RESUDIAL SOLVENT METHOD VERIFICATION PROTOCOL OF CETIRIZINE DIHYDROCHLORIDE Ph. Eur.

RESUDIAL SOLVENT METHOD VERIFICATION PROTOCOL OF CETIRIZINE DIHYDROCHLORIDE Ph. Eur.

Superseded Protocol No.	Nil
Effective Date

TABLE OF CONTENTS: 

Sr. No.	Subject	Page No.
	Protocol Approval
	Objective
	Scope
	Responsibility
	Product profile
	Methodology
	Validation parameters
	Incident/Deviation
	Summary/Final conclusion/Recommendation
	Abbreviation
	Revision History

1. Protocol Approval :

Prepared By:

Functional Area	Name	Designation	Signature/ Date
Quality Control

Reviewed By:

Functional Area	Name	Designation	Signature/Date
Quality Assurance
Head Quality Control

Approved By:

Functional Area	Name	Designation	Signature/Date
Head QA

Authorized By:

Functional Area	Name	Designation	Signature/Date
Head Quality

• Objective:

The objective of this verification is to provide documentary evidence that analytical methodology used for residual solvents of Cetirizine Dihydrochloride by vendor method is consistent and reliable results within the predetermined acceptance criteria.

Analytical method verification will be performed by considering thefollowing parameters:

Parameters	Cetirizine Dihydrochloride
Specificity	yes
Precision
System Precision	yes
Method Precision	yes
Intermediate Precision (Ruggedness)	yes
Linearity	yes
Stability of Analytical Solution	yes
System Suitability	yes

• Scope :

The scope of this protocol is applicable for the verification of method of residual solvents of Cetirizine Dihydrochloride.

• Responsibility of Validation Team:

Departments	Responsibilities
QC	Preparation and Review of Validation protocol.
Perform the validation as per approved protocol and recording of data.
Compilation and checking of data.
Preparation and review of Validation report.
To impart training of protocol to concerned department/persons.
QA	Review and approval of Validation protocol.
Co-ordination with QC to carry out Validation.
Review and approval of Validation report.
Head Quality	Authorization of protocol.

• Product Profile:

Category	Active Product Ingredient
Reason for Verification	In House Validated Method
Active Ingredient	Cetirizine Dihydrochloride
Method Reference	API Manufacturer ( In-House)
Specification Limits	Methanol : Not More than 3000 ppm Acetone: Not More than 5000 ppm Methylene Chloride : Not More than 600 ppm Chloroform : Not More than 60 ppm Ethyl Acetate : Not More than 5000 ppm Toluene : Not More than 890 ppm Dimethyl Formamide : Not More than 880 ppm Benzene : Not More than 2 ppm

• Methodology:

Solvents:

Table 1.0

Solvents	Grade
1-Methyl-2-Pyrrolidinone(NMP)	LR/ AR Grade
Methanol	LR/ AR Grade
Acetone	LR/ AR Grade
Methylene Choride	LR/ AR Grade
Chloroform	LR/ AR Grade
Ethyl Acetate	LR/ AR Grade
Toluene	LR/ AR Grade
Dimethyl Formamide	LR/ AR Grade
Benzene	LR/ AR Grade

Residual Solvents (By GC)

      Instrument                               :      Gas Chromatography with Head Space

      Make of the Instrument          :       Agilent Technologies

       Detector                                 :      FID

      Column                                   :      Capillary Column DB0624, Length 30 M,ID 0.53 Film 3.0 µm

            Oven temperature (1)              :       40˚C

Injector temperature                :       220˚C

Detector temperature              :       260˚C

            Oven temperature (I)              :       Initial Temperature 4°C for 10 min

             Ramp Rate-I                           :      8°C/min

            Oven temperature (II)             :       175°C

             Ramp Rate-                            :      35°C/min

Split ratio                                :      1: 5

Carrier gas                               :     Nitrogen

Column flow                            :     3.0 ml/min

Head space parameters:

Vial temperature                     :           90˚C

Transfer line temperature        :           115˚C

Vial Equilibrium Time            :           50 min

Loop Fill Time                        :           0.2 min

Injection time                          :           1.0 min

Vial Shake Time                     :           5.0 min

Loop temperature                    :           110˚C

GC cycle time                         :           50 min

Pressurization time                  :           2.0 min

Loop Equilibrium Time          :           0.1 min

Injection Volume                    :           1.0 ml of Vapor

Blank preparation (Diluent):

Transfer 2.0 ml of 1-methyl-2-pyrrolodine (NMP) into the head space vial and seal the cap tightly.

