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Title: Parkinson


1
Drugs used in Parkinsons disease
2
"Parkinson's disease" (Parkinsonism, PD) is a
progressive neurodegenerative brain disorder that
was first described by Dr. James Parkinson in
1817.
The disease occurs mainly in the elderly (above
the age of 65) and affects the "extrapyramidal
system" at the level of the "corpus striatum"
"substantia nigra" (parts of the brain "basal
ganglia").
3
In the basal ganglia, the 2 neurotransmitters
"dopamine" "acetylcholine" co-exist in a normal
balance, where dopaminergic neurons exert an
inhibitory effect on excitatory cholinergic
neurons.
DA
ACh
In Parkinsons disease, the "nigrostriatal
dopaminergic neurons" are degenerated (damaged)
while cholinergic neurons are intact, resulting
in a marked decrease in dopamine content
(dopamine deficiency syndrome) and a relative
predominance of cholinergic activity.
Therefore, the strategy for treatment of
Parkinsonism is to restore the normal balance
between dopaminergic cholinergic tones in the
basal ganglia.
4
Pathophysiology of PD Disease
Cortex
Caudate nucleus
Corpus striatum
Putamen
Thalamus
Globus pallidus
Loss of dopaminergic input to striatum
Disrupted signaling between basal ganglia,
cortex, and thalamus
Midbrain
Degeneration of neurons in substantia nigra pars
compacta
5
Symptoms of Parkinsonism
The symptoms of Parkinsonism appear only when
dopamine depletion exceeds 80. It is
characterized by
Tremors at rest (especially in hands) which
diminish during voluntary movements. Muscle
rigidity and resistance to passive
movements. Bradykinesia (i.e. slowness of
movements) where the motor activity is difficult
to be initiated or stopped. Diagnosis requires 2
of 3 symptoms - bradykinesia, - rigidity, -
resting tremor
Abnormalities of posture and gait (shuffling
gait). Mask-like facial expressions, impaired
speech skilled acts such as writing and eating.
6
Pharmacotherapy of PD
  • Levodopa preparations
  • Carbidopa/levodopa
  • Sinemet
  • Sinemet CR
  • Parcopa
  • Stalevo
  • Dopamine agonists
  • Apomorphine (Apokyn)
  • Pramipexole (Mirapex)
  • Ropinirole (Requip)
  • Rotigitine (Neupro)
  • Parlodel (Bromocriptine)
  • Pergolide (Permax)

7
Pharmacotherapy of PD
  • Anticholinergic agents
  • Benztropine (Cogentin)
  • Trihexyphenidyl (Artane)
  • COMT Inhibitors
  • Entacapone (Comtan)
  • Tolcapone (Tasmar)
  • NMDA Antagonists
  • Amantadine (Symmetryl)
  • MAO-B Inhibitors
  • Selegeline (Eldepryl or Deprenyl)
  • Zydis Selegeline (Zelapar)
  • Rasagiline (Azilect)
  • Carbidopa

8
Treatment of Parkinsonism


D2





D2



Tyrosine
DOPA
DA







D2



MAO-B


D2

Dopaminergic Nerve terminal
Postsynaptic receptors
9
Drugs used to treat Parkinsonism do not stop the
progression of the disease but they can only
ameliorate the symptoms. Parkinsonism could be
managed by
A. Enhancing dopaminergic activity using
  1. Reducing cholinergic activity by the use of
    anticholinergic drugs (benzatropine)
  2. Neurotransplantation (which is still in
    experimental phase).
  3. Physical therapy regular exercise.
  1. drugs that replace dopamine (levodopa)
  2. drugs that release dopamine from its stores
    (amantadine)
  3. drugs that prolong the action of dopamine by
    preventing its metabolism (seligiline)
  4. drugs that mimic the action of dopamine
    (dopaminergic agonists)

