Pharmacology 11: Anti-epileptic drugs and drugs used in movement disorders

Question 1

why do generalised seizures cause immediate loss of cocnsciousness?

Answer 1

the reticular system of the brain involved in consciousness is affected

Question 2

what is the difference between partial and generalised seizures?

Answer 2

partial= impulse discharges begin in localised area of brain, so symptoms reflect area involved e.g. abnormal sensations or thoughts, a change in behaviour, or an involuntary motor action.
generalised= whole brain affected, including reticular system- so immediate loss of consciousness. Spread quickly and generated centrally. Further divided into tonic-clonic= body goes rigid, then starts shaking due to oscillation between inhibitory and excitatory stimulation, and absence seizures= go into a trance, no shaking, unaware of things around them.

Question 3

what is a seizure

Answer 3

episodic discharge of high frequency impulses in the brain

Question 4

what defines epilepsy?

Answer 4

tendency towards recurrent seizures (recurrent is the key)

Question 5

which anti-epileptics enhance the action of the inhibitory neurotransmitter GABA A?

Answer 5

benzodiazepines
phenobarbitone

so these increase Cl current into neurone causing hyperpolarisation of neurones, reducing their excitability, with an increased threshold for AP generation. Em made more -ve, and reduces likelihood of epileptic neuronal hyperactivity.

Question 6

which anti-epileptics inhibit Na+ channel function?

Answer 6

phenytoin
valproate
carbamazepine
lamotrigine

Question 7

which anti-epileptics inhibit Ca2+ channel function?

Answer 7

ethosuximide

gabapentin

Question 8

1st line therapy for primary generalised seizures (both tonic-clonic and absence)?

Answer 8

valproate sodium

DON’T GIVE IN WOMEN OF CHILD BEARING AGE!*

Question 9

1st line therapy for partial/focal seizures?

Answer 9

carbamazepine (or generalised tonic-clonic) and lamotrigine (all)
can use sodium valproate if carbamazepine or lamortrigine CI or not tolerated
if monotherapy unsuccessful with 2 of these 1st line drugs, can give adjunctive tment.

Question 10

drug that can be used for both primary generalised seizures and partial seizures, and is probably drug of choice for women of childbearing age?

Answer 10

lamotrigine

Question 11

1st line therapies for acute life threatening status epilepticus?

Answer 11

benzodiazepines and pheyntoin
lorazepam (0.1mg/kg) preferred- longer PD t1/2 than diazepam, IV or rectal if IV access difficult
*phenytoin= 0 order kinetics (15-20mg/kg) so can reach therapeutic and toxic levels rapidly. Must do caridac monitoring for arrhythmias and hypotension.

Question 12

risk if patient with frequent fits stop anti-epileptic therapy during pregnancy?

Answer 12

status epilepticus, and harm to both themselves and the baby.

Question 13

what is status epilepticus?

Answer 13

a prolonged seizure of any type

Question 14

how is status epilepticus defined?

Answer 14

a single convulsion lasting >30mins or convulsions occurring back to back with no recovery between them

Question 15

investigations for seizures?

Answer 15

blood gases
bedside glucose
lab Us and Es and calcium
further tests to ascertain underlying causes e.g. CT/MRI especially in trauma or focal fits

Question 16

why can a therapeutic level of phenytoin be reached quickly, making it 1st line tment IV for emergency seizure tment?

Answer 16

has 0 order kinetics so rate of drug elimination is constant

Question 17

precipitants of seizures in epilepsy?

Answer 17

Sensory stimuli: e.g. flashing lights/strobes or other periodic sensory stimuli
Brain Disease/Trauma: Brain Injury
Stroke / Haemorrhage
Drugs/Alcohol
Structural abnormality/Lesion
Metabolic disturbances e.g. Hypo - glycaemia/calcaemia /natraemia
Infections e.g. Febrile convulsions in infants
Therapeutics e.g. Some drugs can lower fit threshold
AEDs + Polypharmacy: PKs lower levels e.g. anti-epileptic carbamazepine= CYP450 inducer, and because of this can increase metabolism of itself, so may result in levels of drug which are not therapeutically effective, and so can result in seizures.

