Pharmacology Flashcards

Question 1

Q

mechanism of action on benzodiazepines

Answer

A

GABA A receptor agonist which potentiates effects of GABA nad increased frequency of Cl channel opening (activates Cl channels)

Question 2

Q

mechanism of action of melatonin

Answer

A

binds to MT1 receptors in suprachiasmic nucleus of anterior hypothalamus and regulates circadian rhythm

Question 3

Q

mechanism of action of methyphenidate

Answer

A

inhibits reuptake of dopamine and noradrenaline so increases level of dopamine and noradrenaline in basal ganglia
sodium dependent dopamine transporter inhibitor

Question 4

Q

side effects of methylphenidate

Answer

A

reduced appetite
sleep disturbance
hypertension

Question 5

Q

mechanism of action of atomextine

Answer

A

noradrenergic effect via alpha and beta receptors

Question 6

Q

side effects of atomextine

Answer

A

hypertension
tachycardia
stroke, heart attacks
sudden death

Question 7

Q

mechanism of action of rituximab

Answer

A

targets CD20 surface molecule on B cells

Question 8

Q

mechanism of action of tociluzumab

Answer

A

acts by inhibiting IL-6 and prevents inflammation

Question 9

Q

mechanism of action of adalidumab

Answer

A

binds to TNF-alpha and neutralises its bioactivity and causes apoptosis of TNF expressing mononuclear cells

Question 10

Q

mechanism of action of IV immunoglobulin

Answer

A

blocks fragment crystallisable receptors and reduces haemolysis

Question 11

Q

mechanism of action of vigabatrin

Answer

A

inactivates GABA transaminase so inhibits GABA breakdown

Question 12

Q

side effects of vigabatrin

Answer

A

diplopia
reduced peripheral vision
optic neuritis
retinal atrophy
aggression
alopecia

Question 13

Q

mechanism of action of phenobarbital

Answer

A

binds to GABA -A receptors and prolongs chloride channel opening time and increases threshold for action potential and depressing central nervous system

Question 14

Q

mechanism of action of phenytoin

Answer

A

blocks voltage gated Na channels and reduces synpatic transmission

Question 15

Q

side effects of phenytoin

Answer

A

hair changes - excessive hair growth
nystagmus
teratogenic
gingivial hypertrophy
vit D deficiency

Question 16

Q

mechanism of action of sodium valproate

Answer

A

reduction of catabolism of GABA to increase availability of GABA.
blocks voltage gated Na channels and suppresses neuronal hyperexcaitability

Question 17

Q

side effects of sodium valproate

Answer

A

teratogenic
increased appetite and weight gain
insulin resistance and metabolic syndrome
easy bruising
hair loss
tremor

Question 18

Q

mechanism of action of retinoids

Answer

A

vitamin A derivative

Question 19

Q

features of fetal retinoid syndrome

Answer

A

small low set ears
stenosis of ear canals +/- deafness
microcephaly
celft lip and palate
transposition of great arteries, hypoplastic l heart syndrome

Question 20

Q

mechanism of action of lidocaine

Answer

A

prolongs inactivation of voltage gated sodium channels which prevents action potentials firing

Question 21

Q

mechanism of action of bisphosphonates

Answer

A

inhibits osteoclast actvity

Question 22

Q

mechanism of action of oxybutynin

Answer

A

muscarinic receptor antagonist for acetylcholine which causes relaxtion of bladder smooth muscle to increase capacity

Question 23

Q

mechanism of action of desmopressin

Answer

A

synthetic analogue of ADH - increases cellular permeability of collecting ducts and increases reabsorption of water

Question 24

Q

mechanism of action of adenosine

Answer

A

A1 adenosine receptor agonist which reduces conduction time in AV node by inhibiting calcium influx and promoting K efflux

Question 25

Q

1/2 life of adenosine

Answer

A

10 secs -> give large vein close to heart

Question 26

Q

mechanism of action of amiodarone

Answer

A

potassium channel blocker which prolongs action potential

Question 27

Q

side effects of amiodarone

Answer

A

pulmonary fibrosis
hypothyroidism
corneal deposits
photo sensitivity rash

Question 28

Q

mechanism of action of milrinone (phosphodiesterase 3 inhibitor)

