Best Practice Guide for the treatment of ReM Sleep Behavior disorder

SUMMARY OF RECOMMENDATIONS
Modifying the sleep environment is recommended for the treatment of patients with RBD who have sleep-related injury. Level A Clonazepam is suggested for the treatment of RBD but should be used with caution in patients with dementia, gait disorders, or concomitant OSA. Its use should be monitored carefully over time as RBD appears to be a precursor to neurodegenerative disorders with dementia in some patients. Level B Clonazepam is suggested to decrease the occurrence of sleep-related injury caused by RBD in patients for whom pharmacologic therapy is deemed necessary. It should be used in caution in patients with dementia, gait disorders, or concomitant OSA, and its use should be monitored carefully over time. Level B Melatonin is suggested for the treatment of RBD with the advantage that there are few side effects. Level B Pramipexole may be considered to treat RBD, but efficacy studies have shown contradictory results. There is little evidence to support the use of paroxetine or L-DOPA to treat RBD, and some studies have suggested that these drugs may actually induce or exacerbate RBD. There are limited data regarding the efficacy of acetylcholinesterase inhibitors, but they may be considered to treat RBD in patients with a concomitant synucleinopathy. Level C.


intRoduCtion
R EM sleep behavior disorder (RBD) was first defined in 1986. 1 Since then, a number of reviews but no evidencebased treatment recommendations have been published.To address this issue, the Standards of Practice Committee of the American Academy of Sleep Medicine (AASM) commissioned a task force to assess the literature on the treatment of RBD.The task force found that although the literature is voluminous, much of the data are low-level studies, mostly case series and case reports with no randomized controlled clinical trials.These studies were deemed insufficient to support the standards or guidelines of a practice parameter.Thus, the Board of Directors authorized the task force to draft a Best Practice Guide on the treatment of RBD based on a systematic review and compilation of recommended evaluation or management strategies.

MethodS
The Standards of Practice Committee of the AASM commissioned among its members 7 individuals to conduct this review and develop best practice principles.Work began in December 2007 to review and grade evidence in the peer-reviewed scientific literature regarding the treatment of RBD in adults.A search for articles on the medical treatment of RBD was conducted using the PubMed database, first in February 2008, and subsequently updated in June 2009, to include the most current literature.The key words for the searches were the following: [(RBD OR Rapid Eye Movement Sleep Disorder OR REM Sleep behavior disorder) AND (treatment OR medication OR drug therapy] as well as [Rapid eye movement behavior disorder AND evaluation AND (neurological diseases OR dementia OR stroke OR sleep disorders OR Lewy body dementia OR drug induced OR multiple systems atrophy OR narcolepsy OR Parkinson's OR synucleinopathies)].Each search was run separately and findings were merged.When the search was limited to articles published in English and regarding human adults (age 19 years and older), a total of 315 articles was identified.Abstracts from these articles were reviewed to deter mine if they met inclusion criteria.The literature on medical treatment of RBD was noted to comprise mostly small case series.In order to be inclusive, latitude in Best Practice Guide for the treatment of ReM Sleep Behavior disorder (RBd) Standards of Practice Committee: R. Nisha Aurora, M.D. 1 ; Rochelle S. Zak, M.D. 1 ; Rama K. Maganti, M.D. 2 ; Sanford H. Auerbach, M.D. 3 ; Kenneth R. Casey, M.D. 4 ; Susmita Chowdhuri, M.D. 5 ; Anoop Karippot, M.D. 6 ; Kannan Ramar, M.D. 7 ; David A. Kristo, M.D. 8 ; Timothy I. Morgenthaler, M.D. 7 disorder definition was allowed and no minimum number of subjects was applied.The articles had to address at least 1 of the "PICO" questions (acronym standing for Patient, Population or Prob lem, provided a specific Intervention or exposure, after which a defined Comparison is performed on specified Outcomes) that were decided upon ahead of the review process (see Table 1).The literature review and pearling (i.e., checking the reference sections of search results for articles otherwise missed) provided 42 articles for review and grading.
Evidence was graded according to the Oxford Centre for Evidence-based Medicine Levels of Evidence (Table 2). 2 All evidence grading was performed by inde pendent review of the article by 2 members of the task force.Areas of disagreement were addressed by the task force until resolved.Recommendations were formulated based on the strength of clinical data and consensus attained via a modified RAND/UCLA Appropriateness Method. 3The task force developed a ranking of recommendations for increased transparency.The nomenclature for the recommendations and levels of recommendation are listed in Table 3.
Recommendations were downgraded if there were significant risks involved in the treatment or upgraded if expert consensus determined it was warranted.The paper was reviewed by content experts in the area of REM sleep behavior disorder.
The Board of Directors of the AASM approved these recommendations.All members of the AASM Standards of Practice Committee and Board of Directors completed detailed conflictof-interest statements and were found to have no conflicts of interest with regard to this subject.
The Best Practice Guides endorse treatments based on review of the literature and with agreement by a consensus of the task force.These guidelines should not, however, be considered inclusive of all proper methods of care or exclusive of other methods of care reasonably directed to obtaining the same results.The ultimate judgment regarding propriety of any specific care must be made by the physician in light of the individual circumstances presented by the patient, available diagnostic tools, accessible treatment options, and resources.
The AASM expects these recommendations to have an impact on professional behavior, patient outcomes, and, possibly, health care costs.These assessments reflect the state of knowledge at the time of publication and will be reviewed, updated, and revised as new information becomes available.

