Post on 16-Jan-2016
Development And Classification Of A Medicine
Niall Byrne
Wednesday 30th January 2012
Lecture plan•Development of a medicine:•How can we categorise drugs?•How do drugs cause their effects?•Specific receptors: lock & key•Non-specific effects•Pharmacokinetics
Introduction
•What is a drug? •Any biologically active chemical that does
not occur naturally in the human body that can affect living processes
A little light history16th century EgyptEbers papyruspoppy juniper berriesbeer leadswine teeth goose greaselizard's blooddonkey hoovescrushed precious stonesexcreta from various animals
Where do drugs come from now?• Plants:
Digoxin (foxglove)Belladonna (deadly nightshade)Diamorphine (opium poppy)
• Animal tissue:Insulin, growth hormone
• Synthetic manufacture:Most modern medicines
Development of a medicine
•Drug discovery
•Pre-clinical
▫Testing drug in a lab
•Clinical Trials
▫Testing drug on humans
Drug discovery• In 1928 Alexander Fleming returned from holiday
to find his bacterial plates had been contaminated with a fungus.
• Fungus had killed the bacteria on the plate• Realised the potential of the mould to kill bacteria• He called the agent penicillin• it was over a decade before someone else turned
penicillin into the miracle drug for the 20th century.
• Awarded the 1945 Nobel Prize in Physiology or Medicine
Pre clinical testing• Identify a compound which has the desired
effect on a cell (~ 20 - 50 out of several 1000)•Test on panel of cell lines (5 - 10 / 50)
▫Pharmacodynamics (What drug does to body)•Test in animals ( 1 - 3 / 10)
▫Pharmacodynamics▫Pharmacokinetics (What body does to drug)▫Drug metabolism and elimination
mechanisms▫Toxicity
Schematic of possible outcomes
•Lecture plan•Development of a medicine:
▫Clinical trials•How can we categorise drugs?•How do drugs cause their effects?•Specific receptors: lock & key•Non-specific effects•Pharmacokinetics
Clinical trials: What are they?
•Research studies involving humans
•Used to determine if drug treatments are
safe and effective
•Are the safest and quickest way to find
treatments that work
▫Three stages: I II and III
Clinical trial protocol
•Strict scientific guidelines▫Purpose of study▫How many participants▫Who is eligible▫How study will be carried out▫What information will be gathered▫End points
Clinical trials – phases
•5 compounds5 compounds
•Stage 3Stage 3•Clinical trialsClinical trials
•7 years7 years
•Phase IIPhase II•100-500 volunteers100-500 volunteers
•Phase IIIPhase III•1000-5000 volunteers1000-5000 volunteers
•Phase IPhase I•20-100 volunteers20-100 volunteers
•250 compounds250 compounds
•Stage 1Stage 1•Drug DiscoveryDrug Discovery
•Stage 2Stage 2•PreclinicalPreclinical
•6.5 years6.5 years •1.5 yrs1.5 yrs
•1 1 approved approved
drugdrug
•10,000 10,000 •compoundcompoundss
Adapted from Pharmaceutical Research and Manufacturers of AmericaAdapted from Pharmaceutical Research and Manufacturers of America..
Phases I trials
•Use healthy volunteers•How does the drug affect the human
body?•Drug absorption, metabolism and
excretion•Preferred method of administration•What dosage is safe?
Phase II trials
•Use target patient group representative of those likely to benefit from the drug.
•No pregnant women•Does the drug have a beneficial effect on
the disease?•Determine therapeutic dose range.•Usually placebo controlled•Conducted by experts in the disease field
Phase III trials
•Obtains all data for regulatory agencies•Often multi-centered, multinational•Long term safety evaluated•Is new drug better than standard?
Randomised controlled trial (RCT)•Volunteers randomly assigned to new
treatment or best existing treatment •Doctors have no say in who goes in which
group to reduce bias
What is a placebo?An inactive pill, identical in appearance to the
treatment pill which is given to the control group.
Used to control for the placebo effectPatient feels better due to belief in the
treatment
Test pill Test pill PlaceboPlacebo
Clinical trials – the results
•Endpoint used to test trials success•Ideally use a hard endpoint – cure from
disease•Statisticians analyse results – is A better
than B?•Only after analysis do you tell which is A
and B.
Drug Licensing
•Application submitted to Medicines and Healthcare products Regulatory Agency (MHRA)
•MHRA carry out pre-marketing assessment of safety, quality and efficacy, examining all research and results in detail.
