Pharmacology Flashcards

Question

What are the way drugs can be classified?

Answer 1

Chemical Group Function Target International Nonproprietary Names

Answer 2

Drug name that ends in -caine

Answer 3

Antacid preparations to neutralise H+ in stomach acid

Answer 4

Protein (very common) RNA/DNA (less common) Lipid cell membrane (uncommon)

Answer 5

``` Membrane bound receptors (very common) Ion channels Carrier proteins (pumps/transporters) ```

Answer 6

Enzymes (very common) RNA/DNA (cell nucleus) Protein

Answer 7

A low molar concentration needed for drug to work. Therefore the drug has a high affinity for the target receptor

Answer 8

A high molar concentration needed for drug to work. Therefore the drug has a low affinity for the target receptor

Answer 9

concentration at which 50% of binding sites (receptors) are occupied by drug

Answer 10

Different action on a the different site | Outcome could be either helpful or an unintentional side effects

Answer 11

Australian Medical Handbook (AMH) 2016 Therapeutic Guidelines 2012 (v2): Oral and Dental MIMS is unreliable and not practical

Answer 12

Effect of the Drug on the Body: The pharmacological response or functional change in the body resulting from interaction of drug on the body

Answer 13

Effect of the Body on the Drug: ``` Absorption Distribution Elimination: excretion/metabolism Factors which alter the concentration of drug in body: disease, age, other drugs, genetics Used to design drug dosage ```

Answer 14

The discipline dealing with undesirable effects of xenobiotics

Answer 15

Antacid preparations to neutralise H+ in stomach acid

Answer 16

Specific Drug Targets

Answer 17

Protein (very common) RNA/DNA (less common) Lipid cell membrane (uncommon)

Answer 18

1. Cell Surface Targets (Membrane Bound Receptors, Ion Channels, Carrier Proteins) 2. Intracellular Targets (Enzymes, RNA/DNA, Proteins)

Answer 19

Enzymes (very common) RNA/DNA (cell nucleus) Protein

Answer 20

``` Membrane bound receptors (very common) Ion channels Carrier proteins (pumps/transporters) ```

Answer 21

A substance (in this instance drug) that binds with a biomolecule for a functional purpose. Drugs are typically ligands that bind with receptors to induce a functional change (eg with Opioid or Adrenergic Receptors)

Answer 22

Probably not, it could have a helpful/unintentional side effects, or completely different action on a the different site Example: Hay fever medication - additional high affinity to salivary glands induces dry mouth

Answer 23

How tight the protein binds to the drug. Higher affinity requires lower molar concentration of the drug to work

Answer 24

The concentration at which 50% of binding sites (receptors) are occupied by drug

Answer 25

A Low Kd drug is 50% dissociated at a lower molar concentration, making it a high affinity drug. Therefore a lower dosage is needed for the drug to work

Answer 26

A Low Kd drug is 50% dissociated at a higher molar concentration, making it a lower affinity drug. Therefore a higher dosage is needed for the drug to work

Answer 27

Yes. Codeine vs Morphine are almost chemically identical with the only difference a OH vs CH3O group, but yet have enormous difference in drug affinity. Codeine Kd = 150nm (Weak Analgesic) vs Morphine ( Kd = 1000nm) (Strong Analgesic)

Answer 28

Ligand binds to a binding domain on the channel, opening the channel for ion flow

Answer 29

Coordinated depolarisation (voltage change) triggers a ion channels to open

Answer 30

Cl-, Na+, K, H+, Ca2+

Answer 31

False: they work as channel blockers Local Anesthetics block sodium transduction and prevents membrane depolarisation and subsequent action potential

Answer 32

True: they work as channel opener

Answer 33

1. Prolong duration of channel opening | 2. Increase frequency of channel opening

Answer 34

1. Uniporters 2. Antiporters 3. Symporters

Answer 35

Facilitate transport of only one solute across the cell membrane

Answer 36

Facilitate transport of two dissimilar solutes in opposing direction across the membrane

Answer 37

Facilitate transport of two dissimilar solutes in the same direction across the membrane

Answer 38

Symporter: diuretic drug blocks the Na/Cl symporter, increasing the sodium gradient into the distal tubule of the kidney. Water follows the sodium gradient to increase urine excretion

Answer 39

Increasing excretion of urine decreases blood volume that decreases MAP.

Answer 40

Antiporter: Proton Pump Inhibitors (eg Omeprazole) inhibit H+/K+ exchange, so in turn decrease stomach lumen concentration of H+. This reduces the damaging effects of acid in stomach ulcers and acid reflux

Answer 41

1. SSRIs antidepressants close membrane transports found on the end of the presynaptic neuron 2. This limits re-absorption of serotonin into the presynaptic cell 3. This increases the concentration of serotonin in synaptic cleft to bind to postsynaptic receptor 4. People with depression typically have depressed levels of serotonin - this in effect allows for normal firing of neurons

Answer 42

1. NSAIDS: anti-inflammatories 2. ACE Inhibitors: address high blood pressure 3. HMGCoA Reductase Inhibitors (Statins): address high LDL cholesterol

Answer 43

Irreversible: drug covalently binds to site, therefore inactivating enzyme. Therefore, the only way the body can recover is to create new enzymes. This means the duration will be longer

Answer 44

Aspirin induces complete irreversible inhibition of cyclooxygenase (Cox) in platelets, therefore limiting platelet aggregation. If this was an issue with treatment, the patient would have to wait 1 week after stopping aspirin in order for the body to synthesise new cyclooxygenase

