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Full Screen- TITLE
- DECLARATION
- CERTIFICATE
- ACKNOWLEDGEMENT
- CONTENTS
- 1. Introduction & Review of Literature.
- INTRODUCTION
- REVIEW OF LITERATURE
- 1.1 OXYGEN TOXICITY
- 1.1.1 Generation of oxygen free radicals and reactive oxygen species
- 1.1.2 Sources of Reactive Oxygen species
- 1.1.2.1 Mitochondria
- 1.1.2.2 Purine metabolism
- 1.1.2.3 Phagocytes
- 1.1.2.4 Nitric oxide synthase
- 1.1.2.5 Transition metals
- 1.1.2.6 Other endogenous sources
- 1.1.2.7 Drug metabolism
- 1.1.2.8 Xenobiotic metabolism
- Table 1.1 Free radicals of these compounds implicated in the toxicity to specific tissues.
- Bipyridyl herbicides
- Fig. 1.4 Redox cycling of chemicals
- Halogenated hydrocarbons
- Fig. 1.5 Proposed Mechanism of Toxicity of paraquat (Bus and Gitjson, 1984)
- Fig. 1.6 Metabolic Activation of CCI4 in rat liver endoplasm reticulum.Slater TF 1987
- 1.1.2.9 Anti-tumour drugs
- Bleomycin
- Cisplatin
- 1.1.2.10 Ionizing Radiation
- Fig 1.7 Basic types of structural radiation damage to a cell.
- 1.1.3 Role Free radicals in diseases processes
- 1.1.3.1 Free radical - medicated lipid peroxidation and tissue damage.
- 1.1.3.2 Free radicals in Tumour Promotion
- Table 1.2 Free - radical generating compounds that are active as skin tumour promoters.
- 1.1.3.3 Role of free radicals in carcinogenesis
- 1.1.3.4 Fibrosis
- 1.2 RADIOPROTECTION AND CHEMOPROTECTION
- 1.2.1 Endogenous Antioxidants
- Fig. 1.8 The possible actions of potentiators and protectors in modifying free radical induced toxicity and transformation
- 1.2.1.1 Superoxide dismutases (SOD)
- 1.2.1.2 Catalase
- 1.2.1.3 The glutathione System
- Glutathione reductase (GR)
- 1.2.2 Exogenous antioxidants
- 1.2.2.1 Natural antioxidants
- Vitamin E
- Vitamin C,
- Carotenoids
- Polyphenols
- Antioxidant chain reaction
- 1.2.2.2 Synthetic antioxidants
- BHA & BHT
- Mercaptoalkylamines
- Table 1.2 Some Antioxidants available for therapeautic use
- 1.3 Antioxidants used in this study
- 1.3.1 α- Tocopherol
- 1.3.2 Ellagic acid
- Fig. 1.10 STRUCTURE OF ANTIOXIDANTS
- 1.3.3 Curcumin (diferuloyl methane)
- 1.3.4 Bixin
- 1.3.5 Probucol (Lorelco)
- 1.4 Scope of the present study
- 2. Materials and Methods.
- 2.1 ANTIOXIDANTS USED IN THE STUDY
- 2.2 CHEMICALS
- 2.3 INSTRUMENTS
- 2.4 ANIMALS
- 2.5 HUMAN VOLUNTEERS
- 2.6. DETERMINATION OF THE EFFECT OF ANTIOXIDANlS IN VITRO
- 2.6.1 Superoxide Scavenging Activity
- 2.6.2 Hydroxy radical Scavenging Activity
- 2.6.3 Inhibition of lipid peroxide formation
- Induction by Fe 3+/ADP - ascorbate system
- 2.7 INDUCTION OF LIPID PEROXIDATION IN RATS BY RADIATION
- 2.8 INDUCTION OF LUNG FIBROSIS IN HATS
- 2.8.1 Radiation induced lung fibrosis
- 2.8.2. Bleomycin induced firbosis
- 2.8.3 Paraquat induced fibrosis
- 2.9 INDUCTION OF CC14 INDUCED, LIVER FIBROSIS IN RATS
- 2.10 PREPARATION OF ANTIOXIDANTS FOR ORAL ADMINISTRATION
- 2.11 EVALUATION OF RADIATION INDUCED GENOTOXICITY IN RATS.
- 2.11.1 Determination of frequency of Micronuclei induced byRadiation
- 2.11.2 Detection of Chroraosomal Aberrations Induced by Radiation
- 2.11.3 Estimation of DNA Strand breaks in Rat lynphocytes
- 2.12 INDUCTION OF RENAL TOXICITY BY CISPLATIN
- 2.13 HISTOLOGICAL EXAMINATIONS
- 2.14 ESTIMATION OF TISSUE LIPID PEROXIDE
- 2.15 ESTIMATION OF PROTEIN
- 2.16 ESTIMATION OF SERUM LIPID PEROXIDE
- 2.17 ESTIMATION OF TISSUE SUPEROXIDE DISMUTASE (S0D)
- 2.18 ESTIMATION OF TISSUE CATALASE ACTIVITY
- 2.19 ESllMATlON OF TlSSUE GLUTATHIONE PEROXIDASE
- 2.20 ESTIMATION OF BLOOD GLUTATHIONE PEROXIDASE (GPX)
- 2.21 Estimation of Tissue Glutathione (GSB)
- 2.22 Estimation of cytosolic glutathione- s-traneferase
- 2.23 ESTIMATION OF CYTOSOLIC GLUTATHIONE REDUCTASE
- 2.24 ESTIMATION OF TISSUE HYDROXYPROLINE
- 2.25 ESTIMATION OF TISSUE HYDROXYPROLINE
- 2.28 ESTIMATION OF GLUTAMATE - PYRUVATE TRANSAMINASE (GPT)
- 2.29 ESTIMATION OF ALKALINE PHOSPHATASE (ALP) ACTIVITY
- 2.30 ESTIMATION OF PLASMA UREA
- 2.31 ESTIMATION OF PLASMA CREATININE
- 2.32 DETERMINATION OF TOTAL WBC
- 2.33 STATISTICAL ANALYSIS
- 3. Comparative Study of the Antioxidant Properties of α-Tocopherol, Ellagic Acid, Curcumin and Bixin.