Question 18

how is the firing rate of neurones brought back to normal with a voltage-operated Na+ channel blocker e.g. phenytoin?

Answer 18

prolongs inactivation state of Na+ channels so no more depolarisation can take place for a greater amount of time

carbamazepine and lamotrigine also works in this way

Question 19

what is the initial t1/2 of carbamazepine, and why does repeated use reduce its t1/2?

Answer 19

30 hrs
carbamazepine is a strong CYP450 inducer, and via this mechanism can increase the metabolism of itself by the liver, so repeated use causes increased drug phase 1 metabolism and so reduced t1/2 to 15hrs.

Question 20

protein binding of carbamazepine?

Answer 20

75%

Question 21

ADRs of carbamazepine?

Answer 21

dizziness
drowsiness
ataxia
motor disturbance
numbness
tingling
=all type A ADRs
Also GI upset= vomiting 
CV – can cause variation in BP 
Contraindicated with AV node conduction problems 
Rashes 
Hyponatraemia 
Rarely severe bone marrow depression – neutropenia

Question 22

risk if epileptic patient treated with carbamazepine for partial or generalised seizure, and is taking warfarin for PE tment?

Answer 22

carbamazepine= CYP450 inducer, so will increase metabolism of warfarin, reducing its therapeutic effect so patient may be at risk of blood clotting.

Question 23

risk in epileptic patient taking COCP also given carbamazepine for epilepsy?

Answer 23

may get pregnant as carbamazepine=CYP450 inducer, so increases metabolism of COCP, reducing its therapeutic effect in the body.

Question 24

types of epilepsy carbamazepine can be used to treat?

Answer 24

all partial seizures
generalised tonic-clonic
NOT absence seizures

Question 25

PKs of phenytoin?

Answer 25

well absorbed
highly protein bound-90%, so risk of toxicity when competitive protein binding e.g. with NSAIDs
CYP450 inducer- increase met of drugs
0 order kinetics at therapeutic concentrations (1st order at sub-therapeutic concs)- so very variable t1/2 6-24hrs.

Question 26

phenytoin ADRs?

Answer 26

dizziness
ataxia
headache
nystagmus
nervousness
gingival hyperplasia
rashes- hypersensitivity and Stevens Johnson- can also occur with aspirin*

Question 27

what levels of phenytoin can be used as an indicator of its free plasma concentration?

Answer 27

salivary levels

Question 28

types of epilepsy treated with phenytoin?

Answer 28

all partial
generalised tonic-clinic
NOT absence

Question 29

what can reduce the level of the anti-epileptic lamotrigine in the plasma?

Answer 29

oral contraceptives- these increase the clearance of lamotrigine
however, lamotrigine has no effect on therapeutic effect of COCP as lamotrigine does not induce or inhibit the CYP450 system in the liver.

Question 30

epilepsy types treated with lamotrigine?

Answer 30

partial

generalised tonic-clonic AND absence

Question 31

in what 3 ways can GABA mediated inhibition be enhanced?

Answer 31

inhibit GABA inactivation
inhibt GABA re-uptake
increase rate of GABA synthesis

Question 32

sites of action of valproate?

Answer 32

mixed sites of action:
VO Na+ channel blocker, and weak Ca2+ blocker, reducing neuronal discharge
weak inhibition of GABA inactivation enzymes and weak stimulus of GABA synthesising enzymes

Question 33

PKs of valproate?

Answer 33

100% absorbed, than 90% protein bound
1st order kinetics, t1/2= 15hrs
CYP450 inhibitor

Question 34

ADRs of valproate?

Answer 34

ataxia
tremor
weight gain
heaptic function- transaminases may be increased-ALT more specific to liver, AST also in skeletal and cardiac muscle, rarely hepatic failure

Question 35

why can aspirin increase free plasma levels of valproate?

Answer 35

competitive protein binding

Question 36

epilepsy types treated with valproate?

Answer 36

generalised tonic-clonic AND absence seizures

partial

Question 37

how do benzodiazepines work in tment of epilepsy?