Answer 45

Risk of bleeding is less than the beneficial effect of preventing heart attack. Warn patient of chance of bleeding for some time Apply other hemostatic agents during surgery Monitor patient for safety after treatment

Answer 46

1. Prevent Acetylcholine from binding to Ion Channel 2. Prevents influx of sodium 3. Depolarisation can't occur 4. No skeletal muscle Contraction

Answer 47

No, onset would occurs in minutes. Ion Influx from 1st Messengers require action from intracellular enzymes

Answer 48

No, onset would be in hours as gene transcription/translation is involved

Answer 49

Yes, RNA has already been altered, so RNA stimulation is still ongoing and Protein translation will still occur

Answer 50

No, it's action is slow as it alters transcription of inflammatory mediators. It would not provide immediate relief or target action on smooth muscle tissue on the lungs

Answer 51

Salbutamol: bind to beta 2 receptor (G-protein coupled receptor) Quick effect that is has affinity to beta 2 receptors: causes smooth muscle tissue in the lungs to dilate.

Answer 52

1. Relievers (Selective Beta 2 agonists) | 2. Preventers (Corticosteroids)

Answer 53

1. Size of Response 2. Reversibility of Action 3. Graded-Dose Response Relationship

Answer 54

Typically a linear scale

Answer 55

It is the dosage required to get 50% efficacy OR where 50% of people have 50% of max effect (Essentially the same thing) A drug that reaches ED50 at a lower 5mg dosage is far more potent

Answer 56

A small increase in concentration (where the curve is steepest) leads to a very large increase in response: making the risk of adverse effects/toxicity higher

Answer 57

True, as there are limited number of receptors of the same type to bind to

Answer 58

False, the drugs are independent of each other and will follow different slopes

Answer 59

No, by definition a partial agonists are drugs that bind to and activate a given receptor, but have only partial efficacy at the receptor relative to a full agonist. It can not reach 100% effect

Answer 60

The Toxic Dose / Effective Dose High TI = toxic dose if substantially bigger than normal dose Low TI = only a small increase in dose produces toxic effects

Answer 61

Altered Pharmacokinetics: St John's Wart speeds up the metabolism of cyclosporine and other drugs, reducing it below a efficacious concentration = increasing risk of organ transplant failure.

Answer 62

It is an immunosuppressant drug that prevents organ transplant rejection

Answer 63

Gingival Hyperplasia

Answer 64

1. Route of administration (e.g. oral) 2. Amount (dose) 3. Frequency (how often) 4. Duration (for how long)

Answer 65

Blood plasma concentration - Good correlation with target site concentration - Easy to access and test

Answer 66

Absorption Distribution Metabolism Excretion

Answer 67

Pharmacokinetic factors (Absorption, Distribution, Metabolism, Excretion) all affected by: ``` Age Weight Disease (type and severity) Genetic Environment Interaction with drugs ```

Answer 68

- Less genetic variability in lab rat populations | - Very controlled environment: housing, food all same

Answer 69

Bioavailability (f) Clearance (CL) Volume of distribution (V) Half-life (t ½)

Answer 70

The optimum drug concentration at the site of action to ellicit the desired effect Too Low: No Effect Too High: Toxicity

Answer 71

Wide Therapeutic Window: the jump in dosage between effective dose and toxicity / no effect is very large. This means there is less risk in patients being able to suffer from dosage issues despite interpersonal variation in pharmakinetics

Answer 72

Acute Disease: requires rapid response and quick bioavailability Chronic Disease: may opts for a slow release administration route so there is less intervention needed by the patient for regular dosage

Answer 73

1. Properties of the Drug | 2. Therapeutic Objective: Rapid response vs Chronic Dosage

Answer 74

1. Oral (Tablets, Capsules, Mixtures) 2. Sublingual 3. Rectal (Suppositories)

Answer 75

Drug avoids liver first pass Some drugs they are completely metabolised by the liver so can't enter the bloodstream (Glyceryl Trinitrate for Angina)

Answer 76

1. If the illness is causing vomiting | 2. Also partially avoids liver first pass

Answer 77

Intravenous Injection - results in very rapid onset at target tissue

Answer 78

Aqueous solution → slow absorption | Oily suspension → very slow absorption

Answer 79

1. Poorly absorbed drugs 2. Drug unstable in acid stomach 3. Unconscious patient 4. Can’t swallow orally 5. Need very quick onset (IV only)