definition
Rapid eye movement sleep behavior disorder (RBD) is a parasomnia, first described in cats 4 and later described in human beings by Schenck et al. 1 in 1986.RBD is typically characterized by abnormal or disruptive behaviors emerging during rapid eye movement (R) sleep having the potential to cause injury or sleep disruption such as talking, laughing, shouting, gesturing, grabbing, flailing arms, punching, kicking, and sitting up or leaping from bed. 5 Vigorous, violent episodes may occur rarely or up to several times nightly.Polysomnography (PSG) shows loss of normal electromyographic (EMG) atonia (REM sleep without atonia-RSWA) manifest as either or both sustained muscle activity during R sleep in the chin EMG and excessive transient muscle activity (phasic muscle twitches) in either the chin or limb EMG.RBD usually presents after the age of 50, 6 though any age group can be affected.There is predilection for male gender, 7 and prevalence estimates are 0.38% 8 to 0.5% 9 in the general population.
Patients with RBD are at risk for sleep-related injury (SRI).Between 33% 10 and 65%    Practice Guide for the Treatment of RBD who develop α-synucleinopathies, symptoms of RBD as well as sleep related injuries decline over time. 11BD may be idiopathic or secondary.At this time, it is unknown if idiopathic RBD (IRBD) truly exists or if it is merely cryptogenic since Lewy bodies were demonstrated by autopsy in 2 cases of presumptive IRBD. 12,13Secondary RBD can be related to neurodegenerative disorders, other neurologic disorders, sleep disorders or medications, including withdrawal states.6][17] Mild cognitive impairment also emerged but was less common. 16Conversely, RBD has been found in 70% 18 of patients with MSA, 40% 18 of patients with DLB, and 15% 10,19 to 33% 20 of patients with PD.In 1 series, 11 92% of patients with RBD and dementia met consensus-based criteria for DLB.RBD is now a suggestive feature for DLB. 21here have also been rare reports of RBD in some of the tauopathies, such as Alzheimer disease, progressive supranuclear palsy, and corticobasal degeneration, 22 although a clear association has not been proven.
RBD may be secondary to other neurological disorders such as spinocerebellar ataxia, 23,24 limbic encephalitis, 25 brain tumors, 26 multiple sclerosis, 27 Guillaine-Barre, 1 and stroke. 28RBD may be associated with other sleep disorders such as narcolepsy [29][30][31] and periodic limb movements of sleep. 32Vigorous arousals in OSA can mimic RBD in clinical presentation; thus, some patients with severe OSA may present as if they have RBD.In these cases, PSG can clarify the diagnosis. 33Finally, RBD can be associated with medication use and withdrawal.There are case reports of different antidepressant medications causing RBD (e.g., paroxetine, 34 fluoxetine and impipramine, 35 venlafaxine, 36 and mirtazapine 37 ).A recent population study 38 showed an increased risk ratio of being on antidepressants for patients with early-onset RBD; furthermore, a study 39 evaluating the effect of SSRI medications on motor tone in R (which specifically excluded subjects with RBD) demonstrated that SSRI medications can induce RSWA.β-Blockers have also been noted to cause RBD. 40RBD may be seen in association with R rebound states such as alcohol 40 and barbiturate withdrawal. 41

diagnosis
The minimal diagnostic criteria for RBD proposed by the International Classification of Sleep Disorders (ICSD)-2 42