Answer 37

act at distinct receptor site on GABA Cl- channel, binding of GABA or BZD enhance each others binding. Act as +ve allosteric effectors.
increase Cl- current into neurone, increasing threshold for AP generation.

Question 38

PKs of benzodiazepines?

Answer 38

Well absorbed 90-100%
highly plasma bound 85-100%
Linear (1st order) PK t1/2 vary 15-45 hrs

Question 39

ADRs of benzodiazepines?

Answer 39

sedation
tolerance with chronic use
confusion impaired co-ordination
aggression
dependence/withdrawal with chronic use
abrupt withdrawal seizure trigger
resp and CNS depression

Question 40

how can benzodiazepine OD be reversed?

Answer 40

give IV flumazenil, but use may precipitate seizure or arrhythmia

Question 41

epilepsy treated with benzodiazepines?

Answer 41

lorazepam/diazepam for status epilepticus

clonazepam- absence seizure ST use

Question 42

risk of valproate use in pregancy?

Answer 42

neural tube defects in fetus

Question 43

why should a Vit K supplement of 10mg/day be given to pregnant women in their 3rd trimester if taking anti-epileptics?

Answer 43

anti-epileptics associated with Vit K deficiency in newborn, which can cause coagulopathy and cerebral haemorrhage.

Question 44

non motor manifestations of parkinson’s disease?

Answer 44

mood changes e.g. depression
pain
cognitive change e.g. mild dementia
sleep disorder e.g. REM sleep disorder- muscles not paralysed, so can act out dreams
urinary symptoms
sweating

none of these will respond to typical tments to combat motor symptoms e.g. L-DOPA, dopamine receptor agonists and inhibitors of dopamine metabolism e.g. MAO-B inhibitors.

Question 45

why can dopamine not just be given to treat Parkinson’s disease?

Answer 45

can’t cross BB barrier

Question 46

PKs of L-DOPA?

Answer 46

Oral administration
Absorbed by active transport -in competition with amino acids (NB high protein meals)
90% inactivated in intestinal wall
monoamine oxidase & DOPA decarboxylase
T1/2= 2 hours
short dose interval
fluctuations in blood levels and symptoms
(physiologically dopamine is produced tonically)
9% converted to dopamine in peripheral tissues -DOPA decarboxylase
<1% enters CNS- Again competes with amino acids for active transport across blood brain barrier

Question 47

different type of focal/partial seizures?

Answer 47

simple= no loss of consciousness, may be associate aura e.g. smell, taste, deja vu
complex= consciousness impaired
simple or complex partial can spread through corpus callosum to cause a secondary generalised seizure- this is typically convulsive- abnormal motor response.

Question 48

ADRs of lamotrigine?

Answer 48

dizziness
drowsiness
headache
tremor
ataxia
nausea
vomiting

Question 49

drug monotherapy in children with generalised absence seizures?**

Answer 49

lamotrigine

Question 50

considerations for driving in patients with epilepsy?

Answer 50

must notify DVLA if suffer epileptic seizure
Patients drive a motor vehicle (but not a large goods or passenger carrying vehicle) provided that they have been seizure-free for one year or, if subject to attacks only while asleep, have established a 3-year period of asleep attacks without awake attacks. Those affected by drowsiness should not drive or operate machinery.

Guidance issued DVLA recommends that patients should be advised not to drive during medication changes or withdrawal of antiepileptic drugs, and for 6 months afterwards.

Patients who have had a first or single epileptic seizure must not drive for 6 months (5 years in the case of large goods or passenger carrying vehicles) after the event; driving may then be resumed, provided the patient has been assessed by a specialist as fit to drive because no abnormality was detected on investigation.

Question 51

valproate should not be given in pregnancy due to risk of major and minor congenital malformations, but if it has to be used as no other alternative, how should it be given?

Answer 51

the lowest effective dose should be prescribed in divided doses or as modified-release tablets to avoid peaks in plasma-valproate concentrations.

Question 52

immediate management of convulsive status epilepticus?

