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 Essentials of
Medical
Pharmacology
 Essentials of
Medical
Pharmacology
Seventh Edition

KD TRIPATHI MD
Ex-Director-Professor and Head of Pharmacology
Maulana Azad Medical College and associated
LN and GB Pant Hospitals
New Delhi, India

®

JAYPEE BROTHERS MEDICAL PUBLISHERS (P) LTD
New Delhi London Philadelphia Panama
 ®

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© 2013, KD Tripathi

Managing Editor: M. Tripathi

Inquiries for bulk sales may be solicited at: [email protected]

All rights reserved. No part of this publication should be reproduced, stored in a retrieval system, or transmitted in any form or by any
means: electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of the author and the
publisher.

This book has been published in good faith that the material provided by author is original. Every effort is made to ensure accuracy of
material, but the publisher, printer and author will not be held responsible for any inadvertent error(s). In case of any dispute, all legal
matters to be settled under Delhi jurisdiction only.

Essentials of Medical Pharmacology
First Edition: 1985
Second Edition: 1988
Third Edition: 1994
Fourth Edition: 1999, Updated Reprint: 2001
Fifth Edition: 2003
Sixth Edition: 2008
Seventh Edition: 2013

ISBN: 978-93-5025-937-5

Printed at Ajanta Offset
 Preface

Medical pharmacology is a unique synthesis of basic pharmacology with clinical pharmacology and
pharmacotherapeutics. The subject is highly dynamic. Developments are occurring both in defining
molecular targets for drug action and finding targeted drugs, as well as in accruing credible evidence
regarding the impact of different treatment modalities on therapeutic outcomes. These efforts have
begun to crystallize into evidence based medicine and clear cut therapeutic guidelines. The present
edition endeavours to amalgamate the developments with the core content of the subject.
While the primary theme of the book outlined in the preface to the first edition is maintained,
the successive editions have become more descriptive and more comprehensive. In preparing this
edition, all chapters have been revisited and extensively updated. Latest therapeutic guidelines from
authoritative sources like WHO, British National Formulary, National Formulary of India, as well
as from eminent professional bodies have been incorporated, especially in areas like hypertension,
dyslipidaemias, acute coronary syndromes, surgical prophylaxis, tuberculosis (including MDR-TB),
MAC-infection, leprosy, HIV-AIDS, malaria, kala-azar, etc. Recent innovations have been highlighted,
notably in antidiabetic drugs, psychopharmacological agents, antiplatelet drugs, treatment of
inflammatory bowel disease, drugs affecting renin-angiotensin system, anticoagulants, antiviral (including
anti-HIV) drugs, targeted anticancer drugs, etc.
New drugs released in India have been included. Infrequently used drugs and those not available
in India are presented briefly in extract type. Important points are summarized in boxes. Use of
distinctive headings in a hierarchical order makes the text highly systematic. Representative trade
names of drugs with available dosage forms are mentioned. Due emphasis is given to diseases
prevalent in India and similar tropical countries, alongwith their current drug therapy.
The most important objective of medical pharmacology is to train medical students in therapeutic
decision making according to specific clinical problems in individual patients. A new feature ‘problem
directed study’ has been included at the end of majority of chapters to give an exercise in therapeutic
decision making for a realistic clinical scenario. The solutions provided in Appendix-1 explain how
rational decisions could be arrived at.
I thank students and other readers of this text for their valuable feedback and suggestions. All
credit for existence of this book, especially the present edition, goes to Mr. Jitendar Pal Vij, the
untiring Group Chairman and Mr. Ankit Vij (Managing Director) of M/s Jaypee Brothers. Meticulous
typesetting by Ms. Sunita Katla and proof reading by Ms. Geeta Srivastava deserves special mention.
Credit for improving the illustrations goes to Mr. Manoj Pahuja. The cooperation and editorial
management of my wife is acknowledged.

New Delhi KD Tripathi
May 2013
 Extract from
Preface to the First Edition
Pharmacology is both a basic and an applied science. It forms the backbone of rational therapeutics.
Whereas the medical student and the prescribing physician are primarily concerned with the applied
aspects, correct and skilful application of drugs is impossible without a proper understanding of
their basic pharmacology. Medical pharmacology, therefore, must include both fundamental back-
ground and clinical pharmacological information. Objective and quantitative data on the use of drugs
in man, i.e., relationship between plasma concentration and intensity of therapeutic/toxic actions,
plasma half lives, relative efficacy of different medications and incidence of adverse effects etc.,
are being obtained with the aim of optimising drug therapy. The concepts regarding mechanism
of action of drugs are changing. In addition, new drugs are being introduced in different countries
at an explosive pace. A plethora of information thus appears to be important. However, trying to
impart all this to a medical student would be counter-productive.
One of the important aims of this book is to delineate the essential information about drugs.
The opening sentence in each chapter defines the class of drugs considered. A ‘prototype’ approach
has been followed by describing the representative drug of a class followed by features by which
individual members differ from it. Leading trade names have been included. Clinically relevant
drug interactions have been mentioned. Clear-cut guidelines on selection of drugs and their clinical
status have been outlined on the basis of current information. Original, simple and self-explanatory
illustrations, tables and flow charts have been used with impunity. Selected chemical structures are
depicted. Recent developments have been incorporated. However, discretion has been used in including
only few of the multitude of new drugs not yet available in India. This is based on their likelihood
of being marketed soon. The information and views have been arranged in an orderly sequence
of distinct statements.
I hope this manageable volume book would serve to dispel awe towards pharmacology from
the minds of medical students and provide a concise and uptodate information source for prescribers
who wish to remain informed of the current concepts and developments concerning drugs.
My sincere thanks are due to my colleagues for their valuable comments and suggestions.

New Delhi KD Tripathi
1st Jan., 1985
 Contents

Section 1
General Pharmacological Principles
1. Introduction, Routes of Drug Administration 1
2. Pharmacokinetics: Membrane Transport, Absorption and Distribution of Drugs 10
3. Pharmacokinetics: Metabolism and Excretion of Drugs, Kinetics of Elimination 22
4. Pharmacodynamics: Mechanism of Drug Action; Receptor Pharmacology 37
5. Aspects of Pharmacotherapy, Clinical Pharmacology and Drug Development 61
6. Adverse Drug Effects 82

Section 2
Drugs Acting on Autonomic Nervous System
7a. Autonomic Nervous System: General Considerations 92
7b. Cholinergic System and Drugs 99
8. Anticholinergic Drugs and Drugs Acting on Autonomic Ganglia 113
9. Adrenergic System and Drugs 124
10. Antiadrenergic Drugs (Adrenergic Receptor Antagonists) and
Drugs for Glaucoma 140

Section 3
Autacoids and Related Drugs
11. Histamine and Antihistaminics 159
12. 5-Hydroxytryptamine, its Antagonists and Drug Therapy of Migraine 170
13. Prostaglandins, Leukotrienes (Eicosanoids) and Platelet Activating Factor 181
14. Nonsteroidal Antiinflammatory Drugs and Antipyretic-Analgesics 192
15. Antirheumatoid and Antigout Drugs 210
viii CONTENTS

Section 4
Respiratory System Drugs
16. Drugs for Cough and Bronchial Asthma 218

Section 5
Hormones and Related Drugs
17a. Introduction 234
17b. Anterior Pituitary Hormones 236
18. Thyroid Hormone and Thyroid Inhibitors 245
19. Insulin, Oral Hypoglycaemic Drugs and Glucagon 258
20. Corticosteroids 282
21. Androgens and Drugs for Erectile Dysfunction 296
22. Estrogens, Progestins and Contraceptives 306
23. Oxytocin and Other Drugs Acting on Uterus 329
24. Drugs Affecting Calcium Balance 335

Section 6
Drugs Acting on Peripheral (Somatic)
Nervous System
25. Skeletal Muscle Relaxants 347
26. Local Anaesthetics 360

