Complexation and Protein Binding [Part-2](Method of analysis, Complexation and drug action )

•Download as PPTX, PDF•

10 likes•5,197 views

This document discusses various methods for analyzing complexes, including continuous variation (Job's) method, distribution method, solubility method, pH titration method, and spectroscopy. The continuous variation method analyzes changes in physical properties like dielectric constant when complexes form to determine stoichiometric ratios. The distribution method examines how the distribution of a solute between immiscible liquids changes with complexation to estimate stability constants. The solubility method observes whether solubility increases or decreases with the addition of a complexing agent. pH titration is reliable for complexes that affect pH upon formation. Spectroscopy techniques like UV and NMR are also used to determine rate constants and equilibrium constants.

Education

IIIrd Semesester B. pharmacy
Physical Pharmaceutics-I
Unit-IV
Complexation and Protein Binding [Part-2]
(Method of analysis, Complexation and drug action )
Miss. Pooja D. Bhandare
(Assistant professor)
Kandhar college of pharmacy

Method of Analysis
• The analysis of complexes involves the
estimation of two parameter.
1. The stoichiometric ratio of ligand – to
metal or donor-to acceptor.
2. Stability constant of the complex.
Study of rate of complex degradation is
very important in the determination of
complex application.

Method of Analysis
1. Methods of continuous variation / JOB’S
method of continuous variation.
2. pH titration method.
3. Distribution method.
4. Solubility method.
5. Spectroscopy and charge transfer
complexation.
6. Miscellaneous method

$1. Continuous variation method • The physical properties, such as dielectric constant, refractive index and spectrophotometric extinction coefficient, are characteristics of particular species. • When there is no complexation between these species ( A and B), the value of property is additive. • This particular behaviour is represent in figure as dotted line. In case of complexation, these properties change, i.e. additives phenomena do not hold good.$

Continuous variation
1. Due to complexation physical
properties result may be
maximum or minimum.
2. At maximum/minimum point
note concentration of individual
species.
3. Calculate stoichiometric ratio of
species.

2. Distribution method
• The distribution behaviour of a solute between two immiscible liquid
is expressed by distribution coefficient or partition coefficient.
• When a solute complexes with an added substance, the solute
distribution pattern changes depending on the nature of complex.
• A set of such experiment provides data for the estimation of complex
equilibrium stability.

• Example: The complexation of
iodine (𝐼2) with potassium iodide
(𝐼−
) can be represented by the
following equilibrium.
𝐼2 + 𝐼− = 𝐼3
−
𝐾𝑜/𝑤 =
[𝐼2] 𝑜
[𝐼2] 𝑤
K=
[𝐼3] 𝑤
[𝐼−] 𝑤 𝑋 [𝐼2] 𝑤

3. Solubility method:
• When mixture form complexes solubility
may increase/ decrease.
• Experiment are conducted to estimate
parameters
• Experiment:
1. Caffine ( Complexing agent) taken in
different concentrations.
2. Add PABA, Agitate, Filter and analyse
drug content.

4. pH Titration method :
• Most reliable method
Complexation should be affected
by change in pH.
• E.g. : Glycine with copper

4. pH titration method:
This method if complexation produce change
in pH.
Experiment:
1. Glycine solution (75ml) titrated with
NaOH, pH is recorded.
2. Glycine solution (75ml) + Cu+2 Complex
titrated with NaOH.
3. pH is recorded. (complexation releases
Proton and pH decreases)
4. Quantity of alkali = Concentration of
ligand bound.

5. Spectroscopy method
• The UV spectroscopy is used as extensively in determining rate
constant , equilibrium constant, acid-base dissociation constant etc for
chemical reaction

$6. Miscellaneous method • Several other method are available for the analysis of complexes like NMR and IR spectroscopy, polarography, circular dicromism, kinetics, X- ray diffraction and electron diffraction.$

What's hot

Solubility 3: Solvation & Association

Sandeep Ambore

Solubility expressions, mechanisms of solute solvent interactions,solubility parameters, factors influencing solubility of drugs, diffusion principles in biological systems, Raoult’s law, real solutions. Partially miscible liquids(Phase equilibria, Phase rule, One , two and three component systems, ternary phase diagram, Critical solution temperature and applications). Distribution law, its limitations and applications

