PARKINSONS DISEASE

PARKINSONS DISEASE

James Parkinson first described Parkinson disease (Parkinson's disease) in 1817. 

The disorder is one of a number of chronic, progressive, neurodegenerative central nervous system (CNS) diseases that typically occur in adults older than 65 years.

The first symptom of Parkinson's disease (PD) usually is a unilateral resting tremor of the hand (pill-rolling tremor).

Other common clinical features include cogwheeling rigidity, bradykinesia, and postural instability.

Rigidity and bradykinesia tend to be more disabling than the tremor. The basic pathophysiology of PD is a lack of dopamine-producing cells in the basal ganglia.

This disorder can be treated surgically and medically; physical therapy often is included in the treatment program as well, although its effectiveness remains somewhat controversial.

PATHOPHYSIOLOGY

Parkinson's disease (PD) is a disorder of the extrapyramidal system, that is, the motor structures in the basal ganglia. 

PD may be caused by degeneration of dopamine-producing cells in the substantia nigra, resulting in decreased levels of dopamine in the striatum.

The exact effects of dopamine on movement are difficult to ascertain, in part because each of the 4 known types of postsynaptic receptors for dopamine has its own anatomic distribution and pharmacologic action.

Symptoms of PD usually begin to appear when dopamine levels drop by at least 50%. Associated hyperactivity of cholinergic neurons in the caudate nuclei results in an imbalance in the normal dopamine-to-acetylcholine ratio, which contributes to the symptoms. 

The exact cause of these changes remains unknown.

Theories include accelerated aging, genetic susceptibility, environmental toxins (eg, cyanide, manganese, carbon disulfide, pesticides, well water, methanol, organic solvents, lead), as well as oxidative stress.

The oxidative stress theory is complex and essentially involves cell death resulting from free radicals produced by oxidation of dopamine. Although the oxidative stress theory seems to receive the most support, many authors feel that the disease is probably caused by a combination of the above 4 factors.

FREQUENCY

The overall incidence of Parkinson's disease, based on several worldwide studies, is about 10 - 20 cases per 100,000 population per year.

MORTALITY / MORBIDITY

The clinical symptoms of Parkinson's disease (PD) worsen over time. Prior to the introduction of levodopa (L-dopa), PD caused severe disability or death in 25% of patients within 5 years of onset, in 65% in the next 5 years, and in 89% of those who survived for 15 years.

The mortality rate from PD was 3 times that of the general population matched for age, sex, and racial origin.

With the introduction of L-dopa, the mortality rate dropped approximately 50%, and longevity was extended by several years, although no evidence suggests that L-dopa actually alters the underlying pathologic process or stems the progressive nature of the disease.

SEX

The male-to-female ratio for Parkinson's disease is 3:2.

AGE

The prevalence of Parkinson's disease (PD) increases with age.

In patients younger than 40 years, the prevalence is 5 cases per 100,000 population, increasing to 300-700 cases per 100,000 population in the seventh decade and rising to more than 700 cases per 100,000 population in persons older than 70 years.

CLINICAL

HISTORY

Symptoms and signs of Parkinson's disease (PD) typically begin in one extremity or side but eventually involve the other limbs and trunk.

The classic triad of PD is tremor, rigidity, and akinesia.

Historical features reported by patients with PD can include the following:

• Stiffness and slowed movements

• Tremor or shaking at rest

• Difficulty getting out of a chair or rolling over in bed

• Frequent falls or tripping

• Difficulty walking

• Memory loss

• Shifting forward of posture into a stoop

• Speech changes (eg, whispering, rapid speech)

• Smaller handwriting

• Slowness in performing activities of daily living (ADL)

• Sialorrhea

• Decreased sense of smell

PHYSICAL

Findings on physical examination in patients with Parkinson's disease can include the following:

Ø  Muscle rigidity

Ø  Cogwheeling-type rigidity (often the initial presentation)

Ø  Bradykinesia

Ø  General slowing of movements

Ø  Postural instability

o    Assumption by patient of a stooped-forward posture

o    Presence, usually, of a festinating gait pattern (stumbling forward); however, retropulsion also can occur

o    Decreased arm swing during ambulatory activity

Ø  Resting tremor

Ø  Pill-rolling tremor, often bilateral but may be asymmetric, usually 3-5 Hz frequency