Section 7
Drugs Acting on Central Nervous System
27. General Anaesthetics 372
28. Ethyl and Methyl Alcohols 388
29. Sedative-Hypnotics 397
30. Antiepileptic Drugs 411
31. Antiparkinsonian Drugs 425
32. Drugs Used in Mental Illness: Antipsychotic and Antimanic Drugs 435
33. Drugs Used in Mental Illness: Antidepressant and Antianxiety Drugs 454
34. Opioid Analgesics and Antagonists 469
35. CNS Stimulants and Cognition Enhancers 486
 CONTENTS ix

Section 8
Cardiovascular Drugs
36a. Cardiac Electrophysiological Considerations 492
36b. Drugs Affecting Renin-Angiotensin System and Plasma Kinins 495
37. Cardiac Glycosides and Drugs for Heart Failure 512
38. Antiarrhythmic Drugs 526
39. Antianginal and Other Anti-ischaemic Drugs 539
40. Antihypertensive Drugs 558

Section 9
Drugs Acting on Kidney
41a. Relevant Physiology of Urine Formation 575
41b. Diuretics 579
42. Antidiuretics 593

Section 10
Drugs Affecting Blood and Blood Formation
43. Haematinics and Erythropoietin 599
44. Drugs Affecting Coagulation, Bleeding and Thrombosis 613
45. Hypolipidaemic Drugs and Plasma Expanders 634

Section 11
Gastrointestinal Drugs
46. Drugs for Peptic Ulcer and Gastroesophageal Reflux Disease 647
47. Antiemetic, Prokinetic and Digestant Drugs 661
48. Drugs for Constipation and Diarrhoea 672

Section 12
Antimicrobial Drugs
49. Antimicrobial Drugs: General Considerations 688
50. Sulfonamides, Cotrimoxazole and Quinolones 704
51. Beta-Lactam Antibiotics 716
x CONTENTS

52. Tetracyclines and Chloramphenicol (Broad-Spectrum Antibiotics) 733
53. Aminoglycoside Antibiotics 743
54. Macrolide, Lincosamide, Glycopeptide and Other Antibacterial Antibiotics;
Urinary Antiseptics 752
55. Antitubercular Drugs 765
56. Antileprotic Drugs 780
57. Antifungal Drugs 787
58. Antiviral Drugs 798
59. Antimalarial Drugs 816
60. Antiamoebic and Other Antiprotozoal Drugs 836
61. Anthelmintic Drugs 849

Section 13
Chemotherapy of Neoplastic Diseases
62. Anticancer Drugs 857

Section 14
Miscellaneous Drugs
63. Immunosuppressant Drugs 878
64. Drugs Acting on Skin and Mucous Membranes 886
65. Antiseptics, Disinfectants and Ectoparasiticides 897
66. Chelating Agents 905
67. Vitamins 909
68. Vaccines and Sera 919
69. Drug Interactions 928

Appendices
Appendix 1: Solution to Problem Directed Study 935
Appendix 2: List of Essential Medicines 957
Appendix 3: Prescribing in Pregnancy 962
Appendix 4: Drugs in Breastfeeding 965
Appendix 5: Drugs and Fixed Dose Combinations Banned in India$
(updated till Dec. 2012) 969

Selected References for Further Reading 971

Index 975
 List of Abbreviations

Ang-I/II/III Angiotensin I/II/III AQ Amodiaquine
AA Amino acid AR Androgen receptor
ABC ATP-binding cassette (transporter) ARB Angiotensin receptor blocker
ABLC Amphotericin B lipid complex ARC AIDS related complex
AB Antibody ARS Anti rabies serum
AC Adenylyl cyclase ARV Antiretrovirus
ACE Angiotensin II converting enzyme AS Artesunate
ACh Acetylcholine 5-ASA 5-Amino salicyclic acid
AChE Acetylcholinesterase Asc LH Ascending limb of Loop of Henle
ACS Acute coronary syndromes AT-III Antithrombin III
ACT Artemisinin-based combination therapy ATG Antithymocyte globulin
ACTH Adrenocorticotropic hormone ATP Adenosine triphosphate
AD Alzheimer’s disease ATPase Adenosine triphosphatase
ADCC Antibody-dependent cellular cytotoxicity ATPIII Adult treatment panel III
ADE Adverse drug event ATS Antitetanic serum
ADH Antidiuretic hormone AUC Area under the plasma concentration-time
ADHD Attention deficit hyperactivity disorder curve
ADP Adenosine diphosphate A-V Atrioventricular
Adr Adrenaline AVP Arginine vasopressin
ADR Adverse drug reaction AZT Zidovudine
ADS Anti diphtheritic serum
AES Atrial extrasystole BAL British anti lewisite
AF Atrial fibrillation BAN British approved name
AFl Atrial flutter BB Borderline leprosy
AG Antigen BBB Blood-brain barrier
AGS Antigasgangrene serum BCG Bacillus Calmette Guérin
AHG Antihaemophilic globulin BCNU Bischloroethyl nitrosourea (Carmustine)
AI Aromatase inhibitor BCRP Breast cancer resistance protein
AIDS Acquired immunodeficiency syndrome BD Twice daily
AIP Aldosterone induced protein -ARK  adrenergic receptor kinase
ALA Alanine BHC Benzene hexachloride
ALS Amyotrophic lateral sclerosis BHP Benign hypertrophy of prostate
Am Amikacin BI Bacillary index
AMA Antimicrobial agent BL Borderline lepromatous leprosy
AMB Amphotericin B BMD Bone mineral density
amp Ampoule BMR Basal metabolic rate
AMP Adenosine mono phosphate BNP Brain nartriuretic peptide
AMPA -Aminohydroxy methylisoxazole BOL 2-Bromolysergic acid diethylamide
propionic acid BP Blood pressure
ANC Acid neutralizing capacity BPN Bisphosphonate
ANP Atrial natriuretic peptide BSA Body surface area
ANS Autonomic nervous system BT Borderline tuberculoid leprosy
ANUG Acute necrotizing ulcerative gingivitis BuChE Butyryl cholinesterase
AP Action potential BW Body weight
AP-1 Activator protein-1 BZD Benzodiazepine
APC Antigen presenting cell
APD Action potential duration C-10 Decamethonium
aPTT Activated partial thromboplastin time CA Catecholamine
xii ABBREVIATIONS

