “to the affected area”/”vaginally”/”rectally”…)…” used for topical
solutions
- “Use…” for solutions administered “as a shampoo/soak/douche/etc.”
- “Place/Instill…(indicate route of administration)…” for nasal and otic (or ophthalmic – to be
covered in PSCIG 1542) solutions

Expression of active ingredient concentration
- Oral: express as a metric weight or metric volume per volume to be administered (e.g. 50
mg/5 mL)
o NOTE: electrolyte dosage should be expressed as BOTH the milliequivalent AND
metric weight (e.g. 8 mEq (50 mg)/5 mL)
- Topical/Nasal/Otic: express as a percent concentration (e.g. 10%)
- If Alcohol, USP is used as an excipient, its %(v/v) concentration within the final product
must be expressed on the prescription label.

Auxiliary Labeling
- If not dispensed in a tight container having a safety closure:

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- Even when preserved, oral solutions should be stored under refrigeration, unless
contraindicated*

*possible contraindications include solutions near their saturation point, having a high viscosity, and/or
containing drug(s) that are unstable at low temperatures.

- If the prescription is intended for non-oral administration, it should contain one of the
following labels indicating the appropriate route of elimination.

Dispense solutions in an (appropriately sized) amber bottle or other packaging device appropriate for
the application (e.g. unit dose oral syringes, nasal or topical spray bottles, etc.).

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Name: __________________________ Seat # _______-A

Laboratory 06: Pre-Laboratory Assessment

CASE #1

You prepare the following formulation:

Rx : Phenobarbital 40 mg/5 mL

Glycerin 13.5 mL

M.ft. 3 fl.oz. sol.

1. What is the primary purpose of the glycerin in the formulation?
(a) Sweetener (has a sweet taste but not the primary purpose)
(b) Viscosity enhancer (is viscous but not the primary purpose)
(c) Cosolvent
(d) Flavoring (not used as a flavoring)

2. When labeling this product, which of the following is most appropriate?
(a) Phenobarbital 40 mg/5 mL, Glycerin 13.5 mL Solution
(b) Phenobarbital 0.8%, Alcohol, USP 31.5% Solution
(c) Phenobarbital 8 mg/mL, Alcohol, USP 31.5% Solution
(d) Phenobarbital 40 mg/5 mL, Glycerin 15%, Alcohol, USP 31.5% Solution
(e) Phenobarbital 40 mg/5 mL, Alcohol, USP 31.5% Solution

Glycerin not needed on label; drug expressed as metric unit per metric volume relative to the
dose, alcohol, USP (as percentage strength) should be on the label.

SORRY I MISSPOKE IN PRELAB – ANSWER SHOULD BE (E) NOT (D) SINCE GLYCERIN DOES NOT
NEED TO BE ON THE LABEL. GAVE HALF CREDIT FOR (E).

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over 

CASE #2

You need to prepare an oral sodium chloride electrolyte solution as follows:

Rx : NaCl 23.4% (w/v)
Flavor q.s.
M.ft. 60 mL sol

3. Which of the following flavors might best mask the NaCl?
(a) Tutti-Frutti (mixed tropical fruit)
(b) Caramel
(c) Mint
(d) Marshmallow
See the flavor information above

4. When labeling this product, which of the following expressions is most appropriate?
(a) NaCl 23.4% Solution
(b) Sodium Chloride 23.4% Solution
(c) NaCl 1170 mg (20 mEq) Solution
(d) Sodium Chloride 1170 mg/5 mL (20 mEq/5 mL) Solution
(e) Sodium Chloride 1170 mg (20 mEq)/teaspoonful Solution
Spell out NaCl and express as both the metric (mg) and mEq dose per metric volume given.
Dosage form should be indicated.

5. You dispense the product in a 2 fl.oz. amber prescription bottle that has a safety closure. Which of
the following accessory labels is required on the bottle?
(a) Refrigerate
(b) Shake Well solutions do not need to be shaken
(c) Keep Out of Reach of Children bottle has a safety closure
(d) Compounded for You

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Laboratory 06: Solutions
Laboratory Assignment
Complete the following activities related to compounding solution preparations.