       Standard Solution preparation:

         Solution-I: Take accurately 11.4 µl from Benzene standard into a 100 ml volumetric flask Containing about 50 ml NMP and dilute to volume with NMP.

         Solution-II:                                             Table-I

Sr.No.	Name of the Solvent	Volume Taken	Diluted With	Diluted to
01	Methanol	189.9 µl	NMP	100 ml
02	Acetone	316.5 µl
03	Methylene Choride	22.7 µl
04	Chloroform	2.0 µl
05	Ethyl Acetate	277.8 µl
06	Toluene	51.4 µl
07	Dimethyl Formamide	46.4 µl
08	Benzene (Solution-I)	1.0 ml

      Solution-II: Contain the PPM value of solvent as follows:

                                                                           Table-II

Sr.No.	Name of the Solvent	Concentration (PPM)
01	Methanol	1500
02	Acetone	2500
03	Methylene Choride	300
04	Chloroform	30
05	Ethyl Acetate	2500
06	Toluene	445
07	Dimethyl Formamide	440
08	Benzene (Solution-I)	1

         Take 2.0 ml form solution-II into Headspace vial (Six Vials).

Test Solution Preparation:

Take 1.0 gm of Cetirizine Dihydrochloride sample in a 20 ml headspace vial, add 2.0 ml of

1-Methyl-2-Pyrrolidinone (NMP). Immediately crimp the cap.

 System Suitability:

 Calculateaverage peak areas and % RSD for 6 Chromatogram NMT 10.0 %.

Procedure: Insert the following vials in following order

Solutions	No of Injection to be injected in Sequence
Blank (NMP 2.0 ml)	1
Standard Solution-II Six vials(each 2.0 ml)	6
Blank (NMP 2.0 ml)	1
Test Solution	2
Standard Solution-II (Bracketing)	1

                              A_T                    D_S               Purity

Calculation: =—————–X—————–X——————-X Density X 10⁶

                              A_S                               D_T                          100

Where,

A_T   : Area of the solvent peak in test solution

As  : Average area of the solvent peak in standard solution

D_{S    :}  Concentration of standard solution

D_{T    :}  Weight taken of test solution (g)

• Validation parameters:

The following parameters to be perform for the verification activity.

• Specificity
  • Precision
  • Stability of solution
  • System Suitability
  • Linearity

• Specificity:

Specificity is the ability to assess unequivocally the analyte in the presence of components which may be expected to be present.

The diluent (1-methyl-2-pyrrolidone) and solution of each solvent were prepared separately and analyzed. Also of mixture these solvents was prepared as their specification limit concentration and analyzed (Refer to Table-II).

Specificity of test method should be established by separately injecting blank solution (1-methyl-2-pyrrolidone) and Identification solution as per Table-II.  Spiked test solution and test solution. Identification solution and spiked test solution will be prepared at specification level. Test solution to be prepared as per method of analysis.

 Preparation of Identification solutions:

Standard solution of Methanol (1500 ppm):

     Weigh accurately about 189.9 µl of Methanol and transferred to 100 ml of volumetric flask, add 60 ml diluent and dissolve. Make up the volume to 100 ml with diluent.

Standard solution of Acetone (2500 ppm):

      Weigh accurately about 316.5 µl of Acetone and transferred to 100 ml volumetric flask, add 70 ml of diluent and dissolve. Make up the volume to 100 ml with diluent and mix.

Standard solution of Methylene Chloride (300 ppm):

Weigh accurately about 22.7 µl of Methylene Chloride and transferred to 100 ml volumetric flask, add 70 ml of diluent and dissolve. Make up the volume to 100 ml with diluent and mix.

Standard solution of Chloroform (30 ppm):

Weigh accurately about 2.0 µl of Chloroform and transferred to 100 ml volumetric flask, add 50ml of diluent and dissolve. Make up the volume to 100 ml with diluent and mix.