neuropharmacology
The apparent efficacy of multiple families of medications for RBD may be related to the complexity of its pathogenesis.The neuropharmacology underlying RBD is inferred from animal studies, case reports of lesions, and physiologic neuroimaging data, which implicate serotonin, norepinephrine, hypocretin, acetylcholine, and dopamine in the development of RBD.Analyzing these data, Boeve et al. 13 proposed that the most likely neuroanatomic abnormality lies in the human equivalent of the sublaterodorsal nucleus (a glutamatergic nucleus in the rat pons) and the precoeruleus region or in the regions that modulate these R-on neurons in the rat.The R-on neurons are inhibited by the R-off neurons, which are activated by norepinephrine from the locus coeruleus, serotonin from the raphe nuclei, and hypocretin from the lateral hypothalamus.This suggests that norepinephrine 44 and serotonin 39,44 may inhibit R (as seen in reports of medication effects) and a deficiency of hypocretin may promote R (as seen in narcolepsy).Cholinergic neurons from the pedunculopontine and lateral dorsal tegmental nuclei in the pons inhibit the R-off cells as do GABA-ergic and galanin-ergic neurons from the ventrolateral preoptic nucleus in the forebrain, and, thus, acetylcholine promotes R. Thus, there are likely multiple different anatomical and neurochemical lesions that, either individually or in combination, can lead to clinical RBD.This may explain the efficacy of multiple families of medications.Dopaminergic dysfunction may also play a role in the pathophysiology of RBD.Neurophysiologic imaging using SPECT scans has demonstrated a decreased number of striatal dopamine transporters in patients with RBD. 45,46A study using PET showed decreased striatal binding in patients with RBD and a correlation between decreased striatal binding and the severity of increased muscle activity in patients with MSA who had clinical and PSG evidence of RBD. 47Albin et al. 48propose that the mechanism may be through the influence of the basal ganglia on the pedunculopontine nucleus (PPN) or that degeneration in the basal ganglia co-occurs with damage to the PPN.
Despite the data and theories presented above, there are instances of the same medication both causing 34 and treating 49,50 RBD.A possible explanation is dose-dependent activation of different receptor subtypes causing different degrees of inhibition of various components of R sleep.

Prognosis
Patients with RBD are at risk for developing cognitive impairment.Patients with IRBD with no other neurological disorder were found to have visuospatial and constructional abnormalities as well as altered visuospatial learning compared to age-matched controls. 51In patients with PD, however, presence of RBD may help predict future cognitive impairment.In 1 study, patients with PD and RBD had multiple deficits, including verbal memory, executive function, visuospatial, and visuoperceptual processing compared to controls or patients

