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eMedicine - Dementia With Lewy Bodies : Article by

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Dementia With Lewy Bodies Overview


AUTHOR AND EDITOR INFORMATION

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Author: Howard A Crystal, MD, Professor, Departments of Neurology and Pathology, State University of New York Downstate

Howard A Crystal is a member of the following medical societies: American Academy of Neurology and American Neurological Association

Editors: Robert A Hauser, MD, Professor, Departments of Neurology, Pharmacology, and Experimental Therapeutics, Director, Parkinson's Disease and Movement Disorders Center, University of South Florida and Tampa General Healthcare; Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine; Richard J Caselli, MD, Professor, Department of Neurology, Mayo Medical School, Rochester, MN; Chair, Department of Neurology, Mayo Clinic of Scottsdale; Matthew J Baker, MD, Consulting Staff, Collier Neurologic Specialists, Naples Community Hospital; Helmi L Lutsep, MD, Associate Professor, Department of Neurology, Oregon Health and Science University; Associate Director, Oregon Stroke Center

Author and Editor Disclosure

Synonyms and related keywords: DLB, LB, Lewy body variant of Alzheimer disease, diffuse Lewy body disease, senile dementia of the Lewy body type, idiopathic Parkinson disease, Parkinson's disease, Parkinson disease with dementia, PD with dementia, parkinsonian dementias, Alzheimer disease, Alzheimer's disease, dementia with Lewy bodies, dementia with LBs, progressive degenerative dementia, nonvisual hallucinations, neuroleptic sensitivity, unexplained syncope, delusions, rapid eye movement sleep disorder, myoclonus, apolipoprotein genotype E subtype 4, apoE4 genotype

INTRODUCTION

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Background

Frederick Lewy first described Lewy bodies (LBs), cytoplasmic inclusions found in cells of the substantia nigra in patients with idiopathic Parkinson disease (PD), in 1914. In the 1960s, several pathologists described patients with dementia who had LBs of the neocortex. However, such cases were presumed to be rare until the mid 1980s, when sensitive immunocytochemical methods to identify LBs were developed. Dementia with LBs (DLB) was then recognized as being far more common than previously thought.

The relationship of DLB and PD is an area of considerable controversy, particularly because dementia frequently occurs in PD. Many investigators believe that a spectrum of LB disorders exists.

The third report of the DLB Consortium headed by Ian McKeith discusses an arbitrary 1-year rule to distinguish DLB from PD with dementia.1 If parkinsonism has been present for 12 months or longer before cognitive impairment is detected, the disorder is called PD with dementia; otherwise, it is called DLB. The report recognizes that this rule may be difficult to apply in clinical practice. When dementia precedes motor signs, particularly with visual hallucinations and episodes of reduced responsiveness, the diagnosis of DLB should be considered. Clinical criteria for DLB were first proposed in 19962 and modified in the subsequent DLB Consortium reports3. Several clinicopathological studies have assessed the sensitivity and specificity of these clinical criteria.4, 5 These clinical features are discussed below.

Postmortem examinations in both PD and DLB patients demonstrate LBs in the substantia nigra and possibly in the locus ceruleus, dorsal raphe, substantia innominata, and dorsal motor nucleus of the vagus. LBs are found in the neocortex of many patients with idiopathic PD and in all patients with DLB. DLB overlaps parkinsonian dementias.

Pathophysiology

Symptoms and signs of DLB probably result, in part, from disruption of bidirectional information flow from the striatum to the neocortex, especially the frontal lobe. The cause is multifactorial. Altered neuromodulator and/or neurotransmitter levels (eg, acetylcholine [ACh], dopamine) influence the function of many neuronal circuits. In DLB, nonpyramidal cells in layers V and VI of the neocortex may contain LBs. Their function in neocortical information processing and in relaying data to subcortical regions probably is impaired. The etiology of the fluctuations in cognitive function, which characterize DLB, is unknown.