Solubility of Drugs (PHYSICAL PHARMACEUTICS-I)

Rakesh Mishra

Ph, buffers & isotonic solution

Ali-Allana college of pharmacy Akkalkuwa

4th (30.10.2014) on eutectic mixture by Diptarco Singha

Diptarco Singha

Complexation & protein binding

JILSHA123

Unit 1-Structure of benzene(Analytical & Synthetic Evidence)

Anjali Bhardwaj

Physicochemical properties of drug molecules

Mahewash Sana Pathan

Solubility of drugs: Solubility expressions, mechanisms of solute solvent interactions, ideal solubility parameters, solvation & association, quantitative approach to the factors influencing solubility of drugs, diffusion principles in biological systems. Solubility of gas in liquids, solubility of liquids in liquids, (Binary solutions, ideal solutions) Raoult’s law, real solutions. Partially miscible liquids, Critical solution temperature . Distribution law, its limitations and applications

Solubility of drugs

Mirza Salman Baig

Solubility of drugs

Dr. Prashant L. Pingale GES's Sir Dr. M. S. Gosavi College of Pharmacy, Nashik

State of matter and properties of matter (Part-9)(Physicochemical propertie...

Ms. Pooja Bhandare

Physical pharmacy i third semester (unit-i) solubility of drug

Ms. Pooja Bhandare

Sorensen's pH scale SB

Mirza Salman Baig

Methods of analysis .nilhhhhhhhhhhh

Shital Nehere

Pharmaceutical Engineering: Flow of fluids

Parag Jain

State of matter and properties of matter (Part-10)(Physicochemical properti...

Ms. Pooja Bhandare

State of matter and properties of matter (Part-3) (Eutectic mixture)

Ms. Pooja Bhandare

UNIT 5TH - pH, buffers and Isotonic solutions

Sumit Tiwari

Solvation and association (Solubility of drug Part -3)

Ms. Pooja Bhandare

Pharmaceutical engineering: Distillation

Parag Jain

Complexation and protein binding

Shivraj Jadhav

What's hot (20)

Solubility 3: Solvation & Association

Solubility of Drugs (PHYSICAL PHARMACEUTICS-I)

Ph, buffers & isotonic solution

4th (30.10.2014) on eutectic mixture by Diptarco Singha

Complexation & protein binding

Unit 1-Structure of benzene(Analytical & Synthetic Evidence)

Physicochemical properties of drug molecules

Solubility of drugs

State of matter and properties of matter (Part-9)(Physicochemical propertie...

Physical pharmacy i third semester (unit-i) solubility of drug

Sorensen's pH scale SB

Methods of analysis .nilhhhhhhhhhhh

Pharmaceutical Engineering: Flow of fluids

State of matter and properties of matter (Part-10)(Physicochemical properti...

State of matter and properties of matter (Part-3) (Eutectic mixture)

UNIT 5TH - pH, buffers and Isotonic solutions

Solvation and association (Solubility of drug Part -3)

Pharmaceutical engineering: Distillation

Complexation and protein binding

Similar to Complexation and Protein Binding [Part-2](Method of analysis, Complexation and drug action )

Method Development and Validation for Simultaneous estimation of Metformin Hc...

pharmaindexing

Complexation 3

Swati Gaikwad

A simple, sensitive, precise, accurate, highly reproducible and economical, visible spectrophotometric method for the determination lurasidone in bulk form was developed and validated. The method is based on the formation of an oxidative coupling product by the reaction of lurasidone with 3-methylbenzothiazolin- 2-one hydrazone as a chromogenic reagent in presence of ferric chloride. The linear regression analysis data for the calibration plot showed good linear relationship within the concentration range of 0–100 μg/mL with a correlation coefficient (r) value of 0.9997. The limits of detection and quantitation are 0.6 and 1.7 μg/mL, respectively. The method was tested and validated according to ICH guidelines. The results demonstrated that the procedure is accurate, precise and reproducible (RSD < 2%).