Answer

A

+ve inotrope and vasodilator
competitive phosphodiesterase 3 inhibitor that inhibits degradation of camp and increase cAMP to increase myocardial contractility, promotes myocardial relaxation and reduced vascular tone in circulation

Question 29

Q

mechanism of action of atropine

Answer

A

blocks vagal impulses

Question 30

Q

mechanism of action of statins

Answer

A

inhibits HMG Co-a and reduces LDL cholesterol levels

Question 31

Q

mechanism of action of ezetimibe

Answer

A

inhibits dietary cholesterol absorption in intestine by blocking NPC1L1 at brush border

Question 32

Q

mechanism of action of trimethoprim

Answer

A

dihydrofolate reductase inhibitor so blocks DNA synthesis

/ inhibition of tetrahydrofolic acid synthesis

side effect: rise of creatinine

Question 33

Q

side effects of rifampicin

Answer

A

orange bodily fluids
liver dysfunction
potent enzyme inducer (effects INR)

Question 34

Q

side effects of isoniazid

Answer

A

peripheral neuropathy (vit B6 deficiency)
deranged liver function
agranulocytosis
cutaneous adverse reactions
seizures (if in newborn)

Question 35

Q

side effects of ethambutol

Answer

A

visual disturbances
ocular toxicty

Question 36

Q

treatment of TB meningitis

Answer

A

12 months rifampicin and isoniazid
2 months pyrazinamide and ethambutol
initial steroids

Question 37

Q

mechanism of action of fusidic acid

Answer

A

inhibit protein synthesis (bacteriostatic effect)

Question 38

Q

mechanism of action of aminoglycoside

Answer

A

eg. gentamicin, amikacin
inhibit protein/ bacterial synthesis (binds to 30S ribosome)

Question 39

Q

side effects of gentamicin

Answer

A

vestibulo toxicity -> hearing loss
nephrotoxicity

Question 40

Q

how is heparin monitored

Answer

A

anti Xa levels

Question 41

Q

antidote of unfractioned heparin

Answer

A

protamine

Question 42

Q

mechanism of action of ibuprofen

Answer

A

reduces prostaglandin synthesis through non selective inhibition of COX 1 and 2

Question 43

Q

mechanism of action of osmotic diuretic e.g. mannitol

Answer

A

osmosis in the proximal renal tubule.
does not cross blood brain barrier - increases intravascular volume and promotes fluid shift from brain to blood to prevent cerebral oedema

Question 44

Q

mechanism of action of potassium sparing diuretics e.g. spironolactone

Answer

A

block action of aldosterone at collecting duct leading to loss of Na and water excretion (retain K and H ions)

Question 45

Q

mechanism of action of loop diuretics e.g. furosemide, bumetanide

Answer

A

inhibit Na-K-Cl co transporter in thick ascending limp of loop of henle causing loss of Na, K, Cl and water in the urine

Question 46

Q

side effect of furosemide

Answer

A

metabolic alkalosis
dizziness
headache
hypokalaemia
hyponatraemia
hypocalcaemia

Question 47

Q

mechanism of action of thiazide diuretics e.g. bendroflumethiazide

Answer

A

acts at proximal part of distal convulated tubule

Question 48

Q

mechanism of action of prostaglandin E1

Answer

A

acts on E4 receptors on smooth muscle of ductus coupled to Gs GPCR and causes smooth muscle relaxation and patent ductus arteriosus

Question 49

Q

side effects of prostaglandin E1

Answer

A

apnoea
resp depression
tissue oedema
fever
seizures

Question 50

Q

side effects of calcium channel blockers

Answer

A

gym hypertrophy (nifedipine)
constipation
bradycardia
hypotension
AV blocker
vertigo

Question 51

Q

side effects of corticosteroids

Answer

A

1st week - insomnia *, psychosis
prolonged - diabetes, immunosuppression, pathological fractures (osteoporosis)
striae
acne
hypertension
glaucoa
reduction in growth velocity