Ø  Hands preferentially affected, but legs, chin, and head generally involved with more advanced disease

Ø  Painful dystonia, usually occurring in the early morning

Ø  Dementia, often a late feature, ultimately occurring in about one third of patients

Ø  Autonomic symptoms

o    Slowed enteric motility and constipation

o    Urinary retention and incontinence

o    Orthostatic hypotension

o    Masklike facies

o    Micrographia

o    Hypokinetic dysarthria

Ø  Rapid, monotonous, low-volume speech

Ø  Olfactory dysfunction (hyposmia), which may be present prior to motor symptoms and often is not recognized by the patient

Ø  Dysphagia

Ø  Depression

o    Can affect up to 50% of patients

o    Suicide risk

Ø  Akathisia (inability to sit still)

Ø  Seborrheic dermatitis, usually of the face and scalp

Ø  Poor olfactory function, which appears to be correlated with loss of dopamine receptors in the nigrostriatal region

CAUSES

The exact cause of Parkinson's disease (PD) remains unclear. A combination of factors probably is responsible for the condition's development.

Various theories include the following:

v  Accelerated aging

o    Normal aging is associated with clinical features that may resemble PD.

o    Aging is associated with a decline of pigmented neurons in the substantia nigra and with decreased levels of striatal dopamine and dopa decarboxylase.

o    Some authorities believe that PD may result from the effects of aging superimposed on an insult to the nigrostriatal system earlier in life.

v  Oxidative stress

o    This theory receives much support and attention in the literature.

o    PD patients may suffer the combined effects of multiple factors, culminating in damage from free radicals.

o    Dopamine oxidation can result in the formation of hydrogen peroxide, as well as the superoxide anion radical.

o    Hydrogen peroxide can undergo reactions with ferrous ions, resulting in formation of the highly toxic hydroxyl radical.

o    These hydroxyl radicals can cause cell membrane damage.

v  Genetic susceptibility

o    Twin studies often have proven inconclusive.

o    Genetic factors seem to play a greater role in PD that has an earlier onset.

o    An increased incidence of a family history of PD is observed in affected individuals (16% vs 4% of control population).

v  Environmental toxins include the following:

o    Cyanide

o    Manganese

o    Carbon disulfide

o    Pesticides

o    Well water

o    Lead

o    Methanol

o    Organic solvents

v  Medications that can cause parkinsonian symptoms but not PD itself include the following:

o    Metoclopramide

o    Domperidone

o    Reserpine-containing antihypertensives

o    Neuroleptics

v  Increased BMI was shown in one study to be associated with an increased risk of PD development. This effect was found to be graded (the greater the BMI, the higher the risk) and independent of other risk factors.

DIAGNOSIS

LABORATORY STUDIES

• The diagnosis of Parkinson's disease is based almost entirely on results of the history and physical examination Initial diagnostic accuracy, based on clinic-pathologic studies, is about 65% (or 76% with the benefit of follow-up). In atypical cases, lab investigations may be performed to exclude other causes of parkinsonism. These investigations may include the following:

  • Plasma ceruloplasmin and copper to exclude Wilson disease

  • Thyrotropin levels if hypothyroidism is suggested

  • Toxin screening if clinically indicated by a history of possible exposure

IMAGING STUDIES

• As with laboratory investigations, imaging studies and other investigations are not performed routinely for patients with clinically typical Parkinson's disease; however, they may assist in ruling out other causes of the patient's symptomatology.

• Magnetic resonance imaging (MRI) may suggest the following:

  • Normal-pressure hydrocephalus (large ventricles)

  • Subdural hematoma

  • Tumor

  • Multiple infarcts

  • Multisystem atrophy (eg, decreased T2 signal in the striatum)

  • Progressive supranuclear palsy (eg, midbrain atrophy)

OTHER TESTS

• Sphincter electromyelography examination shows evidence of denervation in Shy-Drager syndrome.

• Olfactory testing can reveal problems with olfaction, which may precede the motor complications of Parkinson's disease by several years. Evidence indicates that poor olfaction is correlated with the loss of dopamine receptors in the nigrostriatal region.

