Add the following:
Ethylcellulose Dispersion Type B
DEFINITION
A stabilized dispersion of ethylcellulose in water. It contains NLT 90.0% and NMT 110.0% of the labeled amount of Ethylcellulose. It may contain suitable amounts of plasticizers, stabilizers, and glidants.
IDENTIFICATION
•  A. Film Formation
Analysis:  Transfer an appropriate quantity of Ethylcellulose Dispersion Type B to a clear glass plate, distribute evenly, and place in a laboratory oven at about 60 until dry. [Note—It may take less than 60 min. ]
Acceptance criteria:  A continuous transparent or translucent film is formed.
•  B. Infrared Absorption
Analysis:  Use the film prepared in Identification test A and perform Infrared Absorption 197A.
Standard spectrum:  Perform Infrared Absorption 197A using USP Ethylcellulose RS.
Acceptance criteria:  The IR absorption spectrum of the film so formed in the 3600–2600 cm-1 and 1500–800 cm-1 regions exhibits maxima corresponding to the same wave numbers as the Standard spectrum.
•  C. The retention time of the ethylcellulose peak of the Sample solution corresponds to that of the Standard solution, as obtained in the Assay. [Note—Plasticizer and/or stabilizer peaks may be present in the chromatogram. ]
ASSAY
•  Procedure
Mobile phase:  Tetrahydrofuran
Standard solution:  Transfer 375 mg of USP Ethylcellulose RS to a 100-mL volumetric flask, and add 70 mL of tetrahydrofuran. Shake by mechanical means until the ethylcellulose is dissolved, and dilute with tetrahydrofuran to volume. The Standard solution contains 3.75 mg/mL of USP Ethylcellulose RS.
Sample solution:  Add 30 mL of tetrahydrofuran to 1.0 g of Ethylcellulose Dispersion Type B in a 50-mL volumetric flask, and mix the mixture on a suitable shaker for 15 min. Dilute with tetrahydrofuran to volume, and mix. The Sample solution contains 20 mg/mL of Ethylcellulose Dispersion Type B in tetrahydrofuran. [Note—If Ethylcellulose Dispersion Type B contains inorganic insoluble material, a portion of the Sample solution should be centrifuged at 15,800 × g for NLT 15 min. ]
Chromatographic system 
Mode:  LC
Detector:  Refractive index
Column:  8.0-mm × 30-cm; 6-µm packing L21
Temperature 
Detector:  45
Column:  45
Flow rate:  0.5 mL/min
Injection size:  20 µL
System suitability 
Sample:  Standard solution
Suitablity requirements 
Relative standard deviation:  NMT 5.0% determined for the ethylcellulose peak
Tailing factor:  NMT 2.0 for the ethylcellulose peak
Analysis 
Samples:  Standard solution and Sample solution
Calculate the percentage of ethylcellulose in the portion of Ethylcellulose Dispersion Type B taken:
Result = (rU/rS) × (CS/CU) × 100
rU== peak response of ethylcellulose from the Sample solution
rS== peak response of ethylcellulose from the Standard solution
CS== concentration of USP Ethylcellulose RS in the Standard solution (mg/mL)
CU== concentration of Ethylcellulose Dispersion Type B in the Sample solution (mg/mL)
Acceptance criteria:  90.0%–110.0%
OTHER COMPONENTS
[Note—Perform the test for individual plasticizers, stabilizers, or glidants only if they are included in the Labeling. ]
•  Content of Medium-Chain Triglycerides
Mobile phase, Sample soluton, and Chromatographic system:  Proceed as directed in the Assay.