Answer 80

``` Inhalers Intranasal Topical Creams/Oiltments Transdermal Patches Eye Drops Ear Drops ```

Answer 81

All types except for I/V injections: ``` Oral: Tablet, Capsule, Liquid Sublingual Transdermal Rectal Intramuscular / Subcutaneous Injection Inhalers, Intranasal, Eye, Nose, Ear ```

Answer 82

Process by which drug proceeds from site of administration to site of measurement (blood stream) within the body

Answer 83

1. Passive Diffusion | 2. Carrier Mediated Update Transport

Answer 84

False, fat solubility is the key factor in rapid movement via the cell membrane. Lipophobic (aka souble) drugs typically require Carrier Mediated Uptake Transport but are rate limited by the number of transporter located on the cell surface. Therefore they are slower than lipophillic drugs that can freely move through the cell membrane

Answer 85

1. Movement from high to low concentration gradients 2. No energy required for movement 3. No saturation 4. No competitive inhibition

Answer 86

It is a water solubility measure for estimation of drug distribution within the body Lipophilic/Hydrophobic drugs have O/W > 5 = high permeability / absorption Example: codeine Lipophobic/Hydrophillic drugs O/W < 1 = low permeability/adsorption Example: antibiotics

Answer 87

Typically require a far higher dosage as they have low cellular permeability/absorption

Answer 88

Permeability of hydrophillic/lipophobic drugs on the cell membrane is rate limited by the number of efflux pump transporters (Carrier Mediated Uptake Transport) that can transport the drug at any time. Any excess dosage not transported is simply excreted

Answer 89

To support transport of very water soluble drugs

Answer 90

1. Energy is Required 2. Transports can be saturated 3. Transports can be specific 4. Competition for Transport can occur

Answer 91

P-glycoprotein (Pgp) is a transmembrane glycoprotein that functions as efflux pump to push xenobiotics out of a cell. In terms of drug absorption, it can pushes xenobiotics/toxins back into the intestinal lumen, thus acting as a protective mechanism against potentially toxic substances in our diet

Answer 92

1. Blood Flow 2. Large Surface Area 3. Gastric Emptying

Answer 93

Typically no: most drugs are not sufficiently fat soluble, therefore slow absorption via the GIT is what prevents it from taking effect However, highly fat soluble drugs are rapidly absorbed (eg alcohol). In this instance, blood flow is the rate limiting factor in reaching the brain

Answer 94

Microvilli in the small intestine provide 1000x more surface area than the stomach, meaning there are more surface cells to allow for absorption. This is why most drugs enter via the intestine and not the stomach.

Answer 95

Affects the speed/rate of absorption If you’re backed up, the drug can’t be absorbed along GIT

Answer 96

1. Take a dump | 2. Consume the drug with 250ml of water

Answer 97

1. Filler 2. Lubricant 3. Disintegration Agents: to correct disintegrate the tablet to maximise solution being absorbed, but not to be destroyed in the stomach 4. Enteric Coating: to resist acid dissolution in the stomach

Answer 98

Reduce rate of dissolution Reduce rate of absorption Reduce frequency of dosing (helps in pt compliance)

Answer 99

Intravenous Injection

Answer 100

1. Insufficient time for absorption (lipophobic/requires activity transport) 2. Decomposition in gut lumen (Acid Hydrolysis, Complexation, Efflux Transport Out, Metabolism by Gut Wall) 3. Hepatic first pass effect: liver metabolises/excretes much of the drug, reducing bioavailability

Answer 101

1. Rate of blood flow to tissue/organ 2. Ability to cross the cell membrane wall 3. Binding to plasma and tissue proteins

Answer 102

1. Unbound/Free Drug | 2. Protein Bound Drug

Answer 103

1. Blood flow to the organ - well perfused organs take up drugs more easily 2. Protein Bounded Drugs: can't cross small capillaries 3. Blood Brain Barrier

Answer 104

The drugs ability to be distributed to target tissues Volume of Distribution (V) = Amount in body (A) / Blood Concentration (C) High V = High Tissue Binding (readily absorbed) Low V = Low Tissue Binding (only low quantity is absorbed, most excreted)

Answer 105

1. Metabolism: conversion to another chemical in the liver | 2. Excretion: loss of a chemically unchanged drug via the kidney

Answer 106

Alcohol → Aldehyde via alcohol dehydrogenase) → CH3COOH (Acetic acid)

Answer 107

Liver (primary), Lung, GIT

Answer 108

Kidney (primary), Glands: sweat, tears, bile

Answer 109

Clearance = renal clearance (0-1200 mL/min) + Hepatic clearance (0-1500mL/min)

Answer 110

Avoid dissolution in pH 2 (acidic stomach)

Answer 111

For dissolution in the upper intestine (pH > 6)

Answer 112

False, only free unbounded drugs are filtered

Answer 113

- Older people have poorer kidney function | - Kidney Disease

Answer 114

The maximum rate of glomerular filtration (120mL/min in a healthy person)

Answer 115

10% at 120mL/min

Answer 116

They are secreted from blood capillaries into the tubule lumen via active transporters

Answer 117

True: high affinity to the same transporter can mean that one drug can prevent the secretion of another drug with slightly less affinity: Example: probenecid can block the secretion of some acid based antibiotics such as penicillin, keeping the blood concentration of penicillin higher.

Answer 118

Organic Anion Transporter (OATs): secrete penicillin

Answer 119

Organic Cation Transporter (OCTs), p-glycoprotein

Answer 120

If it is lipid soluble, if will follow the concentration gradient back into the body via passive diffusion until equilibrium is reached

Answer 121

Secreted = If unbound fraction in plasma (fu) X GFR (120mL/min) is high Reabsorbed = If unbound fraction in plasma (fu) X GFR (120mL/min) is low

Answer 122

Enzymatic converted chemical form of a drug

Answer 123

Enzymes introduce or cleave a chemical group to increase polarity to make the molecule more water soluble, therefore able to be excreted by the kidney

Answer 124

Alcohol, Carboxylic Acid, Gluchoronic acid Highly polar groups that increase the molecules water solubility

Answer 125

1. Similar Functional Activity: Morphine → morphine-6-glucuronide → some analgesia 2. Different Functional Activity (Side Effects): Pethidine → norpethidine → convulsions

Answer 126

1. The Elderly 2. People with decreased kidney function: Metabolites will remain in the body for longer increasing the chance of getting side effects

Answer 127

Elderly/Kidney disease patients should be given lower dosages

Answer 128

1. Oxidation | 2. Microsomal Mixed Function Oxidase System

Answer 129

Oxidation via Alcohol Dehydrogenase to form acetic acid

Answer 130

Cytochrome P450 (CYP450) system is a family of hemoprotein enzymes that bind to the drugs to insert an oxygen molecule and produce water. As a result the xenobiotic becomes more hydrophillic.

Answer 131

1. Enzyme Induction: suppression of transcription factors so CYP450 enzymes aren't produced (caused by St Johns Wort, Cigarette Smoke, Cabamazepine) 2. Enzyme Inhibition: competition from higher affinity molecules to the same enzymes. Enzymes are depleted and xenobiotic concentration remains high (example: Grapefruit with Clarithromycin) 3. Pharmacogenetic Factors: certain populations genes have missing/non-functional CYPs

Answer 132

Low TI drugs: as a high concentration of the drug not being metabolised increases the risk of overdosing if the patient continues to take the drug at regular intervals.

Answer 133

Phase 1: Functionalisation | Phase 2: Conjugation

Answer 134

Large polar chemical groups (donor compounds) are added on via enzymes called transferases

Answer 135

During toxic doses of Paracetamol, PAPS (the donor compound) is depleted, meaning that the body is unable to convert the phase 1 reactive electrophilic metabolite. Since it can't be conjugated, it attacks and destroys the liver cells resulting in death

Answer 136

1. Increase Sulphate: not enough to overcome overdose. Also highly irritating to endothelium 2. Giving CYP enzyme inhibitors: unlikely to work quickly 3. Increasing Glutathione transferase: can work within 2 hours of overdose to convert Phase 1 Metabolites to Phase 2 Metabolites (Paracetamol Mercapturate)

Answer 137

Drugs with Carboxylic Acid or Alcohol end groups

Answer 138

End product Glucoronide metabolites are very water soluble and are easily excreted

Answer 139

1. Dose (Double the dose should equal 2 x concentration) 2. Route of administration (IV different to oral) 3. Single dose versus chronic dose 4. Patients elimination and distribution rates

Answer 140

Maximum concentration at time 0 with a decrease concentration curve following a half life decay curve as the drug is distributed to tissues/organs and is eliminated

Answer 141

Increasing plasma concentration until the maximum rate of absorption occurs, then a decay rate over time as the drug is distributed to tissues/organs and is eliminated

Answer 142

Plasma concentrations increase between chronic dosages until there no difference between successive doses. This is where the rate of drug in (dosing rate) vs drug out (rate of elimination) is the same

Answer 143

Finding the optimum concentration that provides efficacy without risking toxicity

Answer 144

Clearance (CL) = rate of elimination (mg/min) /plasma concentration (mg/L) Clearance (CL) = Dose (Single IV)/AUC

Answer 145