CASE #1 – Preparation of an Electrolyte Solution

COLLECT

Case: CK is a 6 y.o. female patient suffering from short term hypokalemia. The patient has also been
diagnosed with phenylketonuria.

Additional Information: The molecular formula, molecular weight, and water solubility for potassium
chloride (available as a bulk powder) can be found in Remington or other appropriate scientific
references.

Prescription:
Robert Holden, M.D.
1994 Gotham Way, Gotham City, AZ 85359
Ph: 580-590-1994
Name: Celina Kyle Date: 10/8/24
Address: 643 N. 67th Ave., Glendale, AZ 85308

KCl 5 mEq/tsp
Flavored syrup q.s.
M.ft. sol. ii fl.oz.
Sig: ii tsp t.i.d. pc w/ aq
Refill 5 times

Dispense as Written Substitution Permissible
DEA#__________________ DEA#

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ASSESS

1. Is the prescribed route of administration and dosage form appropriate for this patient? What
are some of the disadvantages of this dosage form?

Oral administration is the most convenient and natural route of administration and, since the
patient is only 6 years old, a liquid dosage (e.g. solution) form would be preferred over a solid
dosage form (e.g. capsule or tablet) for ease of swallowing.

However, bulk solution dosage forms may have some disadvantages including: (1) dosing may
be more inconvenient and/or inaccurate since the caregiver needs to measure the appropriate
dose; (2) taste masking may be more difficult since the solutes more readily contact the taste
buds; (3) stability may be decreased due to the water content in the product (syrups, by
definition, are aqueous solutions) requiring a shorter beyond use date (BUD) and storage under
refrigeration.

2. Why does the potassium chloride solution need to be taken with water?

Potassium chloride is very irritating to the GI lining and concentrated solutions may cause
irritation/ulceration, even after meals, if not diluted upon administration.

Note: this is particularly a concern with the solid dosage forms which are more concentrated and
must be taken with plenty of water especially because, if the product were to lodge in the
esophagus, the potassium chloride could cause esophogeal ulceration.

Reference: Facts and Comparisons [online database] available at
http://fco.factsandcomparisons.com

PLAN

3. Preparation of a Flavored Syrup Vehicle

You do not have any syrup vehicle on hand and therefore need to prepare one in advance of
making the final product using the following formulation:

Flavored Syrup Vehicle

Sucrose 600 g 600 𝑔
𝑥 75 𝑚𝐿 = 45 𝑔
Flavor q.s. 1000 𝑚𝐿
Purified water q.s. a.d. 1 L

Complete the compounding steps for the preparation of 75 mL of the syrup vehicle:

(a) Weigh 45 g of sucrose using an electronic balance and place into a 125-mL conical
graduate. (Hint: tare the conical graduate on your balance and weigh the sugar directly
into the graduate)

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Note: conical graduates are preferred over cylindrical graduates for ease of preparation;
however, measurements in these graduates are prone to greater error due to their larger
diameters (see lab #2).

(b) Add small portions of purified water up to approximately 70 mL while stirring in order to
dissolve all of the sucrose.

Note: do not stir too vigorously, especially as the viscosity increases, as small air bubbles
may become trapped in the solution leading to measurement error and/or difficulty in
assessing the dissolution of the sucrose. We do not QS up to the total volume at this
point in order to leave room for the addition of flavors.

(c) Add X drops or X mL of flavoring (flavor: varies)

(d) QS up to 75 mL with purified water.

(e) Transfer the syrup to a 100-mL beaker and save for use in preparation of the
prescription.