Question 52

Q

mechanism of action of low dose of adrenaline

Answer

A

acts at beta 1 adrenoreceptors in myocardium (in the heart) to increase contractility and reduced systemic vascular resistance

Question 53

Q

mechanism of action of high doses of adrenaline

Answer

A

acts at alpha 1 ** and 2 adrenoreceptors on peripheral vasculature (in veins + arterioles) to cause vasoconstriction to increase systemic vascular resistance (IN ANAPHYLAXIS)

Question 54

Q

mechanism of action of ipratropium

Answer

A

anti muscarinic bronchodilator and cholingeric receptor blocker

Question 55

Q

side effects of ipratropium

Answer

A

myodriasis
flushing of skin
hyperthermia
dry skin
agitation

Question 56

Q

mechanism of action of salbutamol

Answer

A

beta 2 adrenergic receptor agonist
activates adenyl cyclase to form cAMP and relaxes smooth muscle

Question 57

Q

mechanism of action of montelukast

Answer

A

leukotriene receptor antagonist which reduces bronchoconstriction and inflammation in asthma

indicated , 5 y/o when unable to use iCS

Question 58

Q

mechanism of action of aminophylline

Answer

A

phosphodiesterase inhibitor (type 3) to relax smooth muscle

Question 59

Q

mechanism of action of penicillin

Answer

A

inhibit bacterial cell wall synthesis

Question 60

Q

mechanism of action of quinolones e.g. ciprofloxacin

Answer

A

inhibit DNA gyrase

Question 61

Q

side effects of vancomycin

Answer

A

red man syndrome (GIVE SLOWLY IV)
ototoxicity - auditoray portion of VIII cranial nerve
nephrotoxicity - interstitial nephritis short term

Question 62

Q

mechanism of action of dornase alpha

Answer

A

endonucleatic cleavage of extracellular DNA and reduces sputum viscosity (used in CF)

Question 63

Q

mechanism of action of WARFARIN

Answer

A

vitamin K antagonist and reduces factors 2, 7, 9 , 10 and protein C and S

Question 64

Q

mechanism of action of ondansetron

Answer

A

selective 5-HT3 (serotonin) receptor antagonist

Answer 65

A

reduces hepatocellular apoptosis

Answer 66

A

block Na channel so reduces rate of depolarisation of phase 0 without changing length of duration of action potential

Answer 67

A

inhibit prostaglandin E2 synthesis
prostaglandin E2 relaxes smooth muscle and inhibits closure of patent ductus arteriosus
NSAID

Answer 68

A

inhibit protein synthesis (at 50S subunit)

Answer 69

A

hyperprolactinaemai e.g. enlarged breast, secondary amenorrhoea, reduced libido (risperidone ***)
extrapyramidal symptoms - tremor, parkinson like symptoms, tradive dyskinsea

Answer 70

A

inhibit dopamine D2 receptors in mesolimbic pathway

D2, 5-HT, alpha 1 and histamine antagonist

Answer 71

A

5HT-1D (serotonin) receptor agonist resulting in vasoconstriction of cranial blood vessels

Answer 72

A

inhibit mycolic acid synthesis
selective for mycobacteria

Answer 73

A

dystonic reaction!
can occur in 25% in first 24 hours
torsion of neck, fixed glaze
treat with IV procyclidine

Answer 74

A

IV dantrolene

Answer 75

A

rigidity, fever, tachycardia

Answer 76

A

acclerates anti thrombin dependent inactivation of factor Xa

CAUSES REDUCED THROMBIN PRODUCTION AND LESS FIBRINOGEN CONVERTED TO FIBRIN AND FEWER CLOTS

Answer 77

A

carbonic anyhydrase inhibitor
Increases secretion of bicarbonate, Na, K, water from kidneys - therefore at risk of metabolic acidosis

Answer 78

A

mild = hydrocortisone
moderate = eumovate, trimovate
potent = betnovate
very potent = dermovate