``` Total Clearance = Renal Clearance (CLR) + Hepatic Clearance (CLNR) ```

Answer 146

False, is it dependent on individual factors (age, liver/kidney disease)

Answer 147

Maintenance dose achieves a desired/target plasma drug concentration and therapeutic effect on chronic dosing

Answer 148

True If Clearance increases 2x (then Steady State Concentration is halved) => hyperthyroidism, other medications that ramp up enzymes involved with clearance If Clearance is halved (then Steady State Concentration doubles) => due to hepatitis/kidney disease

Answer 149

Where a patient's clearance is compromised (age, liver disease), such that regular dosage is not adequately cleared, therefore becoming a toxic dosage

Answer 150

CSS (steady state concentration) = Dose Rate / Clearance

Answer 151

Time for blood concentration/amount of drug in the body to fall by 50% after a single dose

Answer 152

Bisphosphonates: 1-10 years

Answer 153

1) Time to reach steady state | 2) Time taken to eliminate drug after dosing has stopped

Answer 154

5 half lives

Answer 155

Half Life (t 1/2) = 0.69 x V / Clearance (CL)

Answer 156

IV: Clearance Rate Alone Oral: Clearance Rate + Bioavailability

Answer 157

Proportionality factor that illustrates how much of a drug consumed is in the body vs how much of the drug is available in the blood

Answer 158

Volume of Distribution indicates how much a loading dose should be. A loading dose is an initial higher dosage that allows the drug to reach the optimum concentration in the blood faster to begin being effective.

Answer 159

Oral bioavailability (F) = [AUC (Oral) / AUC (IV)] x [Dose (IV) / Dose (Oral)]

Answer 160

AUC is the area under the Plasma Concentration-time Curve graph for IV Dose AUC = Total amount of drug absorbed by body over time

Answer 161

The amount of drug that can become bioavailable after metabolism by the liver via oral administration

Answer 162

1. Blood Flow (Q) | 2. Intrinsic Clearance (CLint)

Answer 163

A measure of how efficient the enzymes in the liver are in metabolising the drug

Answer 164

Enzymes are so sluggish that although the drug is metabolised it is so slow that most of it escapes the first pass Examples: Caffeine, ibuprofen

Answer 165

Enzymes are so efficient that nearly all drug is metabolised during first pass and little escapes Examples: Morphine, Codeine

Answer 166

True. An example is caffeine

Answer 167

1) Cirrhosis = poor liver function 2) Decreased enzymes produced 3) Decreased hepatic first pass, 4) Increased the bioavailability of the drug 5) Higher chance of toxicity if dosage not changed

Answer 168

Choose a different administration method: Intravenous, Sublingual, Transdermal, Inhalation

Answer 169

1) Age 2) Liver Function 3) Drug Interactions: Induction/Inhibition effects

Answer 170

1. Purification from natural sources 2. Chemical Modification of active drug 3. Rational Drug Design 4. Serendipity: by chance (uncommon) 5. New Indications from Clinical Observations 6. Recombinant Proteins