Medicines and Healthcare products Regulatory Agency
•An executive agency of the Department of Health
•Enhance and safeguard the health of the public by ensuring that medicines and medical devices work and are acceptably safe. No product is risk free.
European Medicines Evaluation Agency (EMEA)•The EMEA co-ordinate drug licence
applications within the European Union (EU).
•Committee for Proprietary Medicinal Products (CPMP)
Product Launch
•When a drug has marketing authorisation, it is not available straight away. The company first have to apply to market their product. In the UK, they will apply to the MHRA. When this is done, the product is ‘launched’, and doctors can prescribe it.
•The time it takes from marketing authorisation to launch in the UK is one of the fastest in the world.
Lecture plan
•Development of a medicine:
•How can we categorise drugs?
•How do drugs cause their effects?
•Specific receptors: lock & key
•Non-specific effects
•Pharmacokinetics
Names of drugs
•Chemical name: describes the chemical structure: acetyl-p-amino-phenol
•Generic name: a name that can be used by anyone: paracetamol
•Trade name: owned by the manufacturer: Calpol
Other ways to categorise drugs
•What kind of molecule is it?
•What organ system (or what disease) is it for? e.g., cardiac, psychotropic
•What parts of cells are affected?
What is the drug used for?
•To cure e.g., infections, cancer
•To suppress diseases or symptoms without attaining a cure e.g., hypertension, diabetes, pain control
•To prevent disease (prophylactic) e.g., immunisation
How does the drug act?
•Replace a deficiency, e.g., vitamins, minerals, hormones
•Interfere with cell function, e.g., block enzyme action
•Kill / prevent growth of viruses, bacteria, fungi, protozoa, cancer
Categories of drug
•Anti-inflammatory•Analgesic•Antipyretic•Vaccine•Antihypertensive•Vitamin
supplement•Antitussive
•Antiviral
•Antifungal
•Antibiotic
• Anaesthetic
• Surfactant
• Laxative
Content of today’s lecture•How can we categorise drugs?•How do drugs cause their effects?•Specific receptors: lock & key•Non-specific effects•Pharmacokinetics
How do drugs work?
•Pharmacodynamics: study of how chemicals exert their effects
The practical importance of this is enabling the design of new and better drugs
receptorreceptor
signalsignal
Receptors•Receptors are proteins on the cell surface or
inside the cell.
•They bind the body’s own chemical messenger
•Convert the binding event to a signal that the cell can recognize and respond to
“Lock & Key”
•Interaction between a receptor and its signal molecule (ligand) is like “lock & key”.
•Perfect fit depends on exact 3D shape and size of both molecules.
Receptors•Drugs also bring information to cells by
fitting into the same receptor molecules.
•The drug picks the lock and triggers a response by the cell.
receptorreceptor
drugdrug
Agonists and Antagonists•Agonist: a drug that fits into a receptor
and activates a response e.g., morphine, nicotine
•Antagonist: a drug that fits into a receptor but blocks the receptor and does not activate a response.
Content of today’s lecture•How can we categorise drugs?•How do drugs cause their effects?•Specific receptors: lock & key•Non-specific effects•Pharmacokinetics
Non-specific effects•Acidic or alkaline properties
•Surfactant properties (amphotericin)
•Osmotic properties (laxatives, diuretics)
•Interactions with membrane lipids (anaesthetics)
Side-effects and other effects•Not the “wanted” effect e.g. aspirin causes
gastric ulcer•Diphenhydramine has a useful side-effect
Side-effects and other effects•Hypersensitivity / allergy: exaggerated
adverse reaction to drug
•Toxic effects e.g., Thalidomide: teratogenic
•Tolerance: increasing amounts are needed to produce the same effect
Content of today’s lecture•How can we categorise drugs?•How do drugs cause their effects?•Specific receptors: lock & key•Non-specific effects•Pharmacokinetics
Pharmacokinetics
How the body deals with the drugWe need to consider•Dose•Route of Administration•Absorption and distribution•Metabolism and excretion
Doseamount of drug taken at any one time•Aim is to give the patient a dose of drug
that achieves the desired effect without causing harmful side effects
•Therapeutic Index(TI) is the ratio of the therapeutic dose to the toxic dose
•Egs of drugs with low TI include digoxin lithium and methotrexate
AdministrationRoute of administration depends on how easy it is to use for patient how quickly a drug needs to reach site
of action where it has to work in the body
Routes of Administration
Oral Route
•Medications taken by mouth
•Formulated in either a solid or liquid form
•Absorbed from the GI tract mainly in the
small intestine which is specialised for
absorption (large surface area due to villi
and microvilli).