4. Indicate a use for all of the ingredients in the prescribed formulation, including those used to
prepare the flavored syrup vehicle.
Ingredient Use
Sucrose Taste masking / improve palatability (sweetener and viscosity
enhancer)
Water Solvent / vehicle

Flavoring Taste masking / improve palatability / pharmaceutical elegance

Potassium chloride Treatment of hypokalemia (low blood levels of potassium)

5. Complete the COMPOUNDING LOG for the preparation of the product:

COMPOUNDING LOG

Preparation: Potassium 5 mEq/5 mL Solution Date Prepared: 10/09/24___ ______

Patient Name: Celina Kyle Prescriber: Robert Holden, M.D.

Prescription Number: e.g. 01-A_____________________ Prepared by: initials ___

Calculations: (note: generally no additional overage is needed in compounding solutions)
5 𝑚𝐸𝑞 1 𝑡𝑠𝑝 5 𝑚𝐸𝑞
KCl 𝑡𝑠𝑝
𝑥 5 𝑚𝐿 = 5𝑚𝐿
(note: for the label this converts to 10 mEq/10 mL)

5 𝑚𝐸𝑞 30 𝑚𝐿
5 𝑚𝐿
𝑥2 𝑓𝑙. 𝑜𝑧. 𝑥 𝑓𝑙.𝑜𝑧. = 60 mEq

MW of KCl = 74.5 g/mole; valence = 1 (KCl → 1K+1 + 1Cl-1) therefore the milliequivalent weight of
𝑀𝑊 74.5𝑚𝑔/𝑚𝑚𝑜𝑙
KCl is 𝑣𝑎𝑙𝑒𝑛𝑐𝑒 = 1 𝑚𝐸𝑞/𝑚𝑚𝑜𝑙
= 74.5 𝑚𝑔/𝑚𝐸𝑞

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74.5 𝑚𝑔 4470 𝑚𝑔 745 𝑚𝑔
60 𝑚𝐸𝑞 𝑥 𝑚𝐸𝑞
= 4470 𝑚𝑔 (note: for the label this converts to 60 𝑚𝐿
𝑥 10 𝑚𝐿 = 10 𝑚𝐿
)

Compounding Procedure:
a. Weigh 4470 mg (4.47 g) of potassium chloride on an electronic balance.

Based on the reported water solubility of potassium chloride, do you expect the
prescribed concentration to be soluble in the syrup vehicle?
It is good practice to confirm the water solubility of a substance before preparing a
solution. In this case, the reported water solubility of KCl is 1 g/2.8 mL. Therefore, we
will need:
4.47 g KCl 2.8 mL water =12.5 mL water
1 g KCl
We are making 60 mL of solution. Although some of the water in the syrup is taken up
by the sucrose (based on the solubility of sucrose, approximately 45 g x 0.5 mL/g = 22.5
mL), we should have sufficient water remaining in our syrup solution for the KCl to
dissolve.

b. Place the potassium chloride into a 125-mL conical graduate.

c. Add a small portions of the syrup vehicle (flavor: to be determined in lab) up to
approximately 50-55 mL while dissolving all of the potassium chloride.

Note: feel free to taste a small amount of your final product (use your stirring rod to let a
small drop fall onto your finger) to see how well your flavor choice masked the saltiness
of the potassium chloride. Adjust flavoring if desired before the final QS but ensure you
update your documentation.

d. QS with syrup vehicle (flavor: to be determined in lab) to 60 mL.

e. Dispense in a 2 ounce amber prescription bottle and with an appropriate dispensing
device (Note: we will not be ‘dispensing’ a device in lab).

BUD: 14 days (10/23/24) Storage: Room Temperature / Refrigerated / Frozen

Quality Control: visual inspection of uniformity (free of undissolved material, correct volume);
pharmaceutical elegance of solution (appropriate flavor) and packaging (no product on the outside of
the bottle or on label; label is straight/not wrinkled; at least one graduation on the side of the bottle
should be visible)

IMPLEMENT

6. Complete the documentation of the compounding of the preparation by recording pertinent
information on the BACK OF THE PRESCRIPTION (lot, manufacturer and expiration dates will be
available in lab):

BACK OF THE PRESCRIPTION

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Sucrose Flavor (if multiple used list all) Potassium chloride Rx# e.g. 01-A
Mfg Mfg Mfg 10/09/24
Lot# Lot# Lot# Initials
Exp Exp Exp

Complete the PRESCRIPTION LABEL and indicate any ACCESSORY LABELS you would apply to the final
dispensed product.