Answer 79

A

yellow discolouration of teeth
not licensed <12 y/o and during breatsfeeding
dental hypoplasia

Answer 80

A

inhibits microtubule activity

motor and sensory neuropathies
ataxia
LOSS OF ANKLE JERKS

Answer 81

A

GI bleeding
GI upset
headache
dry mouth, excessive sweating
loss of libido
insomnia

Answer 82

A

modulates voltage gated sodium channels
potentiates GABA inhibition
blocks glutamate neurotransmision

Answer 83

A

nephrolithiasis

Answer 84

A

chronic interstitial nephritis
excessive growth and thickness of hair
gum hypertrophy

Answer 85

A

inactivates TNF alpha with high affinity

IgG monoclonal antibody

Answer 86

A

inhibit leukotrienes

Answer 87

A

nausea and vomiting, anorexia, liver enlarged and tender -> acute liver failure, lactic acidosis, hypoglycaemia

Answer 88

A

N-acetylcysteine - replaces gluthione stores , 21 hour regime

(activated charcoal if within 1 hour of ingestion)

Answer 89

A

ataxia, slurred speech, nystagmus, blurred vision, sedation, hallucinations

Answer 90

A

flumzenil - benzodiazepine receptor site antagonist

Answer 91

A

hypoventilation, hypotension, mioism, sedation, bradycardia

Answer 92

A

naloxone - competitive antagonist of opioid receptor

Answer 93

A

abdo pain, vomiting, constipation, headache, irritable, encephalopathy, hypertension, fanconi syndorme, nephritis

Answer 94

A

blood lead levels
FBC
peripheral smear - basophilic stripping of RBC

Answer 95

A

chelation, DMSA, penicillamine

Answer 96

A

nausea and vomiting
tinnitus
deafness
dehydration, sweating
restless
pulmonary oedema
confusion, seizures

Answer 97

A

initially = resp alkalosis
progresses = metabolic acidosis

Answer 98

A

plasma salicylate levels:
2 hours if symptomatic
4 hours if asymptomatic

Answer 99

A

activated charcoal if < 1 hour
gastric lavage
dialysis

Answer 100

A

headache, dyspnoea, coma, convulsions, death

Answer 101

A

100% oxygen

Answer 102

A

fomepizole - inhibitor of alcohol dehydrogenase

Answer 103

A

atropine
IV glucagon (stimulate cAMP)

Answer 104

A

H1 histamine antagonist whichg acts at H1 receptors in chemoreceptor trigger zone in vestibular nucleus - acts at medulla oblongata

Answer 105

A

urinary retention, sedation

Answer 106

A

3mg oral morphine = 1.5 mg s/c or iV morphine morphine = 1mg diamorphine

Answer 107

A

binds to voltage gated Na channels and extends inactivated phase to prevent rapid action potentials

Answer 108

A

acts at voltage gated N channels to inactivate them

Answer 109

A

rash -> stevens johnson syndrome
ATAXIA

Answer 110

A

calcium channel blocker -> reduces calcium channel (T type) currents in thalamic neurones

Answer 111

A

nausea, vomiting
sleep disturance
drowsiness
hyperactivity
distinctive taste - poor compliance

Answer 112

A

fatiguable weakness - proximal , upper limb, worse throughout the day
eye lid weakness (ptosis)
reduced facial expression
speech and swallowing problems

Answer 113

A

EMG conduction studies
antibody testing
improvement with anticholineresterase edriohonism

Answer 114

A

prevent conversion of angiotensin 1 to angiotensin 2 so they reduce aldosterone secretion
reduces preload and afterload in HF by decreasing vascular resistance

Answer 115

A

increase stroke volume and decrease contractility of heart

Answer 116

A

cardiac glycoside inhibits Na/K ATPase that increases intracellular Na and secondary increase in intracellular Ca increasing force of contraction

Answer 117

A

catecholaemine that stimulates beta 1, alpha 1 and dopaminergic receptors

Answer 118

A

sympathomimetic :
1. beta 1 stimulation (stronger than alpha) - increases contractility
2. beta 2 stimulation - systemic vasodilation

