METHOD DEVELOPMENT AND VALIDATION OF NEWER ANALYTICAL METHODS AS PER ICH GUIDELINES Thesis Submitted to THE TAMILNADU DR. M.G.R. MEDICAL UNIVERSITY Chennai-600 032 As a partial fulfillment of the requirement for the award of Degree of DOCTOR OF PHILOSOPHY (Faculty of Pharmacy) Submitted by Mrs.B. UMADEVI, M.Pharm. Under the Guidance of Prof.Dr.T. VETRICHELVAN, M.Pharm., Ph.D. PRINCIPAL ADHIPARASAKTHI COLLEGE OF PHARMACY (Accredited by “NAAC” with CGPA of 2.74 on a four point scale at “B” Grade) MELMARUVATHUR-603 319, TAMILNADU, INDIA. SEPTEMBER-2013 DECLARATION I hereby declare that the thesis entitled “METHOD DEVELOPMENT AND VALIDATION OF NEWER ANALYTICAL METHODS AS PER ICH GUIDELINES” submitted by me for the degree of DOCTOR OF PHILOSOPHY (Faculty of Pharmacy), is a record of research work carried out by me during the period from 2008-2013, under the guidance of Prof.Dr.T. VETRICHELVAN, M.Pharm., Ph.D., Head, Department of Pharmaceutical Analysis and Principal, Adhiparasakthi College of Pharmacy, Melmaruvathur- 603 319, TamilNadu, India and has not formed the basis for the award of any degree, diploma, associateship, fellowship, title in this or any other university or similar institute of higher learning. Place: Melmaruvathur (B. UMADEVI) Date: 05.09.2013 CERTIFICATE This is to certify that the thesis entitled “METHOD DEVELOPMENT AND VALIDATION OF NEWER ANALYTICAL METHODS AS PER ICH GUIDELINES” submitted to The TamilNadu Dr. M.G.R. Medical University, Guindy, Chennai- 600 032, Tamil Nadu, India as a partial requirements for the award of Degree of DOCTOR OF PHILOSOPHY (Faculty of Pharmacy) is a record of research work done by Mrs.B. UMADEVI, M.Pharm., during 2008-2013 under my guidance and supervision at Adhiparasakthi College of Pharmacy, Melmaruvathur- 603 319, Tamil Nadu, India and that the thesis has not formed the basis for the award of any other degree, diploma, associateship, fellowship, or any other similar title to the candidate and the thesis represents independent work of the candidate. Prof.Dr. T.VETRICHELVAN, M.Pharm., Ph.D., Place: Melmaruvathur Head, Department of Pharmaceutical Analysis Date: 05.09.2013 and Principal, Adhiparasakthi College of Pharmacy, Melmaruvathur- 603 319, Tamil Nadu. ACKNOWLEDGEMENT I honestly acknowledge HIS HOLINESS “ARULTHIRU AMMA” for his ever- growing blessings in each step of the study. I am grateful to Thirumathi Lakshmi Bangaru Adigalar, Vice President, ACMEC Trust, Melmaruvathur, for having given me an opportunity and encouragement all the way in completing the study. I extend my thanks to Dr.T.Ramesh, M.D., Managing Director, MAPIMS, Melmaruvathur, for providing all the necessary facilities to carry out this work. I feel immensely delighted expressing my copious sincere thanks from the core of my heart and deep sense of my indelible gratitude to my guide Prof.Dr.T.Vetrichelvan, M.Pharm., Ph.D., Principal and Head, Department of Pharmaceutical Analysis, Adhiparasakthi College of Pharmacy, Melmaruvathur, for the active guidance, innovative ideas, creative works, indulgement and enthusiastic guidance, valuable suggestions, a source of inspiration where the real treasure of my work. I owe my sincere thanks with heartful pleasure to my