Frequency

United States

Findings from autopsy studies suggest that DLB accounts for 10-20% of dementias. Up to 40% of patients with Alzheimer disease (AD) have concomitant LBs. These mixed cases are sometimes called the LB variant of AD (LBV-AD) and represent an overlap syndrome between DLB and AD. Signs and symptoms of LBV-AD also overlap between DLB and AD. Because the sensitivity and specificity of clinical diagnosis are poor, no good epidemiologic data on incidence or prevalence of DLB are available.

International

Autopsy studies in Europe and Japan indicate that the frequency of DLB is comparable with that reported in studies from the United States.

Mortality/Morbidity

  • Dementing illnesses (including DLB) shorten life expectancy.

  • With severe disease, patients may experience swallowing problems that can lead to impaired nutrition.

  • Patients are at risk for falls because of impaired mobility and balance.

  • Because of prolonged bed rest, patients are at risk for decubitus ulcers.

  • Dysphagia and immobility also can lead to pneumonia.

Race

DLB has been described in Asian, African, and European races. Data concerning the relative frequency of DLB in different races are not available.

Sex

Most studies suggest that DLB is slightly more common in men than in women.

Age

DLB is a disease of late middle age and old age.


CLINICAL

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History

  • DLB is a progressive degenerative dementia.
  • The following clinical features that help distinguish DLB from AD:
    • Fluctuations in cognitive function with varying levels of alertness and attention: Clues to the presence of fluctuations include excessive daytime drowsiness (if nighttime sleep is adequate) or daytime sleep longer than 2 hours, staring into space for long periods, and episodes of disorganized speech.
    • Visual hallucinations
    • Parkinsonian motor features

  • Although extrapyramidal features may occur late in the course of AD, they appear relatively early in DLB.
  • Whereas patients with AD virtually always have anterograde memory loss as a prominent symptom and sign early in the course of the illness, anterograde memory loss may be less prominent in DLB. McKeith et al have suggested that patients with DLB do relatively better on tests of confrontation naming, short and medium recall, and recognition than AD patients, whereas AD patients do better on tests of verbal fluency, visual perception, and performance tasks.6
  • Executive function deficits and visuospatial impairment may be more prominent in persons with DLB than in those with AD (eg, Stroop, digit span backwards).
  • Other symptoms that may alert clinicians to the diagnosis of DLB (versus AD) include the following:
    • Nonvisual hallucinations
    • Delusions
    • Unexplained syncope
    • Rapid eye movement sleep disorder
    • Neuroleptic sensitivity

Physical

  • Patients usually have impaired cognition consistent with dementia.

  • An important observation during mental status testing is that the patient has periods of being alert, coherent, and oriented that alternate with periods of being confused and unresponsive to questions (although awake). This fluctuation is a relatively specific feature of DLB.

  • Retrieval from memory may be relatively worse than memory storage.

  • Patients may do relatively well with confrontation naming tests and poorly on tests of visuospatial skills (eg, drawing a clock, copying figures).

  • Patients may have some parkinsonian signs but usually not enough to meet the criteria for a diagnosis of PD.

  • Mild gait impairment is relatively frequent and should not be ascribed to old age or osteoarthritis.

  • Resting tremor occurs less frequently than in PD.

  • Myoclonus may occur before severe dementia.

Causes

  • The etiology of DLB is not known.

  • Rare cases of familial DLB have been reported.

  • Apolipoprotein E subtype 4 (ApoE4) genotype is overrepresented only when DLB occurs with concomitant AD.


DIFFERENTIALS

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Alzheimer Disease
Cortical Basal Ganglionic Degeneration
Frontal and Temporal Lobe Dementia
Hydrocephalus
Lacunar Syndromes
Parkinson-Plus Syndromes
Prion-Related Diseases
Progressive Supranuclear Palsy

Other Problems to be Considered

Dementia in PD
Dementia in progressive supranuclear palsy


WORKUP

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Lab Studies

  • Laboratory studies should include those usually ordered in a dementia evaluation, including tests of the following:
    • Chemistry panel

    • Complete blood cell count

    • Thyroid studies

    • Vitamin B-12 levels

    • Syphilis, Lyme disease, or HIV testing, when appropriate

  • No sensitive or specific blood, cerebrospinal fluid (CSF), or urine tests are currently available for DLB.

