INTRODUCTION TO PHARMACOLOGY MUSTAFEEZ BABAR
Feb 22, 2016
INTRODUCTION TO PHARMACOLOGY
MUSTAFEEZ BABAR
COURSE CONTENT General Principles of Pharmacology Basic Pharmacology Clinical Pharmacology-(Selected Organ
systems) Molecular Basis of Pharmacology Pharmacological Parameters and
Calculations for drug candidate selection
ASSESSMENT CRITERIA Sessionals = (15+5)*2 Assignment/ presentation = 10 Terminal = 50
THE MAIN FOCUS OF THE COURSE WOULD BE TO HELP YOU PEOPLE GET THE BASIC SKILLS FOR CONVERTING A
CHEMICAL INTO A DRUG I.E., BY TRAINING YOU TO IDENTIFY DRUG TARGETS, POTENTIAL GROUPS OF DRUGS THAT CAN BE USED, THE
PHARMACOLOGICAL AND PHARMACEUTICAL PARAMETERS AND THE DEVELOPMENT OF APPROPRIATE
DOSAGE FORM.
PRINCIPLES OF PHARMACOLOGY
“Poisons in small doses are the best medicines; and useful medicines in too
large doses are poisonous” (William Withering, “discoverer” of digitalis, 1789)
Paul Insel, M.D. (UCSD) in Molecular Basis of Drug Action and Disease
Therapy
Lecture OutlineThis lecture will answer the following
questions:1. What is pharmacology?
2. Why are drugs important for human health and scientific research?
3. How do drug efficacy and toxicity contribute to therapeutic success, therapeutic failures and medical errors?
4. What is the “therapeutic partnership”?
5. What are some major principles of pharmacotherapy?
6. Where does one obtain reliable information about drugs?
7. Can drug therapy be individualized/personalized?
8. What new efforts in pharmacotherapy and pharmacology are on the horizon?
9. How are drugs developed and approved?2
Pharmacology (from pharmakon, the Greek word for drug) is the study of drugs (substances that produce changes in the body) and the characterization of their: Structure, targets, and mechanisms of action Distribution in and handling by the body Effects on the body, including desirable responses (efficacy)
and undesirable side-effects (toxicity) Drugs include caffeine, nicotine, alcohol in addition to
chemicals that are abused (e.g., cannabis, heroin, etc.), food constituents (vitamins, minerals, amino acids, etc.) and cosmetics.
Pharmacology can be studied at multiple “levels”: molecular, (sub)cellular, tissue, whole animal, or population Clinical pharmacology is the study of drugs in human
patients Toxicology is the study of harmful rather than therapeutic
effects Pharmacy involves manufacture, preparation, and dispensing
of drugs
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What is pharmacology?
What is pharmacology? Pharmacokinetics (“what the body does to a drug”)
and phamacodynamics (“what a drug does to the body”) are the two key aspects of pharmacology
In research, many experimentalists in the biological sciences use drugs to produce or block responses and as a means to infer mechanisms (of cell, tissue/organ, organismal responses). In addition, others seek new ways to treat disease
Prescribing drugs is what MD’s “do” and drugs are the raison d’etre of pharmacists.
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Understanding the principles of pharmacology is thus “central” to the efforts of MD’s, PharmD’s and
most biomedical researchers
Why are drugs important for health and scientific research?
From early in human history, pharmacologically active substances (e.g., from plants, animals) have been used to ward off or treat disease Drugs can be molecules synthesized in the body (e.g., hormones or
neurotransmitters [e.g. dopamine, epinephrine, acetylcholine]) or molecules not synthesized in the body (i.e., xenobiotics, from the Greek xenos, meaning “stranger”)
Poisons are drugs that almost exclusively have harmful effects
Discovery and development of drugs (including immunotherapy/ vaccinations) has been a major factor that has increased life span and improved the quality of life New scientific insights—in some cases, inferred from novel
mechanisms of action– have been essential to this progress, together with controlled clinical trials, in particular, randomized, double-blind trials
In parallel (especially in recent years) has been the promotion of “alternative” and “complementary” treatments, many (most) of which have not undergone rigorous scientific validation
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Why are drugs important for health and scientific research?
The search for “magic bullets”—agents that treat disease or produce desirable effects but lack harm— and ways to improve such agents has driven scientific discovery for >100 years There are very few magic bullets* with high benefits and very
low risk
The challenge is to identify, test, approve and ultimately use drugs that maximize efficacy but minimize toxicity
Primum non nocere: “First do no harm”
Because of problems (including deaths) that have occurred, governments use approval processes (which tend to emphasize safety>efficacy) before drugs can be marketed and prescribed. *Examples: selective toxicity of antimicrobials that target bacterial cell walls (lacking in animals/humans) or enzymes found only in micro-organisms
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Important Terminology Pharmacodynamics (“drug action”) includes the
measurement of responses to drugs and how such responses relate to drug dose and concentration at a target site
Pharmacotherapy is the use of drugs to treat disease Requires knowledge of drugs, physiology, and pathology (this
course will teach you some of each of these but none can be covered in depth)
Log Dose
Effec
t
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Pharmacoepidemiology investigates the effects of drugs on populations
Pharmacoeconomics examines the cost-effectiveness of drug treatments
Pharmacogenetics and pharmacogenomics study the influence of genetic variation on pharmacodynamic and pharmacokinetic properties of drugs
Important “pharmaco” terminology
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Pharmacokinetics
Drug
Intended target
Unintended targets
Therapeutic effects
Toxic effects
Pharmacodynamics
The Two Key Aspects of Pharmacology:Pharmacokinetics and Pharmacodynamics
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Toxicodynamics
Toxicokinetics
Pharmacokinetics
Drug administration
Distribution
Effector sites
PharmacodynamicsExcretio
nMetabolis
m
The Two Key Aspects of Pharmacology:Pharmacokinetics and Pharmacodynamics
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Pharmacokinetics and Pharmacodynamics:A More Complete Schema
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Interaction with cellular targets is the focus of most research regarding drug action (“Molecular pharmacology”) and includes studies of receptors, receptor signaling, and post-receptor responses
How do drug efficacy and toxicity contribute to therapeutic success, therapeutic failures, and
medical errors?