Answer 119

A

decreases gluconeogenesis and increases peripheral utilisation of glucose

Answer 120

A

causes cell apoptosis

haemorrhagic cystitis

Answer 121

A

inhibits topiosomerase §

dilated cardiomyopathy

Answer 122

A

rituximab
cyclophosphamide
doxorubicin
vincristine
prednisolon

Answer 123

A

clarithromycin
fluoeoquinolones
anti malarials
ketonazole

Answer 124

A

used in B cell leukaemia

targets CD19 antigens on B lymphocytes

Answer 125

A

1 IN 1000 IM adrenaline

< 6 MONTHS - 0.15ml
6m-6 y/o - 0.3ml
> 6 y/o - 0.5ml

Answer 126

A

carbamazepine
phenytoin
lamotrigine
phenobarbital

Answer 127

A

bind to 50s subunit to inhibit bacterial synthesis

Answer 128

A

muscarinic acetylcholine M1 receptor antagonist

causes dilatation of the eye and prevents accommodation for eye exams e.g. ROP exams

Answer 129

A

binds to M1, M2 and M3 muscarinic acetylcholine receptors

constricts pupils and used in management of raised intra-ocular pressure and to induce myosis

Answer 130

A

xanthine oxidase inhibior directly and through its active metabolite

Answer 131

A

binds and inhibits muscarinic (M1-M5) acetylcholine receptors to block the action of pupillary sphincter muscle and cause pupil dilatation

Answer 132

A

flushing
dilated pupils
blurred vision
dry mouth
tachycardia
(autonomic symptoms)

Answer 133

A

inhibits migration of neutrophils (polymorphonuclear leukocytes)

Answer 134

A

blocks muscarinic receptors in smooth muscle GI tract (anticholinergic)

Answer 135

A

H1 antagonist

Answer 136

A

inhibition of calcium ion influx at L type calcium channels causing peripheral vascular resistance to decrease

Answer 137

A

H2 receptor blocker

Answer 138

A

beta 1 (cardiac myocytes) and 2 (peripheral blood vessels) receptor antagonist

Answer 139

A

competitive acetylcholine receptor antagonist
used to cause muscle paralysis

Answer 140

A

inhibit synthesis of bacterial cell wall (treats MRSA)

Answer 141

A

inhibit synthesis and proliferation of DNA

Answer 142

A

inhibit 50s subunit of ribosome
treat typhoid, otitis externa and bacterial conjunctivitus

Answer 143

A

modulates synaptic vesicle protein 2a

Answer 144

A

dopamine receptor antagonist

SE= dry mouth, constipation

Answer 145

A

phospodiesterase V inhibitor to cause vasodilation

Answer 146

A

blocks adenosine receptors and causing increase sensisitivity to CO2

Answer 147

A

leukopenia, anaemia, thromboctypenia
monitor FBC

Answer 148

A

flushing
dilated pupils
blurred vision
tachycardia
dry mouth

Answer 149

A

dilated pupils
tachycardia
dry skin
hot
confusion

Answer 150

A

constricted pupils
bradycardia
drowsy
coma
seizures
resp depression
urinary retention

Answer 151

A

agranulocytosis
arrhythmias
fludi retention
hypotension

Answer 152

A

anaemia
diarrhoea
hepatic and electrolyte abnormalities

Answer 153

A

haemorrhage
vasodilation
arrhythmias
GORD

Answer 154

A

inhibition of purine nucleotide synthesis

Answer 155

A

desferroxamine iV

Answer 156

A

sweaty
dilated pupils
increased tone
increased reflexes
agitated

Answer 157

A

neurominadase inhibitor
hydrolyses sialic acid residues on host cells to release newly formed virions

Answer 158

A

acts at presynaptic cholinergic nerve terminals and inhibits release of acetylcholine

Answer 159

A

e.coli
pseudomonas
burkholderia

Answer 160

A

c.diff
listeria

Answer 161

A

act at ATP sensitive K channel in beta cells -> increases channel closing so insulin is released

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Pharmacology Flashcards

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