Standard solution:  Transfer 375 mg of USP Ethylcellulose RS, 60 mg of medium-chain triglycerides, and 40 mg of oleic acid to a 100-mL volumetric flask. Add 70 mL of tetrahydrofuran, and shake by mechanical means until the ethylcellulose is dissolved. Dilute with tetrahydrofuran to volume. The Standard solution contains 3.75 mg/mL of USP Ethylcellulose RS, 0.6 mg/mL of medium-chain triglycerides, and 0.4 mg/mL of oleic acid. [Note—Oleic acid is included in the Standard solution to assist with consistent integration between Standard and Sample solutions. ]
System suitability 
Sample:  Standard solution
[Note—The relative retention times for ethylcellulose, medium-chain triglycerides, and oleic acid are 1.00, 1.18, and 1.25, respectively. ]
Suitability requirements 
Relative standard deviation:  NMT 5.0% determined for the medium-chain triglycerides peak
Resolution:  NLT 2.0 between ethylcellulose and medium-chain triglycerides
Analysis 
Samples:  Standard solution and Sample solution
Calculate the percentage of medium-chain triglycerides in the portion of Ethylcellulose Dispersion Type B taken:
Result = (rU/rS) × (CS/CU) × 100
rU== peak response of medium-chain triglycerides from the Sample solution
rS== peak response of medium-chain triglycerides from the Standard solution
CS== concentration of medium-chain triglycerides in the Standard solution (mg/mL)
CU== concentration of Ethylcellulose Dispersion Type B in the Sample solution (mg/mL)
Acceptance criteria:  The percentage content of medium-chain triglycerides falls within the quantity range indicated by the Labeling. The ratio of medium-chain triglycerides to ethylcellulose is less than 0.25.
•  Content of Oleic Acid
Standard solution:  1.68 mg/mL of USP Oleic Acid RS in tetrahydrofuran
Sample solution:  Add 15 mL of tetrahydrofuran to 2.0 g of Ethylcellulose Dispersion Type B in a 25-mL volumetric flask, and mix the mixture on a suitable shaker for 15 min. Dilute with tetrahydrofuran to volume, and mix. The Sample solution contains 80 mg/mL of Ethylcellulose Dispersion Type B in tetrahydrofuran.
Chromatographic system 
Mode:  GC
Detector:  Flame ionization
Column:  0.53-mm × 30-m capillary column; 0.25-µm layer of phase G25 (or G35)
Temperature 
Detector:  280
Injector port:  280
Column:  See the temperature program table below.
Initial
Temperature
()
Temperature
Ramp
(/min)
Final
Temperature
()
Hold Time at Final
Temperature
(min)
120 120 5
120 10 250 20
Carrier gas:  Helium
Flow rate:  7.0 mL/min
Injection size:  1.0 µL
Injection type:  Splitless
System suitability 
Sample:  Standard solution
[Note—The retention time for oleic acid is about 18.5 min. ]
Suitability requirements 
Relative standard deviation:  NMT 5.0%
Analysis 
Samples:  Standard solution and Sample solution
Calculate the percentage of oleic acid in the portion of Ethylcellulose Dispersion Type B taken:
Result = (rU/rS) × (CS/CU) × 100
rU== peak response of oleic acid from the Sample solution
rS== peak response of oleic acid from the Standard solution
CS== concentration of USP Oleic Acid RS in the Standard solution (mg/mL)
CU== concentration of Ethylcellulose Dispersion Type B in the Sample solution (mg/mL)
Acceptance criteria:  The percentage content of oleic acid falls within the quantity range indicated by the Labeling. The ratio of oleic acid to ethylcellulose is less than 0.15.
•  Content of Dibutyl Sebacate and Oleic Acid
Standard solution:  0.74 mg/mL of USP Dibutyl Sebacate RS and 0.48 mg/mL of USP Oleic Acid RS in tetrahydrofuran
Sample solution:  Add 25 mL of tetrahydrofuran to 1.0 g of Ethylcellulose Dispersion Type B in a 50-mL volumetric flask, and mix the mixture on a suitable shaker for 15 min. Dilute with tetrahydrofuran to volume, and mix. The Sample solution contains 20 mg/mL of Ethylcellulose Dispersion Type B in tetrahydrofuran. [Note—If Ethylcellulose Dispersion Type B contains inorganic insoluble material, a portion of the Sample solution should be centrifuged at 15,800 × g for NLT 15 min. ]
Chromatographic system 
Mode:  GC
Detector:  Flame ionization
Column:  0.53-mm × 15-m capillary column; 0.1-µm layer of phase G25 (or G35)
Temperature 
Detector:  280
Injector port:  280
Column:  See the temperature program table below.