The major goal is rational therapeutics:
Rational therapeutics seeks to maximize therapeutic responses while minimizing therapeutic failures and medical errors that occur because of “therapeutic wrongs”:
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Knowing, understanding, and implementing general principles and specific facts about classes of drugs and
individual drugs
Prescribing/dispensing/administering the wrong drug (or wrong dose)To the wrong patient
At the wrong time
What is the “therapeutic partnership”?
Patients and health providers (e.g., physicians and pharmacists) are partners that seek to optimize drug prescription/dispensing/administration and thereby maximize efficacy and minimize toxicity, thus increasing the “therapeutic window” (between beneficial and toxic effects).
Adherence (compliance) to drug regimens is a major problem in therapeutics: many patients do not take the correct drug/dose at the correct time/frequency for the correct period of time). Thus, new approaches are needed to solve this problem and will likely include :
Simplification of medication regimens Patient/caregiver education Ongoing assessment of adherence and outcomes Novel formulations, delivery methods, monitoring/assessment
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Oertel, W. et al. Neurology 2007;69:S4-S9
Therapeutic Window
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[Drug] in Blood and Relation to Effects
[Dru
g] in
blo
od
Note the need to achieve effective concentration (efficacy) without exceeding levels that increase side effects (toxicity)
Log Dose
Effec
t Rx effect
Tx effect
Log Dose
Effec
t Rx effect
Tx effect
Log Dose
Effec
t Rx effect
Tx effect
Therapeutic Window:Relationship between Rx and Tx
Doses
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Rx effect = Therapeutic effectTx effect = Toxic effect
What are some major principles of pharmacotherapy?
Use of scientific method and application of fundamental principles must guide drug prescription/administration and the monitoring/evaluation of drug administration
Since there are few “magic bullets”, it is critically
important for those who prescribe, dispense and administer drugs to be knowledgeable and those who discover drugs must seek to optimize efficacy and minimize toxicity
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Each patient’s prescription is a scientific experiment (but is not usually thought of in this
way): Hypothesisdrug treatmentassessment of
outcomeinterpretation?make changes for next experiment
Can one achieve selectivity in pharmacotherapy?
Drugs are “selective” (rarely “specific”) in their sites of action
Selectivity depends on several factors• Chemical nature of drug• Dose and route of administration• Patient characteristics (e.g., genetics, age, gender, co-
existing disease) Selective toxicity for drugs used as chemotherapeutic
(antimicrobial, anticancer) agents or pesticides (e.g.,insecticides) that kill targets without harming the host• Difficult to achieve selective toxicity if the “target” resembles
the host
Risk-benefit ratio describes adverse vs. beneficial effects of a drug; acceptable risk/benefit ratios depend on:• Severity of the disease being treated (or prevented)• Economic and societal factors: many new drugs are VERY
expensive and raise concerns about “rationed care” that will only be available for the world’s most wealthy citizens: is this “moral”?
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A worldwide problem of overuse of drugs: Antibiotic usage can enhance
microbial resistance and ultimately, lead to failure of treatment
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Where does one obtain reliable information about drugs?
Textbooks of pharmacology (but most have “dated” info even at time of publication): Recommended text is this course provides a good overview on topics that will be covered
Journals and especially from on-line sources that provide regular updates Clinical Pharmacology (Online Clinical Library @ BML) Micromedex (Online Clinical Library @ BML) The Medical Letter (E-Journals @ BML)
Physician’s Desk Reference (PDR) Drug company-generated compilation of FDA-approved package
inserts + pictures of drugs
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Can drug therapy be individualized/personalized?
Much current interest in the individualization of drug therapy and taking into account genetic and environmental factors There has been some success but progress toward
individualized therapy has been slow—especially as related to drug action
Many key questions remain, including: Are the most important inter-individual differences in
pharmacokinetics or pharmacodynamics? Will knowing a person’s genome improve the choice among
and dosing of drugs? Will/should clinical trials be “genomically stratified” such that
drugs are tested and then approved for genomic sub-populations? Should basic research studies emphasize such issues during drug development?
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Bottom line: This is a work in progress that will likely drive research and changes in drug approval
and prescribing
What new efforts in pharmacotherapy and pharmacology are on the horizon?
In addition to “genetically informed” understanding of disease, drug development/prescribing, other aspects of pharmacotherapy that will likely change are: ”New” disease/drug targets based on evolving information
from genetic, biochemical, molecular biological, and imaging studies [as will be discussed in this course]
New formulations with an increased number of “biological drugs” (e.g., antibodies, binding proteins, ?antisense, ?siRNA, ?gene therapy)
Alternative methods of drug delivery (less pain and other side effects, better/more consistent delivery and bioavailability)
Less-invasive but increased assessment of efficacy and toxicity
Better methods and their wider use to assess compliance/adherence
Efforts to create errorless drug prescribing/administration—these are a major source of medical errors, which in spite of much publicity are still seen as a serious, unsolved problem
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How are drugs developed and approved?
Answer: Following discovery of new chemical entities (NCEs) in academia or industry, studies are conducted in animals and humans. Randomized, placebo-controlled, double-blind clinical trials are the gold standard for demonstration of efficacy and determining benefit/harm..
Drug discovery and approval: Preclinical research and Phases 1-4
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