Oxidative Coupling Reaction for the Determination of Lurasidone

Ratnakaram Venkata Nadh

simple, sensitive, precise, accurate, highly reproducible and economical, visible spectrophotometric method for the determination lurasidone in bulk form was developed and validated. The method is based on the formation of an oxidative coupling product by the reaction of lurasidone with 3-methylbenzothiazolin- 2-one hydrazone as a chromogenic reagent in presence of ferric chloride. The linear regression analysis data for the calibration plot showed good linear relationship within the concentration range of 0– 100 μg/mL with a correlation coefficient (r) value of 0.9997. The limits of detection and quantitation are 0.6 and 1.7 μg/mL, respectively. The method was tested and validated according to ICH guidelines. The results demonstrated that the procedure is accurate, precise and reproducible (RSD < 2%).

Oxidative Coupling Reaction for the Determination of Lurasidone

Ratnakaram Venkata Nadh

Pharmaceutical analysis Definition and scope  Different techniques of analysis  Methods of expressing concentration  Primary and secondary standards.  Preparation and standardization of various molar and normal solutions Oxalic acid, sodium hydroxide, hydrochloric acid, sodium thiosulphate, sulphuric acid, potassium permanganate and ceric ammonium sulphate  Errors :Sources of errors, types of errors, methods of minimizing errors, accuracy, precision and significant figures

Pharmaceutical Analysis &Errors

AMOL DIGHE

Method development and validation for the simultaneous estimation of saxaglip...

pharmaindexing

pharmaceutical analysis - Pharmaceutical analysis is branch of practical chemistry deals with identification,determination,quantification,and purification of substances pharmaceutical analysis devided into two types i.e. 1)Qualitative analysis 2)Quantitative Analysis pharmaceutical analysis have various methods 1) Chemical method 2)Electrical method 3)Instrumental method 4)Biological method Introduction to Error-Error is define as mistake errors are categorized into two parts i.e.Absolute error and relative error Absolute error is the difference between experimental mean value and true value Relative errors is

PA 1.pptx introduction to Pharmaceutical Analysis

priyankaRamugade

erma.pptx

harshit33292

The IOSR Journal of Pharmacy (IOSRPHR) is an open access online & offline peer reviewed international journal, which publishes innovative research papers, reviews, mini-reviews, short communications and notes dealing with Pharmaceutical Sciences( Pharmaceutical Technology, Pharmaceutics, Biopharmaceutics, Pharmacokinetics, Pharmaceutical/Medicinal Chemistry, Computational Chemistry and Molecular Drug Design, Pharmacognosy & Phytochemistry, Pharmacology, Pharmaceutical Analysis, Pharmacy Practice, Clinical and Hospital Pharmacy, Cell Biology, Genomics and Proteomics, Pharmacogenomics, Bioinformatics and Biotechnology of Pharmaceutical Interest........more details on Aim & Scope). All manuscripts are subject to rapid peer review. Those of high quality (not previously published and not under consideration for publication in another journal) will be published without delay.

E04602033038

iosrphr_editor

A simple spectrophotometric method was developed to determine riociguat in bulk and tablet formulation. The present method lies on the oxidation of MBTH by Fe+3 ions in acidic medium to form active coupling species and followed by its coupling with riociguat to form the chromophore having lmax 660 nm. Validated the proposed method as per the existing guidelines of ICH. Good linearity (r~ 0.999) was observed for calibration curve in the studied concentration range (6.25 – 37.50 μg mL-1). Reproducibility, accuracy and precision of the method were confirmed from low values of % RSD.

Determination of Riociguat by Oxidative Coupling Using Visible Spectrophotometry

Ratnakaram Venkata Nadh

Determination of Riociguat by Oxidative Coupling Using Visible Spectrophotometry

Ratnakaram Venkata Nadh

Ppt 1 introduction to analysis

ASHWINI SHELKE

Indirect Simultaneous Kinetic Determination of Semicarbazide and Hydrazine in...

Fatemeh Sedaghatpour

Analysis

meraj khan

preformulation concepts, drug excipient interactions different methods slide...

vamshipradeep

The drug or drug combination may not be official in any pharmacopoeias. A proper analytical procedure for the drug may not be available in the literature due to patent regulations. Analytical methods may not be available for the drug in the form of a formulation due to the interference caused by the formulation excipients. Analytical methods for the quantitation of the drug in biological fluids may not be available. Analytical methods for a drug in combination with other drugs may not be available. The existing analytical procedures may require expensive reagents and solvents. It may also involve cumbersome extraction and separation procedures and these may not be reliable.