Initial
Temperature
()
Temperature
Ramp
(/min)
Final
Temperature
()
Hold Time at Final
Temperature
(min)
150 150 2
150 10 250 10
Carrier gas:  Helium
Flow rate:  5.0 mL/min
Injection size:  0.5 µL
Injection type:  Split (ratio about 10:1)
System suitability 
Sample:  Standard solution
[Note—The relative retention times for dibutyl sebacate and oleic acid are 1.00 and 1.45, respectively. ]
Suitability requirements 
Relative standard deviation:  NMT 5.0%
Resolution:  NLT 2.0 between dibutyl sebacate and oleic acid
Analysis 
Samples:  Standard solution and Sample solution
Calculate the percentage of each component (dibutyl sebacate or oleic acid) in the portion of Ethylcellulose Dispersion Type B taken:
Result = (rU/rS) × (CS/CU) × 100
rU== peak response of each component (dibutyl sebacate or oleic acid) from the Sample solution
rS== peak response of each component (dibutyl sebacate or oleic acid) from the Standard solution
CS== concentration of each component (USP Dibutyl Sebacate RS or USP Oleic Acid RS) in the Standard solution (mg/mL)
CU== concentration of Ethylcellulose Dispersion Type B in the Sample solution (mg/mL)
Acceptance criteria 
Dibutyl sebacate:  The percentage content falls within the quantity range indicated by the Labeling. The ratio of dibutyl sebacate to ethylcellulose is less than 0.25.
Oleic acid:  The percentage content falls within the quantity range indicated by the Labeling. The ratio of oleic acid to ethylcellulose is less than 0.15.
IMPURITIES
Inorganic Impurities 
•  Residue on Ignition 281: NMT 1.95%. [Note—Perform this test only if Ethylcellulose Dispersion Type B contains inorganic nonvolatile material. ]
Organic Impurities 
•  Procedure 1: Limit of Glycerin
[Note—Perform this test only if Ethylcellulose Dispersion Type B contains glycerides. ]
Standard solution:  0.05 mg/mL of USP Glycerin RS in methanol
Sample solution:  Add 15 mL of methanol to 2.0 g of Ethylcellulose Dispersion Type B in a 25-mL volumetric flask, and mix the mixture on a suitable shaker for 15 min. Dilute with methanol to volume, and mix. The Sample solution contains 80 mg/mL of Ethylcellulose Dispersion Type B in methanol.
Chromatographic system 
Mode:  GC
Detector:  Flame ionization
Column:  0.53-mm × 30-m capillary column; 3.0-µm layer of phase G43
Temperature 
Detector:  280
Injector port:  280
Column:  See the temperature program table below.
Initial
Temperature
()
Temperature
Ramp
(/min)
Final
Temperature
()
Hold Time at Final
Temperature
(min)
120 10 150 2
150 15 240 20
Carrier gas:  Helium
Flow rate:  10.0 mL/min
Injection size:  1.0 µL
Injection type:  Splitless
System suitability 
Sample:  Standard solution
[Note—The retention time for glycerin is about 3.8 min. ]
Suitability requirements 
Relative standard deviation:  NMT 5.0%
Tailing factor:  NMT 2.5
Analysis 
Samples:  Standard solution and Sample solution
Calculate the percentage of glycerin in the portion of Ethylcellulose Dispersion Type B taken:
Result = (rU/rS) × (CS/CU) × 100
rU== peak response of glycerin from the Sample solution
rS== peak response of glycerin from the Standard solution
CS== concentration of USP Glycerin RS in the Standard solution (mg/mL)
CU== concentration of Ethylcellulose Dispersion Type B in the Sample solution (mg/mL)
Acceptance criteria:  NMT 0.6%
•  Procedure 2: Limit of 1-Butanol
[Note—Perform this test only if Ethylcellulose Dispersion Type B contains butyl esters. ]
Standard solution:  0.1 mg/mL of USP 1-Butanol RS in methanol
Sample solution:  Add 15 mL of methanol to 2.0 g of Ethylcellulose Dispersion Type B in a 25-mL volumetric flask, and mix the mixture on a suitable shaker for 15 min. Dilute with methanol to volume, and mix. The Sample solution contains 80 mg/mL of Ethylcellulose Dispersion Type B in methanol. [Note—If Ethylcellulose Dispersion Type B contains inorganic insoluble material, a portion of the Sample solution should be centrifuged at 15,800 × g for 30 min. ]
Chromatographic system 
Mode:  GC
Detector:  Flame ionization
Column:  0.53-mm × 30-m capillary column; 1.0-µm layer of phase G16
Temperature 
Detector:  250
Injector port:  250
Column:  See the temperature program table below.