• Standard solution of Ethyl Acetate (2500 ppm):

Weigh accurately about 277.8 µl of Ethyl Acetateand transferred to 100 ml volumetric flask, add 70 ml of diluent and dissolve. Make up the volume to 100 ml with diluent and mix.

• Standard solution of Toluene (445 ppm):

Weigh accurately about 51.4 µl of Tolueneand transferred to 100 ml volumetric flask, add 70 ml of diluent and dissolve. Make up the volume to 100 ml with diluent and mix.

• Standard solution of Dimethyl Formamide (440 ppm):

Weigh accurately about 46.4 µl of Tolueneand transferred to 100 ml volumetric flask, add 70 ml of diluent and dissolve. Make up the volume to 100 ml with diluent and mix.

• Standard solution of Benzene (1 ppm):

      Weigh accurately about 11.4µl of Benzene and transferred to 100 ml volumetric flask, add 70  ml of diluent and dissolve. Further dilute 1.0ml this solution to 100.0 ml with diluent.

Spiked test solution:

Transfer Take 1.0 gm of Cetirizine Dihydrochloride sample in a 20 ml headspace vial, add 2.0 ml of flask; add 30 ml of diluent to dissolve further add 5.0 ml stock solution of impurity A and 3.0 ml of stock solution of impurity F and mix well, make up the volume to 50 ml with diluent.

Procedure: Inject the preparation of blank solution, reference solution (a), and identification solution of impurity A, identification solution of impurity F, test solution and spiked test solution on a HPLC system with a Diode array detector (DAD) as follows in Table 3.0. Determine the purity of the individual peaks of interest. Record the retention times and system suitability parameters for all peaks. System suitability criteria should be checked.

Tablet 3.0

Solution	No of Injection to be injected in Sequence
Blank (Mobile Phase)	1
Reference solution (a)	6
Identification solution of Impurity A	1
Identification solution of Impurity F	1
System suitability solution	1
Test Solution	1
Spiked Test Solution	1
Reference solution (a) + Bracketing	1

Acceptance Criteria:

1. There should be no interference of the diluent, impurities at the retention time of analyte peak,
2. Impurity peaks should be well resolved from active peak and each other,
3. Analyte peak in standard solution and known Impurity peaks in spiked sample solution should be spectrally pure.   

Table 4.0 Specificity data

Sr. No	Sample	RT (min.)	RRT	Peak purity
1	Blank			NA
2	Reference solution (a)	Diclofenac Sodium
3	System Suitability solution	Impurity A
Impurity F
4	Identification solution of Impurity A
5	Identification solution of Impurity F
6	Test Solution	Diclofenac Sodium
7	Unknown Impurity			NA

Table 5.0 Spiked test solution

Sr. No	Sample	RT (min.)	RRT	Peak purity
1	Blank			NA
2	Diclofenac Sodium
3	Impurity A
4	Impurity F
5	Unknown Impurity			NA

• Precision:
  • System Precision:

The system precision is the closeness of agreement between the responses of detector. It is usually expressed as the standard deviation (SD) or the relative standard deviation (RSD).

Standard solution will be prepared as per method of analysis and injected six replicate injections to be injected in sequence and recorded the area response of main analyte peak. And calculate the % area RSD and % RT RSD of main analyte peak.

Table 6.0 System Precision- Repeatability of Standard Injections

Sr. No.	Diclofenac Sodium
Peak Area	Retention time (min.)
1
2
3
4
5
6
Mean
SD
% RSD

Acceptance criteria:

% RSD for peak area and retention time of replicate standard solution injections should be NMT 5.0% and 1.0% respectively.

• Method Precision:

The precision of an analytical method is the degree of agreement among individual test results when the procedure is applied repeatability to multiple samplings of homogenous sample. It is usually expressed as the standard deviation and the relative standard deviation.

Test Procedure:

Prepare the six samples of same batch as per standard analytical procedure and analyzed by spiking the known impurity at limit level. Un-spiked sample will be analyzed to identify the known impurity in sample. Obtained known impurity in un-spiked sample will be subtracted in spiked sample to calculate the actually known spiked amount of impurity.  Record the area on data sheet and calculate the % impurity, mean, standard deviation and % relative standard deviation.