CAB Combined androgen blockade DA Dopamine
CaBP Calcium binding protein DA-B 12 Deoxyadenosyl cobalamin
CAD Coronary artery disease DAD Delayed after-depolarization
CAM Calmodulin DAG Diacyl glycerol
cAMP 3', 5' Cyclic adenosine monophosphate DAM Diacetyl monoxime
cap Capsule DAMP Diphenyl acetoxy-N-methyl piperidine
CAR Conditioned avoidance response methiodide
CAse Carbonic anhydrase DAT Dopamine transporter
CAT Computerized axial tomography dDAVP Desmopressin
CBF Cerebral blood flow DDS Diamino diphenyl sulfone (Dapsone)
CBG Cortisol binding globulin DDT Dichloro diphenyl trichloroethane
CBS Colloidal bismuth subcitrate DEC Diethyl carbamazine citrate
CCB Calcium channel blocker DHA Dihydroartemisinin
CCNU Chloroethyl cyclohexyl nitrosourea DHE Dihydroergotamine
(lomustine) DHFA Dihydro folic acid
CCR5 Chemokine coreceptor 5 DHFRase Dihydrofolate reductase
CD Collecting duct/Cluster of differentiation DHP Dihydropyridine
CDC Complement dependent cytotoxicity DHT Dihydrotestosterone
CFTR Cystic fibrosis transport regulator DI Diabetes insipidus
cGMP 3', 5' Cyclic guanosine monophosphate DIT Diiodotyrosine
CGRP Calcitonin gene related peptide dl Decilitre
CH Cholesterol DLE Disseminated lupus erythematosus
ChE Cholinesterase DMA Dimethoxy amphetamine
CHE Cholesterol ester DMARD Disease modifying antirheumatic drug
Chy Chylomicron DMCM Dimethoxyethyl-carbomethoxy--carboline
Chy. rem. Chylomicron remnants DMPA Depot medroxyprogesterone acetate
CHF Congestive heart failure DMPP Dimethyl phenyl piperazinium
CI Cardiac index DMT Dimethyl tryptamine/Divalent metal transporter
CINV Chemotherapy induced nausea and vomiting DNA Deoxyribose nucleic acid
CL Clearance DOC Deoxycholate
CLcr Creatinine clearance DOCA Desoxy corticosterone acetate
Cm Capreomycin DOM Dimethoxymethyl amphetamine
CMI Cell mediated immunity dopa Dihydroxyphenyl alanine
CMV Cytomegalovirus DOPAC 3, 4, Dihydroxyphenyl acetic acid
CNS Central nervous system DOSS Dioctyl sulfosuccinate
c.o. Cardiac output DOTS Directly observed treatment short course
CoEn-A Coenzyme-A DPD Dihydropyrimidine dehydrogenase
COMT Catechol-O-methyl transferase DPP-4 Dipeptidyl peptidase-4
COX Cyclooxygenase DPT Diphtheria-pertussis-tetanus triple antigen
c.p.s. Cycles per second DRC Dose-response curve
CPS Complex partial seizures DRI Direct renin inhibitor
CPZ Chlorpromazine DST Drug sensitivity testing (for TB)
CQ Chloroquine DT Distal tubule
CRABP Cellular retinoic acid binding protein DT-DA Diphtheria-tetanus double antigen
CRBP Cellular retinol binding protein d-TC d-Tubocurarine
CrD Crohn’s disease DTIC Dacarbazine
CREB Cyclic AMP response element binding protein DTPA Diethylene triamine pentaacetic acid
CRF Corticotropin releasing factor DVT Deep vein thrombosis
CS Cycloserine DYN Dynorphin
CSF Cerebrospinal fluid
CTL Cytotoxic T-lymphocytes E Ethambutol
CTZ Chemoreceptor trigger zone EACA Epsilon amino caproic acid
CV Cardiovascular EAD Early after-depolarization
CVP Central venous pressure e.c.f. Extracellular fluid
CVS Cardiovascular system ECG Electrocardiogram
CWD Cell wall deficient ECT Electroconvulsive therapy
CYP450 Cytochrome P450 ED Erectile dysfunction
 ABBREVIATIONS xiii
EDRF Endothelium dependent relaxing factor GM-CSF Granulocyte macrophage colony
EDTA Ethylene diamine tetraacetic acid stimulating factor
EEG Electroencephalogram GnRH Gonadotropin releasing hormone
EGF Epidermal growth factor GPCR G-protein coupled receptor
ELAM-1 Endothelial leukocyte adhesion molecule-1 G-6-PD Glucose-6-phosphate dehydrogenase
-END -Endorphin GPI Globus pallidus interna
ENS Enteric nervous system GST Glutathione-S-transferase
ENT Extraneuronal amine transporter GTCS Generalised tonic-clonic seizures
EPAC cAMP regulated guanine nucleotide GTN Glyceryl trinitrate
exchange factors GTP Guanosine triphosphate
EPEC Enteropathogenic E. coli
EPO Erythropoietin H Isoniazid (Isonicotinic acid hydrazide)
EPP End plate potential HAART Highly active antiretroviral therapy
EPSP Excitatory postsynaptic potential Hb Haemoglobin
ER Estrogen receptor HBV Hepatitis B virus
ERP Effective refractory period HCG Human chorionic gonadotropin
ES Extrasystole HDCV Human diploid cell vaccine
ESR Erythrocyte sedimentation rate HDL High density lipoprotein
ETEC Enterotoxigenic E. coli 5-HIAA 5-Hydroxyindole acetic acid
Eto Ethionamide HES Hydroxyethyl starch
HETE Hydroxyeicosa tetraenoic acid
FA Folic acid HIV Human immunodeficiency virus
FAD Flavin adenine dinucleotide HLA Human leucocyte antigen
5-FC 5-Flucytosine HMG-CoA Hydroxymethyl glutaryl coenzyme A
FDC Fixed dose combination HMW High molecular weight
FDT Fixed duration therapy (of leprosy) HPA axis Hypothalamo-pituitary-adrenal axis
FEV1 Forced expiratory volume in 1 second HPETE Hydroperoxy eicosatetraenoic acid
FFA Free fatty acid hr Hour
FKBP FK 506 (tacrolimus) binding protein HR Heart rate
FLAP Five-lipoxygenase activating protein HRIG Human rabies immuneglobulin
FMN Favin mononucleotide HRT Hormone replacement therapy
FP Ferroportin 5-HT 5-Hydroxytryptamine
FQ Fluoroquinolone 5-HTP 5-Hydroxytryptophan
FRase Folate reductase HVA Homovanillic acid
FSH Follicle stimulating hormone
5-FU 5-Fluorouracil I Indeterminate leprosy
IAP Islet amyloid polypeptide
G Genetic
IBD Inflammatory bowel disease
GABA Gamma amino butyric acid
IBS Irritable bowel syndrome
GAT GABA-transporter
ICAM-1 Intracellular adhesion molecule-1
GC Guanylyl cyclase
ICSH Interstitial cell stimulating hormone
GCP Good clinical practice
i.d. Intradermal (injection)
G-CSF Granulocyte colony stimulating factor
IDL Intermediate density lipoprotein
GDP Guanosine diphosphate
IFN Interferon
GERD Gastroesophageal reflux disease
IG Immuneglobulin
g.f. Glomerular filtration
IGF Insulin-like growth factor
g.f.r. Glomerular filtration rate
IL Interleukin
GH Growth hormone
ILEU Isoleucine
GHRH Growth hormone releasing hormone
i.m. Intramuscular
GHRIH Growth hormone release inhibitory hormone
INH Isonicotinic acid hydrazide
GIP Gastric inhibitory peptide/Glucose-
INR International normalized ratio
dependent insulinotropic polypeptide
g.i.t. Gastrointestinal tract i.o.t. Intraocular tension
GITS Gastrointestinal therapeutic system IP3 Inositol trisphosphate
Glc Glucocorticoid IP4 Inositol tetrakisphosphate
GLP Glucagon-like peptide IPSP Inhibitory postsynaptic potential
GLUT Glucose transporter IPV Inactivated poliomyelitis vaccine
xiv ABBREVIATIONS