Initial
Temperature
()
Temperature
Ramp
(/min)
Final
Temperature
()
Hold Time at Final
Temperature
(min)
45 45 5
45 10 80
80 20 220 10
Carrier gas:  Helium
Flow rate:  10.0 mL/min
Injection size:  0.5 µL
Injection type:  Splitless
System suitability 
Sample:  Standard solution
[Note—The retention time for 1-butanol is about 7.8 min. ]
Suitability requirements 
Relative standard deviation:  NMT 5.0%
Tailing factor:  NMT 2.0
Analysis 
Samples:  Standard solution and Sample solution
Calculate the percentage of 1-butanol in the portion of Ethylcellulose Dispersion Type B taken:
Result = (rU/rS) × (CS/CU) × 100
rU== peak response of 1-butanol from the Sample solution
rS== peak response of 1-butanol from the Standard solution
CS== concentration of USP 1-Butanol RS in the Standard solution (mg/mL)
CU== concentration of Ethylcellulose Dispersion Type B in the Sample solution (mg/mL)
Acceptance criteria:  NMT 0.2%
SPECIFIC TESTS
•  pH 791: 9.5–11.5
•  Total Solids
Analysis:  Place 3 g (4 mm in diameter) of glass beads in an aluminum dish, and weigh. Add 10 g of Ethylcellulose Dispersion Type B, and again weigh. Dry at about 105 for 3 h. Determine the percentage of total solids in Ethylcellulose Dispersion Type B.
Acceptance criteria:  23.0%–26.0%
•  Viscosity 911
Sample:  500 mL of Ethylcellulose Dispersion Type B
Analsysis:  Transfer the Sample to a beaker with an inside diameter of 83 mm. Place the beaker in a water bath, cover with a watchglass, allow to equilibrate at 25 ± 0.1, and let air bubbles dissipate. Keep the sample free from entrapped air bubbles and uniform in temperature. Stir the dispersion in the beaker at low agitation speed to ensure homogeneity, making sure that no air bubbles are incorporated. Determine viscosity at 25 ± 0.1, using a suitable rotational viscometer with a spindle having a cylinder 4.7 cm in diameter and 0.2 cm high attached to a shaft 0.3 cm in diameter, the distance from the top of the cylinder to the lower tip of the shaft being 2.7 cm, and the immersion depth being 4.9 cm.1 Operate the viscometer at 20 rpm. Follow the instrument manufacturer’s directions to measure the apparent viscosity.
Acceptance criteria:  400–1500 mPa·s
ADDITIONAL REQUIREMENTS
•  Packaging and Storage: Preserve in tight containers at a temperature below 25. Protect from freezing.
•  Labeling: The labeling states the percentage of ethylcellulose. Label it to indicate the names and quantity ranges of any added plasticizers, stabilizers, and glidants. Label it to indicate whether any fatty acid components, or fatty acid-containing components are derived from animal, vegetable, or synthetic sources.
•  USP Reference Standards 11
USP 1-Butanol RS
1-Butanol.
    C4H10O        74.12
USP Dibutyl Sebacate RS Click to View Structure
Decanedioic acid;
Dibutyl ester.
    C18H34O4        314.46
USP Ethylcellulose RS Click to View Structure
Cellulose, ethyl ether;
Cellulose ethyl ether.
USP Glycerin RS Click to View Structure
1,2,3-Propanetriol;
Glycerol.
USP Oleic Acid RS Click to View Structure
9-Octadecenoic acid, (Z)-;
Oleic acid.
    C18H34O2        282.46
NF30

1  A commercial instrument is available as an RV2 spindle from Brookfield.
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Monograph Hong Wang, Ph.D.
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USP35–NF30 Page 1797
Pharmacopeial Forum: Volume No. 36(6) Page 1635