PROCEDURES

• Lumbar puncture should be performed if signs of normal-pressure hydrocephalus are observed (eg, incontinence, ataxia, dementia). The clinical picture usually improves after removal of about 20 mL of cerebrospinal fluid.

TREATMENT

MEDICAL ISSUES/COMPLICATIONS

Primary medical complications seen in patients with Parkinson's disease (PD) include autonomic dysfunction, cardiopulmonary impairment, dysphagia, and depression.

• Autonomic dysfunction is common in patients with PD.

  • Orthostatic hypotension often becomes a concern during the later part of the disease process. Management techniques can include elevating the head of the bed, as well as having the patient arise slowly, use pressure garments, consume a high-salt diet, and use such medications as pseudoephedrine, mineralocorticoids, and midodrine.

  • Impaired intestinal motility can lead to constipation, vomiting, and impaired absorption; treatment options include the employment of frequent, smaller meals; increased fiber; bulking agents; stool softeners; and suppositories.

  • Urinary incontinence, retention, and bladder infection can occur. Treatment usually is based on the results of investigations, such as renal function studies, urinalysis, postvoid residuals, cystoscopy, and urodynamic studies.

  • Erectile dysfunction is not uncommon. Treatment options include the use of sildenafil, prostaglandin injections, pumps, and prosthetic devices.

• Cardiopulmonary impairment

  • The patient's flexed posture can lead to kyphosis, cause a reduction in pulmonary capacity, and produce a restrictive lung disease pattern.

  • Breathing exercises, postural reeducation, and trunk exercises may be helpful.

  • Institution of a general conditioning program can increase the patient's endurance.

  • If pulmonary function progressively worsens, assisted coughing techniques, incentive spirometry, and respiratory therapy intervention may be required.

• Depression

  • Depression can occur in approximately 50% of patients with PD and should not be overlooked, as its impact on disability can be significant.

  • Depression may be related to a deficit in serotonergic neurotransmission or to decreased cortical levels of norepinephrine and dopamine.

  • Serotonergic agents often are the first antidepressants of choice in PD. If this treatment regimen is ineffective, a tricyclic antidepressant with anticholinergic side effects (eg, desipramine, nortriptyline) may be recommended.

• Dysphagia

  • If swallowing difficulties do not respond to conservative interventions by the speech therapist, more aggressive treatment may be required.

  • Such aggressive management can include invasive procedures, such as nasogastric or gastrostomy feeding tube placement.

  • Discussion should be initiated early on in the disease course to ascertain the patient's wishes about a feeding tube, in case dementia develops and the patient lacks the capacity for decision making when a feeding tube becomes medically indicated.

SURGICAL INTERVENTION

Increased interest has been seen in the surgical management of Parkinson's disease (PD).

Three main techniques currently in use are destructive therapy (lesioning), chronic deep brain stimulation, and transplantation.

• Destructive therapy

  • Lesioning options include thalamotomy and pallidotomy.

  • Ventral intermediate nucleus thalamotomy is quite effective at relieving tremor, but its effects on the other clinical manifestations of PD seem to be less significant and more variable. Thalamotomy usually is reserved for a relatively small percentage of patients with predominantly drug-resistant tremor.

  • At present, pallidotomy is the surgical procedure most commonly used for advanced PD. The surgery employs lesioning to disrupt the abnormal activity in the globus pallidus; this disinhibits the motor thalamus and cortical motor areas, thereby improving motor functioning. Candidates for pallidotomy include patients who are disabled despite optimal medical management and who have responded to L-dopa therapy in the past but have developed complications from long-term L-dopa treatment. Rigidity, tremor, and bradykinesia all seem to respond to pallidotomy.

• Deep brain stimulation

  • Chronic deep brain stimulation seems to have emerged as an alternative to lesioning in patients with PD.

  • Stimulation has the advantages of safety, reversibility, and adaptability (ie, stimulation parameters can be adjusted as the clinical features change over time).

  • Stimulation sites include the ventral lateral thalamic nuclei (performed to decrease tremor, with a good response in 80-85% of patients), the globus pallidus (for bradykinesia, gait, speech, drug-induced dyskinesias), and the subthalamic nucleus (for bradykinesia, rigidity, tremor, gait/posture). A study of 6 male patients showed improved motor rating scores and reduced timing and spatial errors following deep brain stimulation of the internal globus pallidus.