Imaging Studies

  • Because vascular dementia can cause symptoms and signs similar to those of DLB, brain MRI is indicated to distinguish DLB from vascular dementia.

  • Patients with vascular dementia often have white matter lesions on MRIs, whereas patients with DLB do not.

  • MRI is superior to CT scanning in identifying hippocampal atrophy.

  • Patients with DLB usually have less hippocampal atrophy than patients with AD (but more than control subjects). Whether this difference is clinically useful is under investigation, as is the diagnostic utility of functional imaging.

  • Single-photon emission CT scanning or positron emission tomography scanning may show decreased occipital lobe blood flow or metabolism in DLB but not in AD

  • Reduced dopamine transporter activity in the basal ganglia is seen with positron emission tomography scanning or single-photon emission CT scanning.

Other Tests

  • In certain circumstances, neuropsychological testing is helpful to differentiate DLB from AD and to establish a baseline for future comparison.

  • Patients with DLB may have changes on electroencephalography earlier than patients with AD, but whether this difference is diagnostically useful is not clear.

  • CSF examination is not required in routine cases.
    • Patients with AD have higher levels of tau protein in their CSF than patients with DLB.

    • Patients with both LBV-AD have intermediate values.

    • CSF levels of beta-amyloid are lower than normal in DLB, AD, and LBV-AD. However, CSF beta-amyloid levels in DLB, LBV-AD, and AD do not differ from each other.

Histologic Findings

The characteristic lesion is the LB, an eosinophilic (hematoxylin and eosin staining), round inclusion found in the cytoplasm of substantia nigra cells and in the nucleus basalis of Meynert, locus ceruleus, dorsal raphe, and the dorsal motor nucleus of cranial nerve X. LBs are found in nonpyramidal cells in layers V and VI of the cortices (especially limbic and transitional cortex).

Other findings are minimal atrophy, occasional vacuolization in deep layers of the temporal cortex, and abnormal neurites in cells of CA2/3 of the hippocampus and various brainstem nuclei. The primary constituent of LBs is alpha-synuclein, a presynaptic protein, the function of which is unknown. Neurofilament proteins and ubiquitin are other important constituents of LBs. Numerous neurotransmitters, including ACh, are diminished in DLB. The decrease in ACh may be more severe than in AD.


TREATMENT

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Medical Care

  • Double-blinded, placebo-controlled studies have demonstrated that rivastigmine may decrease psychiatric symptoms associated with DLB, particularly apathy, anxiety, hallucinations, and delusions. These studies also demonstrate that patients with DLB treated with cholinesterase inhibitors do better on neuropsychological tests than subjects treated with placebo. Open-label studies suggest that donepezil and galantamine also are effective.

  • For the treatment of agitation and hallucinations associated with DLB, acetylcholinesterase inhibitors are the drugs of choice.

  • In a small minority of patients, motor features are worsened with cholinesterase inhibitors.

  • Levodopa/carbidopa may improve motor function in some patients with DLB; however, in many patients this combination has no effect and may exacerbate psychiatric symptoms or confusion.

  • Hallucinations and agitation are especially troublesome in DLB. When these symptoms are mild, no medical treatment may be necessary.
    • Acetylcholinesterase inhibitors should usually be tried first.

    • Most experts recommend atypical neuroleptics such as clozapine, quetiapine, or aripiprazole when cholinesterase inhibitors are ineffective.

    • Avoid standard neuroleptics such as haloperidol because of neuroleptic sensitivity.

  • Depression is frequent in DLB patients and may result from damage in the dorsal raphe and locus ceruleus and/or as a psychological response to impaired function. Selective serotonin reuptake inhibitors are the drugs of choice.

Consultations

Spouses, family members, and caregivers of patients with DLB frequently realize that the patient with DLB behaves differently than typical patients with AD. Primary caregivers (or neurologists not specializing in dementia) frequently are unable to adequately explain these differences. In such situations, referral to a dementia specialist can be helpful.