Celina Kyle
both mg and mEq dose needed for electrolytes; express conc.
Potassium chloride 10 mEq (745 mg) / 10 mL Solution in terms of the volume the patient takes for the dose

Give 10 milliliters by mouth after breakfast, lunch, and dinner with a glassful of water.
use #’s not words; be specific with what “tid” means

Do not use beyond: 10/24-25/23 14 days (water, unpreservd) Refills: 5

Rx#: e.g. 01-A Filled on: 10/23/24 Quantity: 60 mL
Prescribed by: Robert Holden, M.D. for bulk products include the
units with quantity

MWU-CPG Pharmacy Teaching Lab 19555 N. 59th Ave., Glendale, AZ 85308 Phone: (623) 123-4567

Accessory Labels:
(if no safety closure)

FOLLOW UP

7. If upon follow up it was discovered that the patient was diabetic and the sucrose content was an
issue, which sweetener(s) could be used to prepare an alternative product?

Artificial sweeteners such as sucralose, stevia, saccharin sodium, and aspartame do not increase
blood glucose levels (i.e. they are non-glycogenic) and may be used for diabetic patients.
However, our patient also suffers from phenylketonuria (PKU) which is a genetic disorder in
which a patient cannot metabolize phenylalanine, resulting in brain damage, intellectual
disabilities, behavioral symptoms, or seizures. Aspartame contains phenylalanine and thus should
not be used in this patient. Example:

Note: sugar alcohols (e.g. sorbitol) are less glycogenic than sucrose but
may still cause modest increases in blood glucose levels.

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CASE #2 – Preparation of a Solution Using a Co-Solvent System

COLLECT

Case: WS is a 56 y.o. male suffering from insomnia.

Additional Information: Phenobarbital is available as a bulk powder and is a controlled substance (C-IV).

Prescription:
Nick Riviera, D.O.
1987 Ullman Street
Springfield, AZ 85123
Ph: 602-765-4321
Name: Waylon Smithers Date: 10/07/24
Address: 1989 Springfield, AZ 85123

Phenobarbital 75 mg/5 mL
Glycerin 15%
Purified water qs 60 mL
M.ft. sol.
Sig: 1 Tbsp hs

Refill 0 times

Dispense as Written Substitution Permissible
DEA#__________________ DEA#

8. In which route(s) of administration and dosage form(s) is phenobarbital commercially available?
What are the common use(s) for phenobarbital?

Route(s): oral parenteral

Dosage Form(s): tablet, solution(elixir) solution

Common Use(s): seizures; sedation**

**Note: phenobarbital may no longer be recommended for the treatment of insomnia; however,
we will assume the intent has been confirmed with the prescriber upon discussing the need for a
compounded product

Reference: Facts and Comparisons [online database] available at
http://fco.factsandcomparisons.com

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ASSESS

9. Is the prescribed product more appropriate for this patient than the commercially available
products? Why or why not?

Among the available routes of administration, only the oral tablet and solution would be
applicable as parenteral administration is usually limited to institutional (hospital) use. The
patient has no difficulty swallowing, so either the tablets or solution would be potential options.
However, given the prescribed dose (225 mg) none of the available product strengths (20 mg/5
mL elixir; 15 – 100 mg tablets) would be ideal.

Reference: Facts and Comparisons [online database] available at
http://fco.factsandcomparisons.com

PLAN

10. Complete the COMPOUNDING LOG for the preparation of the product:

COMPOUNDING LOG

Preparation: Phenobarbital 75 mg/5 mL Solution Date Prepared: 10/09/24

Patient Name: Waylon Smithers Prescriber: Nick Riviera, D.O.