Answer 171

Aspirin: willow bark (400 BC salicin) = > Analgesic Morphine: opium poppy => Analgesic Paclitaxel: bark of Yew tree (conifer) => Colon Cancer Artemisinin: Artemesia annua (chinese wormwood) => Malaria

Answer 172

Warfarin: spoiled cattle feed (toxic rotting clover contained dicumarol => reduces prothrombin)

Answer 173

Cyclosporin: immunosuppressant (from a moss in Southern Norway) Rapamycin (Sirolimus): used in heart disease (stent), transplantation. Found in bacteria in Easter Island Ziconotide: toxin found in marine snail -> pain control

Answer 174

Synthesis of new analogues of active drugs, modification of existing molecules by addition/deletion & rearrangement of chemical groups in order to: 1. Increase Specificity 2. Decrease Toxicity 3. Increase Spectrum of Activity 4. Better Pharmacokinetics 5. Exploitation of side effects

Answer 175

Aspirin 1. Inflammation / pain / temperature (Original Indication) 2. Stroke prophylaxis (Low Dose) 3. Colon cancer prophylaxis (New Indication)

Answer 176

Detailed knowledge of genomics/proteomics to design drugs around specific genetic factors that causes biochemistry deficiencies in proteins/enzymes in individuals

Answer 177

Bacteria to produce endogenous proteins

Answer 178

1. Laboratory (In Vitro) | 2. Whole animal testing (In Vivo)

Answer 179

1. Limits to measure CNS activity and disease 2. Can't extrapolate to human pharmacokinetics/dynamics 3. Small test sample - unlikely to detect uncommon side effects

Answer 180

1. Pharmacokinetics to extrapolate human pharmacokinetics 2. Carcinogenesis 3. Acute / Chronic Toxicity 4. Effects on Pregnancy + Lactation

Answer 181

Phase I: Is it immediately safe? What doses are safe? Phase II: Can it work? What dose does it work Phase III: Is it Effective? What are side effects?

Answer 182

Common: >1% Infrequent: 0.1-1% Rare: < 0.1%

Answer 183

Preclinical: 3-4 years Phase I-III: 8-10 years Patent expires 20 years

Answer 184

Protect public from unsafe, ineffective & poor quality drugs Serve the public interest in gaining timely access to new & possibly life-saving drugs

Answer 185

Therapeutic Goods Administration (TGA)

Answer 186

It is illegal in Australia

Answer 187

1. Prescription Medicines 2. Non-prescription (Over the Counter) 3. Complementary Medicines

Answer 188

1. AUST L (Listed): ~11,500 products in Australia | 2. AUST R (Registered): ~13,500 products in Australia

Answer 189

1. Pharmaceutical/chemical data quality of product 2. Preclinical pharmacology & toxicology 3. Clinical pharmacology, Human efficacy, safety

Answer 190

False: scheduling is done at the state level, recommending restrictions on sale, labelling and packaging and legislated accordingly. Harmonization between states through ACMS (Advisory Committee on Medicines Scheduling)

Answer 191

1. Unscheduled- General Sales 2. Pharmacy Medicine (S2) 3. Pharmacist Only Medicine (S3) [Also available at doctor/dentist] - requires professional advice given on dispensing 4. Prescription Only Medicine (S4) - prescriptor can only give scripts within scope of practice 5. Controlled Substances (S8)

Answer 192

Ibuprofen exists from S1-4 based on different dosages

Answer 193

$1421 general; $360- concessional]

Answer 194

1. General patients: $37.70 maximum/item 2. Concessional patients: $6.10/item: Old age/disability pensions, entitled veterans, low income earners, healthcare assistance

Answer 195

``` Pharmacology Indications Contraindications Precautions Interactions with Other Medicines Adverse Effects Dosage and Administration Overdosage Presentation and Storage Conditions Poison Schedule of the Medicine Name and Address of the Sponsor Date of Approval ```

Answer 196

S5: Lower Harm Potential (household poisons) S6: Poisons S7: Dangerous Poisons (Commercial pesticides) S9: Prohibited Substances (Heroin, MDMA, most recreational substances)

Answer 197

Blue edge on the form

Answer 198

``` Antibiotics/antifungals Local anaesthetics Antiemetics Cardiac stimulants NSAIDs Opioid Analgesics (some limits in some states) Anti-inflammatories Sedatives ```

Answer 199

Prescription must be for dental treatment only

Answer 200

``` Patient’s name (scripts not transferable) Name & address of practitioner (preprinted form) Drug name (preferably generic name) Drug form (tablets, capsules etc) Drug strength (eg. 15 mg) Drug Quantity (eg. 30) Dose & frequency of administration Signature of Prescriber Date of Prescription ```

Answer 201

1. Same quantitative composition of therapeutically active substances 2. Same Pharmaceutical Form 3. Bioequivalent 4. Same safety and efficacy properties

Answer 202

``` H1 & H2 antagonists Nicotine replacements Antifungals Morning after pill Statins PPIs Loperamide Fexofenadine Ibuprofen ```

Answer 203

Codeine: due to increased domestic abuse Pseudoephedrine: use in manufacturing of meth

Answer 204

Anticoagulation Drugs

Answer 205

Bronchodilators

Answer 206

Seconds - very rapid onset Example: Ligand gated Cl Channel

Answer 207

Minutes - rapid onset Example: G-protein coupled receptor

Answer 208

Hours - slow onset, as these receptors regulate gene transcription => proteins/enzyme creation

Answer 209

True Increased elimination => decreased concentration

Answer 210

True Decreased elimination => increased concentration

Answer 211

True Increased elimination => decreased concentration

Answer 212

False If it was cleaned by the renal system, we would expect a high recovery % in urine. The drug is therefore metabolised in the liver