Answer 52

Position patient to avoid injury, supporting respiration including the provision of oxygen, maintaining blood pressure, and the correction of any hypoglycaemia. Parenteral thiamine should be considered if alcohol abuse is suspected.

Seizures lasting longer than 5 minutes should be treated urgently with intravenous lorazepam (repeated once after 10 minutes if seizures recur or fail to respond). Intravenous diazepam is effective but it carries a high risk of thrombophlebitis (reduced by using an emulsion formulation). Patients should be monitored for respiratory depression and hypotension.

Where facilities for resuscitation are not immediately available, diazepam can be administered as a rectal solution or midazolam oromucosal solution can be given into the buccal cavity.

Question 53

what should happen with patient tment if after given IV benzodiazeines for status epilepticus seizures recur or fail to respond 25 mins after onset?

Answer 53

give IV phenytoin and contact intensive care unit if seizures continue
If these measures fail to control seizures 45 minutes after onset, anaesthesia with thiopental, midazolam, or in adults, a non-barbiturate anaesthetic such as propofol should be instituted with full intensive care support.
anaesthesia will stop shaking of patient, but seizure will still be taking place in brain= episodic discharge of high frequency electrical impulses.

Question 54

1st line therapy for generalised tonic-clonic seizures?

Answer 54

sodium valproate
lamortrigine is an alternative, but may exacerbate myoclonic seizures
carbamazepine may also be considered

Question 55

1st line therapy for generalised absence seizures?

Answer 55

Ethosuximide or sodium valproate are the drugs of choice in absence seizures and syndromes; lamotrigine is a suitable alternative when ethosuximide and sodium valproate are unsuitable, ineffective or not tolerated.

Question 56

cautions with sodium valproate treatment?

Answer 56

monitor liver function before therapy and during first 6 months especially in patients most at risk
measure FBC and ensure no undue potential for bleeding before starting and before surgery
avoid abrupt withdrawal
consider vitamin D supplementation in patients that are immobilised for long periods or who have inadequate sun exposure or dietary intake of calcium

Question 57

how does the tonic and clonic state come about in generalised epilepsy?

Answer 57

tonic= contractions of both agonist and antagonist muscles producing muscular rigidity as sudden loss of GABA input, so long train of firing of APs for several seconds.
GABA inhibition starts to be restored, and AMPA and NMDA mediated excitation starts to oscillate with inhibition producing shaking movements of body=clonic.

Question 58

why is status epilepticus a medical emergency?

Answer 58

can lead to brain damage or death= SUDEP= sudden death in epilepsy

Question 59

dangers in severe epilepsy?

Answer 59

Physical injury relating to fall/crash
Hypoxia
SUDEP – sudden death in epilepsy
Varying degrees of brain dysfunction/damage 
Cognitive impairment
Serious psychiatric disease
Significant adverse reactions to medication
Stigma / Loss of livelihood

Question 60

difference between primary and secondary causes of epilepsy?

Answer 60

primary= no identifiable cause, idiopathic, but may also be channelopathies= leakage currents causing a drift to depolarisation. 65-70% of cases.
secondary=due to medical conditions affecting brain= 30-35%, e.g. tumours, vascular disease. Responsible for 60% of seizures in elderly.

Question 61

how is a focal point formed in epilepsy?

Answer 61

local loss of Em homeostasis with loss of GABA inhibitioin
relatively small number of neurones then form a generator site, the neurones heavily depolarise and hyperactivity spreads via synaptic transmission to other neurones.

Question 62

why are Na+ channel blockers used in epilepsy classed as voltage dependent?

Answer 62

only enters Na+ channel binding site when channel is depolarised
then detaches from binding site when Em back to normal

Question 63

how does carbamazepine play a role in drug-drug interactions?

Answer 63

CYP450 inducer= if given in combination with pheyntoin, it increase metabolism of phenytoin by liver so reduces its plasma concentration, and phenytoin can displace carbamazepine from protein binding sites, increasing plasma carbamazepine conc.
warfarin reduced as CYP450 induction, so increased risk of clotting, as are systemic corticosteroids and oral contraceptives.
antidepressants- carbamazepine similar in structure to tricyclic antidepressants so shouldn’t be used with MAOIs?**

Question 64

problem with administering phenytoin for epilepsy to a patient already on meloxicam for RA?