Analytical method development

Sagar Savale

THE JOURNAL CLUB- venkat m.pharm phramceutical analysis

Venkatesan R - 6369851191

Introduction of Pharmaceutical Analysis.pdf

Keval80

Aim: The objective of the current study is to develop a colorimetric method for the determination of mianserin, an antidepressant drug. Materials and Methods: Fast Sulphon Black F, an acidic dye was used to develop a soluble colored ion-pair complex. The complex was extracted into an organic solvent and absorbance was measured. Results: Reaction conditions were optimized to obtain a sensitive and stable chromophore (λmax 554 nm) in dichloromethane. Good linearity was observed for the calibration curve plotted in the studied concentration range (4–14 μg/mL) with regression analysis (r > 0.9997). High percentage recovery values (98.25–101.40) show that the method is accurate. Reproducibility of the method is evident from lower relative standard deviation (<2%) for both intra- and inter-day precision studies. Conclusions: The proposed method is validated as per the existing ICH guidelines. This method is simple as it does not require any pre-treatment process.

Ion-pair Formation for the Determination of Mianserin Using Fast Sulphon Black F

Ratnakaram Venkata Nadh

Ion-pair Formation for the Determination of Mianserin Using Fast Sulphon Black F

Ratnakaram Venkata Nadh

Similar to Complexation and Protein Binding [Part-2](Method of analysis, Complexation and drug action ) (20)

Method Development and Validation for Simultaneous estimation of Metformin Hc...

Complexation 3

Oxidative Coupling Reaction for the Determination of Lurasidone

Pharmaceutical Analysis &Errors

Method development and validation for the simultaneous estimation of saxaglip...

PA 1.pptx introduction to Pharmaceutical Analysis

erma.pptx

E04602033038

Determination of Riociguat by Oxidative Coupling Using Visible Spectrophotometry

Ppt 1 introduction to analysis

Indirect Simultaneous Kinetic Determination of Semicarbazide and Hydrazine in...

Analysis

preformulation concepts, drug excipient interactions different methods slide...

Analytical method development

THE JOURNAL CLUB- venkat m.pharm phramceutical analysis

Introduction of Pharmaceutical Analysis.pdf

Ion-pair Formation for the Determination of Mianserin Using Fast Sulphon Black F

More from Ms. Pooja Bhandare

Pharmaceutical Inorganic Chemistry Unit IV Miscellaneous compounds Expectorants Emetics, Haematinics, Poison and Antidote and Astringents. Expectorants: Potassium iodide, Ammonium chloride*. Emetics: Copper sulphate*, Sodium potassium tartarate Haematinics: Ferrous sulphate*, Ferrous gluconate Poison and Antidote: Sodium thiosulphate*, Activated charcoal, Sodium nitrite333 Astringents: Zinc Sulphate, Potash Alum

Pharmaceutical Inorganic Chemistry Unit IVMiscellaneous compounds Expectorant...

Ms. Pooja Bhandare

Pharmaceutical Inorganic chemistry UNIT-V Radiopharmaceutical.pptx Isotopes Types of decay Alpha rays, which could barely penetrate a piece of paper Beta rays, which could penetrate 3 mm of aluminium Gamma rays, which could penetrate several centimetres of lead Units of Radioactivity: Measurement of Radioactivity The measurement of nuclear radiation and detection is an important aspect in the identification of type of radiations (, , ) and to assay the radionuclide emitting the radiation, suitable detectors are required. The radiations are identified on the basis of their properties. e.g. Ionization effect is measured in Ionization Chamber, Proportional Counter and Geiger Muller Counter. The scintillation effect of radiation is measured using scintillation detector and the photographic effect is measured by Autoradiography. Gas Filled Detectors: Ionization Chamber: Proportional Counters: Geiger-Muller Counter Properties of α, β, γ radiations Half –life of Radioelement Sodium Iodide (I131) Handling and Storage of Radioactive Material: Storage of Radioactive Substances – Precautions For Handling Radioactive Substances Labelling of Radioactive Substances Pharmaceutical Application Of Radioactive Substances