Table 8.0 Method precision results spiked Sample at limit level

Sr. No.	Spl. Wt. (mg)	Diclofenac Impurity A (%)	Diclofenac Impurity F (%)	Unknown Impurities (%)	%Total imp. (≥0.05%)
1	2
RRT
1
2
3
4
5
6
Mean
SD
% RSD

Acceptance criteria:

% RSD of known, unknown and total impurity content should be not more than the limits specified below. Reporting threshold value is 0.05%.

Result observed                          Limit for %RSD

Between 0.11 and 0.99 %                         15.0%

Greater than 1.0%                                    10.0%

Impurity content below 0.10% should not be considered for %RSD.

• Intermediate Precision ( Ruggedness ):

Intermediate precision expresses within laboratory variation with different analysts or equipment or different column/same column on different days using same batch of drug product as per method of analysis.

Test Procedure:

Prepare the six samples of same batch as per standard analytical procedure and analyzed by spiking the known impurity at limit level. Un-spiked sample will be analyzed to identify the known impurity in sample. Obtained known impurity in un-spiked sample will be subtracted in spiked sample to calculate the actually known spiked amount.  Record the area on data sheet and calculate the % impurity, mean, standard deviation and % relative standard deviation.

Table 10.0 Method precision results spiked sample at limit level

Sr. No.	Spl. Wt. (mg)	Diclofenac Impurity A (%)	Diclofenac Impurity F (%)	Unknown Impurities (%)	%Total imp. (≥0.05%)
1	2
RRT
1
2
3
4
5
6
Mean
SD
% RSD

Acceptance criteria:

% RSD of known, unknown and total impurity content should be not more than the limits specified below. Reporting threshold value is 0.05%.

Result observed                          Limit for %RSD

Between 0.11 and 0.99 %                         15.0%

Greater than 1.0%                                    10.0%

Impurity content below 0.10% should not be considered for %RSD.

Table 11.0 Pooled results of analyst – I & analyst – II

Sr. No.	Spl. Wt. (mg)	Diclofenac Impurity A (%)	Diclofenac Impurity F (%)	Unknown Impurities (%)	%Total imp. (≥0.05%)
1	2
RRT
ANALYST I
1
2
3
4
5
6
RRT
ANALYST II
1
2
3
4
5
6
Mean
SD
% RSD

Acceptance criteria:

Pooled % RSD of known, unknown and total impurity content should be not more than the limits specified below.

Result observed                          Limit for %RSD

Between 0.11 and 0.99 %                         15.0%

Greater than 1.0%                                    10.0%

Impurity content below 0.10% should not be considered for %RSD.

• Stability of Analytical solution:

It is essential when validating an analytical method to confirm that the analyte has adequate stability in both the standard and sample solution at room temperature (ambient Temperature) during analytical measurement stages of the testing.

Test Procedure:

Prepared the Blank solution, standard solution and test solution as per method of analysis and spiked the test solution with Impurity A & Impurity F at limit level and analyze the solution at the different time intervals i.e. 6 hours, 12 hours, 18 hours, 24 hours, 30 hours, 36 hours, and 48 hours. Calculate the cumulative RSD of peak area for known Impurity and main peak.

The obtained area of known impurities in test solution after different time interval will be calculated. The obtained area of Reference solution (a) after different time interval will be considered to calculate the area % RSD of initial replicate standard.

Acceptance criteria

Cumulative % RSD of peak area for known Impurities and main peak shall not be more than 10.0 %

• LINEARITY

The linearity of an analytical procedure is its ability (within a given range) to obtained test results which are directly proportional to the concentration levels shall be prepared.

Determine the linearity by preparing and inject the Reference solution (a) and Impurity A and Impurity F in the range of reporting threshold value of 0.05 % of test concentration to 200% of limit level and calculate the correlation coefficient “r”.

Prepare the solution at below threshold value, threshold value, 50%, 100%, 150% and 200%.

Preparation of Linearity solutions:

i)           Linearity Stock solution of Impurity A (20.0 ppm):

Weigh accurately about 2.0 mg of Impurity A and transferred to 100 ml of volumetric flask, add 70 ml of diluent and dissolve. Make up the volume to 100 ml with diluent and mix.

ii)          Linearity Stock solution of Impurity F (25.0 ppm):

Weigh accurately about 2.5 mg of Impurity F and transferred to 100 ml volumetric flask, add 70 ml of diluent and dissolve. Make up the volume to 100 ml with diluent and mix.