Disadvantages •Onset of action is relatively slow
•Absorption may be irregular
•Some drugs destroyed by enzymes or other
secretions found in GI tract
•Because blood from GItract passes through
live it is subject to hepatic metabolism before
reaching systemic circulation
Buccal Route
Drug is formulated as a tablet or a spray and
is absorbed from the buccal cavity
•Sublingual absorption very fast onset of
action but duration is short
•Buccal absorption quick onset of action that
is of longer duration than sublingual route
Rectal Route
Drugs formulated as liquids ,solid dosages
and semi solids.
The chosen preparation is inserted into the
rectum where it is released to give local
effect or absorbed to give a systemic
effect
Rectal & Vaginal Route
Advantages
• Can be used when oral
route unsuitable
• Useful when drug causes
GI irritation
• Can be used for local
action
Disadvantages
• Absorption irregular and
unpredictable
• Less convenient than oral
route
• Low patient acceptability
Inhalation Route
• Advantages• Drugs inhaled
through the nose or mouth to produce local or systemic effects
• Drug dose required to produce desired effect is much smaller than oral route therefore reduction in side effects
• Used predominately in the treatment of asthma
• Drugs delivered directly to their site of action ie lungs
Topical Route
•Skin used as site of administration
•Lotions creams ointments powders
•Skin has natural barrier function but
specialised dosage forms have been
developed that when applied they allow the
drug to pass through and produce systemic
effect
Parenteral Route(drugs that are given by injection)• IV route -drugs injected directly into the
systemic circulation (fast onset of action)
•Subcutaneous route -drugs injected into the
s/c layer of the skin (easiest and least
painful)
• Intramuscular route –drugs injected into
muscle layers
Examples in each category
inhaled
oral across the skin
rectal injected into skin or muscle
Intra-venous
local action
Vick’s Vaporub
antacid cold sore cream
foam enema
Novocaine (the dentist’s choice!)
Local thrombo-lytic therapy
systemic action
cigarette
Nurofen tablets
Nicotene patch
Panadol suppos-itory
contra-ceptive
adrenalin
ADME•Absorption: the mechanism by which a drug
enters the body
•Distribution: the drug is transported
throughout the body
•Metabolism: the drug interacts with, and is
processed by, the body
•Elimination: the drug is removed from the body
Absorption
•Disintegration•Dissolution•Direct absorption at site of action, e.g., in the gut
Steps in distribution• Drug must spread throughout blood
volume• Drug must get out of the bloodstream
between or through endothelial cells• Drug must cross the cell membrane
into cells
Factors affecting distribution1.Binding to plasma proteins: if a
drug is bound to large plasma proteins, it will be unable to get out as the proteins are too large.
Arggh! I can’t fit through!
Factors affecting distribution
2. Extent of blood supply. If a tissue is well perfused with blood, drugs will get there faster. Adipose tissue has low blood perfusion so drugs reach it slowly.
Factors affecting distribution
3. pH. A drug will pass through membranes better if it is not ionised
4. Binding of drugs to other tissue components
Metabolism: what happens to a drug
TimeTimeDru
g C
once
ntr
ati
on
Dru
g C
once
ntr
ati
on
TherapeuticTherapeutic
RangeRange
Sub-Sub-TherapeutTherapeut
icic
LethalLethalDoseDose
Injected DoseInjected Dose
Oral DoseOral Dose
First pass effect
•All nutrients and drugs absorbed from the gut travel in the blood directly to the liver. The liver breaks down many drugs so they are inactivated before they ever enter the systemic circulation!
•This can decrease drug delivery to target tissues
•But some drugs are activated by the first pass effect
Elimination
•Mainly in the kidney. Also bile, gut, lung, breast milk.
•Elimination of a drug is usually linked to renal function.
Individual variation
•Each person is unique how they respond to a drug
•Age and sex (hormonal differences)•Weight: some drugs are stored in fat so
less effective and longer lasting in obese people
•Allergy•Kidney & liver function: how will they
affect elimination?
And finally…
•Pharmacodynamics is…
•Pharmacokinetics is…
•Receptor is like…
•Ligand or drug is like a…
•First pass occurs in…
•Many drugs are excreted
by…
• What the drug does to the body
• What the body does to the drug
• Lock
• Key
• Liver
• Kidney