- 3.1 MATERIALS AND METHODS
- 3.1.1 Determination of superoxide scavenging activity.
- 3.1.2 Determination of hydroxyl radical scavenging activity
- 3.1.3 Determination of lipid peroxidation inhibiting activity
- 3.1.4 Effect of α- tocopherol, curcumin and ellagic acid on normal antioxidant defensive mechanism in rats
- 3.1.5 Biochemical Analysis
- 3.2 RESULTS
- 3.2.1 Effect of α-tocopherol, ellagic acid, curcumin and bixin on superoxide generation - in vitro
- 3.2.2 Effect of α- tocopherol, ellagic acid, curcumin and bixin on hydroxyl radical generation (in vitro)
- 3.2.3 Effect of α-tocopherol, ellagic acid, curcumin and bixin on lipid peroxidation in vitro
- 3.2.4 Effect of α-tocopherol, ellagic acid and curcumin on antioxidant defensive mechanism in rats
- DISCUSSION
- 4. Effect of Antioxidants on Radiation Induced Toxicity.
- 4.1 MATERIALS AND METHODS
- 4.1.1 EffecL of Lime on radiation induced lipid peroxidation
- 4.1.2 Effect of radiation dose on lipid peroxidation
- 4.1.3 Therapeutic dose of radiation on Serum lipid peroxidation
- 4.1.4 Effect of antioxidants on radiation induced toxicity
- 4.1.5 Biochemical analyses
- 4.1.6 Histopathology
- 4.2 RESULTS
- 4.2.1 Effect of time on lipid peroxidation
- 4.2.2 Effect of dose on lipid peroxidation
- 4.2.3 Effect of therapeutic dose on lipid peroxidation
- 4.2.4 Effect of antioxidants on radiation induced toxicity.
- Fig 4.3 Effect of therapeutic irradiation on serum lipid peroxidation.
- 4.3 DISCUSSION
- 5. Effect of Antioxidants on Radiation Induced Genotoxicity.
- 5.1 MATERIALS AND METHODS
- 5.1.1 Effect of antioxidants on radiation induced micronuclei formation
- 5.1.2 Effects of antioxidants on radiation induced chromosomal aberration
- 5.1.3 Effect of antioxidants on radiation induced DNA trand breaks
- 5.2 RESULTS
- 5.2.1 Effect of antioxidants on radiation induced micronuclei formation
- 5.2.2 Effect of antioxiodants on radiation induced chromosomal aberration
- Fig.5.1 Poly chromatic erythrocyte with radiation induced micronuclei
- Fig.5.2 Bone marrow cell with radiation induced chromosomal aberration
- 5.2.3 Effect of antioxidants on radiation induced DNA strand breaks
- 5.3 DISCUSSION
- 6. Effect of Antioxidants on Induced Lung Fibrosis.
- 6.1 MATERIALS AND METHODS
- 6.1.1 Induction of r-ray induced lung fibrosis
- 6.1.2 Induction of bleomycin induced lung fibrosis
- 6.1.3 Induction of paraquat induced lung fibrosis
- 6.1.4 Biochemical analyses
- 6.1.5 Histological Examination
- 6.2 RESULTS
- 6.2.1 Effect of antioxidants on serum lipidperoxide level
- 6.2.2 Effect of antioxidants on induced lung lipid peroxidation in rats
- 6.2.3 Effect of antioxidants on induced liver lipid peroxidation in rats with induced lung fibrosis
- 6.2.4 Effects of antioxidants of liver superoxide dismutase (SOD) activity
- 6.2.5 Effect of antioxidants on liver glutathione peroxidaae (GPx) activity
- 6.2.6 Effect of antioxidants on liver catalase activity
- 6.2.7 Effect of antioxidants on liver glutathione (GSH) level
- 6.2.8 The effect of antioxidants on lung collagen hydroxyproline
- Fig.6.1 Effect of antioxidant on Radiation induced lung fibrosis in rats
- 6.2.9 Histological changes
- 6.3 Discussion
- Fig.6.2 Effect of antioxidants on Biomycin induced lung fibrosis in rats
- Fig.6.3 Effect of antioxidants on Paraquat induced lung fibrosis in rats
- 7. Effect of Ellagic Acid on Carbon tetrachloride Induced Liver Fibrosis.
- 7.1 MATERIALS AND METHODS
- 7.1.1 Determination of the effect of ellagic acid on liver fibrosis induced by Carbon tetrachloride:
- 7.1.2 Biochemical Analysis
- 7.1.3 Histological Examination
- 7.2 RESULTS
- DISCUSSION
- 8. Effect of α-Tocopherol, Ellagic Acid, Curcumin and Probucol on Cisplatin Induced Renal Toxicity.
- 8.1 MATERIALS AND METHODS:
- 8.1.1 Blood Parameters
- 8.1.2 Tissue parameters.
- 8.1.3 Histopathological Examination:
- 8.2 RESULT
- 8.3 Histopathological observation
- 8.3 DISCUSSION
- 9. Summary and Conclusion.
- BIBILIOGRAPHY
- Papers Published