(Note: Depending on Purity of Impurity, adjust the weight of Impurity to achieve final concentration of impurity.)

iii)         Stock solution of Diclofenac Sodium:

Transfer 50.0 mg of Diclofenac sodium CRS/WS in 50.0 ml of volumetric flask, add 30.0 ml of diluent and dissolve, make up the volume to 50.0 ml with mobile phase.

Further dilute 2.5 ml of this solution to 100.0 ml with mobile phase.

Table 12: Linearity levels preparation

Level %	Vol. (mL) of Stock	Volume to be diluted with diluent (ml)
Impurity A	Impurity F	Diclofenac Sodium
Below Threshold	2.0	1.8	1.6	100
Threshold value	2.5	2.0	2.0	100
50%	2.5	1.5	1.0	50
100%	5.0	3.0	2.0	50
150%	3.0	1.8	1.2	20
200%	5.0	3.0	2.0	25

Table 13: Linearity of Impurity A

%Level	Conc. (%)	Theoretical Conc. (ppm)	Actual Conc. (ppm)	Peak Area	Mean peak area
Below Threshold	0.04	0.4
Threshold	0.05	0.5
50	0.10	1.0
100	0.20	2.0
150	0.30	3.0
200	0.40	4.0
Slope
Intercept
Corr. coeff.(r)

Table 14: Linearity of Impurity F

%Level	Conc. (%)	Theoretical Conc. (ppm)	Actual Conc. (ppm)	Peak Area	Mean peak area
Below Threshold	0.045	0.45
Threshold	0.05	0.50
50	0.75	0.75
100	0.15	1.50
150	0.225	2.25
200	0.30	3.00
Slope
Intercept
Corr. coeff.(r)

Table 15: Linearity of Diclofenac Sodium (Unspecified Impurity)

%Level	Conc. (%)	Theoretical Conc. (ppm)	Actual Conc. (ppm)	Peak Area	Mean peak area
Below Threshold	0.04	0.4
Threshold	0.05	0.5
50	0.05	0.5
100	0.10	1.0
150	0.15	1.5
200	0.20	2.0
Slope
Intercept
Corr. coeff.(r)

Acceptance criteria

Plot the calibration curve of peak area v/s concentration for the studied peak. The correlation coefficient (r), of known impurities and Diclofenac sodium should not be less than 0.99.

• System Suitability:

System suitability tests are based on concept that the equipment, electronics, analytical operations and sample to be analyzed, system suitability test provide the added assurance that on specific occasion the method is given accurate and precise results.

The system suitability should be as per below mention criteria in Table 16.0.

Table 16.0

Parameters	System Suitability Criteria	Limit
Resolution	The resolution between the peaks due to impurity F and Diclofenac	Minimum 4.0
Area % RSD	The area %RSD of six replicate injection of reference solution (a)	NMT – 5.0%

• Incident/Deviation:

Any Incident or Deviation observed during Analytical Method validation should be recoded and reported in Validation Report.

• Summary/Conclusion/recommendation:

Final Conclusion should be drawn from analytical method verification for its use to analyze the related substances of Diclofenac sodium by pharmacopeia method and if any differences shall be observed between methodology and experiments than accordingly will be revised and update our methodology. Abbreviations:

REL                 :           Related substance

            VAL                 :           Validation

            R                     :           Report

            RSD                :           Related standard deviation

            HPLC              :           High performance liquid chromatography

            mL                   :           Milliliter

            mg                   :           Milligram

            min.                 :           Minutes

            QA                   :           Quality Assurance

            QC                  :           Quality Control

            %                     :           Percentage

            ºC                    :            Degree centigrade

            hrs                   :           Hours

            µm                   :           Micrometer

            µl                     :           Microlitre

            BP                   :           British Pharmacopoeia

            RSD                :           Relative standard deviation

            NLT                 :           Not less than

NMT                :           Not more than

Imp                  :           Impurity

Ws                   :           Working standard

Vol                    :           Volume Revision History :

Revision No.	Details of changes	Reason for change
00	Nil	New Document