IRS Insulin response substrate MQ Mefloquine
ISA Intrinsic sympathomimetic activity MRP2 Multidrug resistance associated protein-2
ISH Isolated systolic hypertension MRSA Methicillin resistant Staphylococcus aureus
IU International unit MSH Melanocyte stimulating hormone
IUCD Intrauterine contraceptive device MT Methyl transferase
i.v. Intravenous mTOR Mammalian target of rapamycin
Mtx Methotrexate
JAK Janus-kinase mV millivolt
Km Kanamycin MW Molecular weight
KTZ Ketoconazole NA Noradrenaline
NADP Nicotinamide adenine dinucleotide phosphate
LA Local anaesthetic
NADPH Reduced nicotinamide adenine dinucleotide
LCAT Lecithin cholesterol acyl transferase
phosphate
LC3-KAT Long chain 3-ketoacyl-CoA-thiolase
NAG N-acetyl glucosamine
LDL Low density lipoprotein
NAM N-acetyl muramic acid
LES Lower esophageal sphincter
NANC Nonadrenergic noncholinergic
leu-ENK Leucine enkephalin
NAPA N-acetyl procainamide
LH Luteinizing hormone
NAPQI N-acetyl-p-benzoquinoneimine
liq Liquid
NaSSA Noradrenergic and specific serotonergic
LL Lepromatous leprosy
antidepressant
LMW Low molecular weight
NAT N-acetyl transferase
LOX Lipoxygenase
NCEP National cholesterol education programme
LSD Lysergic acid diethylamide
NEE Norethindrone enanthate
LT Leukotriene
NET Norepinephrine transporter
LVF Left ventricular failure
NFAT Nuclear factor of activated T-cell
MAbs Monoclonal antibodies NFB Nuclear factor B
MAC Minimal alveolar concentration NIS Na+ (sodium)-iodide symporter
MAC Mycobacterium avium complex NLEP National leprosy eradication programme
MAO Monoamine oxidase NMDA N-methyl-D-aspartate
MAP Muscle action potential nNOS Neural nitric oxide synthase
MAPKinase Mitogen activated protein kinase NNRTI Nonnucleoside reverse transcriptase
max Maximum inhibitor
MBC Minimum bactericidal concentration NPY Neuropeptide-Y
MBL Multibacillary leprosy NR Nicotinic receptor
MCI Mild cognitive impairment N-REM Non rapid eye movement (sleep)
MDI Manic depressive illness NRTI Nucleoside reverse transcriptase inhibitor
MDMA Methylene dioxy methamphetamine NSAID Nonsteroidal antiinflammatory drug
MDR Multidrug resistant NSTEMI Non ST-segment elevation myocardial
MDT Multidrug therapy (of leprosy) infarction
met-ENK Methionine enkephalin NTS Nucleus tractus solitarius
mEq milliequivalent NVBDCP National vector borne diseases control
methyl B12 Methyl cobalamin programme
Mf Microfilariae NYHA New York Heart Association
MF Multifactorial
MHC Major histocompatibility complex OAT Organic anion transporter
MHT Methylene dioxy methamphetamine OATP Organic anion transporting polypeptide
MI Myocardial infarction OC Oral contraceptive
MIC Minimal inhibitory concentration OCD Obsessive-compulsive disorder
MIF Migration inhibitory factor OCT Organic cation transporter
min Minimum OD Once daily
MIT Monoiodo tyrosine OPG Osteoprotegerin
MLCK Myosin light chain kinase OPV Oral poliomyelitis vaccine
MMF Mycophenolate mofetil ORS Oral rehydration salt (solution)
6-MP 6-Mercaptopurine ORT Oral rehydration therapy
MPPT Methylprednisolone pulse therapy
MPTP 4-methyl-4-phenyltetrahydro pyridine PABA Paraamino benzoic acid
PAE Post antibiotic effect
 ABBREVIATIONS xv
PAF Platelet activating factor QID Four times a day
PAI-1 Plasminogen activator inhibitor-1
2-PAM Pralidoxime R Rifampin (Rifampicin)
PAN Primary afferent neurone RANK Receptor for activation of nuclear factor B
PAS Paraamino salicylic acid RANKL RANK ligand
PBI Protein bound iodine RAS Renin-angiotensin system
PBPs Penicillin binding proteins RBC Red blood cells
PBL Paucibacillary leprosy RBP Retinol binding protein
PCA Patient controlled anaesthesia RC Respiratory centre
PCEV Purified chick embryo cell vaccine (rabies) RE Reticuloendothelial
PCI Percutaneous coronary intervention REM Rapid eye movement (sleep)
PCPA Parachloro phenylalanine RGS Regulator of G-protein synthesis
PD Parkinsons’s disease RIG Rabies immuneglobulin
PDE Phosphodiesterase RIMA Reversible inhibitor of MAO-A
PE Pulmonary embolism rINN Recommended international
PEMA Phenylethyl malonamide nonproprietary name
PEP Postexposure prophylaxis RMP Resting membrane potential
PF Purkinje fibre RNA Ribonucleic acid
PFOR Pyruvate: ferredoxin oxidoreductase RNTCP Revised National Tuberculosis Control
PG Prostaglandin Programme
PGI2 Prostacyclin RP Refractory period
Pgp P-glycoprotein RTF Resistance transfer factor
PI Protease inhibitor RTKs Receptor tyrosine kinases
PIG Phosphatidyl inositol glycan RXR Retinoid X receptor
PIP2 Phosphatidyl inositol-4,5-bisphosphate RyR Ryanodine receptor
PKA Protein kinase: cAMP dependent
PKC Protein kinase C S Streptomycin
PLA Phospholipase A SA Sinoauricular (node)
PLC Phospholipase C SABE Subacute bacterial endocarditis
Pl. ph. Platelet phospholipid s.c. Subcutaneous
pMDI pressurized multidose inhaler SCC Short course chemotherapy (of tuberculosis)
PnG Penicillin G SCh Succinylcholine
POMC Pro-opio melanocortin SCID Severe combined immunodeficiency disease
PONV Postoperative nausea and vomiting SERCA Sarcoplasmic-endoplasmic reticular calcium
PP Partial pressure ATPase
PPA Phenyl propanolamine SERDs Selective estrogen receptor down regulators
PPAR Paroxysome proliferator-activated SERM Selective estrogen receptor modulator
receptor  SERT Serotonin transporter
PPH Post partum haemorrhage SGA Second generation antihistaminic
PPI Proton pump inhibitor SGLT Sodium-glucose transporter
ppm Part per million SHBG Sex hormone binding globulin
PPNG Penicillinase producing N. gonorrhoeae SIADH Syndrome of inappropriate ADH secretion
PRA Plasma renin activity s.l. Sublingual
PRF Prolactin releasing factor SLC Solute carrier
PRIH Prolactin release inhibitory hormone SLE Systemic lupus erythematosus
PSVT Paroxysmal supra-ventricular tachycardia SMON Subacute myelo-optic neuropathy
PT Proximal tubule SNP Single nucleotide polymorphism
PTCA Percutaneous transluminal coronary SN-PC Substantia nigra-pars compacta
angioplasty SN-PR Substantia nigra-pars reticularis
PTH Parathyroid hormone SNRI Serotonin and noradrenaline reuptake
PTMA Phenyl trimethyl ammonium inhibitor
PTP Post-tetanic potentiation s.o.s. as required
PTSD Post-traumatic stress disorder S/P Sulfonamide + pyrimethamine
PTZ Pentylenetetrazol SPF Sun protection factor
PUV A Psoralen-Ultraviolet A SPS Simple partial seizures
PVP Poly vinyl pyrrolidone SPRM Selective progesterone receptor modulator
PVRV Purified verocell rabies vaccine SR Sustained release
xvi ABBREVIATIONS
SRS-A Slow reacting substance of anaphylaxis TR Thyroid hormone receptor
SSG Sodium stibogluconate TRE Thyroid hormone response element
SSI Surgical site infection TRH Thyrotropin releasing hormone
SSRIs Selective serotonin reuptake inhibitors TSH Thyroid stimulating hormone
STAT Signal transducer and activator of TT Tuberculoid leprosy
transcription TTS Transdermal therapeutic system
STEMI ST-segment elevation myocardial infarction TX Thromboxane
StK Streptokinase
U Unit
SU Sulfonylurea
UA Unstable angina
SULT Sulfotransferase
UDP Uridine diphosphate
SUR Sulfonyl urea receptor
UFH Unfractionated heparin
susp Suspension
UGDP University group diabetic programme
SWD Shift work disorder
UGT UDP-glucuronosyl transferase
SWS Slow wave sleep
USAN United States adopted name
syr Syrup
UT Urea transporter
UTI Urinary tract infection
t½ Half life
T3 Triiodothyronine v Volt
T4 Thyroxine V Volume of distribution
tab Tablet VAL Valine
TAB Typhoid, paratyphoid A and B vaccine VDR Vit D receptor
TB Tubercle bacilli VES Ventricular extrasystole
TBG Thyroxine binding globulin VF Ventricular fibrillation
TCII Transcobalamin II VIP Vasoactive intestinal peptide
TCAs Tricyclic antidepressants Vit Vitamin
TCID50 Tissue culture infectious dose 50% VKOR Vitamin K epoxide reductase
TDM Therapeutic drug monitoring VL Visceral leishmaniasis
TDS Three times a day VLDL Very low density lipoprotein
Tf Transferrin VMA Vanillyl mandelic acid
TG Triglyceride VMAT Vesicular monoamine transporter
6-TG 6-Thioguanine VRE Vancomycin resistant enterococci
TGF- Transforming growth factor  VRSA Vancomycin resistant Staphylococcus aureus
THC Tetrahydrocannabinol VRUT Vasopressin regulated urea transporter
THFA Tetrahydro folic acid VT Ventricular tachycardia
Thz Thiacetazone vWF von Willebrand factor
Thio TEPA Triethylene thiophosphoramide
THR Threonine WBC White blood cells
TIAs Transient ischaemic attacks WCVs Water channel containing vesicles
TNF- Tumour necrosis factor  WHO World Health Organization
TOD Target organ damage WPW Wolff-Parkinson-White syndrome
TOF Train of four
t-PA Tissue plasminogen activator XDR-TB Extensively drug resistant-TB
TPMT Thiopurine methyl transferase
Z Pyrazinamide
t.p.r. Total peripheral resistance
ZE (syndrome) Zollinger-Ellison (syndrome)
 SECTION 1
GENERAL PHARMACOLOGICAL PRINCIPLES