Diet

No dietary restrictions are indicated except for patients with severe disease who have swallowing impairment.

Activity

Physical therapy and exercise classes can be useful to maintain mobility. Additionally, advise families of potential problems faced by patients with DLB who drive.


MEDICATION

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As yet, no compelling data indicate that medications can decrease the rate of cognitive decline. Medication can be used to treat agitation and hallucinations, treat depression, and improve cognition and/or alertness.

Regarding nonspecific partial glutamate antagonists, in the United States, memantine (Namemda) is approved for the treatment of moderate-to-severe AD. It is not approved for the treatment of PD or DLB. Although this class of drugs might be useful in DLB, as of November 2006, no results of double-blinded, placebo-controlled comparisons of the efficacy of memantine and placebo in the treatment of DLB have been published. Melatonin may be administered at 3 mg hs.

For further discussion of possible treatment of motor features, see Parkinson Disease.

Drug Category: Centrally acting acetylcholinesterase inhibitors

Ach concentrations are decreased in the brains of patients with DLB. Patients with DLB are more likely than patients with AD to improve with cholinesterase inhibitor therapy. Fluctuations in cognition may decrease, alertness may increase, and memory may improve.

Drug NameDonepezil (Aricept)
DescriptionNoncompetitively inhibits centrally active acetylcholinesterase, which may increase concentrations of ACh available for synaptic transmission in CNS.
Adult Dose5 mg PO qhs (with snack) for 6 wk; if tolerated, can be increased to 10 mg qhs
Pediatric DoseNot established
ContraindicationsDocumented hypersensitivity; theoretic concerns about worsening COPD and peptic ulcer disease because of increased cholinergic tone not clinically observed; case reports, but not systematic studies, describe worsening of motor features of PD, but most studies indicate no exacerbation of PD motor signs; bradycardia may be exacerbated in patients with sick sinus syndrome, but clinical data are lacking
InteractionsIncreases effects of succinylcholine, cholinesterase inhibitors, or cholinergic agonists; may counteract effects of anticholinergics used for bladder control (anticholinergics should not be used in DLB)
PregnancyD - Unsafe in pregnancy
PrecautionsCaution in seizures, asthma, sick sinus syndrome, or other supraventricular conduction abnormalities

Drug NameRivastigmine (Exelon)
DescriptionCompetitive and reversible inhibitor of acetylcholinesterase. Although mechanism of action unknown, may reversibly inhibit cholinesterase, which may, in turn, increase concentrations of ACh available for synaptic transmission in CNS and enhance cholinergic function. Effect may lessen as disease process advances and fewer cholinergic neurons remain functionally intact. No evidence indicates that acetylcholinesterase inhibitors alter the course of underlying dementia.
Adult Dose1.5 mg PO bid; increase by 1.5 mg q2wk as tolerated; take with food; therapeutic dose range usually 3-6 mg PO bid
Pediatric DoseNot established
ContraindicationsDocumented hypersensitivity
InteractionsMay reduce effects of anticholinergics (anticholinergics should not be used in DLB); increases effects of cholinergic agonists and neuromuscular blockers; risk of bradycardia increases when administered concurrently with beta-blockers without ISA, calcium channel blockers (ie, diltiazem, verapamil), or digoxin
PregnancyD - Unsafe in pregnancy
PrecautionsMay cause significant nausea, vomiting, anorexia, and weight loss (occurs frequently in women and during titration phase); if significant adverse effects occur, patient should discontinue treatment for several doses, then restart at same or next lower dose; if treatment stopped for several days, initiate treatment at lowest daily dose; caution in history of peptic ulcer disease, concurrent NSAID use, sick sinus syndrome, urinary obstruction, pulmonary conditions (eg, COPD, asthma), and bradycardia or supraventricular conduction conditions; theoretical concerns about worsening COPD and peptic ulcer disease because of increase in cholinergic tone not observed in clinical use; case reports, but not systematic studies, have described worsening of motor features of PD, but most studies indicate no exacerbation of PD motor signs; bradycardia may be exacerbated in sick sinus syndrome, but clinical data are lacking