Doctoral Committee members Dr.P.Perumal, Professor, JKK Nataraja College of Pharmacy, Kumarapalayam and Dr.G.Krishnamoorthy, Periyar College of Pharmaceutical Sciences for Girls, Trichy. Without their encouragement and moral support it would have been absolutely impossible to bring out the work in this manner. My heartful thanks to Mrs.G.Shankari, M.Pharm., Central Instrumentantion in- charge and Miss.R.Radha, M.Pharm., Central Instrumentation in-charge for their persuasive support to complete this work. My sincere thanks to Mrs.S.Karpagavalli, Lab in-charge and Mr.M.Gomathi Shankar, Lab in-charge for their kind help throughout this work. I am indeed thanks to the Librarian Mr.M.Suresh, M.L.I.S., for providing all reference books and to make this project a great success. I wish to thank Shine Pharmaceuticals Pvt. Ltd., Chennai, Centaur Pharmaceuticals Pvt. Ltd., Mumbai, CaplinPoint Laboratories, Pvt. Ltd., Pondicherry and Apex Pharmaceuticals, Pvt. Ltd., Chennai for providing raw materials for carrying out my project work. Finally I take this opportunity to express my gratitude to all the people involved directly or indirectly in the successful completion of this dissertation work. (UMADEVI. B) Dedicated to My Beloved Parents and My Family CONTENTS SECTION TITLE PAGE NO 1. INTRODUCTION 1-11 1.1 Introduction to Analytical Chemistry 1 1.2 Why Validation Analytical Procedure 1 1.3 Process of Analytical Method Validation 2 1.4 ICH Guidelines for Analytical Method Validation 2 1.5 System Suitability test 6 1.6 Ultraviolet Spectroscopy 8 1.7 High Performance Liquid Chromatography 10 2. AIM AND OBJECTIVES OF THE STUDY 12 3. LITERATURE REVIEW 13-82 3.1 Drug Profile 13 3.1.1 Drug Profile for Doxofylline 13 3.1.2 Drug Profile for Ambroxol Hydrochloride 15 3.1.3 Drug Profile for Metolazone 18 3.1.4 Drug Profile for Spironolactone 21 3.1.5 Drug Profile for Metoprolol 24 3.1.6 Drug Profile for Olmesartan Medoxomil 27 3.1.7 Drug Profile for Aspirin 30 3.1.8 Drug Profile for Rosuvastatin Calcium 35 3.2 Reported Methods 39 3.2.1 Reported methods of Doxofylline 39 3.2.2 Reported methods of Ambroxol Hydrochloride 45 3.2.3 Reported methods of Metolazone 56 3.2.4 Reported methods of Spironolactone 59 3.2.5 Reported methods of Metoprolol 64 3.2.6 Reported methods of Olmesartan Medoximil 68 3.2.7 Reported methods of Aspirin 73 3.2.8 Reported methods of Rosuvastatin 76 4. SCOPE AND PLAN OF WORK 83 5. MATERIALS AND METHODS 84-113 5.1 Instrument Specification 84 5.2 Reagents and chemicals used in the study 86 5.3 Materials and methods for Doxofylline and Ambroxol 87 Hydrochloride combination dosage form 5.3.1 UV Spectrophotometric Methods 88 5.3.2 High Performance Liquid Chromatographic Method 92 5.4 Materials and methods for Metolazone and Spironolactone 95 combination dosage form 5.4.1 UV Spectrophotometric Methods 96 5.4.2 High Performance Liquid Chromatographic Method 101 5.5 Materials and methods for Metoprolol and Olmesartan 104 Medoximil combination dosage form 5.6 Materials and methods for Aspirin and Rosuvastatin 109 combination dosage form 6. RESULTS AND DISCUSSION 114-152 6.1 UV- Spectroscopic Methods for Doxofylline and Ambroxol 114 Hydrochloride combination dosage form 6.1.1. Simultaneous