Prescription Number: seat-section (e.g. 01-A)____________ Prepared by: initials ____

Calculations: (note: generally no additional overage is needed in compounding solutions)
75 𝑚𝑔
Phenobarbital 𝑥 60 𝑚𝐿 = 900 𝑚𝑔
5 𝑚𝐿

75 𝑚𝑔 𝑤
5 𝑚𝐿
𝑥 100 𝑚𝐿 = 1.5% ( 𝑣 ) 𝑓𝑜𝑟 𝑢𝑠𝑒 𝑖𝑛 𝑑𝑒𝑡𝑒𝑟𝑚𝑖𝑛𝑖𝑛𝑔 𝑐𝑜 − 𝑠𝑜𝑙𝑣𝑒𝑛𝑡𝑠
15 𝑚𝐿
Glycerin: 𝑥 60 𝑚𝐿 = 9 𝑚𝐿
100 𝑚𝐿

Alcohol, USP: Using the co-solvent chart read from 1.5% phenobarbital on the Y-axis across to the 15%
glycerin line. Then read down to the X-axis to determine the concentration of Alcohol,
USP = ~38%. Add 2% to ensure solubility: 38% + 2% = 40%
40 𝑚𝐿
100 𝑚𝐿
𝑥 60 𝑚𝐿 = 24 𝑚𝐿

Compounding Procedure:
a. Weigh 900 mg (0.9 g) of phenobarbital on an electronic balance.

b. Place the phenobarbital into a 125-mL conical graduate.

c. Measure 24 mL of alcohol, USP using a 25 mL cylindrical graduate.

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d. Measure 9 mL of glycerin using a 25-mL cylindrical graduate.

e. Add the alcohol, USP and dissolve a majority of the phenobarbital.

f. Add the glycerin and dissolve any remaining phenobarbital.

g. QS with small portions of purified water to a final volume of 60 mL.

h. Dispense in a 2 ounce amber prescription bottle and with an appropriate dispensing
device (Note: we will not be ‘dispensing’ a device in lab).

BUD: 35 days for preserved aqueous (11/13/24) Storage: Room Temperature / Refrigerated / Frozen

Quality Control: visual inspection of uniformity (free of undissolved material, correct volume);
pharmaceutical elegance of solution (appropriate flavor) and packaging (no product on the outside of
the bottle or on label; label is straight/not wrinkled; at least one graduation on the side of the bottle
should be visible)

11. What are the advantages and disadvantages of each of the solvents used in this product?

Purified water – most common and least toxic solvent; however, phenobarbital has a relatively
low ‘polarity’ and thus has a relatively poor water solubility. Water also creates significant
stability concerns.

Alcohol, USP – less polar than water so better for dissolving less ‘polar’ solutes such as
phenobarbital, may act as a preservative. However, it may cause disulfram-like reactions with
certain medications and it has its own pharmacological effects that may present possible safety
concerns.

Glycerin – also better than water at dissolving less ‘polar’ solutes such as phenobarbital, which
enables a lower alcohol content. Glycerin may also act as a preservative, and has a sweet taste
and a relatively high viscosity, which may help taste-masking. However, the relatively high
viscosity may also make accurate dosing more difficult and slows drug dissolution, which
increases preparation time.

IMPLEMENT

12. Complete the documentation of the compounding of the preparation by recording pertinent
information on the BACK OF THE PRESCRIPTION:

BACK OF THE PRESCRIPTION

Rx# e.g. 01-A
10/09/24
Initials

Phenobarbital * Mfg Lot# Exp
(Ethyl) Alcohol, USP Mfg Lot# Exp
Glycerin Mfg Lot# Exp

*CONTROLLED SUBSTANCES LOG: Used: 900 mg

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Dispensed: 900 mg
Discarded: 0 mg

Complete the PRESCRIPTION LABEL and indicate any ACCESSORY LABELS you would apply to the final
dispensed product.