Drug NameGalantamine (Razadyne [previously called Reminyl])
DescriptionCompetitive and reversible inhibitor of acetylcholinesterase. Although mechanism of action unknown, may reversibly inhibit cholinesterase, which may, in turn, increase concentrations of ACh available for synaptic transmission in CNS and enhance cholinergic function. Effect may lessen as disease process advances and fewer cholinergic neurons remain functionally intact. No evidence indicates that acetylcholinesterase inhibitors alter the course of underlying dementia.
Available in ER daily dosing and in IR form.
Adult Dose8 mg PO qd for 4 wk; increase by 8 mg q4wk, not to exceed 24 mg/d
Pediatric DoseNot established
ContraindicationsDocumented hypersensitivity; severe renal dysfunction (ie, <10 mL/min CrCl)
InteractionsCoadministration with other cholinesterase inhibitors (eg, succinylcholine) may increase toxicity; CYP2D6 or CYP3A4 inhibitors (eg, cimetidine, ketoconazole, ritonavir, paroxetine, erythromycin) may decrease elimination and increase serum levels; may counteract effects of anticholinergics used for bladder control (anticholinergics should not be used in DLB)
PregnancyD - Unsafe in pregnancy
PrecautionsDecrease dose in moderate renal insufficiency or moderate-to-severe hepatic impairment; caution in asthma; may cause bradycardia or AV block; syncope may occur with doses >24 mg/d; caution in sick sinus syndrome or other supraventricular conduction; theoretical concerns about worsening COPD and peptic ulcer disease because of increase in cholinergic tone not observed in clinical use; case reports, but not systematic studies, have described worsening of motor features of PD, but most studies indicate no exacerbation of PD motor signs; bradycardia may be exacerbated in sick sinus syndrome, but clinical data are lacking

Drug NameRivastigmine transdermal patch (Exelon patch)
DescriptionCompetitive and reversible acetylcholinesterase inhibitor. While mechanism of action unknown, may reversibly inhibit cholinesterase, which may, in turn, increase concentrations of acetylcholine available for synaptic transmission in CNS and thereby enhance cholinergic function. Effect may lessen as disease process advances and fewer cholinergic neurons remain functionally intact.
Available as 5-cm2 patch containing 9 mg (releases 4.6 mg/24 h) and 10-cm2 patch containing 18 mg (releases 9.5 mg/24 h). Indicated for dementia of Alzheimer disease and for dementia associated with Parkinson disease.
Adult DoseApply patch to upper or lower back, upper arm, or chest
Initiating patch therapy (not switching from oral therapy): 4.6 mg/24 h patch (5 cm2) applied qd initially; if well tolerated and after minimum of 4 wk, increase to 9.5 mg/24 h patch (10 cm2) applied qd
Switching from oral administration to patch therapy:
Apply first patch on day following last oral dose
Total daily oral dose <6 mg/d: Switch to 4.6 mg/24 h patch
Total daily oral dose 6-12 mg/d: Switch to 9.5 mg/24 h patch
Pediatric DoseNot indicated
ContraindicationsDocumented hypersensitivity
InteractionsMay reduce effects of anticholinergics; increases effects of cholinergic agonists and neuromuscular blockers; risk of bradycardia increases when administered concurrently with beta-blockers without ISA, the calcium channel blockers diltiazem or verapamil, and digoxin
PregnancyB - Usually safe but benefits must outweigh the risks
PrecautionsApply patch to clean, dry, and hairless area of back, upper arm, or chest; area where patch is applied must be free of powder, oil, moisturizer, lotion, or other substances that would keep patch from adhering properly to skin; also, apply to areas free of cuts, rashes, or other irritation; may cause significant nausea, vomiting, anorexia, and weight loss if taken in doses higher than recommended; if significant adverse effects occur, patient should discontinue treatment for several doses, then restart at lowest dose; extrapyramidal symptoms may occur or be exacerbated (especially tremor); caution in history of peptic ulcer disease, sick sinus syndrome, urinary obstruction, pulmonary conditions (eg, COPD, asthma), and bradycardia or supraventricular conduction conditions

Drug Category: Atypical neuroleptics

Patients with DLB frequently have hallucinations that can cause them to engage in unsafe behavior. Thus, they require treatment. Standard neuroleptics exacerbate parkinsonian motor features and, therefore, are contraindicated.