Pharmaceutical Inorganic chemistry UNIT-V Radiopharmaceutical.pptx

Ms. Pooja Bhandare

Gastrointestinal agents.Pharmaceutical Inorganic chemistry UNIT-III pptx Gastrointestinal agents Acidifiers: Ammonium chloride* and Dil. HCl Antacid: Ideal properties of antacids, combinations of antacids, Sodium Bicarbonate*, Aluminum hydroxide gel, Magnesium hydroxide mixture Cathartics: Magnesium sulphate, Sodium orthophosphate, Kaolin and Bentonite Antimicrobials: Mechanism, classification, Potassium permanganate, Boric acid, Hydrogen peroxide*, Chlorinated lime*, Iodine and its preparations

Gastrointestinal agents.Pharmaceutical Inorganic chemistry UNIT-III pptx

Ms. Pooja Bhandare

Dental products. Pharmaceutical Inorganic chemistry UNIT-II (Part-III) Dental Product :Tooth Anatomy 1. Enamel 2. Cementum 3. Dentin Vitamin A deficiency causes hypoplastic enamel (imperfectly calcified) Vitamin C deficiency affects calcification of dentine. Vitamin D not only helps the absorption of Calcium from GIT, but also for proper deposition of Calcium and Phosphate in tooth. Other ions like Mg2+, Cl-, CO32- and citrate are also present in tooth. Classification of Dental Products Anticaries agents Cleaning agents (Dentifrices/ Polishing agents Desensitizing Agents Cement and fillers Anticaries Agents: (Sodium fluoride, stannous fluoride, sodium mono fluoro phosphate) Mechanism of action of Fluoride: Administration and Effects of over dose of Fluoride: Sodium Fluoride: Molecular Formula, Molecular weight, Standards, Method of Preparation, Properties, Identification Tests, Uses Application, Caution: Stannous Fluoride: Molecular Formula, Molecular weight, Standards, Method of Preparation, Properties, Identification Tests, Uses Application, Caution: Cleaning agents (Dentifrices/ Polishing agents) e.g., Calcium carbonate, Dibasic calcium phosphate, calcium phosphate, sodium metaphosphate, calcium pyrophosphate Dibasic calcium phosphate/ Dicalcium Phosphate: Molecular Formula, Molecular weight, Standards, Method of Preparation, Properties, Identification Tests, Uses Application, Caution: Calcium Carbonate: Molecular Formula, Molecular weight, Standards, Method of Preparation, Properties, Identification Tests, Uses Application, Caution: Desensitizing Agents (e.g., strontium chloride and zinc chloride.) strontium chloride :Molecular Formula, Molecular weight, Standards, Method of Preparation, Properties, Identification Tests, Uses . Application, Caution: Zinc chloride :Molecular Formula, Molecular weight, Standards, Method of Preparation, Properties, Identification Tests, Uses Application, Caution: Cement and fillers e.g. Zinc oxide eugenol cement. Zinc oxide eugenol cement Classification: Type I ZOE: For temporary cementation Type II ZOE: Permanent Cementation Type III ZOE: Temporary filling and thermal base Type IV ZOE: Cavity Liners ZOE cement is available as: 1. Powder and liquid 2. Paste system Method of Preparation: Structure of set cement Uses:

Dental products.pptx

Ms. Pooja Bhandare

Major extra and intracellular electrolytes. Pharmaceutical Inorganic chemistry UNIT-II (Part-II) Electrolyte: Intracellular fluid Interstitial fluid Plasma (Vascular fluid) Anionic electrolytes- HCO₃⁻, Cl⁻, SO₄²⁻, HPO₄²⁻ Cationic electrolytes- Na⁺, K⁺, Ca²⁺, Mg²⁺ Concentration of important Electrolytes: Electrolytes used in the replacement therapy: Sodium chloride*, Potassium chloride, Calcium gluconate* and Oral Rehydration Salt (ORS), Physiological acid base balance.

Major extra and intracellular electrolytes. Pharmaceutical Inorganic chemistr...