Chapter 1 Introduction, Routes of
Drug Administration

INTRODUCTION a vast variety of highly potent and selective new
drugs have been developed. The mechanism of
Pharmacology
action including molecular target of many drugs
Pharmacology is the science of drugs (Greek:
has been elucidated. This has been possible due
Pharmacon—drug; logos—discourse in). In a
to prolific growth of pharmacology which forms
broad sense, it deals with interaction of exo-
the backbone of rational therapeutics.
genously administered chemical molecules with The two main divisions of pharmacology are
living systems, or any single chemical substance pharmacodynamics and pharmacokinetics.
which can produce a biological response is a
‘drug’. It encompasses all aspects of knowledge Pharmacodynamics (Greek: dynamis—power)
about drugs, but most importantly those that are —What the drug does to the body.
relevant to effective and safe use for medicinal This includes physiological and biochemical
purposes. effects of drugs and their mechanism of action
For thousands of years most drugs were crude at organ system/subcellular/macromolecular
natural products of unknown composition and levels, e.g.—Adrenaline → interaction with adre-
limited efficacy. Only the overt effects of these noceptors → G-protein mediated stimulation of
substances on the body were rather imprecisely cell membrane bound adenylyl cyclase → increa-
known, but how the same were produced was sed intracellular cyclic 3´,5´AMP → cardiac stimu-
entirely unknown. Pharmacology as an experi- lation, hepatic glycogenolysis and hyperglycaemia,
etc.
mental science was ushered by Rudolf Buchheim
who founded the first institute of pharmacology Pharmacokinetics (Greek: Kinesis—move-
in 1847 in Germany. In the later part of the 19th ment)—What the body does to the drug.
century, Oswald Schmiedeberg, regarded as the This refers to movement of the drug in and altera-
‘father of pharmacology’, together with his many tion of the drug by the body; includes absorption,
disciples like J Langley, T Frazer, P Ehrlich, AJ distribution, binding/localization/storage, bio-
Clark, JJ Abel propounded some of the fundamen- transformation and excretion of the drug, e.g.
tal concepts in pharmacology. Since then drugs paracetamol is rapidly and almost completely
have been purified, chemically characterized and absorbed orally attaining peak blood levels at
2 GENERAL PHARMACOLOGY

30–60 min; 25% bound to plasma proteins, widely Chemotherapy It is the treatment of systemic
and almost uniformly distributed in the body infection/malignancy with specific drugs that have
(volume of distribution ~ 1L/kg); extensively selective toxicity for the infecting organism/
SECTION 1

metabolized in the liver, primarily by glucuronide malignant cell with no/minimal effects on the host
and sulfate conjugation into inactive metabolites cells.
which are excreted in urine; has a plasma half
life (t½) of 2–3 hours and a clearance value of Drugs in general, can thus be divided into:
5 ml/kg/min. Pharmacodynamic agents These are designed
to have pharmacodynamic effects in the recipient.
Drug (French: Drogue—a dry herb) It is the
single active chemical entity present in a medicine Chemotherapeutic agents These are designed
that is used for diagnosis, prevention, treatment/ to inhibit/kill invading parasite/malignant cell and
cure of a disease. This disease oriented definition have no/minimal pharmacodynamic effects in the
of drug does not include contraceptives or use recipient.
of drugs for improvement of health. The WHO
Pharmacy It is the art and science of compoun-
(1966) has given a more comprehensive
definition—“Drug is any substance or product ding and dispensing drugs or preparing suitable
that is used or is intended to be used to modify dosage forms for administration of drugs to man
or explore physiological systems or pathological or animals. It includes collection, identification,
states for the benefit of the recipient.” purification, isolation, synthesis, standardization
and quality control of medicinal substances. The
The term ‘drugs’ is being also used to mean
large scale manufacture of drugs is called Phar-
addictive/abused/illicit substances. However, this
maceutics. It is primarily a technological science.
restricted and derogatory sense usage is unfor-
tunate degradation of a time honoured term, and Toxicology It is the study of poisonous effect
‘drug’ should refer to a substance that has some of drugs and other chemicals (household, environ-
therapeutic/diagnostic application. mental pollutant, industrial, agricultural, homi-
Some other important aspects of pharmacology cidal) with emphasis on detection, prevention and
are: treatment of poisonings. It also includes the study
of adverse effects of drugs, since the same
Pharmacotherapeutics It is the application substance can be a drug or a poison, depending
of pharmacological information together with on the dose.
knowledge of the disease for its prevention,
mitigation or cure. Selection of the most appro-
priate drug, dosage and duration of treatment DRUG NOMENCLATURE
taking into account the specific features of a A drug generally has three categories of names:
patient are a part of pharmacotherapeutics.
(a) Chemical name It describes the substance
Clinical pharmacology It is the scientific chemically, e.g. 1-(Isopropylamino)-3-(1-napht-
study of drugs (both old and new) in man. It hyloxy) propan-2-ol for propranolol. This is
includes pharmacodynamic and pharmacokinetic cumbersome and not suitable for use in
investigation in healthy volunteers and in patients; prescribing. A code name, e.g. RO 15-1788 (later
evaluation of efficacy and safety of drugs and named flumazenil) may be assigned by the
comparative trials with other forms of treatment;
manufacturer for convenience and simplicity
surveillance of patterns of drug use, adverse
before an approved name is coined.
effects, etc.
The aim of clinical pharmacology is to (b) Non-proprietary name It is the name accep-
generate data for optimum use of drugs and the ted by a competent scientific body/authority, e.g.
practice of ‘evidence based medicine’. the United States Adopted Name (USAN) by the
 INTRODUCTION, ROUTES OF DRUG ADMINISTRATION 3

USAN council. Similarly, there is the British However, when it is important to ensure
Approved name (BAN) of a drug. The non- consistency of the product in terms of quality
proprietary names of newer drugs are kept uniform and bioavailability, etc. and especially when