Drug NameClozapine (Clozaril)
DescriptionAssociated with risk of agranulocytosis when used at doses required for treatment of schizophrenia with symptoms refractory to standard neuroleptics; in the United States, weekly dosing and weekly CBC counts required to dispense; discontinuing therapy at first sign of leukopenia decreases but does not eliminate risk of agranulocytosis; whether agranulocytosis is associated with low doses in treating elderly patients and those with dementia not clear.
Adult Dose25 mg tab, half the tab PO qd; may be increased to half the tab bid after 1-2 wk; dosage can be gradually increased further
Pediatric DoseNot established
ContraindicationsDocumented hypersensitivity, WBC count <3500 cells/µL before or during therapy
InteractionsEpinephrine and phenytoin may decrease effects; TCAs, neuroleptics, CNS depressants, guanabenz, and anticholinergics may increase effects
PregnancyD - Unsafe in pregnancy
PrecautionsMay cause serious agranulocytosis; may worsen confusion and EPS; may increase lethargy and cause tachycardia, dizziness, and increased sweating; do not stop abruptly; perform WBC testing q2wk for duration of therapy

Drug NameQuetiapine (Seroquel)
DescriptionAtypical neuroleptic that may act by antagonizing dopamine and serotonin effects. Also used to treat insomnia.
Adult DoseHallucinations: 25 mg PO bid; can be increased very gradually
Insomnia: 12.5 mg PO hs
Pediatric DoseNot established
ContraindicationsDocumented hypersensitivity
InteractionsMay antagonize levodopa and dopamine agonists; phenytoin, thioridazine, and other liver enzyme inducers may reduce levels; CYP450 3A inhibitors (eg, ketoconazole, fluconazole, erythromycin) increase serum concentrations
PregnancyC - Safety for use during pregnancy has not been established.
PrecautionsMay induce orthostatic hypotension associated with dizziness, tachycardia, and syncope; neuroleptic malignant syndrome and tardive dyskinesia have been associated with treatment; hyperglycemia may occur and, in some cases, be extreme, resulting in ketoacidosis, hyperosmolar coma, or death; caution in hepatic impairment (decrease dose)

Drug NameAripiprazole (Abilify)
DescriptionImproves positive and negative schizophrenic symptoms. Mechanism of action unknown, but is hypothesized to work differently than other antipsychotics. Thought to be partial dopamine (D2) and serotonin (5HT1A) agonist and to antagonize serotonin (5HT2A). Additionally, no QTc interval prolongation noted in clinical trials. Available as tab, orally disintegrating tab, or oral solution.
Adult Dose10-15 mg PO qd; if needed, may increase dose gradually q2wk, not to exceed 30 mg/d
Pediatric DoseNot established
ContraindicationsDocumented hypersensitivity
InteractionsCYP450 3A4 and 2D6 isoenzyme substrate, thus, inhibitors (ie, ketoconazole, quinidine, fluoxetine, paroxetine) or inducers (ie, carbamazepine) may increase or decrease serum levels, respectively
PregnancyC - Safety for use during pregnancy has not been established.
PrecautionsCommon adverse effects include headache, anxiety, somnolence, or insomnia; rare reports of tardive dyskinesia and neuroleptic malignant syndrome; may cause orthostatic hypotension, seizure, dysphagia, or suicidal ideation; hyperglycemia may occur and, in some cases, be extreme, resulting in ketoacidosis, hyperosmolar coma, or death

Drug Category: Antidepressants

Depression is frequent in DLB. Antidepressants with little or no anticholinergic activity are desirable.