  • Earlier subthalamic nucleus stimulation (average of 7 years after diagnosis vs 14 years for control population) has been shown to improve results and patient quality of life.

  • Subthalamic nucleus stimulation does not improve long-term mortality results.

  • Bilateral subthalamic nucleus stimulation was linked in a case report with pathologic gambling.

• Transplantation

  • Although stimulation and lesioning can improve symptoms, neither corrects the underlying pathology of the disease, which is a lack of dopamine from loss of substantia nigra neurons. Transplantation therapy offers the possibility of replacing these lost neurons.

  • Clinical trials have examined the use of 3 types of transplants: autologous adrenal medulla transplants, fetal mesencephalon grafts, and xenografts.

    • Adrenal medulla transplants are not in widespread use because of the high morbidity and mortality from adrenalectomy.

    • Fetal mesencephalon grafts have shown promising early results. Trials continue, but ethical concerns, insufficient tissue, and procedural difficulties make it unlikely that the procedure will become commonplace.

    • The most common xenograft used is the fetal pig mesencephalon. A trial currently is underway to determine the efficacy of this procedure.

• Human embryonic stem cell therapy and gene therapy

  • Intrastriatal transplantation of human fetal mesencephalic tissue in PD patients has demonstrated clinical efficacy, but the limited availability of tissue precludes the systematic use of this procedure.

  • Embryonic stem cells can differentiate into cells from the CNS. These cells could potentially provide a relatively unlimited source of cells for transplantation if protocols were developed to generate specific populations of neural cells.

  • Ethical concerns also play a large role in this line of research.

  • Initial results from the first human clinical trial of gene therapy for PD suggest the approach might significantly reduce symptoms of the disease and provide a 25% improvement in motor control.

PHYSICAL THERAPY

Because Parkinson's disease (PD) is a progressive CNS disorder with progressive disability over time, the merits of therapy often are debated.

Some studies have shown benefits in certain areas (eg, gait, independence in ADL, fine motor movements) in patients receiving therapy and medication versus those receiving only medication; however, the trials generally are quite small and improvements modest.

Physical therapy often is directed at the main causes of impairment and includes measures to decrease rigidity and increase range of motion (ROM), as well as to improve postural control, endurance, mobility, and gait.

Treatment of bradykinesia and rigidity often includes daily stretching and ROM exercises, as well as task-specific activities.

Gait and ambulation can be improved through a program of stretching and strengthening of the lower extremities that uses exaggerated steps and arm swings, marching steps (paced to the beat of a metronome), and mental rehearsal and imaging.

The physical therapist should assess the need for ambulation aids (eg, walkers, canes) while completing gait training with the patient.

Exercises for the patient with PD should emphasize trunk extension, as well as lateral and rotational mobility, weight shifting, and balance training.

Addressing how to fall safely and get up from the floor is important for patients with PD and their families. The physical therapist should instruct them in proper transfer techniques and try to improve their overall safety awareness during everyday activities.

A general conditioning program also should be included in physical therapy to improve the patient's endurance. In addition, the physical therapist may instruct the patient and family members in a home exercise program.

OCCUPATIONAL THERAPY

Occupational therapy interventions for Parkinson's disease include providing exercises to improve upper extremity fine motor skills and dexterity, functional training in self-care and ADL, and appropriate aids and devices, such as dressing aids (eg, reachers, sock aid), railings, grab bars, and other environmental adaptations for the home.

SPEECH THERAPY

Speech therapy may be underemployed in patients with Parkinson's disease, given that speech and swallowing problems are common causes of disability in this population. Speech therapy seems to improve the quality of voice in patients with hypokinetic dysarthria.

Therapy itself generally emphasizes better breath and rate control, as well as improved articulation and better volume. Beneficial effects of the therapy do not seem to persist after it has been discontinued.

Dysphagia tends to occur later in the disease process and can lead to drooling, aspiration, malnutrition, and inability to ingest medications.

Speech therapy interventions can include positioning the neck in flexion, teaching a double swallow technique, using smaller amounts of food, or modifying the patient's diet and incorporating thickened liquids.

A modified barium swallow analysis may be helpful in guiding the therapy plan and in monitoring the patient's progress.

