Drugs used in Parkinson

disease

EpidemiologyEpidemiology

Average age of onset 62.5 Men and women affected equally Genetic Link African-Americans and Asians

less likely than Caucasians to develop Parkinson’s

Caffeine and smoking shows some protective effects

PathogenesisPathogenesis

Four Theories Oxidative damage

Impaired protection Environmental toxins

MPTP-Methyl-phenyl tetrahydropyridine Genetic predisposition

Mutations in the gene for the protein alpha-synuclein located on chromosome 4

Accelerated aging

PathophysiologyPathophysiology

Imbalance of dopamine and acetylcholine

Loss of 80 to 90% of dopaminergic production in the substantia nigra

Lewy Bodies

Degeneration of dopaminergic Degeneration of dopaminergic neurons in the substantia nigraneurons in the substantia nigra..

Dopamine

5

Symptoms caused by insufficient Symptoms caused by insufficient dopaminedopamine..

33 main symptomsmain symptoms::TremorsTremors

RigidityRigidity

Slowed motion (Bradykinesia)Slowed motion (Bradykinesia)

Other symptoms includeOther symptoms include::Dementia, sleep disturbances, depression, Dementia, sleep disturbances, depression, etcetc.. 6

Degenerative disease of the basal ganglia causing tremor at rest, muscle rigidity hypokinesia, often with dementia.

Associated with aggregation of α-synuclein (a protein normally involved in vesicle recycling) in the form of characteristic Lewy bodies.

Often idiopathic but may follow stroke or virus infection; can be drug-induced (neuroleptic drugs). Rare familial forms also occur, associated with various gene mutations, including α-synuclein.

Associated with early degeneration of dopaminergic nigrostriatal neurons, followed by more general neurodegeneration.

Can be induced by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), a neurotoxin affecting dopamine neurons. Similar environmental neurotoxins, as well as genetic factors, may be involved in human Parkinson's disease.

PARKINSON'S is a progressive disorder of movement that

occurs mainly in the elderly. The chief symptoms are:

tremor at rest, usually starting in the hands which tends to diminish during voluntary activity

muscle rigidity, detectable as an increased resistance in passive limb movement

suppression of voluntary movements (hypokinesis), due partly to muscle rigidity and partly to an inherent inertia of the motor system, which means that motor activity is difficult to stop as well as to initiate.

Parkinsonian patients walk with a characteristic shuffling gait. They find it hard to start, and once in progress they cannot quickly stop or change direction. PD is commonly associated with dementia, probably because the degenerative process is not confined to the basal ganglia but also affects other parts of the brain.

Parkinson's disease often occurs with no obvious underlying cause, but it may be the result of cerebral ischaemia, viral encephalitis or other types of pathological damage.

The symptoms can also be drug-induced, the main drugs involved being those that reduce the amount of dopamine in the brain (e.g. reserpine) or block dopamine receptors (e.g. antipsychotic drugs such as chlorpromazine;).

There are rare instances of early-onset PD that runs in families, and several gene mutations have been identified, the most important being synuclein and parkin. Study of these gene mutations has given some clues about the mechanism underlying the neurodegenerative process

PathophysiologyPathophysiology

Motor system-fine balance of Motor system-fine balance of inhibitory and excitatory inputs of inhibitory and excitatory inputs of basal ganglia and cerebellumbasal ganglia and cerebellum

Cerebellar output is excitatory, basal Cerebellar output is excitatory, basal ganglia is inhibitoryganglia is inhibitory

PathophysiologyPathophysiology

Apoptosis of dopaminergic neurons in Apoptosis of dopaminergic neurons in substantia nigra-leads to decrease in substantia nigra-leads to decrease in inhibitioninhibition

Disruption of signals to motor cortex Disruption of signals to motor cortex via thalamusvia thalamus

Smooth, coordinated movement is lostSmooth, coordinated movement is lost

Neurotoxins In 1982, a group of young drug addicts in

California suddenly developed an exceptionally severe form of PD (known as the 'frozen addict' syndrome), and the cause was traced to the compound 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), which was a contaminant in a preparation used as a heroin substitute .

MPTP causes irreversible destruction of nigrostriatal dopaminergic neurons in various species, and produces a PD-like state in primates. MPTP acts by being converted to a toxic metabolite, MPP+, by the enzyme monoamine oxidase (MAO, specifically by the MAO-B subtype).

MPP+ is taken up by the dopamine transport system, and thus acts selectively on dopaminergic neurons; it inhibits mitochondrial oxidation reactions, producing oxidative stress

MPTP appears to be selective in destroying nigrostriatal neurons and does not affect dopaminergic neurons elsewhere-the reason for this is unknown.