Ms. Pooja Bhandare

Acids, Bases And Buffers Pharmaceutical Inorganic chemistry UNIT-II (Part-I) Acids, Bases are defined by Four main theories, 1.Traditional theory / concept 2.Arrhenius theory 3.Bronsted and Lowry theory 4.Lewis theory Importance of acids and bases in pharmacy Buffers: Buffer action Buffer capacity Buffers system Types of Buffers : Generally buffers are of two types: 1. Acidic buffers 2. Basic buffers There are some other buffer system: 3. Two salts acts as acid-base pair. Ex- Potassium hydrogen phosphate and potassium dihydrogen phosphate. 4. Amphoteric electrolyte. Ex- Solution of glycine. 5. Solution of strong acid and solution of strong base. Ex- Strong HCl with KCl Mechanism of Buffer action: Mechanism of Action of acidic buffers: Buffer equation-Henderson-Hasselbalch equation: Standard Buffer Solutions Preparation of Buffer Solutions: Buffers in pharmaceutical systems or Application of buffer: Stability of buffers Buffered isotonic solution Types of Buffer Isotonic solution 1. Isotonic Solutions: 2. Hypertonic Solutions: 3. Hypotonic Solution: Measurement of Tonicity: 1. Hemolytic method: 2. Cryoscopic method or depression of freezing point: Methods of adjusting the tonicity: Class I methods: In this type, sodium chloride or other substances are added to the solution in sufficient quantity to make it isotonic. Then the preparation is brought to its final volume withan isotonic or a buffered isotonic diluting solution. These methods are of two types: Cryoscopic method Sodium chloride equivalent method. Class II methods: In this type, water is added in sufficient quantity make the preparation isotonic. Then the preparation is brought to its volume with an isotonic or a buffered isotonic diluting solution. These methods are of two types: White-Vincent method Sprowls method.

Acids, Bases And Buffers Pharmaceutical Inorganic chemistry UNIT-II (Part-I)

Ms. Pooja Bhandare

Limt test Pharmaceutical Inorganic chemistry UNIT-I (Part-III) Limit Test

Ms. Pooja Bhandare

Types and Sources of impurities. Pharmaceutical Inorganic chemistry UNIT-I (Part-II) Impurities: Impure Chemical Compound Pure Chemical Compound. Types of impurities: Organic Impurity, Inorganic impurity, Residual solvent, Sources of Impurities in Pharmaceuticals The different sources of impurities in pharmaceuticals are listed below: Raw material used in manufacture Reagents used in manufacturing process Method/ process used in manufacture or method of manufacturing Chemical processes used in the manufacture Atmospheric contamination during the manufacturing process Intermediate products in the manufacturing process Defects in the manufacturing process Manufacturing hazards Inadequate Storage conditions Decomposition of the product during storage Accidental substitution or deliberate adulteration with spurious or useless materials. Test for purity: Pharmacopoeia prescribes the “Test for purity” for pharmaceutical substances to check their freedom from undesirable impurities. Pharmacopoeia will decide and fix the limit of tolerance for these impurities. For certain common impurities for which pharmacopoeia prescribes the test of purity are: Colour, odour, taste Physicochemical constants (Iodine value, saponification value, melting point, refractive index etc.) Acidity, alkalinity, pH Humidity (Estimation of moisture) Cations and anions Insoluble Constituent or Residue. Ash, Water insoluble ash Arsenic or lead Loss on drying Loss on ignition. Effect of Impurities

Types and Sources of impurities.pptx Pharmaceutical Inorganic chemistry UNIT-...

Ms. Pooja Bhandare

Introduction of Inorganic Chemistry, History of Pharmacopoeia.pptx

Ms. Pooja Bhandare

Polyploidy, mutation and hybridization with reference to medicinal plants. PHARMACOGNOSY & Phytochemistry-I (BP405T)Unit-IIPart-4 Polyploidy reference to medicinal plants. Types Of Polyploidy A. Euploidy a.Autopolyploidy b. Allopolyploidy B. Aneuploidy 1. Causes Of Polyploidy 2. Non-disjunction in mitosis 3. Non-reduction in meiosis 4. Polyspermy 5. Endo-replication or Endo- reduplication. Factors Promoting Polyploidy 1. Physical factor 2. Chemical factor 3. Biological factor Physical factor:- Temperature :- heat temperature & cold temperature Centrifugation X-rays Gamma rays Cosmic rays Ionizing & non-ionizing radiations UV-radiations Chemical factor:- Alkylating agents:- nitrogen & sulphur mustard Acridines Proflavins Nitrous acid Colchicines[6] Colchicines (Poisonous alkaloids):- Biological factor Mode of reproduction Mode of fertilization Breeding system present (Hybridization) Growth habit of the plant Size of chromosomes Application Of Polyploidy Mutation breeding Seedless fruits production Bridge crossing Ornamental & forage breeding Disease resistance through aneuploidy Industrial application of polyploidy mutation reference to medicinal plants Type of mutations: 1. Spontaneous and induced mutations. 2. Recessive and dominant mutations. 3. Somatic and germinal mutations. 4. Forward, back and suppressor mutation. 5. Chromosomal, genomic and point mutations Application Of Mutation: Hybridization reference to medicinal plants The following steps are involved in hybridization of plant: Choice Of Parents:. Selfing Of Parents Emasculation:. Bagging: Crossing Or Cross Pollination Labelling Collection Of Hybrid Seeds Significance of Hybridization