RECREATIONAL THERAPY

Because of the high level of impairment and disability seen in many patients with Parkinson's disease (PD), it is not surprising that avocational pursuits for these individuals often become more difficult. This change certainly can have a detrimental impact on a patient's overall quality of life.

A recreational therapist may be helpful in identifying previous recreational interests and in helping the patient to pursue them once more, with or without assistance. If such pursuits are no longer possible, new interests can be identified and explored.

The therapeutic value of social and recreational pursuits should not be underestimated in patients with PD, because many of these individuals can feel isolated and lonely because of the effects of the disease.

MEDICATION

Medical management of Parkinson's disease (PD) can be quite complicated, as there are several classes of medications available, significant side effects to some of the medications, and no real consensus on which class of drug should be started at diagnosis.

Different classes of medication often are combined to optimize symptom control. Medication management provides the most effective treatment of PD for the first 4-6 years. Thereafter, this disabling disease advances despite continuing medication management.

Currently, several trials are underway that are investigating potential medications for use in PD in the future. These are not yet approved

for use in North America. They include symptomatic treatments targeting nondopaminergic areas, to avoid the motor complications

seen with dopaminergic agents.

Examples in this category include adenosine receptor antagonists and glutamate alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor antagonists. Other agents have a neuroprotective or neurorestorative role. These include antioxidant

coenzyme Q10; antiapoptotic agents, such as CEP-1347; and subthalamic glutamic acid decarboxylase, used in gene therapy.

In general, most clinicians start patients on selegiline (Eldepryl), a monoamine oxidase type B (MAO-B) inhibitor, at the time of diagnosis. This drug blocks one pathway in the breakdown of dopamine. When symptoms become more pronounced, therapy with L-dopa/carbidopa (Sinemet) or a dopamine receptor agonist (pergolide, bromocriptine) usually is instituted and is titrated as symptom control warrants, using the lowest dose required for adequate function. 

Other options for medical management include anticholinergics (eg, benztropine [Cogentin]) and antivirals (eg, amantadine), which seem to have presynaptic and postsynaptic dopaminergic effects.

Some relatively new medications are available or are undergoing trials for treatment of PD. Two new dopamine agonists, ropinirole (Requip) and pramipexole (Mirapex), currently are available and may have fewer side effects than other dopamine agonists. They seem to be effective as monotherapy or in combination with other medications, such as L-dopa.

A relatively new class of medications, catechol-O-methyltransferase (COMT) inhibitors, prevents peripheral degradation of L-dopa and allows a higher concentration to cross the blood-brain barrier. Medications in this class include tolcapone and entacapone. These medications are not widely available because of concern about elevated liver enzymes.

Because of the often complicated drug regimens used by patients with PD, it is advisable to involve a neurologist with experience in management of this condition to assist with medication choice and side-effect management.

MONOAMINE OXIDASE TYPE B INHIBITORS

MAO-B inhibitors block one pathway in the breakdown of dopamine. This probably increases the amount of dopamine available in the brain and may prevent formation of hydrogen peroxide, offering a hypothetical neuroprotective benefit.

SELEGILINE (ELDEPRYL)

Used at time of diagnosis of PD before L-dopa therapy. May be useful as adjunct to L-dopa therapy.

Adult: 10 mg/d divided PO bid (5 mg at breakfast; 5 mg at lunch) as monotherapy or in combination with L-dopa; not to exceed 10 mg/d

Pregnancy

C - Safety for use during pregnancy has not been established.

Precautions

May experience exacerbation of L-dopa – associated side effects (may need to adjust L-dopa dose accordingly); adverse reactions associated with combination of selegiline and L-dopa include hallucinations (especially visual), nausea, abdominal pain, and confusion 

RASAGILINE (AZILECT)

Irreversible MAO-B inhibitor that blocks dopamine degradation. Not metabolized to amphetamine derivatives. Main metabolite, aminoindan, has some activity and has been shown to improve motor and cognitive functions in experimental models.

Indicated for Parkinson disease as initial monotherapy or as adjunctive therapy with levodopa.