Equation Method 115 6.1.2. Absorbance Correction Method 118 6.1.3. Absorbance Ratio Method 120 6.2 Reverse Phase High Performance Liquid Chromatography 121 Method for Doxofylline and Ambroxol Hydrochloride combination dosage form 6.3 UV Spectroscopic Methods for Metolazone and 125 Spironolactone combination dosage form 6.3.1. Simultaneous Equation Method 126 6.3.2. Absorbance Correction Method 128 6.3.3. Derivative Spectroscopic Method 131 6.4 Reverse Phase High Performance Liquid Chromatography 133 Method for Metolazone and Spironolactone combination dosage form 6.5 UV Spectroscopic methods for Metoprolol and Olmesartan 136 combination dosage form. 6.5.1 Simultaneous Equation Method 137 6.5.2 Area Under the Curve Method 141 6.5.3 Derivative Spectroscopic Method 144 6.6 UV Spectroscopic methods for Aspirin and Rosuvastatin 148 combination dosage form. 6.6.1 Simultaneous Equation Method 149 6.6.2 Absorbance Ratio Method 151 7. SUMMARY AND CONCLUSION 153-163 7.1. UV Spectroscopic methods for Doxofylline and Ambroxol 153 Hydrochloride 7.2. Reverse Phase High Performance Liquid Chromatography 155 method for Doxofylline and Ambroxol Hydrochloride 7.3. UV Spectroscopic methods for Metolazone and 156 Spironolactone 7.4. Reverse Phase High Performance Liquid Chromatography 157 method for Metolazone and Spironolactone 7.5. UV Spectroscopic methods for Metoprolol and Olmesartan 159 7.6 UV Spectroscopic methods for Aspirin and Rosuvastatin 162 8. IMPACT OF THE STUDY 164 9. APPENDIX List of figures List of tables Copies of research articles 10. BIBLIOGRAPHY LIST OF FIGURES FIGURE SUBJECT NO. 1 UV spectrum of Doxofylline in distilled water 2 UV spectrum of Ambroxol Hydrochloride in distilled water 3 Overlaid spectrum of Doxofylline and Ambroxol Hydrochloride in distilled water 4 Calibration curve of Doxofylline in distilled water at 244.5 nm 5 Calibration curve of Doxofylline in distilled water at 274 nm 6 Calibration curve of Ambroxol Hydrochloride in distilled water at 244.5 nm 7 Calibration curve of Ambroxol Hydrochloride in distilled water at 274 nm 8 Overlaid spectrum of Doxofylline and Ambroxol Hydrochloride (Absorbance Correction Method) 9 Calibration curve of Ambroxol Hydrochloride in distilled water at 308 nm 10 Overlaid spectrum of Doxofylline and Ambroxol Hydrochloride (Absorbance Ratio Method) 11 Calibration curve of Doxofylline in distilled water at 233.5 nm 12 Calibration curve of Ambroxol Hydrochloride in distilled water at 233.5 nm 13 Linearity chromatogram of Doxofylline and Ambroxol Hydrochloride (7, 0.5 µg ml-1)- First Set [1/3] 14 Linearity chromatogram of Doxofylline and Ambroxol Hydrochloride (14, 1 µg ml-1)- First Set [1/3] 15 Linearity chromatogram of Doxofylline and Ambroxol Hydrochloride (21, 1.5 µg ml-1)- First Set [1/3] 16 Linearity chromatogram of Doxofylline and Ambroxol Hydrochloride (28, 2 µg ml-1)- First Set [1/3] 17 Linearity chromatogram of Doxofylline and Ambroxol Hydrochloride (35, 2.5 µg ml-1)- First Set [1/3] 18 Calibration curve of Doxofylline by RP-HPLC 19 Calibration curve of Ambroxol Hydrochloride by RP-HPLC 20 Chromatogram for analysis of formulation [SYNASMA-AX] Repeatability -1 21 Chromatogram for analysis of formulation [SYNASMA-AX] Repeatability-2