Selegiline , a selective MAO-B inhibitor ,prevents MPTP-induced neurotoxicity by blocking its conversion to MPP+. Selegiline is also used in treating PD as well as inhibiting dopamine breakdown, it might also work by blocking the metabolic activation of a putative endogenous, or environmental, MPTP-like substance, which is involved in the causation of PD. It is possible that dopamine itself could be the culprit, because oxidation of dopamine gives rise to potentially toxic metabolites.

Whether or not the action of MPTP reflects the natural pathogenesis of PD, the MPTP model is a very useful experimental tool for testing possible therapies.

Various herbicides, such as rotenone, that selectively inhibit mitochondrial function cause a PD-like syndrome in animals, suggesting that environmental toxins could be a factor in human PD, because impaired mitochondrial function is a feature of the disease in humans.

What is an animal model?What is an animal model?

A laboratory animal used in research that A laboratory animal used in research that simulates processes comparable to those that simulates processes comparable to those that occur in humansoccur in humans..

  

Two common animal modelsTwo common animal models..

Lab ratsLab rats..  Vertebrate modelVertebrate model

Somehow resistant to Somehow resistant to MPTPMPTP

Rotenone administered Rotenone administered systemicallysystemically - -

Chronic nigrostriatal cell loss, Chronic nigrostriatal cell loss, dopamine depletion,  dopamine depletion,  Akinesia, rigidity, tremor, Akinesia, rigidity, tremor, flexed posture, piloerectionflexed posture, piloerection..

Fruit fliesFruit flies..

Invertebrate modelInvertebrate model  Dopamine is depletedDopamine is depleted..

  But is reversible by Hsp70 But is reversible by Hsp70 coexpressioncoexpression . .

Is there any use for this in Is there any use for this in human modelhuman model??

PharmacotherapyPharmacotherapy

Levodopa Dopamine agonists COMT inhibitors Amantadine Anticholinergics MAO-B inhibitor ex. Selegiline,

RasagilineRasagiline

Drugs used in Parkinson'sdisease

Drugs act by counteracting deficiency of dopamine in basal ganglia or by blocking muscarinic receptors. None of the available drugs affect the underlying neurodegeneration.

Drugs include: levodopa (dopamine precursor;),

given with an inhibitor of peripheral dopa decarboxylase (e.g. carbidopa ) to minimise side effects; sometimes a catechol-O-methyltransferase inhibitor (e.g. entacapone ) is also given, especially to patients with 'end of dose' motor fluctuations

bromocriptine (dopamine agonist;) selegiline (monoamine oxidase B

inhibitor) amantadine (which may enhance

dopamine release) benztropine (muscarinic receptor

antagonist used for parkinsonism caused by antipsychotic drugs).

Neurotransplantation, still in an experimental phase, may be effective but results are variable.

levodopa

Dopamine is a neurotransmitter as well as being the precursor for noradrenaline. It is degraded in a similar fashion to noradrenaline, giving rise mainly to dihydroxyphenylacetic acid and homovanillic acid, which are excreted in the urine.

There are three main dopaminergic pathways: nigrostriatal pathway, important in motor

control mesolimbic/mesocortical pathways,

running from groups of cells in the midbrain to parts of the limbic system, especially the nucleus accumbens, and to the cortex; they are involved in emotion and drug-induced reward systems

tuberohypophyseal neurons running from the hypothalamus to the pituitary gland, whose secretions they regulate

levodopa

levodopa (dopamine precursor;), given with an inhibitor of peripheral dopa decarboxylase (e.g. carbidopa ) to minimise side effects; sometimes a catechol-O-methyltransferase inhibitor (e.g. entacapone ) is also given, especially to patients with 'end of dose' motor fluctuations

LevodopaLevodopa

L-Dopa (Larodopa by Roche) Introduced in the late 1960s Crosses the blood-brain barrier Adverse effects such as nausea,

vomiting, postural hypotension, involuntary movements, restlessness, and cardiac arrhythmias

Dopamine Agonists“Synthetic Dopamine”

Bromocriptine Mesylate (Parlodel)

Pergolide Mesylate (Permax) Pramipexol (Mirapex) Ropinirole HCL (Requip) RotigotineRotigotine

Dopamine Agonists Monotherapy or combination Are particulary usefull for:

Prolonging the effective treatment period in patients with deteriorating response.

Delaying the onset of L-dopa therapy. Particularly in younger patients.

Treating patients who cannot tolerate high doses of L-dopa.

Associated with more side effects than L-dopa Potential adverse effects include somnolence,

dyskinesias, nausea, vomiting, orthostatic hypotension, nightmares, hallucinations, confusion, dizziness

COMT InhibitorsCOMT Inhibitors

Entacapone (Comtan)

Tolcapone (Tasmar)

COMT InhibitorCOMT Inhibitor

Entacapone (Comtan) Adjunct therapy Initial dose of 200mg with each

dose of levodopa up to 8 times daily Decrease of L-dopa may be

necessary Exacerbation of L-dopa side effects ,

diarrhea, urine discoloration, abdominal pain

COMT InhibitorCOMT Inhibitor

Tolcapone (Tasmar) Adjunct therapy Initial 100mg TID up to 200mg TID More potent and longer acting than

entacapone Decrease L-dopa by 25 to 50% Exacerbation of L-dopa side effects,

diarrhea, urine discoloration, liver toxicity.

