Summary

This document provides a general introduction to bioassays, explaining what they are and why they're used. It discusses different types of assays, including chemical and biological assays. It also outlines the principles and purpose of bioassays, explaining their applications and some of the advantages and disadvantages of using bioassays.

Full Transcript

Biological Assay Assay An assay is an investigative (analytic) procedure in laboratory medicine, pharmacology, environmental biology, and molecular biology for qualitatively assessing or quantitatively measuring the presence or amount or the functional activity of a target entity (the analyte...

Biological Assay Assay An assay is an investigative (analytic) procedure in laboratory medicine, pharmacology, environmental biology, and molecular biology for qualitatively assessing or quantitatively measuring the presence or amount or the functional activity of a target entity (the analyte) which can be a drug or biochemical substance or organic sample. Types Of Assay  Chemical Assay  Immunoassay  Bioassay Chemical Assay: It is the study of the separation, identification, and quantification of the chemical components of natural and artificial materials. Immunoassay: A technique that makes use of the binding between an antigen and its homologous antibody in order to identify and quantify the specific antigen or antibody in a sample. Biological Assay Biological testing procedure for estimating the concentration of a pharmaceutical drug substance in a formulated drug product or bulk material. The specific potency of drug is given to animal or human volunteers and then drug response is compared with the standards. Comparison Of Chemical & Bioassay Bioassay Chemical Assay Less Precise  More Precise More time consuming  Less time consuming More expensive  Less expensive  Active constituent &  Active constituent & structure not known. structure fully established. More sensitive  Less sensitive More men power  Less men power required Required  Easy to handle  Diffi cult to handle Indications Of Bioassay 1. Chemical method is either  Not available  If available, too complex,  Insensitive to low doses e.g. Histamine 2. If active principle of drug is not known e.g. Insulin. 3. Unknown Chemical composition, e.g. long acting thyroid stimulator 4. Chemical composition of drug variable but has same pharmacological action e.g. cardiac glycosides. 5. Activeprinciple cannot be isolated e.g. posterior pituitary extract, insulin etc.. 6. Biological activity of drug cannot defined by a chemical assay e.g. Cis and Trans form of methyl phenidate. 7. Not possible to separate interfering substance e.g. Vitamin D. Principles Of Bioassay  All bioassays should be comparative against a standard drug.  Standard & new drug should be as far as possible identical to each other.  Activity assayed should be the activity of interest.  The degree of pharmacological response produced should be reproducible under identical conditions. e.g. Adrenaline.  Method of comparison preferably (not essentially) test therapeutic property of drug.  Individual variations must be minimized. Classification Of Bioassay There are two types of bioassay:  Quantal  Graded Quantal  All or none response in all individuals, e.g. Digitalis induced cardiac arrest in guinea pigs hypoglycemic convulsions in mice by insulin and Calculation of LD50 in mice or rats.  Not précised Employed for: Comparison of LD50 and ED50 Comparison of Threshold response Graded Bioassay  Effect is produced gradually depending on dose.  E.g. Contraction of smooth muscle preparation Accuracy Limits Of Bioassay “Accuracy improves the efficiency of bioassay for pharmaceutical biological products.” An accuracy within 20 % of true value is good. An accuracy 10 % of true within excellent. value is Dependency Of Biological Testing Procedure Biological assay depends on:  Size of the dose  Potency of drug It is not necessary that the effect produced in animals would be same for that produced in humans. But few exceptions are there this is the main draw back of bioassay. Partial List Of Offi cial Quantitative Biological Tests Drug and Dosage Test Animal (s) form Antibiotics Suitable microorganism Insulin Rabbit & Mice Digitalis & other Pigeon & Guinea Pig glycosides Vitamin A & D Rat Parathyroid drugs Dog Posterior pituitary Rat Tubocurarine Chloride Rabbit Purpose Of Bioassay 1. Compare test sample with standard substance to determine quantity of test sample required to produce an equivalent biological response to that of the standard substance. 2. Measuring pharmacological activity of new or chemically undefined substance. 3. Test method employed in measuring the response of living animals to toxicity of chemical contaminant. Certain no. of individuals of sensitive specie are exposed to specific conc. of contaminant for specific period to examine toxic effects. 4. Investigating function of endogenous mediators (an endogenous chemical agent which takes an active part in the development of the inflammatory response). 5. Determine conc. As well as potency of unknown substance. 6. Improving and maintaining standards of basic environmental conditions affecting well-being of people e.g. pollutants released by particular source. 7. To determine specificity of compounds to be used e.g. penicillin's are effective against G+ve but not on G-ve. Preparation of standard A selective representative sample of a substance for which it is to serve as a basis of the measurement is called standard preparation.  Uniform quality  Stable Types Of Standard Preparation Two type of standard preparation: 1) International standard and reference standard  USP units(highly recognized-able and authorized standard) 2) British standard and reference standard  Country want to have its own standard preparation, then used according to its own law.  For biological assay and tests, units are referred called GREAT BRITIAN.  For specific biological activity small quantity of standard preparation are used. Potency Measurement of drug activity expressed in terms of amount required to produce an effect of given intensity. EXAMPLES: Highly potent drugs like morphine, alprazolam, chlorpromazine etc produced high response at low conc. And low potent drugs like ibuprofen and acetylsalicyclic acid produced low response at low conc. Advantages  Bioassays are procedures that can determine the concentration, purity or biological activity of a substance such as vitamin, hormone, and plant growth factor.  While measuring the effect on an organism, tissue cells, enzymes or the receptor is preparing to be compared to a standard preparation.  Bioassays may be qualitative or quantitative. Qualitative bioassays are used for assessing the physical effects of a substance that may not be quantified, such as abnormal development or deformity.  Quantitative bioassays involve estimation of concentration or the potency of a substance by of the produces. measurement biological response that it  They not only help to determine the concentration but also the potency of the sample.  It is especially used to standardize drugs, vaccine, toxins or poisons, disinfectants, antiseptics etc. as these are all used over biological system in some or other form.  These also help determine the specificity of a compound to be used ex: Penicillin's are effective against Gram+ve but not on Gram-ve. Testing of infected patients sputum helps determine which anti- biotic be given for quick recovery.  Certain compounds like 12 which can't be complex Vitamin B- techniques effectively analyzed be by estimated simple by can assay Bioassays.  Sometimes the chemical composition of samples are different but have same biological activity.  For samples where no other methods of assays are available.  Biological products like toxin, anti-toxin, sera can be conveniently assayed. Measure minute (Nano mole & Pico mole) quantities of active substances can detect active substance without prior extraction or other treatment. Disadvantages  Key problem is variability in response  Large number of animal to be used  Expertise in experimental design, execution of assay & analysis of data required  Leads to expensive & time consuming  Time related changes in sensitivity of test organ.  Tachyphylactic responses (decrease response to a drug following its initial administration) of substance being assayed..

Use Quizgecko on...
Browser
Browser