Answer 213

Lingual administration tablets

Answer 214

1. Poor Absorption: Fat Insoluble 2. Active transport for absorption unavailable due to saturation 3. Breakdown by stomach acid 4. Liver First Pass Metabolism

Answer 215

Increased likelihood of overdose in small changes in dosage Example: Morphine

Answer 216

More likely to be easily available over-the-counter or legal drugs since toxicity dosage is relatively high Example: Paracetamol, Ibuprofen, Caffeine

Answer 217

Drug Safety Drug Efficacy Quality of Tablet Formulation

Answer 218

Bradycardia - slow heart action | Dry Mouth - due to effects on sympathetic nervous system

Answer 219

Miconazole is a broad spectrum antifungal agent, absorbed through skin. When taken with warfarin inhibits P450 CYP2C9 pathway in the liver 1. Warfarin metabolism reduced 2. Increased Warfarin plasma concentration 3. Increased anticoagulation effect (increased warfarin effectiveness) Dangerous as warfarin has narrow TI Big change in INR - measure for blood clotting

Answer 220

Works as an opioid receptor antagonist

Answer 221

Myasthenia Gravis is an autoimmune disease causing muscle weakness. It attacks Acetylcholine (ACh) receptors - hence poor muscle contraction Neostigmine inhibits Acetylcholinesterase (enzyme that breaks down ACh) in Synaptic Cleft => hence more ACh to counteract effect of antibody

Answer 222

Septicaemia: systemic infection caused by microorganisms multiplying in circulation Sepsis: body’s inflammatory reaction to severe reaction

Answer 223

Natural Substances: Bacteria, Fungi/Moulds, Plants

Answer 224

Synthetic / Semi-synthetic

Answer 225

Bacteriostatic: Reduces multiplication rate allowing the body’s immune system to combat Bacteriocidal: Direct kills and reduces population

Answer 226

People with reduced immune function: 1. Age - Elderly 2. Immunocompromised/suppressed: HIV, medication, organ transplant, malnutrition, stress Antibiotics can reduce bacterial levels to a low enough level for the suppressed immune system to cope with clearing the infection

Answer 227

1. Inhibit cell wall synthesis (bactericidal) Penicillins, cephalosporins 2. Disrupt cell membrane (bactericidal) Anti-fungals 3. Inhibit metabolism (folic acid) (bacteriostatic) Trimethoprim sulphamethoxazole 4. Inhibit protein synthesis (bacteriostatic) Tetracyclines, macrolides (bacteriostatic), gentamicin (bacteriocidal)

Answer 228

1. Narrow spectrum: active against a few species Benzylpenicillin: mainly G +ve bacteria 2. Moderate spectrum: active against several species Amoxicillin: G-ve cocci, some G+ve bacteria e.g. E. coli, salmonella, shigella 3. Broad-spectrum: effective against many species Tetracyclines: G+ve and –ve bacteria, chlamydia Clinical Application: narrow spectrum better: reduce harming native microflora + minimal side effects on body

Answer 229

The lowest concentration of an antimicrobial that will inhibit the visible growth of a microorganism in 24 hours, usually reported as mg/L

Answer 230

Increased MIC indicates increased antibiotic resistance, reducing the efficacy of the antibiotic.

Answer 231

1. Time Dependent Killing (dose/time above MIC) | 2. Concentration-Dependent Killing (peak concentration level above MIC)