Answer 64

meloxicam= NSAID= highly plasma protein bound, as is phenytoin
NSAID will displace phenytoin from plasma protein binding sites, increasing its free conc, and exacerbating its 0 order kinetics with only small increases in free plasma conc putting patient a significant risk of toxic ADRs e.g. ataxia, confusion and gingival hyperplasia.

Question 65

how would cimetidine increase plasma levels of phenytoin?

Answer 65

cimetidine= CYP450 inhibitior, and phenytoin metabolised by CYP450 enzymes in liver.

Question 66

mechanism of action of lamotrigine?

Answer 66

prolongs inactivation state of Na+ channels
possibly Ca2+ blocker and decreases glutamate release= possible reason as to why can be used to treat generalised absence seizures.

Question 67

how does sodium valproate increase plasma levels of lamotrigine?

Answer 67

competitive protein binding

Question 68

what 2 different ways can GABA be involved in drug tments for epilepsy?

Answer 68

1= drugs which bind at GABA A receptor to enhance GABA binding e.g. benzodiazepines and barbiturates
2= drugs which affect GABA metabolism e.g. inhibit inactivation, reuptake or increase synthesis rate, e.g. valprotate= weak inhibitor of GABA inhibition, and stimulator of synthesis enzymes.

Question 69

how does DDI between valproate and anti-psychotics take place?

Answer 69

anti-psychotics antagonise valproate by lowering convulsive threshold

Question 70

importance of monitoring for blood and hepatic disorder with valprotate?

Answer 70

Risk of ADRs and plasma Valproate not closely associated with efficacy, monitor for blood, metabolic and hepatic disorder.

Question 71

benzodiazepine that can be used ST for absence seizure in epilepsy?

Answer 71

clonazepam

Question 72

anti-epileptic drug risk of birth defects?

Answer 72

8% vs 2% normally

but lamotrigine= 2%

Question 73

what should be given to status epilepticus patient transferred to ITU?

Answer 73

anaesthetic and ventilation

Question 74

how is rigidity expressed in parkinson’s disease, and how does this contrast with that seen in pyramidal tract lesion(corticospinal and corticobulbar tracts)?

Answer 74

parkinson’s= lead pipe and cogwheel rigidity, lead pipe= rigidity throughout range of movement, cog wheel= rigidity which stops and starts as limb moved through movement range, combination of lead pipe rigidity and resting tremor?* linked to low dopamine and disturbance to levels of other NT, as is resting tremor, but bradykinesia just due to low dopamine.
clasp knife rigidity= pyramidal tract lesions= resistance to movement increases with movement until suddenly overcome- resistance diminishes, increased resistance with increased velocity.

Question 75

most profound ADR of L-DOPA?

Answer 75

dyskinesia= writhing movement, uncontrollable rhythmic movements of head, trunk and limbs. Most occur at time of max L-DOPA conc in plasma.

Question 76

what is the on/off phenomenon in Parkinson’s?

Answer 76

With continued L-DOPA therapy, more drug is required to improve symptoms as develop both a tolerance and sensitisation. Fluctuations in motor function occur, including periods of freezing and increased rigidity= off, alternating with periods of normal or dyskinetic m.ment=on.
On= occur shortly after dosing, when large bolus of dopamine being delivered to striatum. Can be overcome initially by smaller doses, but this increases likelihood of off times.
Off= occur as plasma L-DOPA declines, can compensate by increasing L-DOPA dose of frequency of dosing.

Question 77

what features develop over time with Parkinson’s?

Answer 77

dyskinesia
falls
cognitive decline
somnolence (sleepiness)
swallowing difficulty
severe speech problems

Question 78

how can response to tment help in diagnosing idiopathic parkinson’s disease?

Answer 78

disease will respond very well to L-DOPA, other causes of parkinsonism will not

Question 79

usefulness of a DAT scan?