Adult:

Monotherapy: 1 mg PO qd

Adjunctive therapy with levodopa: 0.5 mg PO qd; may increase to 1 mg PO qd

Mild hepatic impairment or coadministration with CYP1A2 inhibitors: 0.5 mg PO qd

DOPAMINERGIC AGENTS

Because patients with Parkinson's disease (PD) suffer from a lack of dopamine, it follows that pharmacologic therapy is directed toward dopamine replacement.

Dopamine does not cross the blood-brain barrier, but L-dopa, a precursor of dopamine, does. Increasing levels of striatal dopamine

through the use of L-dopa is the mainstay of medical therapy in PD. L-dopa is combined with carbidopa, which is a decarboxylase inhibitor and helps to prevent breakdown of L-dopa, thus decreasing the need for large doses of L-dopa to achieve adequate brain dopamine levels.

LEVODOPA/CARBIDOPA (SINEMET, SINEMET CR)

Given together with carbidopa (a decarboxylase inhibitor) to prevent breakdown of levodopa and increase bioavailability. Decreases the need for large doses of levodopa to achieve adequate brain dopamine levels.

Medications often are used when symptom control is insufficient with selegiline alone. CR formulation can help prevent the on/off phenomenon in some patients. Sinemet tablets are available in a 4:1 ratio (Sinemet 100/25) and a 10:1 ratio (Sinemet 100/10 and 250/25) of levodopa to carbidopa. Sinemet CR tablets contain a 4:1 ratio of levodopa to carbidopa (100/25 or 200/50); daily dosage of Sinemet CR must be determined by careful titration.

Adult: Initial recommended dose is 1 tab of Sinemet CR 100/25 PO bid; in patients who require more levodopa, daily dose of 1-2 tab bid is generally well tolerated 

Pregnancy

C - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus

Precautions

Periodic evaluations of hepatic, hematopoietic, cardiovascular, and renal function are recommended during extended therapy with Sinemet; absorption of Sinemet may be impaired in some patients on a high-protein diet

DOPAMINE RECEPTOR AGONISTS

Dopamine agonists directly stimulate postsynaptic dopamine receptors, bypassing the need for conversion and storage as in L-dopa therapy. These medications usually are not as effective as L-dopa in controlling symptoms of Parkinson's disease and typically are considered third-line medications.

The 2 most commonly used medications in this class are pergolide and bromocriptine.

PERGOLIDE (PERMAX)

Believed to exert therapeutic effects by direct stimulation of postsynaptic dopamine receptors in the corpus striatum. Used as an adjunct with levodopa/carbidopa for management of PD. Not recommended for treatment of newly diagnosed patients or as sole medication in PD.

Adult: 0.05 mg single dose PO initially for first 2 d; gradually increase by 0.1-0.15 mg/d every third day for next 12 d; then increase dosage by 0.25 mg every third d until optimal dosage achieved; administer divided doses tid

Pregnancy

C - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus

Precautions

Discontinue gradually, as abrupt discontinuation may cause hallucinations and confusion; dyskinesia may occur or worsen in patients receiving levodopa with pergolide; caution in cardiac dysrhythmias; may cause or exacerbate preexisting states of confusion and hallucinations or dyskinesia 

BROMOCRIPTINE (PARLODEL)

Used as adjunct therapy to levodopa in treatment of PD. Can facilitate use of lower doses of levodopa/carbidopa, thus decreasing risk of long-term complications, such as dyskinesias.

Adult: 1.25 mg PO hs initially to establish tolerance; increase to 2.5 mg/d divided bid with meals; then increase dosage prn, adding an additional 2.5 mg/d, once q2-4wk taken in 2-3 divided doses with meals

Pregnancy

B - Fetal risk not confirmed in studies in humans but has been shown in some studies in animals

Precautions

May cause postural hypotension; periodic monitoring of blood pressure advisable; dizziness; caution patients about driving until response determined; few cases of GI bleeding and ulceration reported; discontinue medication if this occurs; safety not established in patients with severe hepatic or renal disease 

APOMORPHINE (APOKYN)

Elicits dopamine agonist effect. Indicated to treat acute immobility episodes (hypomobility or "off-periods") in PD. These episodes consist of inability to rise from a chair, speak, or walk and may occur toward the end of the dose interval or may be spontaneous and unpredictable in onset.

Approximately 10% of individuals with stage IV PD who do not respond to standard medications for acute immobility may respond to apomorphine.