10
Levodopa
"Levodopa" is the first line treatment of
Parkinsonism. Dopamine itself has no therapeutic
effect in Parkinsonism as it is not lipid soluble
and therefore is not absorbed from the GIT and
cannot cross the blood brain barrier. However,
"levodopa" (which is the immediate precursor of
dopamine) is well absorbed from the GIT and can
cross the blood brain barrier, where it is taken
up by dopaminergic neurons and converted to
dopamine by the action of the enzyme "dopa
decarboxylase".
11
In patients with early Parkinsonism, the number
of residual dopaminergic neurons in the
substantia nigra (about 20 of normal) is still
enough to convert levodopa to dopamine. However,
when the disease progresses, a fewer number of
neurons are capable to take up levodopa and
convert it to dopamine resulting in a declined
effectiveness of levodopa. This indicates that
the effect of levodopa depends on the presence of
"functional dopaminergic neurons".
12
Major disadvantage of levodopa Only 5 of an
oral dose of levodopa can reach the brain because
95 of the dose undergoes decarboxylation to
dopamine in the gut peripheral tissues
producing peripheral side effects.
decarboxylation
L-dopa
5
CNS
Peripheral sites
BBB
13
This problem was solved by the concomitant
administration of levodopa with an inhibitor of
dopa decarboxylase that does not cross the BBB
(peripheral dopa decarboxylase inhibitor). Example
of peripheral dopa decarboxylase inhibitors
carbidopa or benzerazide. Carbidopa or
benzerazide inhibit the peripheral
decarboxylation of levodopa allowing it to reach
its desired site of action (i.e. the
nigrostriatal system) in a greater proportion.
14
SINEMET(CARBIDOPA-LEVODOPA)DESCRIPTIONSINEMET
(Carbidopa-Levodopa) is a combination of
carbidopa and levodopa for the treatment of
Parkinson's disease and syndrome.
15
Combing levodopa with the peripheral dopa
decarboxylase inhibitors "carbidopa" or
"benzerazide" has the following advantages
  1. The dose of levodopa can be reduced by about 75.
  2. The peripheral side effects of levodopa are
    greatly reduced.
  • If levodopa is administered alone (i.e. without
    carbidopa), it can interact with pyridoxine
    (vitamin B6) in multivitamin preparations which
    enhances its peripheral metabolism (dopa
    decarboxylase is a pyridoxine-dependent enzyme).
  • On the other hand, if levodopa is combined
    with carbidopa, pyridoxine cannot reduce the
    therapeutic effectiveness of levodopa since the
    peripheral decarboxylation of levodopa is already
    inhibited with carbidopa.

16
Pharmacological actions of levodopa
  • Levodopa restores "dopamine" content in the basal
    ganglia.
  • Dopamine then acts on dopaminergic D2 receptors
    in the nigrostriatal pathway to ameliorate the
    symptoms of Parkinsonism and improve the overall
    functional ability of Parkinsonian patients.
  • Dopamine can also act on the limbic system,
    tuberohypophyseal system and CTZ producing side
    effects.

17
Side effects of levodopa
1. "On-Off" effect This effect results from
fluctuations of the level of levodopa in the
plasma because of its very short t½ (1-2 hours).
The "off" effect can be very sudden so that
patients stop while walking or are unable to rise
from a chair in which they have sat down normally
a few moments earlier. This effect is
counteracted by the combination of levodopa with
an inhibitor of COMT (e.g. entacapone) to inhibit
the degradation of dopamine.
  • "Dyskinesia" and induction of abnormal voluntary
    movements.
  • "Nausea vomiting" due to stimulation of
    dopamine receptors in the chemoreceptor trigger
    zone (CTZ) in the medulla oblongata.
  • This effect is counteracted by the
    co-administration of "food" and peripheral (but
    not central) dopaminergic antagonists (e.g.
    domperidone) with levodopa.
  1. Tachycardia resulting from dopamine action on the
    heart.
  2. Psychological effects levodopa may lead to an
    over activity of dopamine in the limbic system
    leading to "schizophrenia-like syndrome".
  3. Endocrine effects inhibition of prolactin
    secretion due to the effect of DA on the
    tuberohypophyseal system.

18
Drug interactions of levodopa
  1. "Pyridoxine" (vitamin B6) increases the
    peripheral break down of levodopa and reduces its
    effectiveness.
  2. Concomitant administration of levodopa with "MAO
    inhibitors" leads to hypertensive crisis due to
    increased catecholamines (dopamine is a substrate
    for MAO and is also converted to noradrenaline).
  • "Antipsychotic drugs" block central dopaminergic
    receptors and can induce parkinsonism-like
    syndrome themselves.
  • Therefore they are contraindicated during
    Parkinsonism or levodopa therapy since they can
    reverse the benefits of levodopa.

19
Dopamine Agonists
  • Pramipexole (Mirapex)
  • Ropinirole (Requip)
  • Rotigitine (Neupro)
  • Apomorphine (Apokyn)
  • (cabergoline, lisuride)

20
Dopamine Agonists
  • May be used as initial therapy for patients with
    mild disease or as add on therapy for patients
    with more severe disease
  • May delay need for levodopa therapy in early
    patients
  • Later stage patients may be able to decrease
    levodopa dosing if DA added
  • Neuroprotective effect?

21
Dopamine Agonists
  • Directly stimulate dopamine receptors
  • No metabolic conversion required
  • Longer half-life than levodopa (exception
    apomorphine)
  • May delay onset of dykinesias or motor
    fluctuations

22
Dopamine agonists
  • Advantages over levodopa no need for
    biotransformation no competition with other
    substances across intestine
  • Absorption rate decreased in when patient has
    full stomach
  • Side effects hallucinations, peripheral edema,
    somnolence, compulsive behavior
  • Ergot alkaloid DA no longer used

23
Apomorphine
  • Structurally similar to dopamine
  • First synthesized in 1869 from acidic treatment
    of morphine (but retains no opiate properties)
  • Requires parenteral delivery

24
Apomorphine
  • Indications
  • Acute, intermittent treatment of hypomobility,
    off episodes (end-of-dose wearing off and
    unpredictable on/off episodes) associated with
    advanced PD
  • As an adjunct to other medications
  • Contraindicated
  • In patients who have demonstrated
    hypersensitivity to the drug or its ingredients,
    such as its preservative metabisulfite