Answer 79

not used in diagnosing idiopathic parkinson’s, but can distinguish this from things like vascular problems, as need dopaminergic neurones to take up labelled tracer in DAT scan= no tracer taken up in Parkinson’s. should be presynaptic uptake of tracer if dopaminergic neurones present.

Question 80

other causes of parkinsonism?

Answer 80

multiple cerebral infarcts= vascular
parkinson’s-plus syndromes e.g. multiple system atrophy, Lewy body dementia
drug-induced e.g. neuroleptics
toxin-induced e.g. wilson’s disease

Question 81

how is dopamine formed from L-tyrosine?

Answer 81

L-tyrosine to L-DOPA by tyrosine hydroxylase, then to dopamine by DOPA decarboxylase

Question 82

how does neurodegeneration come about in parkinson’s?

Answer 82

lewy bodies= synucleinopathy**

Question 83

enzymes which degrade dopamine?

Answer 83

MAO

COMT

Question 84

why does L-DOPA not work if no dopaminergic neurones left?

Answer 84

to have an effect, L-DOPA must be converted to dopamine, and this takes place in dopaminergic neurones in substantia nigra pars compacta, via DOPA decarboxylase. giving L-DOPA will produce motor fluctuations (on-off).

Question 85

why might a high protein meal in parkinson’s cause limited effect of L-DOPA?

Answer 85

L-DOPA competes with aa for active uptake across BB barrier

Question 86

why do parkinson’s patients have to take lots of tablets throughout day?

Answer 86

very short t1/2 of L-DOPA (2hrs)

Question 87

what happens to most L-DOPA?

Answer 87

inactivated in intestinal wall by MAO and DOPA decarboxylase

Question 88

3 reasons for giving a peripheral DOPA decarboxylase inhibitor e.g. carbidopa, with L-DOPA (know as co-careldopa together)?

Answer 88

inhibit breakdown of L-DOPA peripherally so more can cross BB barrier to exert therapeutic action in CNS
prevent dopamine being produced peripherally which produces ADRs e.g. increase BP*
reduced dose of L-DOPA required as more reaching CNS.

Question 89

problem with main formulation of L-DOPA?

Answer 89

given as tablet (oral) but parkinson’s patients may develop swallowing difficulty, and tablets not allowed to be crushed.
can give controlled release preps to help with symptoms at night- being able to move around in bed.

Question 90

problem with giving anti-emetics to parkinson’s patients to cope with nausea induced by L-DOPA?

Answer 90

can produce parkinsonian ADRs

Question 91

ADRs of L-DOPA?

Answer 91

Nausea/ anorexia
– Vomiting centres
• HYPOTENSION
– central and peripheral
• Psychosis
– Schizophrenia-like 
effects. 
Hallucination/ 
delusion/ paranoia
• Tachycardia

but low side effects, and drug is highly efficacious

Question 92

disadvantages of using L-DOPA?

Answer 92

Precursor- needs enzyme 
conversion
Long term: 
• Loss of efficacy (Only 
effective in presence of 
dopaminergic neurones)
• Involuntary movements 
• Motor Complications 
– On / off
– Wearing off- before next tablet due
– Dyskinesias
– Dystonia
– Freezing

Question 93

interactions of L-DOPA?

Answer 93

vitamin B6- increases peripheral L-DOPA bdown
MAOIs increase hypertensive risk, but MAOBIs used at normal dose is ok.
antipsychotic drugs block dopamine receptors, producing parkinsonism ADRs.

Question 94

examples of dopamine receptor agonists?

Answer 94

non ergot= ropinirole
patch= rotigotine- good for patients that can’t swallow
SC=apomorphine= pump

Question 95

disadvantages of dopamine receptor agonists?

Answer 95

less efficacy than L-DOPA
impulse control disorders e.g. pathological gambling, compulsive shopping, desire to increase dose.
more psychiatric side effects than with L-DOPA, dose limiting
expensive

Question 96

advantages of dopamine receptor agonists?

Answer 96

direct acting
less dyskinesias/motor disturbances
possible neuroprotection

Question 97

ADRs of dopamine receptor agonsits?