Polyploidy, mutation and hybridization with reference to medicinal plants. PH...

Ms. Pooja Bhandare

Plant Growth Regulators Plant Harmone Phytoharmone. PHARMACOGNOSY & Phytochem...

Ms. Pooja Bhandare

PHARMACOGNOSY & Phytochemistry-I (BP405T)Unit-IIPart-2.FACTORS AFFECTING CULTIVATION 1. Altitude 2.Temperature 3. Rainfall 4. Day Length and Day Light 5. Soil 6. Soil Fertility 7. Fertilizers and Manures a) Chemical fertilizers (b) Manures (c) Biofertilizers 8. Pests and Pests Control a. Microbes b) Insects C) Non insect pests d) Weeds 9. Other Factors that Affect the Cultivated Plants a. Air Pollution b. Herbicide

FACTORS AFFECTING CULTIVATION. PHARMACOGNOSY & Phytochemistry-I (BP405T)Uni...

Ms. Pooja Bhandare

PHARMACOGNOSY & Phytochemistry-I (BP405T)Unit-IIPart-1Cultivation and collections of drugs of natural origin. Advantages of cultivation Methods of Plant Propagation 1.Sexual method (seed propagation) 2. Asexual method Methods of sowing the seeds Broadcasting Dibbling Miscellaneous Special treatment to seeds Asexual method. Asexual method of vegetative propagation consists of three types: a) Natural methods of vegetative propagation. b) Artificial methods of vegetative propagation. c) Aseptic method of micropropagation (tissue-culture). COLLECTION OF CRUDE DRUGS HARVESTING OF CRUDE DRUGS DRYING OF CRUDE DRUGS (1) natural (sun drying) and (2) artificial Artificial Drying Drying by artificial means includes drying the drugs in (a) an oven; i.e. tray-dryers; (b) vacuum dryers and (c) spray dryers. GARBLING (DRESSING) PACKING OF CRUDE DRUGS STORAGE & PRESEVATION OF CRUDE DRUGS

Cultivation and collections of drugs of natural origin..pptx

Ms. Pooja Bhandare

Quality control of Drugs of Natural Origin PHARMACognosy & Phytochemistry-I (BP405T)Unit-I Part-3. CONTENTS Adulteration Evaluation of adulteration Morphological / Organoleptic evaluation Microscopic evaluation Quantitative evaluation Physical evaluation Chemical evaluation Biological evaluation Adulteration is of two types: Indirect or Unintentional adulteration Direct or Intentional adulteration Intentional adulteration may be due to the following reasons adulteration using manufactured substances substitution using inferior commercial varieties substitution using exhausted drugs substitution of superficially similar inferior natural substance adulteration using the vegetative part of the same plant addition of toxic materials adulteration of powders addition of synthetic principles Evaluation of Crude Drugs 1. ORGANOLEPTIC EVALUATION 2. MICROSCOPICAL EVALUATION Stomatal index Vein-islet number Veinlet termination number Palisade ratio Quantitative Microscopy (Lycopodium Spore Method) 3.CHEMICAL EVALUATION 4. Physical Evaluation I. Solubility II. Optical Rotation III. Refractive Index III. Specific Gravity IV Viscosity V. Melting Point VI. Moisture Content VII. Ultraviolet Light VIII. Ash Values Total ash Acid-insoluble ash The water-soluble ash IX. Extractive Values X. Foreign Organic Matters 5. BIOLOGICAL EVALUATION Toxicity Oxytocic activity Microbiological assays

Quality control of Drugs of Natural Origin. PHARMACognosy & Phytochemistry-I ...