Drug NameVenlafaxine (Effexor)
DescriptionMay treat depression by inhibiting neuronal serotonin and norepinephrine reuptake; in addition, causes beta-receptor down-regulation.
Adult DoseIR: 75 mg/d PO divided bid/tid with food; increase in 75-mg/d increments q4d to 225-375 mg/d
ER: 75 mg/d PO with food; increase in 75-mg/d increments q4d to 225 mg/d
Pediatric DoseNot established
ContraindicationsDocumented hypersensitivity; MAOIs within 14 d
InteractionsCimetidine, MAOIs, sertraline, fluoxetine, class IC antiarrhythmics, TCAs, and phenothiazine may increase effects
PregnancyC - Safety for use during pregnancy has not been established.
PrecautionsPatients may experience hypertension; fatal reaction may occur if taken concurrently with an MAOI; caution in patients with cardiovascular disorders

Drug NameParoxetine (Paxil), fluoxetine (Prozac)
DescriptionSelectively inhibits presynaptic serotonin reuptake with minimal or no effect in reuptake of norepinephrine or dopamine.
Adult DoseParoxetine: 10 mg/d PO initially; increase in 10-mg/d increments prn; dose changes should occur at intervals of at least 1 wk; usual dose range is 10-60 mg/d; not to exceed 60 mg/d
Fluoxetine: 20 mg/d PO every am; increase after several wk by 20 mg/d; not to exceed 80 mg/d
Pediatric DoseNot established
ContraindicationsDocumented hypersensitivity; MAOIs within 14 d
InteractionsPhenobarbital and phenytoin decrease effects; alcohol, cimetidine, sertraline, phenothiazines, and warfarin increase toxicity
Increases toxicity of diazepam and trazodone by decreasing their clearance; increases toxicity of highly protein-bound drugs
PregnancyC - Safety for use during pregnancy has not been established.
PrecautionsCaution with history of seizures, mania, renal disease, cardiac disease, or hepatic impairment; discontinue MAOIs at least 14 d before initiating therapy

Drug NameSertraline (Zoloft)
DescriptionSelectively inhibits presynaptic serotonin reuptake.
Adult Dose50 mg tab, half the tab PO qd; gradually increase dose, not to exceed 200 mg (however, in most patients with DLB, not to exceed 100 mg)
Pediatric DoseNot established
ContraindicationsDocumented hypersensitivity, concurrent MAOIs
InteractionsIncreases toxicity of MAOIs, diazepam, tolbutamide, and warfarin
PregnancyC - Safety for use during pregnancy has not been established.
PrecautionsMay increase confusion and agitation; may increase sleepiness or conversely cause insomnia; may be associated with weight gain or weight loss; discontinue MAOIs at least 14 d before initiating therapy

Drug Category: Benzodiazepines

By binding to specific receptor-sites, these agents appear to potentiate the effects of GABA and facilitate inhibitory GABA neurotransmission and other inhibitory transmitters.

Drug NameClonazepam (Klonopin)
DescriptionLong-acting benzodiazepine that increases presynaptic GABA inhibition and reduces monosynaptic and polysynaptic reflexes. Suppresses muscle contractions by facilitating inhibitory GABA neurotransmission and other inhibitory transmitters. Has multiple indications, including suppression of myoclonic, akinetic, or petit mal seizure activity and focal or generalized dystonias (eg, tardive dystonia). Reaches peak plasma concentration at 2-4 h after oral or rectal administration.
In patients who are dependent, used in a manner similar to phenobarbital to smoothly wean patients from short-acting benzodiazepines. General principle is that sedatives with longer half-lives have less severe withdrawal symptoms. Various schemes are used to individualize dose to the patient. If symptoms are severe enough to require inpatient treatment, intravenous lorazepam or diazepam is used.
Adult Dose0.25 mg PO hs
Pediatric DoseNot established
ContraindicationsDocumented hypersensitivity; severe liver disease and acute narrow-angle glaucoma
InteractionsPhenytoin and barbiturates may reduce effects; coadministration of CNS depressants increases toxicity
PregnancyD - Unsafe in pregnancy
PrecautionsCaution in chronic respiratory disease or impaired renal function; withdrawal symptoms can result from abrupt discontinuation

Drug Category: Dopamine precursors

Patients with DLB have impaired dopaminergic tone due to disease in the substantia nigra and possibly other dopaminergic nuclei. Efficacy of the treatment of motor features in DLB depends on where the patient is on the PD-DLB spectrum. Whether or not levodopa influences cognition positively or negatively remains controversial, and its effect on cognition is probably modest.