AmantadineAmantadine

Amantadine HCL (Symmetrel) Inhibits dopamine recapture Blocks acetylcholine and glutamate

receptors Dose 100mg BID to TID Caution in renal failure patients Currently used to reduce choreic movements Narrow therapeutic range Unpleasant side effects such as nausea,

dizziness, confusion, hallucinations, nightmares, dry mouth peripheral edema.

AnticholinergicsAnticholinergics

Trihexyphenidyl HCL (Artane) Benztropine Mesylate (Cogentin)

Monotherapy or adjunct most effective for reducing tremor Use Limited by side effects

especially in the elderly.

AnticholinergicsAnticholinergics Trihexyphenidyl HCL (Artane)

Initial dose of 1mg and increase by 2 mg every 3 to 5 days until 6 to 10 mg/day. Usually given TID with meals or QID with meals and at bedtime.

Possible adverse effects include dry mouth, blurred vision, somnolence, hallucinations, memory impairment, confusion, urinary retention, and constipation.

Benztropine Mesylate (Cogentin) Initial dose of 0.5 to 1 mg at bedtime. Increase by 0.5mg

every 5 to 6 days up to a total daily dosage of 6mg. Possible adverse effects include dry mouth, blurred

vision, somnolence, hallucinations, memory impairment, confusion, urinary retention, and constipation.

SelegilineSelegiline

Selegiline HCL(Eldepryl)

SelegilineSelegiline Selegiline HCL (Eldepryl)

Monotherapy or adjunct MOA-inhibits monoamine oxidase-B (MAO-B) Inhibition of MAO-A does not occur Dosage of 5 mg BID with breakfast and lunch When used as monotherapy delays the need

of L-dopa by an average of nine months. Possible adverse effects include nausea,

dizziness, abdominal pain, confusion, and exacerbation of L-dopa side effects

Controversial theory of decreased rate of neuronal death due to a reduction of free radicals.

Surgical OptionsSurgical Options Pallidotomy and Pallidal Stimulation Thalamotomy and Thalamic Stimulation

Introduced in 1950 Pallidotomy improves tremor, rigidity, and

bradykinesia Thalamotomy relieves tremor, rigidity, but not

bradykinesia Neurosurgical treatment came to a end with

the introduction of L-dopa in late 1960s Resurgence of neurosurgical intervention with

the failure of pharmacological treatments after 10 to 15 years of disease progression

Two methods: Ablation and deep brain stimulation

SurgerySurgery - - Deep Brain StimulationDeep Brain StimulationBrain pacemaker, sends electrical Brain pacemaker, sends electrical impulses to brain to stimulate the impulses to brain to stimulate the subthalamic nucleussubthalamic nucleus..

Improves motor functions and reduce Improves motor functions and reduce motor complicationsmotor complications..

Complications include: brain Complications include: brain hemorrhage, seizures, death hemorrhage, seizures, death..

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SurgerySurgery......

Deep Brain Stimulation (DBS)Deep Brain Stimulation (DBS)

Reduces distressing symptoms such as rigidityReduces distressing symptoms such as rigidity..

Tiny wire electrodes are implanted in the Basal Ganglia. They are connected to Tiny wire electrodes are implanted in the Basal Ganglia. They are connected to an Implantable Pulse Generator in the chestan Implantable Pulse Generator in the chest..

Turn pulse on:      symptoms reduceTurn pulse on:      symptoms reduce..Turn pulse off:    symptoms returnTurn pulse off:    symptoms return..

Cost €40,000 to €50,000Cost €40,000 to €50,000!!

Ideal candidates are younger and fit. Must have no history of severe Ideal candidates are younger and fit. Must have no history of severe depressiondepression..

GraftingGrafting

Suprarenal to brain transplantation

Fetal tissue transplantation Cell culture transplantation

Under InvestigationUnder Investigation

Implantable pumps Implantable capsules containing

dopamine-producing cells New medications to target one of

the five individual brain receptors for dopamine

Continued genetic research

What does the future holdWhat does the future hold??

Stem cell researchStem cell research......

scientists are creating dopamine-producing neural cellsscientists are creating dopamine-producing neural cells..

These can be injected into patients brain to reverse the effects of Parkinson'sThese can be injected into patients brain to reverse the effects of Parkinson's..

BUTBUT   -   Will the injected cells be accepted by the patient   -   Will the injected cells be accepted by the patient??                                  

                             Or will they be destroyed in a natural immune responseOr will they be destroyed in a natural immune response..

This research is ongoing. It may take 20 years before it is ready for widespread This research is ongoing. It may take 20 years before it is ready for widespread useuse..