Adult: Dosage is individualized

Test dose: 2 mg (0.2 mL) SC for 1 dose initially during hypomobility, if tolerated (ie, blood pressure remains stable), may use for subsequent hypomobility episodes 

Establishing dose: If patient tolerates test dose and hypomobility responds, 2 mg is the dose to use for subsequent hypomobility episodes

If patient tolerates test dose but hypomobility does not respond to test dose, may increase dose by 1 mg (0.1 mL) q2-3 d until response is observed; not to exceed 6 mg (0.6 mL)/dose

Note: Administer only 1 dose per hypomobility episode, do not repeat dose; administer with antiemetic drug

Pregnancy

C - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus

Precautions

Causes severe nausea and vomiting and must be administered with an antiemetic drug (but not with antiemetic agents that are 5HT3 antagonists); may cause orthostatic hypotension, faintness, hallucinations, fluid retention, chest pain, increased sweating, flushing, pallor, dyskinesia, rhinorrhea, and extreme drowsiness (may fall asleep during waking hours without warning) 

ROTIGOTINE (NEUPRO)

Dopamine agonist stimulating D3, D2, and D1 receptors. Improvement in Parkinson-related symptoms thought to be related to its ability to stimulate D2 receptors within the caudate putamen in the brain.

Available as transdermal patch that provides continuous delivery for 24 h (2 mg/24 h [10 cm2], 4 mg/24 h [20 cm2], or 6 mg/24 h [30 cm2]). Indicated for symptoms of early Parkinson disease.

Adult: 2 mg/24 h (10 cm2) transdermal qd initially; may increase

qwk by 2 mg/24 h, not to exceed 6 mg/24 h

Remove previous day's patch before applying new patch; rotate application site each day between left and right sides of body and upper and lower parts of body 

Pregnancy

C - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus

Precautions

Common adverse effects include dermal reactions at patch site, dizziness, nausea, vomiting, drowsiness, and insomnia; less common adverse effects that may be hazardous to patient include sudden sleep onset, hallucinations, and postural hypotension; weight gain secondary to fluid retention has been observed; rapid dose reduction or abrupt withdrawal may cause hyperpyrexia and confusion; apply to clean, dry, and intact skin on abdomen, thigh, hip, flank, shoulder, or upper arm

ANTICHOLINERGICS

The most commonly used treatment for Parkinson's disease (PD) until the introduction of L-dopa; it probably works by blocking cholinergic receptors in the striatum and restoring the dopamine-acetylcholine balance; benztropine (Cogentin) is the most common anticholinergic agent in the treatment of PD.

BENZTROPINE (COGENTIN)

May be effective at any stage of disease process; helpful in patients resistant to other agents; reduces tremor and rigidity.

Adult: 1-2 mg/d with range of 0.5-6 mg PO or parenterally; 0.5-1 mg hs; individualized treatment required; smaller doses likely in older or thinner patients 

Pregnancy

C - Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus

Precautions

May cause weakness or inability to move particular muscle groups in larger doses; mental confusion and visual hallucinations may occur; tardive dyskinesia reported in long-term benztropine use; caution in hot weather because of anhidrosis; advise patient to report GI complaints, fever, or heat intolerance if concomitantly administered with phenothiazines, haloperidol, or other drugs with anticholinergic or antidopaminergic activity; paralytic ileus reported in patients taking benztropine in combination with phenothiazines and/or tricyclic antidepressants

ANTIVIRALS

Amantadine (Symmetrel) is the only antiviral used in the treatment of Parkinson's disease. The mechanism of action is unknown; it may trigger the release of brain dopamine from nerve endings.

AMANTADINE (SYMMETREL)

Used alone and in combination with anticholinergic antiparkinsonian medications and with levodopa/carbidopa; maximal therapeutic benefit usually occurs within 1 wk, and initial benefits may decrease with continued dosing.

May be useful as adjunct in patients who do not tolerate optimal doses of levodopa alone or in combined therapy with carbidopa. Amantadine may result in better control of PD in these patients and may decrease fluctuations in performance.

Adult: 100 mg/d PO initially; after a few wk may be increased to 100 mg bid; increase to 300 mg/d divided dose may help some patients.