Answer 232

1. Side Effects 2. Hypersensitivity 3. Resistance

Answer 233

``` Nausea (Most Common) Vomiting Diarrhea Colitis (in chronic usage) Opportunistic Infections (candida) ```

Answer 234

1. Type 1 Anaphylaxis (particularly in IV dose) | 2. Delayed reaction (eg maculopapular or morbilliform rash)

Answer 235

1. Over usage / Incomplete usage 2. Usage of potent AB in intensive agriculture spreading from animals => humans 3. Globalisation: resistance travelling across countries due to human movement + air travel

Answer 236

1. Enzymes that inactivate drug: beta-lactamase and penicillins 2. Changes to drug binding site: penicillins, macrolides 3. Drug pumped out of microbe: tetracyclines 4. Microbe makes alternative enzyme bypass pathway: sulphonamides

Answer 237

MIND ME M: microbiology: knowledge of the infection/bacteria guides therapy wherever possible I: Indications should be evidence based N: Narrowest spectrum required D: Dosage appropriate to the site and type of infection M: Minimise duration of therapy E: Ensure monotherapy in most situations

Answer 238

1. Prophylactic - prevent infection in clinical settings where there is a significant risk of infection 2. Empirical [More important for dentists] - Causative bacteria not proven 3. Directed - Culture susceptibility test results guide therapy

Answer 239

In situations where an infection is likely and consequences would be disastrous: 1) Open Surgery 2) In dentistry: surgical operations to prevent endocarditis (risk groups - Indigenous with Rheumatic Fever, prosthetic heart valve)

Answer 240

1) Oral: requires high bioavailability 2) IV (Parenteral): where oral route can't be taken or urgent treatment needed 3) Topical 4) Intradental: Odontopaste and Ledermix in reducing bacteria in canal during RCT

Answer 241

Clindamycin

Answer 242

Tetracycline

Answer 243

1. β-lactams (Variable in Spectrum): Penicillins 2. Cephalosporins (Moderate spectrum): cephalexin, cephazolin 3. Glycopeptides: Parenteral Route : vancomycin and teicoplanin 4. Macrolides: Roxithromycin 5. Lincosamides: Clindamycin and lincomycin 6. Tetracyclines: Doxycycline 7. Nitroimidazole: Metronidazole. Tinidazole

Answer 244

1. Use narrowest spectrum antibiotic to treat disease 2. Safest 3. Avoid topical administration of a drug used systemically 4. Don’t use combinations unless proven usage 5. Don’t give prophylactically unless benefit proven 6. Lowest Cost

Answer 245

Reduce impact on normal flora Reduce selection pressure for resistance

Answer 246

1) Prosthetic heart valve 2) Previous Endocarditis 3) Congenital heart disease (if involves unrepaired cyanotic defects, unepitheliated prosthetics) 4) Cardiac Transplantation that develops cardiac valvulopathy 5) Rheumatic Heart Disease in Indigenous Australians only

Answer 247

If there is: 1. Multiple procedures done at once 2. Procedure is prolonged 3. Periodontal disease present Procedures include - Full Perio probing - Intraosseous/intraligamentary LA - Supragingival scaling - Rubber Dam placement - Restorative matrix band placement - Endodontics beyond apical foramen - Placement of orthodontic bands - Placement of intradental wedges - Retraction cord placement

Answer 248

1. Clearance 2. Bioavailability 3. First Pass

Answer 249

1. Disease - Liver + Kidney Disease 2. Age 3. Drug Interactions via medications, vitamins and supplements 4. Diet/Food 5. Environment 6. Pregnancy

Answer 250

False - bioavailability has to do with GIT/liver function (first pass), not kidney (clearance)

Answer 251

Reduced filtration and secretion in parallel

Answer 252

Reduce maintenance dose - as major route of elimination is reduced by impaired renal excretion

Answer 253

1. Bioavailability: No change 2. Clearance: reduced due to reduced enzyme clearance 3. Dosing regimen: reduce the maintenance dose

Answer 254

1. Bioavailability: increased 2-5x 2. Clearance: decreased due to decrease flow and enzyme activity 3. Dosing regimen: reduce the maintenance dose

Answer 255

Avoid if possible. Potential damage includes: 1. Foetal damage (1st trimester) 2. Decreases growth and development in 2nd and 3rd trimester Consult AMH and Product information leaflets for drug pregnancy category and any contraindications

Answer 256

No Risk Drugs taken by large number of pregnant women with no increase in malformations or other direct harmful effects on foetus e.g. paracetamol

Answer 257

Limited Risk Drugs taken by limited number of pregnant women B1: With no increase in malformations or other direct harmful effects on the foetus, animal studies no evidence of toxicity (ok) e.g. Amoxicillin B2: With no increase in malformations or other direct harmful effects on foetus, animal studies inadequate but no toxicity (probably ok) e.g. Dicloxacillin (Another less common penicillin based AB) B3: With no increase in malformations or other direct harmful effects on the foetus, animal studies show evidence of toxicity (avoid) e.g. Trimethoprim (AB for UTI, Middle Ear Infection)

Answer 258

Avoid Drugs with pharmacological effects that cause/may be suspected of causing harmful effects on fetus without malformation - eg Ibuprofen

Answer 259

Avoid - increased chance of fetal damage Drugs with pharmacological effects that cause/expected of causing increased incidence of human fetal malformation/irreversible damage - eg Fluconazole (anti-fungal)

Answer 260

Do not use - high risk of permanent fetal damage Should not be used in pregnancy/possibility of pregnancy - eg Oral Isotretinoin for Acne

Answer 261

1. Decreased GI motility: Slower absorption of drugs 2. Kidney: GFR and secretion increased - eg higher dose needed for Amoxycillin due to 70% higher clearance rate 3. Liver: Hepatic metabolism increased due to increased enzyme activity 4. Maintenance dose of some drugs increased (Phenytoin or epilepsy)

Answer 262

Higher pharmacokinetics and pharmacodynamics - renal and hepatic clearance higher on kg basis compared in adults. Therefore higher maintenance dose compared to adults

Answer 263

Pharmacokinetics and pharmacodynamics start to resemble adults so transition to adult versions of the medication

Answer 264

1. Likely to be using multiple medications 2. Side effects from drug / drug interactions 3. Altered pharmacokinetics 4. Altered pharmacodynamics

Answer 265

Principle: start low and go slow 1. Slower gut function: decreased absorption rate 2. Decreased renal function → decreased renal clearance 3. Decreased liver function and decreased enzyme activity (decreased clearance, increased bioavailability) 4. Decreased normal maintenance dose

Answer 266

Principle: lower dosage 1. Increased sensitivity to CNS acting drugs: Sedatives, antidepressants, opioids 2. Decreased homeostasis: Postural hypotension from antihypertensives

Answer 267

Decreased drug effect as less codeine can be metabolised into the morphine active form. However a smaller subset who are ultrarapid metabolisers could deliver toxic doses to their babies through breastfeeding, even though they themselves are safe

Answer 268

Autosomal Recessive are poor metabolisers - likely decreased clearance for some medications (Perphenazine for schizophrenia), toxic overdose for other medications (Dextromethorphan for dry-cough)

Answer 269

Decreased dosage in medications to accommodate the poorer metabolism of that drug in the population

Answer 270

Alteration in ALDH2 gene - decreased activity of alcohol dehydrogenase => accumulation of alcohol => facial flushing, tachycardia, muscle weakness

Answer 271

Cigarette smoke => induces CYP1A2 enzyme in liver => increased caffeine clearance

Answer 272

Lower Metabolism = Inhibits CYP3A4 enzyme in gut wall Therefore increases bioavailability of Cyclosporine (organ transplant immunosuppresant) + statins (cholesterol lowering drugs)

Answer 273

False, drug drug interactions typically alter clearance. Bioavailability is rarely affected. - Hepatic clearance is increased or decreased - Renal clearance decreased

Answer 274

True - the interaction could result in an exaggerated or reduce response to the index drug

Answer 275

1. Inducer Drug A will induce the transcription of the enzyme that can metabolise Drug B 2. Drug B plasma concentration decrease 3. Disease returns as insufficient effect of Drug B 4. If inducer drug ceased, Drug B dosage should be reduced as metabolism has slowed

Answer 276

Anticonvulsants - Carbamazepine - Phenytoin Others - Rifampicin (tuberculosis) - Tobacco smoke - St John’s Wort (Depression) - Some Antivirals (AIDS)

Answer 277

1. Competition for same enzyme site 2. Drug A blocks the metabolism of drug B in the liver 3. Increased plasma concentration of Drug B - potentially toxic dose

Answer 278