Ms. Pooja Bhandare

Classification of Crude Drugs.PHARMACognosy & Phytochemistry-I (BP405T)Unit-I Part-2. A method of classification should be: a) simple, b) easy to use, and c) free from confusion and ambiguities. TYPES OF CLASSIFICATION. 1.Alphabetical classification 2.Taxonomical classification 3.Morphological classification 4.Pharmacological classification 5.Chemical classification 6.Chemotaxonomical classification 7. Serotaxanomical Classification

Classification of Crude Drugs. HARMACognosy & Phytochemistry-I (BP405T)Unit-I...

Ms. Pooja Bhandare

Pharmacognosy & Phytochemistry-I Unit-IPart-1Introduction of Pharmacognosy. History of Pharmacognosy Primitive era- Pre-Christian era- Modern Pharmacognosy- SCOPE OF PHARMACOGNOSY Various sources of drugs Plants Animals Plant Tissue Culture Marine Sources Organized drugs, Unorganized drug Crude drugs- Dried latex e.g. Opium Dried juice e.g. Aloes Extracts e.g Catechu (Black and pale catechu) Gums e.g Acacia, trgacanth Resins: Gum resins e.g Myrrh Oleo resin e.g Capsicum 6. Waxes e.g Beeswax 7. Oil e.g Castor oil, Wool fat.

Pharmacognosy & Phytochemistry-I Unit-IPart-1Introduction of Pharmacognosy..pptx

Ms. Pooja Bhandare

Applications of cell culture. PHARMACEUTICAL MICROBIOLOGY (BP303T)Unit-VPart-5

Ms. Pooja Bhandare

PHARMACEUTICAL MICROBIOLOGY (BP303T)Unit-VPart-4 Animal Cell Culture: Growth of animal cells in culture. Introduction: Histroy, The culture media used for animal cell culture are classified as, Natural, Artificial, Synthesized Natural Culture Media: a. Blood Plasma: b. Blood Serum: c. Tissue Extracts: Artificial Media Some common examples of artificial media are, Minimal Essential Medium (MEM), CMRL 1066, RPMI 1640. Synthetic media re classified as, Serum Containing Media. Serum Free Media. a. Serum Containing Media: b. Serum Free Media: Physicochemical Parameters needed for growth animal cell culture: General procedure for cell Culture. Isolation of the tissue: Disaggregation of the Tissue: Mechanical disaggregation b. Enzymatic Disaggregation . Trypsin based disaggregation or trypsinization: Warm trypsinization: Cold trypsinization: Drawbacks of trypsin disaggregation: B. Collagenase based disaggregation: C. Chelating Agents: 3. Seeding of Culture:

Animal Cell Culture: Growth of animal cells in culture. PHARMACEUTICAL MICROB...

Ms. Pooja Bhandare

PHARMACEUTICAL MICROBIOLOGY (BP303T)Unit-VPart-3 Preservation of pharmaceutical products using antimicrobial agents. Introduction. Ideal Properties of Preservatives: Antimicrobial Chemical Preservatives Development of a Preservative System. Factors affecting efficacy of a preservative: 1. Interaction With components of the formulation 2. Properties of the Preservatives: 3) Effect of Containers. 4) Type of microbes: 5) Influence of pH: Challenge Test: Efficacy Test of Preservative : Medium used, Choice of test organism: Preparation of the inoculum: Procedure: Interpretation of Results:

Preservation of pharmaceutical products using antimicrobial agents. PHARMACEU...

Ms. Pooja Bhandare

PHARMACEUTICAL MICROBIOLOGY (BP303T)Unit-VPart-2 Assessment of microbial contamination and spoilage. Assessment of microbial contamination and spoilage 1. Physical and chemical changes: 2. Assessment of viable microorganisms in non-sterile products: 3. Sterility test: 4. Estimation of pyrogens: Microbial Limit Tests: Total Aerobic Microbial Count: Membrane Filtration. Plate Count Methods. Pour Plate Method. Surface spread Method. Most Probable Number(MPN)

Assessment of microbial contamination and spoilage. PHARMACEUTICAL MICROBIOLO...

Ms. Pooja Bhandare

More from Ms. Pooja Bhandare (20)