Answer 97

nausea
hypotension
confusion
hallucinations
sedation

Question 98

usefulness of MAOBIs in treating Parkinson’s?

Answer 98

less ADRs than L-DOPA
prolong action of L-DOPA
can be used alone
smooth out motor response
may be neuroprotective

Question 99

how do MAOBIs act in Parkinson’s?

Answer 99

inhibit bdown of dopamine

e.g. rasagaline

Question 100

what do COMT inhibitors do?

Answer 100

Catechol-O-methyl Transferase
e.g. entacapone-doesn’t cross BB barrier, reduces peripheral bdown of L-DOPA to 3-O-methyldopa, so more available to cross BB barrier, and less 3-O-methyldopa which competes with L-DOPA to cross BB barrier. Prolongs motor response to L-DOPA, so reduces symptoms of wearing off e.g. freezing.

Question 101

why can COMT inhibitors not be given alone?

Answer 101

only works by stopping breakdown of L-DOPA, so must be given with L-DOPA to have a therapeutic effect

Question 102

why can anticholinergics be used in tment of parkinson’s?

Answer 102

may be an imbalance in parkinson’s between too high ACh in putamen (part of neostriatum) and too low dopamine in substantia nigra pars compacta.

e.g. procyclidine

Question 103

advantages of anticholinergics in parkinsons?

Answer 103

treat tremor

Question 104

disadvantages of anticholinergics in parkinsons?

Answer 104

don’t treat bradykinesia as not acting via dopamine systems

SEs= confusion, drowsiness, dehydration, blurred vision, urinary retention.

Question 105

how might amantadine treat parkinsons?

Answer 105

enhanced dopamine release
Anticholinergic NMDA inhibition
Poorly effective
Few side effects
Little effect on tremor

Question 106

which parkinson’s patients may be selected for surgery?

Answer 106

those who are dopamine responsive, have had significant benefit with L-DOPA but just can’t tolerate its SEs.
must have had no psychiatric illness as surgery can cause depression

Question 107

types of surgery which can be used in parkinson’s?

Answer 107

deep brain stimulation- done most often in UK, for STN.

lesion= thalamus for tremor, or GPi for dyskinesias.

Question 108

presentation of myasthenia gravis?

Answer 108

Fluctuating, fatiguable- must be tested, weakness skeletal
muscle
– Extraocular muscles – commonest presentation, ptosis- usually bilateral
– Bulbar involvement – dysphagia, dysphonia, dysarthria
– Limb weakness – proximal symmetric
– Respiratory muscle involvement- this can then cause death

Question 109

drugs which can exacerbate myasthenia gravis by affecting neuromuscular transmission?

Answer 109

aminoglycosides
beta blockers
ACEIs

Question 110

complications of myasthenia gravis?

Answer 110

acute exacerbation= myasthenic crisis= drooping face, drooling, short of breath
cholinergic crisis due to overtreatment, cause depolarising block

Question 111

characterisitcs of the ACh esterase inhibitor pyridostigmine?

Answer 111

Prevents breakdown of ACh in NMJ
ACh more likely to engage with remaining receptors 
Onset 30min- given orally so give 30 mins before meal; peak 60-120min; duration 3-6hr=t1/2
Dose interval and timing crucial
• Cholinergic side effect –
– miosis and the SSLUDGE syndrome:
» Salivation,
» Sweating,
» Lacrimation
» Urinary incontinence
» Diarrhea,
» GI upset and hypermotility
» Emesis)
=opposite effects of anticholinergics

Question 112

contrast pyridostigmine with neostigmine

Answer 112

Pyridostigmine - oral
Neostigmine – oral and IV preparations (ITU)
• Quicker action, duration up to 4 hours
• Significant cholinergic side effects e.g. urinary incontinence.

both enhance neuromuscular transmission by inhibiting bdown of ACh so less likely for autoantibodies to bind to ACh receptors.

Question 113

examples of drugs which can lower threshold for fits?

Answer 113

tricyclic antidepressants e.g. amityrptilline

isoniazid