Handbook of Experimental Pharmacology
  by S.K. Kulkarni
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   ISBN 978-81-85731-76-6; 4th Ed. 2012, Reprint 2022; pp.viii+279

   Delhi price: 200      Outside Delhi price: 210      Overseas price : 600

 About The Book  

   The ‘Handbook of Experimental Pharmacology’ is user-friendly for students and teachers of pharmacology all over the country. Simple and stepwise description of experimental procedure, diagrams and review exercises are strengths of the book.
   “Handbook of Experimental Pharmacology” has been thoroughly revised and several new areas of current importance to pharmacy students (clinical pharmacy, clinical research, toxicology) have been added. The new edition is expected to serve the students of pharmaceutical sciences, allied health disciplines and scientists involved in drug discovery process working in the industry and national laboratories alike. The clinical research academies may find the book very useful.
   In a global environment, drug discovery and drug development have been the challenges of the pharmaceutical industry. The economics is the main constraint for drug discovery. This is covered in a chapter on “Drug Discovery Process”. Several new experiments have been incorporated under isolated as well as intact preparations. These are definitely value addition to this popular book.


1. Introduction

2. New Drug Discovery Process

3. Animal Behavioural Models for Testing Anti-anxiety and nootropic agents

4. Experiments on Isolated Preparations
4.1 : To record a concentration response curve (CRC) of acetylcholine using isolated rectus abdominis muscle preparation of frog
4.2 : To record the effect of physostigmine (eserine) on the CRC of acetylcholine using isolated rectus abdominis muscle preparation of frog
4.3 : To record the effect of d-tubocurarine on the CRC of acetylcholine using isolated rectus abdominis muscle preparation of frog
4.4 : To record the CRC of histamine and its modification by an antihistaminic using isolated guinea pig ileum preparation
4.5 : To calculate pA2 value for atropine using acetylcholine as an agonist employing isolated guinea pig ileum preparation
4.6 : To find out the strength of the given sample of acetylcholine by interpolation bioassay using isolated rectus abdominis muscle preparation of frog
4.7 : To estimate the strength of an unknown sample of acetylcholine by four point bioassay using isolated rectus abdominis muscle of frog
4.8 : To record the CRC of 5-hydroxytryptamine using isolated rat fundus strip preparation
4.9 : To record the CRC of noradrenaline using isolated rat anococcygeus muscle preparation
4.10 : To record the concentration-response curve of acetylcholine and its modification by atropine using isolated rat colon preparation and to
         determine the dose ratio (EC50) of acetylcholine in the presence and absence of atropine
4.11 : To record CRC of oxytocin using isolated rat uterus preparation
4.12 : To record the concentration-dependent contractile responses of phenylephrine on the isolated rat vas deferens preparation

5. Experiments on Intact Preparations
5.1 : To study different routes of administration of drugs in mice
5.2 : To study the effect of hepatic microsomal enzyme induction on the duration of action of pentobarbital sodium
5.3 : To study the effect of pentobarbital on righting reflex (hypnosis) in mice
5.4 : To study the CNS depressant property effect of chlorpromazine on the locomotor activity of mice using actophotometer
5.5 : To study the apomorphine-induced compulsive behaviour (stereotypy) in mice
5.6 : To study the muscle relaxant property of diazepam in mice using rota-rod apparatus
5.7 : To study the analgesic effect of morphine in mice using the tail-flick method
5.8 : To study the analgesic effect of morphine in mice using hot plate method
5.9 : To study the analgesic effect of morphine against acetic acid-induced writhing in mice
5.10 : To study the anticonvulsant activity of phenytoin against maximal electro-shock-induced convulsions in rats
5.11 : To study the anticonvulsant property of diazepam against pentylenetetrazol-induced clonic convulsions in mice
5.12 : To study the antianxiety effect of diazepam in mice using elevated plus-maze apparatus
5.13 : To study the anxiolytic (anti-anxiety) effect of diazepam in mice using elevated zero-maze apparatus
5.14 : To study the anxiolytic (anti-anxiety) effect of diazepam in mice using mirrored-chamber apparatus
5.15 : To study the antidepressant activity of imipramine using forced swim test
5.16 : To study phenothiazine-induced catatonia in rats
5.17 : To study the amnesic (loss of memory) effect of scopolamine using passive avoidance step-down task paradigm in mice
5.18 : To study the anti-inflammatory property of indomethacin against carrageenan-induced acute paw oedema in rats
5.19 : To study the anti-inflammatory activity of dexametha- sone (steroid) using croton-oil-induced ear oedema in mice
5.20 : To study the local anti-proliferative or anti-inflammatory activity and also to study the thymolytic or adrenolytic activity of steroids
         using cotton pellet-induced granuloma in rats
5.21 : To study the local anti-asthmatic activity of dexamethasone against sephadex-induced lung oedema in rats
5.22 : To study the anti-histaminic activity of cetirizine against histamine-induced lethality in guinea pigs
5.23 : To study the effect of physostigmine and atropine on ciliary movement in frog buccal cavity
5.24 : To study the antisecretory and ulcer protective effect of cimetidine in pylorus-ligated rats
5.25 : To study the local anaesthetic property of procaine hydrochloride using Sollman method (foot withdrawal reflex of frog)
5.26 : To study the mydriatic effect of topically applied atropine on rabbit eye
5.27 : To study the inotropic and chronotropic effects of drugs on perfused frog heart
5.28 : To study the effect of drugs on normal and hypodynamic frog heart
5.29 : To study the effect of noradrenaline, acetylcholine and isoprenaline on the coronary blood flow and heart rate using rat isolated
         heart (Langendorff’s heart preparation)
5.30 : To record the effects of acetylcholine and noradrenaline on the blood pressure and electro-cardiography of an anaesthetised rat
5.31 : To demonstrate the effects of drugs on blood pressure in anaesthetized rat
5.32 : To study the anti-diabetic effect of glibenclamide against streptozotocin-induced diabetes in rats
5.33 : To study the anti-obesity effect of sibutramine against high-fat, high-sucrose diet (HFHS)-induced obesity in mice
5.26 : To determine the acute toxicity of a given drug (To calculate LD50 value)

6. Clinical Pharmacy

7. Clinical Research

8. Biostatistics

APPENDIX — Commonly used drugs, their doses and nature of action in laboratory animals