25
Monoamine Oxidase Inhibitors (MAOIs)
As shown above, monoamine oxidase is an enzyme
that catalyzes the destruction of primary amines
(such as dopamine,norepinephrine, seritonin) and
secondary amines. The type B isoform of MAO
(MAO-B) is primarily responsible for metabolism
of dopamine.
26
Metabolism of Dopamine via Monoamine Oxidase
(MAO)
27
MAO Inhibitors - General
  • MAO-B breaks down dopamine within the CNS
  • Inhibition of MAO-B increases dopamine levels and
    function
  • Because of increase in dopamine activity within
    CNS, potential for increased dopamine side effects

28
Inhibitor of MAO-B
  • Selegiline (l-deprenyl, Eldepryl or Anipryl
    veterinary) is a drug used for the treatment of
    early-stage Parkinson's disease and senile
    dementia.
  • In normal clinical doses it is a selective
    irreversible MAO-B inhibitor.

29
  • In late stage Parkinsons Disease, Selegiline is
    usually added to levodopa to prolong and enhance
    its effect

30
MAO Inhibitors
  • Selegeline
  • At low doses, remains selective for MAO-B
  • At doses gt10 mg, becomes non-selective
  • Active amphetamine-like metabolite

31
MAO Inhibitors
  • Rasagaline
  • Precise mechanism of action is unknown thought
    to contribute to increased dopamine levels within
    CNS due to inhibition of MAO
  • Although thought to be MAO-B selective, packaged
    with non-selective dietary and drug restrictions

32
Metabolism of Dopamine via Catachol-O-Methyl
Transferase(COMT)
33
Inhibitors of COMT
Entacapone
Tolcapone
34
Inhibitors of COMT
  • Entacapone is marketed by Novartis as Comtan in
    the US
  • Stalevo is a combination of Levodopa, Carbidopa,
    and Entacapone

35
COMT Inhibitors
  • In presence of a decarboxylase inhibitor
    (carbidopa), COMT is major metabolizing enzyme of
    levodopa
  • Effect of medication thought to be due to
    increased/sustained plasma levels of levodopa
  • Entacapone and Tolcapone

36
COMT Inhibitors
  • General precautions should not be given with
    non-selective MAO inhibitors
  • May decrease metabolism of epinephrine,
    isoproterenol, norepinephrine, dobutamine,
    alpha-methyldopa
  • Will potentiate side effects of levodopa
  • Tolcapone Black box warning liver monitoring
    required

37
Amantadine
  • Antiviral agent anti-PD effect found
    accidentally
  • Effective for tremor, rigidity and dyskinesias
  • Actual mechanism of action poorly understood
  • perhaps facilitates release of dopamine from
    striatal neurons, inhibits presynaptic reuptake
    of catacholamines, or creates an NMDA receptor
    blockade. Does have weak DA properties
  • Decreases glutamatergic output from STN (may
    account for anti-dyskinetic effect)

38
Amantadine
  • T1/2 is 2-4 hours
  • Medication is excreted mostly unchanged in the
    urine
  • Side effects may include hypotension,
    hallucinations, sedation, dry mouth
  • Rare side effect unique to amantadine is livido
    reticularis patchy discoloration of the skin
    (although unsightly, harmless to patient
    resolves with discontinuation of med)

39
Livido reticularis
40
Anticholinergic agents
  • Trihexiphenidyl (Artane)
  • Benztropine mesylate (Cogentin)
  • Diphenhydramine (Benadryl)
  • ALL
  • Potential benefit for tremor, little or no effect
    on rigidity or bradykinesia
  • Prominent side effects dry mouth, sedation,
    mood changes, mental slowness, blurred vision,
    increased intraocular pressure
  • Contraindicated in patient with prostatic
    enlargement, narrow-angle glaucoma, obstructive
    GI disease

41
Anticholinergic drugs are less effective than
levodopa and can diminish mainly the tremors and
to a lesser extent the rigidity and
bradykinesia. Therefore, they are used as
supplemental treatment with levodopa.
Anticholinergic drugs are used "instead of
levodopa" in
  1. Parkinsonian patients who cannot tolerate
    levodopa because of its side effects or
    contraindications.
  1. Parkinsonian patients who cannot benefit from
    levodopa because of non-functional dopaminergic
    neurons.
  1. Parkinsonian patients receiving central
    dopaminergic antagonists (antipsychotic drugs)
    which can nullify the effect of levodopa.

42
Side effects of anticholinergic drugs
  • Dry mouth
  • Blurred vision
  • Constipation
  • Urine retention
  • Glaucoma

43
Summary of the Treatment of Parkinsons Disease
44
(No Transcript)
45
Huntingtons Disease
  • Formally described in 1872 by George Huntington
  • Occurs in 5 to 10 per 100,000 people
  • Inherited as an autosomal dominant disorder
  • Caused by trinucletoide repeats in gene IT15
  • Disease usually starts in mid-thirties to
    mid-forties
  • Personality change and adventitious movement
    develops into chorea , cognitive dysfunction and
    memory loss
  • Death usually occurs as a result of secondary
    factors within 10 to 30 years
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