Drug NameLevodopa and carbidopa (Sinemet)
DescriptionLarge neutral amino acid absorbed in proximal small intestine by saturable carrier-mediated transport system; absorption decreased by meals that include other large neutral amino acids (but only patients with meaningful motor fluctuations need consider low-protein or protein-redistributed diet); half-life approximately 2 h.
Provide at least 70-100 mg/d carbidopa; if more is required, substitute 25/100 tab for each 10/100 tab; when more levodopa is required, substitute 25/250 tab for 25/100 or 10/100 tab; CR formulation absorbed more slowly and provides more sustained levodopa levels than IR form; when initially required, CR form is as effective as IR form and may be more convenient; patients with dissipating motor fluctuations and no dyskinesia often benefit from prolongation of short-duration response when switched from IR to CR form; patients with meaningful fluctuations and dyskinesia often have increased dyskinesia when switched to CR form; doses and intervals for CR form may be increased or decreased to response.
Most patients adequately treated with 2-8 tab/d in doses divided q4-8h when awake; >12 tab/d and 3 d between dose adjustments; may be administered as whole or half tab, which should not be crushed or chewed; motor symptoms and signs may or may not improve.
Adult Dose25/100 tab initially; half the tab PO bid; can be increased gradually; greater consistency of absorption when taken 1 h or longer after meals; some start with CR form
Pediatric DoseNot established
ContraindicationsDocumented hypersensitivity, narrow-angle glaucoma, malignant melanoma, or undiagnosed skin lesions
InteractionsHydantoins, pyridoxine, phenothiazine, and hypotensive agents may decrease effects; toxicity increases when administered concurrently with antacids or MAOIs
PregnancyC - Safety for use during pregnancy has not been established.
PrecautionsMay increase agitation, lethargy, dyskinesias, postural hypotension, hallucination, and confusion; psychiatric symptoms (eg, hallucinations) may be exacerbated; most common acute adverse effects are nausea, hypotension, and hallucinations; nausea often reduced if taken immediately after meals; patients with nausea may benefit from additional carbidopa in doses of 200 mg/d; long-term adverse effects include motor fluctuations and dyskinesia (chorea)


FOLLOW-UP

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Deterrence/Prevention

  • Data are not available on deterrence or prevention of this condition.

Prognosis

  • DLB is a disorder of inexorable progression.


  • The rate of progression varies, and some investigators think that progression is faster than that of AD.


  • Patients eventually die from complications of immobility, poor nutrition, and swallowing difficulties.

Patient Education

  • Primary caregivers need information about the course of the disease and the management of symptoms such as agitation, hallucinations, and cognitive fluctuations.


  • Family members and physicians may mistake fluctuations for transient ischemic attacks.


  • Information concerning issues such as daycare and home health aides can be useful.


  • Children of patients with DLB may request information concerning genetic risks or neuroprotective treatment regimens.


  • For excellent patient education resources, visit eMedicine's Dementia Center. In addition, see eMedicine's patient education articles Dementia Overview, Dementia With Lewy Bodies, and Dementia Medication Overview.


MISCELLANEOUS

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Medical/Legal Pitfalls

  • Family members should be made aware that DLB eventually affects job performance.

  • Depending on the patient's occupation and level of dysfunction, medical leave of absence or early retirement may be advised.

  • Driving privileges need to be addressed by the patient, family, caregivers, primary care physician, and neurologist.


REFERENCES

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Dementia With Lewy Bodies excerpt

Article Last Updated: Jul 16, 2007