record the dissolution data.

Analytical Chemists: Analyze the dissolution test results, evaluate the release profiles, and compare them with the required specifications for the formulation.

Quality Control (QC): Ensure that dissolution testing is conducted in compliance with Good Laboratory Practices (GLP) and regulatory requirements and that the results meet the required quality standards.

Project Managers: Coordinate the dissolution testing process, ensuring the timely completion of tests and that the results are documented and communicated effectively.

4) Procedure

The following steps outline the procedure for using dissolution testing in formulation screening:

1. Step 1: Selection of Formulation Type
   1. Identify the type of formulation to be tested (e.g., tablet, capsule, or other solid dosage form) and determine the appropriate dissolution conditions based on the formulation’s intended release profile (e.g., immediate-release, sustained-release, etc.).
   2. Ensure that the formulation is prepared and weighed accurately before testing to ensure uniformity and correct drug content.
2. Step 2: Preparation of Dissolution Apparatus
   1. Ensure that the dissolution testing apparatus (e.g., USP Apparatus 1 or 2) is set up according to the specifications. This includes verifying the calibration of the apparatus, the condition of the dissolution baskets or paddles, and ensuring the proper filling of the vessel with the dissolution medium.
   2. Select the appropriate dissolution medium (e.g., simulated gastric fluid or buffer solution) based on the drug’s solubility characteristics and the intended release environment.
   3. Pre-warm the dissolution medium to the required temperature (usually 37°C ± 0.5°C) before initiating the test.
3. Step 3: Dissolution Testing
   1. Place the drug product (tablet, capsule, or other dosage form) into the dissolution apparatus and begin the test according to the selected conditions (e.g., rotational speed, dissolution medium volume, and time intervals for sampling).
   2. Monitor the dissolution process by collecting samples at specified time intervals (e.g., 5, 10, 15, 30, 60 minutes), depending on the expected release profile of the drug.
   3. Ensure that the sample volume withdrawn is replaced with fresh dissolution medium to maintain a consistent volume throughout the test.
4. Step 4: Sample Analysis
   1. Analyze the collected samples for drug concentration using appropriate analytical methods such as UV-Vis spectrophotometry, HPLC, or other suitable techniques.
   2. Ensure that the calibration curve for the analytical method is prepared and validated before the analysis to ensure accurate results.
   3. Record the drug concentration at each time point to calculate the cumulative drug release percentage at each interval.
5. Step 5: Evaluation of Dissolution Profiles
   1. Evaluate the dissolution data by plotting the cumulative percentage of drug released versus time to generate the dissolution profile of the formulation.
   2. Compare the release profile with the established dissolution specifications or desired release rate for the formulation.
   3. If applicable, compare the dissolution profiles of different formulations to assess which one provides the most favorable drug release profile.
6. Step 6: Stability Testing
   1. Conduct stability studies on the formulation to assess its release profile over time under different storage conditions (e.g., accelerated stability at 40°C, 75% RH and long-term stability at 25°C, 60% RH).
   2. Monitor for any changes in the dissolution profile as a result of storage, such as delayed or reduced drug release, to evaluate the stability of the formulation.
7. Step 7: Data Collection and Analysis
   1. Record all experimental conditions, observations, and results from the dissolution testing process, including dissolution times, drug concentrations, and temperature.
   2. Analyze the dissolution data using appropriate statistical methods to evaluate the consistency and reproducibility of the results.
   3. Assess the performance of the formulation based on the dissolution data to determine its suitability for further development.
8. Step 8: Documentation and Reporting
   1. Document all findings and data obtained from the dissolution testing process, including dissolution conditions, sampling times, drug concentrations, and any deviations or issues encountered during the testing.
   2. Prepare a final report summarizing the dissolution testing results, including the evaluation of the formulation’s drug release profile, and any recommendations for further optimization or formulation adjustments.
   3. Ensure that all records are signed, dated, and stored in compliance with Good Laboratory Practices (GLP) and regulatory standards.
9. Step 9: Sample Disposal
   1. Dispose of any remaining dissolution samples, solvents, and testing materials according to safety protocols and environmental regulations.
   2. Ensure that any hazardous materials, including solvents and chemicals, are disposed of in designated chemical waste containers.

5) Documents

The following documents should be maintained during dissolution testing of formulations:

1. Dissolution Testing Records
2. Drug Content and Release Profiles
3. Stability Testing Records
4. Data Analysis and Statistical Reports
5. Dissolution Testing Summary Report
6. Sample Disposal Records

6) Abbreviations

• API: Active Pharmaceutical Ingredient
• HPLC: High-Performance Liquid Chromatography
• USP: United States Pharmacopeia
• GLP: Good Laboratory Practices

7) References

References to regulatory guidelines and scientific literature that support this SOP:

• FDA Guidance for Pharmaceutical Development
• USP <711> on Dissolution Testing
• ICH Q8(R2) Pharmaceutical Development

8) Version

Version 1.0: Initial version of the SOP.

9) Annexure

Dissolution Testing Results Template

Formulation ID	Time Point (min)	Cumulative % Drug Released	Dissolution Rate (mg/min)	Stability Results