CHAPTER 1
by an agreement to use the Recommended official control over quality of manufactured
International Nonproprietary Name (rINN) in all products is not rigorous, it is better to prescribe
member countries of the WHO. The BAN of older by the dependable brand name.
drugs as well has now been modified to be
commensurate with rINN. However, many older DRUG COMPENDIA
drugs still have more than one non-proprietary
These are compilations of information on drugs
names, e.g. ‘meperidine’ and ‘pethidine’ or
in the form of monographs; without going into
‘lidocaine’ and ‘lignocaine’ for the same drugs.
the theoretical concepts, mechanisms of action
Until the drug is included in a pharmacopoeia, the
and other aspects which help in understanding
nonproprietary name may also be called the
the subject. Pharmacopoeias and Formularies are
approved name. After its appearance in the official
broughtout by the Government in a country, hold
publication, it becomes the official name.
legal status and are called official compendia.
In common parlance, the term generic name
In addition, some non-official compendia are
is used in place of nonproprietary name. Etymolo-
published by professional bodies, which are
gically this is incorrect: ‘generic’ should be applied
supplementary and dependable sources of
to the chemical or pharmacological group (or
information about drugs.
genus) of the compound, e.g. phenothiazines,
tricyclic antidepressants, aminoglycoside antibio- Pharmacopoeias They contain description of
tics, etc. However, this misnomer is widely chemical structure, molecular weight, physical and
accepted and used even in official parlance. chemical characteristics, solubility, identification
and assay methods, standards of purity, storage
(c) Proprietary (Brand) name It is the name
conditions and dosage forms of officially approved
assigned by the manufacturer(s) and is his property
drugs in a country. They are useful to drug
or trade mark. One drug may have multiple pro-
manufacturers and regulatory authorities, but not
prietary names, e.g. ALTOL, ATCARDIL, ATECOR,
to doctors, most of whom never see a
ATEN, BETACARD, LONOL, TENOLOL, TENORMIN for
pharmacopoeia. Examples are Indian (IP), British
atenolol from different manufacturers. Brand
(BP), European (Eur P), United States (USP)
names are designed to be catchy, short, easy to
pharmacopoeias.
remember and often suggestive, e.g. LOPRESOR
suggesting drug for lowering blood pressure. Brand Formularies Generally produced in easily
names generally differ in different countries, e.g. carried booklet form, they list indications, dose,
timolol maleate eye drops are marketed as TIMOPTIC dosage forms, contraindications, precautions,
in USA but as GLUCOMOL in India. Even the adverse effects and storage of selected drugs that
same manufacturer may market the same drug are available for medicinal use in a country. Drugs
under different brand names in different countries. are categorized by their therapeutic class. Some
In addition, combined formulations have their own rational fixed-dose drug combinations are
multiple brand names. This is responsible for much included. A brief commentary on the drug class
confusion in drug nomenclature. and clinical conditions in which they are used
There are many arguments for using the generally preceeds specifics of individual drugs.
nonproprietary name in prescribing: uniformity, Brief guidelines for treatment of selected
convenience, economy and better comprehension conditions are provided. While British National
(propranolol, sotalol, timolol, pindolol, Formulary (BNF) also lists brand names
metoprolol, acebutolol, atenolol are all β blockers, with costs, the National Formulary of India (NFI)
but their brand names have no such similarity). does not include these. Most formularies have
4 GENERAL PHARMACOLOGY

informative appendices as well. Formularies can (b) It should be available in a form in which quality, including
be considerably helpful to prescribers. bioavailability, and stability on storage can be assured.
(c) Its choice should depend upon pattern of prevalent
Martindale: The Complete Drug Reference diseases; availability of facilities and trained personnel;
SECTION 1

financial resources; genetic, demographic and environmental
(Extrapharmacopoeia) Published every 2–3 factors.
years by the Royal Pharmaceutical Society of Great (d) In case of two or more similar medicines, choice should
Britain, this non-official compendium is an be made on the basis of their relative efficacy, safety, quality,
exhaustive and updated compilation of unbiased price and availability. Cost-benefit ratio should be a major
consideration.
information on medicines used/registered all over (e) Choice may also be influenced by comparative pharma-
the world. It includes new launches and contains cokinetic properties and local facilities for manufacture and
pharmaceutical, pharmacological as well as storage.
therapeutic information on drugs, which can serve (f) Most essential medicines should be single compounds.
Fixed ratio combination products should be included only
as a reliable reference book. when dosage of each ingradient meets the requirements of
Physicians Desk Reference (PDR) and Drug: a defined population group, and when the combination has
a proven advantage in therapeutic effect, safety, adherence
Facts and Comparisons (both from USA), etc. or in decreasing the emergence of drug resistance.
are other useful non-official compendia. (g) Selection of essential medicines should be a continuous
process which should take into account the changing priorities
for public health action, epidemiological conditions as well
ESSENTIAL MEDICINES (DRUGS) as availability of better medicines/formulations and progress
CONCEPT in pharmacological knowledge.
(h) Recently, it has been emphasized to select essential
The WHO has defined Essential Medicines medicines based on rationally developed treatment guidelines.
(drugs) as “those that satisfy the priority healthcare To guide the member countries, the WHO
needs of the population. They are selected with brought out its first Model List of Essential Drugs
due regard to public health relevance, evidence along with their dosage forms and strengths in
on efficacy and safety, and comparative cost 1977 which could be adopted after suitable
effectiveness. Essential medicines are intended modifications according to local needs. This has
to be available within the context of functioning been revised from time to time and the current
health systems at all times and in adequate is the 17th list (2011). India produced its National
amounts, in appropriate dosage forms, with Essential Drugs List in 1996 and has revised
assured quality and adequate information, and at it in 2011 with the title “National List of Essential
a price the individual and the community can Medicines”. This includes 348 medicines which
afford. are considered to be adequate to meet the priority
It has been realized that only a handful of healthcare needs of the general population of the
medicines out of the multitude available can meet country. An alphabetical compilation of the WHO
the health care needs of majority of the people as well as National essential medicines is presented
in any country, and that many well tested and as Appendix-2.
cheaper medicines are equally (or more) Adoption of the essential medicines list for
efficacious and safe as their newer more expensive procurement and supply of medicines, especially
congeners. For optimum utilization of resources, in the public sector healthcare system, has resulted
in improved availability of medicines, cost saving
governments (especially in developing countries)
and more rational use of drugs.
should concentrate on these medicines by
identifying them as Essential medicines. The Prescription and non-prescription drugs
WHO has laid down criteria to guide selection As per drug rules, majority of drugs including
of an essential medicine. all antibiotics must be sold in retail only against
(a) Adequate data on its efficacy and safety should be available a prescription issued to a patient by a registered
from clinical studies. medical practitioner. These are called ‘prescription
 INTRODUCTION, ROUTES OF DRUG ADMINISTRATION 5

drugs’, and in India they have been placed in LOCAL ROUTES
the schedule H of the Drugs and Cosmetic Rules These routes can only be used for localized lesions
(1945) as amended from time to time. However, at accessible sites and for drugs whose systemic