Waylon Smithers
Phenobarbital 225 mg/15 mL Solution express conc. in terms of the actual volume the patient takes
Alcohol, USP 40% must have “,USP” to indicate it is ethyl alcohol
Take 15 milliliters by mouth at bedtime. remember to use #s instead of words; spell out mL
35 days for preserved aqueous products
Do not use beyond: 11/13/24 (alcohol acts as both cosolvent and Refills: 0
preservative)

Rx#: e.g. 01-A Filled on: 10/09/24 Quantity: 60 mL
Prescribed by: Nick Rivera, D.O. for bulk products include the
units with quantity

MWU-CPG Pharmacy Teaching Lab 19555 N. 59th Ave., Glendale, AZ 85308 Phone: (623) 123-4567

Accessory Labels:
(if no safety closure)

FOLLOW UP

13. The patient calls the pharmacy the following day to inquire if the medication can be diluted in a
small amount (i.e. and equal volume) of either water or orange juice to improve taste.
Determine if the phenobarbital would remain soluble after dilution.

By adding an additional 15 mL of another liquid such as water or juice, the overall volume of the
dose would double while the final concentrations of all of the components would be reduced to
half of the original strength: Phenobarbital 1.5%/2 = 0.75%
Glycerin 15%/2 = 7.5%
Alcohol, USP 40%/2 = 20%
Looking at the co-solvency data, a new concentration of 0.75% phenobarbital at a glycerin
concentration of 7.5% would require ~31% alcohol, USP. With only 20% alcohol, USP in the
diluted dose, the phenobarbital would likely not remain fully soluble.

Additionally, using a liquid other than water, such as orange juice, increases the uncertainty of
solubility as there are additional chemicals (e.g. Vitamin C) and properties (e.g. acidity) that are
introduced. Knowing that phenobarbital is also available as a sodium (a cation) salt, the drug
itself must be a weak acid (the anion) that would exist in the following equilibrium:
HP  H+ + P- (HP) free acid; (H+) hydrogen ion; (P-)ionized form

Additional hydrogen ions from the acidic orange juice would shift the equilibrium to the left,
increasing the fraction of the unionized (i.e. the uncharged, lower polarity and hence
unsolubilized) free acid even further.

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PSCIG 1541L: Pharmacy Compounding Laboratory 06 – Fall 2024 – KEY

Therefore, the patient should be advised not to dilute the dose. If taste is an issue, the product
may be reformulated with flavors and/or sweeteners to improve palatability.

14. The patient returns to the pharmacy with a new prescription for “Phenobarbital 75 mg/5 mL
Alcohol-Free Solution.” How can the product be compounded to meet the new requirement?

The new prescription requires that the product now be alcohol-free. Therefore, if the amount of
alcohol in the product is decreasing then then amount of other co-solvents (glycerin and/or
water). Looking at the co-solvent chart, even with the highest concentration of glycerin (40%)
alcohol, USP (~25%) is still needed to prepare the 1.5% (w/v) solution of phenobarbital. Options
for decreasing the alcohol, USP concentration further might be:

(a) increase the concentration of glycerin further. However, given the chart even high
concentration of glycerin require a large amount of alcohol, USP as a cosolvent for 1.5%
phenobarbital;

(b) decrease the concentration of phenobarbital in the solution. This might be successful if
the glycerin concentration was increased. However, we would need to test the
formulation to ensure that the drug is soluble. Additionally, the patient is already taking
15 mL of the solution and decreasing the phenobarbital concentration would likely
result in an inconvenient dosing volume (e.g. at 0.2% phenobarbital the patient would
need to take 112.5 mL for the 225 mg dose);

(c) change the form of the drug to phenobarbital sodium. Salt forms of drugs are much
more soluble in an aqueous environment (e.g. water solubility for phenobarbital sodium
is 100 mg/mL and therefore