``` Anti-infectives/Antibiotics - Metronidazole - Erythromycin, clarithromycin - Ketoconzaole/miconazole, - fluconazole (anti-fungals) - Quinolones (ciprofloxacin, norfloxacin) - Sulphonamides ``` Others - Grapefruit juice - Amiodarone - Omeprazole - Fluoxetine & other SSRIs antidepressants - Quinidine

Answer 279

1. Cleared by metabolism | 2. Narrow TI

Answer 280

1. Diuretics Reduced plasma volume => reduced renal blood flow Increased serum creatinine 2. Kidney Compensation via RAAS Constriction of efferent renal arteriole => increased glomerular filtration pressure Favours water + sodium retention => increased plasma volume 3. ACEI Inhibits constriction of efferent renal arteriole => lower glomerular filtration pressure 4. NSAIDs Inhibits prostaglandins / bradykinin => vasoconstruction of afferent renal atteriole Reduce kid ability to increases glomerular blood flow Result: Combination of all 4 factors, RAAS can’t compensate for actions of 3x drugs Acute reduction of glomerular filtration => rising serum creatinine levels Constriction lowering blood pressure going into bowman’s capsule => kidney failure => death

Answer 281

The antagonist and agonist counteract each other

Answer 282

Also known as superadditive drug/drug interaction that can have two forms: 1. Drug A + Drug B act on same target leading to increased mode of action or side effect: Amitriptyline + Ipratropium → very dry mouth 2. Drug A + Drug B act on different target but same effect: Alcohol + Heyfever Medication (CNS Depressants)

Answer 283

Powerful liver enzyme inducer => Lowers blood concentrations of other drugs. Linked to inhibiting Cyclosporin (immunosuppressant) for heart/kidney transplant => kidney failure

Answer 284

1. Inhibit CYP enzymes in the small intestine that create an active metabolite (lower bioavailability) 2. Inhibit CYP enzymes in the small intestine that create an inactive metabolite (higher bioavailability) eg Statins 3. Block protein transporters that carry the drug into the liver (lower bioavailability)

Answer 285

Calcium binds to antibiotic molecule reducing the plasma concentration

Answer 286

Calcium binds to antibiotic molecule reducing the plasma concentration

Answer 287

Ferrous molecules binds to Ciprofloxacin (Fluoroquinolone Antibiotic) molecule reducing the plasma concentration

Answer 288

1. Look at patient’s drug list for any with narrow TI & prone to pharmacokinetic interactions 2. Examine any drugs that have a superadditive (potentiating) or antagonistic effect 3. Fully examine patient's past medication usage 4. Also examine herbal medicines, vitamins and supplements

Answer 289

Any response to a drug which is unintended, harmful and which occurs at a dose usually given to humans for management of disease

Answer 290

An injury resulting from medical intervention related to a drug

Answer 291

Augmented or increased effect - Effects are Predictable + Dose related - Manage by decreasing dosage - High risk of morbidity (disease) - Low risk of mortality Examples - Caffeine → nervousness, palpitations - Benzodiazepines → excessive sedation - Codeine → constipation

Answer 292

Bizarre effect - Not predictable from known in pharmacology of drug - Not dose related - Low risk of morbidity (disease) - High risk of mortality - Example: Anaphylaxis / Allergies fpr Penicillin

Answer 293

Long Term Effects 1) Heroin: Dependence + Tolerance 2) Stilboestrol (to prevent miscarriage): caused vagina cancers, auto-immune disease (lupus) and infertility in daughters of the mothers taking the drug 3. Osteonecrosis in Jaw from long term bisphosphonate usage

Answer 294

Delayed Effect Example: Thalidomide causing limb deformities in newborns

Answer 295

Toxicity from Chemotherapy

Answer 296

The science of recording and studying adverse drug reactions

Answer 297

1. Elderly: Altered pharmacokinetic & pharmacodynamics, multiple medications 2. Infants: Immature organs for drug elimination 3. Females > Males 4. People on Multiple Medications 5. Kidney / Liver Disease 6. Ethnicity and Pharmacogenetics (CYP2D5 Poor Metabolisers)

Answer 298

1. Local reactions: chemical burns (aspirin), opportunistic infections (asthma inhalers/topical antibiotics) 2. Systemic reactions: immunesuppressions due to Systemic steroids → stomatitis (herpes simplex) or candida 3. Stevens-Johnson Syndrome (Severe Erythema Multiforme): severe oral ulceration 4. Drug induced Lichenoid Reaction: Allopurinol, Furosemide 5. Gingival Hyperplasia: Calcium Channel Blockers, Cyclosporine, Phenytoin 6. Xerostomia