CHAPTER 1
few drugs like simple analgesics (paracetamol absorption from these sites is minimal or absent.
aspirin), antacids, laxatives (senna, lactulose),
Thus, high concentrations are attained at the
vitamins, ferrous salts, etc. are considered relatively
desired site without exposing the rest of the body.
harmless, and can be procured without a
Systemic side effects or toxicity are consequently
prescription. These are ‘non-prescription’ or ‘over-
absent or minimal. For drugs (in suitable dosage
the-counter’ (OTC) drugs; can be sold even by
forms) that are absorbed from these sites/routes,
grocery stores.
the same can serve as systemic route of adminis-
Orphan Drugs These are drugs or biological products tration, e.g. glyceryl trinitrate (GTN) applied on
for diagnosis/treatment/ prevention of a rare disease or the skin as ointment or transdermal patch. The
condition, or a more common disease (endemic only in
resource poor countries) for which there is no reasonable
local routes are:
expectation that the cost of developing and marketing it will 1. Topical This refers to external application
be recovered from the sales of that drug. The list includes of the drug to the surface for localized action. It
sodium nitrite, fomepizole, liposomal amphotericin B,
miltefosine, rifabutin, succimer, somatropin, digoxin immune
is often more convenient as well as encouraging
Fab (digoxin antibody), liothyronine (T3) and many more. to the patient. Drugs can be efficiently delivered
Though these drugs may be life saving for some patients, to the localized lesions on skin, oropharyngeal/
they are commercially difficult to obtain as a medicinal nasal mucosa, eyes, ear canal, anal canal or vagina
product. Governments in developed countries offer tax benefits
and other incentives to pharmaceutical companies for
in the form of lotion, ointment, cream, powder,
developing and marketing orphan drugs (e.g. Orphan Drug rinse, paints, drops, spray, lozengens, suppositories
Act in USA). or pesseries. Nonabsorbable drugs given orally for
action on g.i. mucosa (sucralfate, vancomycin),
ROUTES OF DRUG ADMINISTRATION inhalation of drugs for action on bronchi
(salbutamol, cromolyn sodium) and irrigating
Most drugs can be administered by a variety of
solutions/jellys (povidone iodine, lidocaine)
routes. The choice of appropriate route in a given
applied to urethra are other forms of topical
situation depends both on drug as well as patient medication.
related factors. Mostly common sense consi-
2. Deeper tissues Certain deep areas can be
derations, feasibility and convenience dictate the
approached by using a syringe and needle, but
route to be used.
the drug should be in such a form that systemic
Routes can be broadly divided into those for
absorption is slow, e.g. intra-articular injection
(a) Local action and (b) Systemic action. (hydrocortisone acetate in knee joint), infiltration
Factors governing choice of route
around a nerve or intrathecal injection (lidocaine),
retrobulbar injection (hydrocortisone acetate
1. Physical and chemical properties of the drug (solid/ behind the eyeball).
liquid/gas; solubility, stability, pH, irritancy).
2. Site of desired action—localized and approach- 3. Arterial supply Close intra-arterial injec-
able or generalized and not approachable. tion is used for contrast media in angiography;
3. Rate and extent of absorption of the drug from anticancer drugs can be infused in femoral or
different routes. brachial artery to localise the effect for limb
4. Effect of digestive juices and first pass metabolism
on the drug. malignancies.
5. Rapidity with which the response is desired (routine
treatment or emergency). SYSTEMIC ROUTES
6. Accuracy of dosage required (i.v. and inhalational
can provide fine tuning). The drug administered through systemic routes
7. Condition of the patient (unconscious, vomiting).
is intended to be absorbed into the blood stream
6 GENERAL PHARMACOLOGY

and distributed all over, including the site of action, inconvenient and embarrassing; absorption is
through circulation (see Fig. 1.1). slower, irregular and often unpredictable, though
diazepam solution and paracetamol suppository
1. Oral
SECTION 1

are rapidly and dependably absorbed from the
Oral ingestion is the oldest and commonest mode rectum in children. Drug absorbed into external
of drug administration. It is safer, more convenient, haemorrhoidal veins (about 50%) bypasses liver,
does not need assistance, noninvasive, often but not that absorbed into internal haemorrhoidal
painless, the medicament need not be sterile and veins. Rectal inflammation can result from irritant
so is cheaper. Both solid dosage forms (powders, drugs. Diazepam, indomethacin, paracetamol,
tablets, capsules, spansules, dragees, moulded ergotamine and few other drugs are some times
tablets, gastrointestinal therapeutic systems— given rectally.
GITs) and liquid dosage forms (elixirs, syrups,
emulsions, mixtures) can be given orally. 4. Cutaneous
Highly lipid soluble drugs can be applied over
Limitations of oral route of administration
the skin for slow and prolonged absorption. The
Action of drugs is slower and thus not suitable for liver is also bypassed. The drug can be incorpo-
emergencies.
rated in an ointment and applied over specified
Unpalatable drugs (chloramphenicol) are difficult to
administer; drug may be filled in capsules to area of skin. Absorption of the drug can be
circumvent this. enhanced by rubbing the preparation, by using
May cause nausea and vomiting (emetine). an oily base and by an occlusive dressing.
Cannot be used for uncooperative/unconscious/
vomiting patient. Transdermal therapeutic systems (TTS)
Absorption of drugs may be variable and erratic; These are devices in the form of adhesive patches
certain drugs are not absorbed (streptomycin).
Others are destroyed by digestive juices (penicillin G, of various shapes and sizes (5–20 cm2) which
insulin) or in liver (GTN, testosterone, lidocaine). deliver the contained drug at a constant rate into
systemic circulation via the stratum corneum (Fig.
2. Sublingual (s.l.) or buccal 1.2). The drug (in solution or bound to a polymer)
The tablet or pellet containing the drug is placed is held in a reservoir between an occlusive backing
under the tongue or crushed in the mouth and film and a rate controlling micropore membrane,
spread over the buccal mucosa. Only lipid soluble the under surface of which is smeared with an
and non-irritating drugs can be so administered. adhesive impregnated with priming dose of the
Absorption is relatively rapid—action can be pro- drug. The adhesive layer is protected by another
duced in minutes. Though it is somewhat incon- film that is to be peeled off just before applica-
venient, one can spit the drug after the desired tion. The drug is delivered at the skin surface
effect has been obtained. The chief advantage by diffusion for percutaneous absorption into
is that liver is bypassed and drugs with high first circulation. The micropore membrane is such that
pass metabolism can be absorbed directly into rate of drug delivery to skin surface is less than
systemic circulation. Drugs given sublingually the slowest rate of absorption from the skin. This
are—GTN, buprenorphine, desamino-oxytocin. offsets any variation in the rate of absorption
according to the properties of different sites. As
3. Rectal such, the drug is delivered at a constant and
Certain irritant and unpleasant drugs can be put predictable rate irrespective of site of application.
into rectum as suppositories or retention enema Usually chest, abdomen, upper arm, lower back,
for systemic effect. This route can also be buttock or mastoid region are utilized.
used when the patient is having recurrent vomiting Transdermal patches of GTN, fentanyl,
or is unconscious. However, it is rather nicotine and estradiol are available in India, while
 INTRODUCTION, ROUTES OF DRUG ADMINISTRATION 7

CHAPTER 1

Fig. 1.1: Vascular pathway of drugs absorbed from various systemic routes of administration and sites
of first pass metabolism
Note: Total drug absorbed orally is subjected to first pass metabolism in intestinal wall and liver, while
approximately half of that absorbed from rectum passes through liver. Drug entering from any systemic
route is exposed to first pass metabolism in lungs, but its extent is minor for most drugs.
8 GENERAL PHARMACOLOGY

drugs like insulin, as well as to bypass the blood-
brain barrier.

7. Parenteral
SECTION 1

(Par—beyond, enteral—intestinal)
Conventionally, parenteral refers to administration
by injection which takes the drug directly into
the tissue fluid or blood without having to cross
the enteral mucosa. The limitations of oral
administration are circumvented.
Fig. 1.2: Illustration of a transdermal drug delivery system
Drug action is faster and surer (valuable in
emergencies). Gastric irritation and vomiting are
those of isosorbide dinitrate, hyoscine, and not provoked. Parenteral routes can be employed
clonidine are marketed elsewhere. For different even in unconscious, uncooperative or vomiting
drugs, TTS have been designed to last for patient. There are no chances of interference by
1–3 days. Though more expensive, they provide food or digestive juices. Liver is bypassed.
smooth plasma concentrations of the drug without Disadvantages of parenteral routes are—the
fluctuations; minimize interindividual variations preparation has to be sterilized and is costlier,
(drug is subjected to little first pass metabolism) the technique is invasive and painful, assistance
and side effects. They are also more convenient— of another person is mostly needed (though self
many patients prefer transdermal patches to oral injection is possible, e.g. insulin by diabetics),
tablets of the same drug; patient compliance is there are chances of local tissue injury and, in
better. Local irritation and erythema occurs in general, parenteral route is more risky than oral.
some, but is generally mild; can be minimized The important parenteral routes are:
by changing the site of application each time by
rotation. Discontinuation has been necessary in (i) Subcutaneous (s.c.) The drug is deposited
2–7% cases. in the loose subcutaneous tissue which is richly
supplied by nerves (irritant drugs cannot be
5. Inhalation injected) but is less vascular (absorption is slower
Volatile liquids and gases are given by inhalation than intramuscular). Only small volumes can be
for systemic action, e.g. general anaesthetics. injected s.c. Self-injection is possible because deep
Absorption takes place from the vast surface of penetration is not needed. This route should be
alveoli—action is very rapid. When administra- avoided in shock patients who are vasocons-
tion is discontinued the drug diffuses back and tricted—absorption will be delayed. Repository
is rapidly eliminated in expired air. Thus, control- (depot) preparations that are aqueous suspensions
led administration is possible with moment to can be injected for prolonged action. Some special
moment adjustment. Irritant vapours (ether) cause forms of this route are:
inflammation of respiratory tract and increase
(a) Dermojet In this method needle is not used;
secretion.
a high velocity jet of drug solution is projected
6. Nasal from a microfine orifice using a gun like imple-
The mucous membrane of the nose can readily ment. The solution passes through the superficial
absorb many drugs; digestive juices and liver are layers and gets deposited in the subcutaneous
bypassed. However, only certain drugs like GnRH tissue. It is essentially painless and suited for mass
agonists and desmopressin applied as a spray or inoculations.
nebulized solution have been used by this route. (b) Pellet implantation The drug in the form
This route is being tried for some other peptide of a solid pellet is introduced with a trochar and
 INTRODUCTION, ROUTES OF DRUG ADMINISTRATION 9

cannula. This provides sustained release of the drug reaches directly into the blood stream and
drug over weeks and months, e.g. DOCA, effects are produced immediately (great value in
testosterone. emergency). The intima of veins is insensitive

CHAPTER 1
(c) Sialistic (nonbiodegradable) and bio- and drug gets diluted with blood, therefore, even
degradable implants Crystalline drug is highly irritant drugs can be injected i.v., but hazards
packed in tubes or capsules made of suitable are—thrombophlebitis of the injected vein and
materials and implanted under the skin. Slow and necrosis of adjoining tissues if extravasation occurs.
uniform leaching of the drug occurs over months These complications can be minimized by diluting
providing constant blood levels. The nonbio- the drug or injecting it into a running i.v. line.
degradable implant has to be removed later on Only aqueous solutions (not suspensions, because
but not the biodegradable one. This has been tried drug particles can cause embolism) are to be
for hormones and contraceptives (e.g. NORPLANT). injected i.v. and there are no depot preparations
for this route. Chances of causing air embolism
(ii) Intramuscular (i.m.) The drug is injected
is another risk. The dose of the drug required
in one of the large skeletal muscles—deltoid,
is smallest (bioavailability is 100%) and even large
triceps, gluteus maximus, rectus femoris, etc.
volumes can be infused. One big advantage with
Muscle is less richly supplied with sensory nerves
(mild irritants can be injected) and is more this route is—in case response is accurately measur-
vascular (absorption of drugs in aqueous solution able (e.g. BP) and the drug short acting (e.g.
is faster). It is less painful, but self injection is sodium nitroprusside), titration of the dose with
often impracticable because deep penetration is the response is possible. However, this is the most
needed. Depot preparations (oily solutions, risky route—vital organs like heart, brain, etc.
aqueous suspensions) can be injected by this route. get exposed to high concentrations of the drug.
Intramuscular injections should be avoided in (iv) Intradermal injection The drug is
anticoagulant treated patients, because it can injected into the skin raising a bleb (e.g. BCG
produce local haematoma. vaccine, sensitivity testing) or scarring/multiple
(iii) Intravenous (i.v.) The drug is injected puncture of the epidermis through a drop of the
as a bolus (Greek: bolos–lump) or infused slowly drug is done. This route is employed for specific
over hours in one of the superficial veins. The purposes only.

) PROBLEM DIRECTED STUDY
1.1. A 5-year-old child is brought to the hospital with the complaint of fever, cough, breathlessness
and chest pain. On examination he is found to be dull, but irritable with fast pulse (116/min),
rapid breathing (RR 50/min) and indrawing of lower chest during inspiration, wheezing, crepitations
and mild dehydration. Body temperature is 40°C (104°F). The paediatrician makes a provisional
diagnosis of acute pneumonia and orders relevant haematological as well as bacteriological investig-
ations. He decides to institute antibiotic therapy.
(a) In case he selects an antibiotic which can be given orally as well as by i.m. or i.v. injection,
which route of administration will be most appropriate in this case?
(b) Should the paediatrician administer the antibiotic straight away or should he wait for the
laboratory reports?
(see Appendix-1 for solution)
 Chapter 2 Pharmacokinetics: Membrane
Transport, Absorption and
Distribution of Drugs

Pharmacokinetics is the quantitative study of drug group of cholesterol) of these are oriented at the
movement in, through and out of the body. The two surfaces and the nonpolar hydrocarbon chains
overall scheme of pharmacokinetic processes is are embedded in the matrix to form a continuous
depicted in Fig. 2.1. The intensity of response sheet. This imparts high electrical resistance
is related to concentration of the drug at the site and relative impermeability to the membrane.
of action, which in turn is dependent on its Extrinsic and intrinsic protein molecules are
pharmacokinetic properties. Pharmacokinetic adsorbed on the lipid bilayer (Fig. 2.2). Glyco-
considerations, therefore, determine the route(s) proteins or glycolipids are formed on the surface
of administration, dose, latency of onset, time by attachment to polymeric sugars, aminosugars
of peak action, duration of action and frequency or sialic acids. The specific lipid and protein
of administration of a drug. composition of different membranes differs
All pharmacokinetic processes involve trans- according to the cell or the organelle type. The
port of the drug across biological membranes. proteins are able to freely float through the
membrane: associate and organize or vice versa.
Biological membrane This is a bilayer (about Some of the intrinsic ones, which extend through
100 Å thick) of phospholipid and cholesterol the full thickness of the membrane, surround fine
molecules, the polar groups (glyceryl phosphate aqueous pores. Paracellular spaces or channels
attached to ethanolamine/choline or hydroxyl also exist between certain epithelial/endothelial

Fig. 2.1: Schematic depiction of pharmacokinetic processes
 MEMBRANE TRANSPORT, ABSORPTION AND DISTRIBUTION OF DRUGS 11

CHAPTER 2
Fig. 2.2: Illustration of the organisation of biological
membrane

cells. Other adsorbed proteins have enzymatic, Fig. 2.3: Illustration of passive diffusion and filtration
across the lipoidal biological membrane with aqueous
carrier, receptor or signal transduction properties. pores
Lipid molecules also are capable of lateral move-
ment. Thus, biological membranes are highly
ionized at acidic as well as alkaline pH). The
dynamic structures.
ionization of a weak acid HA is given by the
Drugs are transported across the membranes by: equation:
(a) Passive diffusion and filtration
[A¯ ]
(b) Specialized transport pH = pKa + log —–—...(1)
[HA]
Passive diffusion
The drug diffuses across the membrane in the pKa is the negative logarithm of acidic disso-
direction of its concentration gradient, the ciation constant of the weak electrolyte. If the
membrane playing no active role in the process. concentration of ionized drug [A¯ ] is equal to
This is the most important mechanism for majority concentration of unionized drug [HA], then
of drugs; drugs are foreign substances [A¯ ]
(xenobiotics), and specialized mechanisms are —–— = 1
[HA]
developed by the body primarily for normal
metabolites. since log 1 is 0, under this condition
Lipid soluble drugs diffuse by dissolving in pH = pKa...(2)
the lipoidal matrix of the membrane (Fig. 2.3),
Thus, pKa is numerically equal to the pH at which
the rate of transport being proportional to the
the drug is 50% ionized.
lipid : water partition coefficient of the drug. A
more lipid-soluble drug attains higher concentra- If pH is increased by 1 scale, then—
tion in the membrane and diffuses quickly. Also, log [A¯ ]/[HA] = 1 or [A¯ ]/[HA] = 10
greater the difference in the concentration of the
drug on the two sides of the membrane, faster Similarly, if pH is reduced by 1 scale, then—
is its diffusion. [A¯ ]/[HA] = 1/10
Influence of pH Most drugs are weak electro- Thus, weakly acidic drugs, which form salts
lytes, i.e. their ionization is pH dependent (contrast with cations, e.g. s