treatment data
To date, there are no large randomized controlled trials of treatments for RBD.Small case series and case reports describe efficacy of a wide range of medications, most prominently clonazepam but also melatonin, pramipexole, acetylcholinesterase inhibitors, paroxetine, L-DOPA, zopiclone, temazepam, triazolam, alprazolam, Yi-Gan San, desipramine, carbamazepine, clozapine, and sodium oxybate.In addition, appropriate safety measures, including environmental modifications and medication, are addressed.The treatment data are summarized in Table 4 and the evidence table is available in the online version at www.asasmnet.org/jcsm/.
Certain precautions should be taken when interpreting the results presented below.Many of the studies have subjects with DLB.Because DLB is characterized by symptom fluctuation, it with PD and no RBD on standardized neuropsychological testing. 52Cognitive decline may coincide or precede the onset of RBD.One group reported that cognitive decline occurred in 94% of a sample of patients with RBD. 53It is not clear from the studies whether the risk for dementia is limited to those who develop abnormal neurological findings or includes all patients presenting with cryptogenic RBD.Nonetheless, these studies suggest that a baseline neurological examination with particular attention to cognition and extrapyramidal signs is merited when a diagnosis of RBD is established.Patients without an established neurological diagnosis and their families should be counseled about the possibility of onset of a neurodegenerative disorder or dementia.57/308 were listed as partial responders; subjects were considered to have a partial response to clonazepam if either the authors designated the response that way or if they reported residual minor behaviors such as vocalizations or twitching with elimination of gross motor behaviors. 2only rarely with complete elimination of symptoms 3 NB: a prospective study giving L-DOPA at the minimum dose that would control PD symptoms-mean 393.3 mg-noted the ONSET of RBD in 5/10 participants in under 1 year with statistically significant increase in R motor tone on PSG for the group as a whole. 4although up to 4 may have been treated either solely or additionally with carbamazepine 5 1 with clonazepam in addition 6 although up to 4 may have been treated either solely or additionally with alprazolam Practice Guide for the Treatment of RBD to substantially reduce their dose despite periodic attempts at gradual tapering without experiencing prompt reemergence of the primary sleep disorder. 76In a series of intensive care unit (ICU) patients with RBD, failure to take clonazepam resulted in same-night relapse. 62Follow-up has been reported for as long as 6 years. 15he mechanism of action of clonazepam is unknown.R sleep suppression is not involved nor is there normalization of R atonia. 56,73Clonazepam may preferentially control phasic locomotor activity at the brainstem level without restoring atonia via a serotonergic effect. 56,73It may also modify dream content in RBD. 73An alternative proposed hypothesis suggests that dream generators are suppressed by clonazepam with inhibition of brainstem locomotor pattern generators. 73The fact that it produces clinical improvement without an effect upon RSWA suggests that it acts preferentially upon the locomotor systems rather than those affecting R atonia. 77A hierarchical response to clonazepam was suggested in decreasing order of control: vigorous/violent behaviors and loud vocalizations > complex non-vigorous behaviors > simple limb jerking and body movements > excessive EMG twitching in R sleep.PSG data in 8 patients while on clonazepam demonstrated no change in sleep architecture including R sleep. 73The only case-control study 56 (Level 4) of 5 RBD patients (age 45-66 years) treated with 0.5 to 2 mg clonazepam did not note any change in sleep variables compared to 5 age-matched controls except for a significant reduction in eye movement density and phasic chin EMG density.Clonazepam suppressed PLMS significantly but did not restore R atonia.
Most studies reported minimal side effects, but a recent retrospective study noted that 58% of 36 patients on clonazepam for RBD had moderate or severe side effects resulting in discontinuation of the medication in 13 patients. 78The most common side effects included sedation, particularly in the morning 7,73,76,79 ; impotence 7,73 ; early morning motor incoordination 7 ; confusion 78 ; and memory dysfunction, 76 with no instance of drug abuse. 73Clonazepam at 0.5 to 1.0 mg can also be associated with the possible risk of developing or worsening sleep apnea. 80There is also a risk of confusion and falls with clonazepam at 2.0 mg nightly, with the potential for a subdural hematoma. 11Only a minority of patients in a Hong Kong Chinese population reported adverse effects, including intolerable daytime somnolence (5/71) and transient and reversible increase in liver enzyme (1/71). 64These data suggest that clonazepam should be used with caution and oversight in patients with neurodegenerative disorders, obstructive sleep apnea, and underlying liver disease.
In conclusion, clonazepam has been effective in a number of Level 4 studies.However, there is a paucity of more robust data with most studies limited by selection bias of a sleep clinic sample, absence of long-term follow-up, and no comparison or control group.Prospective, controlled trials are needed to allow us to determine the efficacy of clonazepam in the treatment of RBD.

Melatonin is suggested for the treatment of RBD with the advantage that there are few side effects. Level B
The evidence for melatonin is less strong than for clonazepam.Nevertheless it is far stronger than for any of the subse-may be difficult to ascertain whether or not symptom improvement is a function of medication effect or natural history.  1 reported that clonazepam successfully treated the vigorous behaviors during R sleep in 2 of the original 5 subjects (only 3 were treated and the third was successfully treated with desipramine).We identified 22 studies of the treatment of RBD using clonazepam.None of the studies exceeded Level 4 evidence.[68][69][70] A number of studies did not use PSG to diagnose RBD.A majority of the studies evaluated sleep clinic populations, whereas only 1 studied a community sample. 8 Thee were a total of 339 subjects, of whom 306 were noted to have complete (249) or partial (57) treatment response to clonazepam.These studies demonstrated substantial efficacy in patients with cryptogenic RBD 6,16 as well as secondary RBD (associated with such disorders as synucleinopathies, 7,15,71 narcolepsy, 29 and brainstem lesions 54,66,69 ), parasomnia overlap syndrome, 60 and status dissociatus.57 These data are consistent with the results from the Minnesota Regional Sleep Disorders Center, where clonazepam has been used to treat more than 200 patients with RBD with clinical efficacy in more than 80%.72 Clonazepam was chosen because other initial therapies, which included R-suppressing tricyclic antidepressants, had failed and because of its efficacy in treating periodic limb movements of sleep (PLMS), which were noted to be present in some of the patients with RBD.73 Clonazepam is a long acting benzodiazepine with an elimination half-life of 30-40 hours that is rapidly absorbed after oral administration, with a bioavailability of 90%.Maximum plasma concentrations are reached within 1-4 hours after oral administration.74 The recommended dose is 0.25 mg to 2.0 mg 30 minutes prior to bedtime, but doses as high as 4.0 mg were reported.,75 One study reported that women required higher dosing (1.4 ± 0.4 mg) than men (0.68 ± 0.4 mg) to control RBD symptoms.73 Failure to take clonazepam has resulted in immediate RBD relapse, but rapid control was restored after resumption of treatment.73 Dose escalation was reportedly rare, 73,76 but was noted in 1 study.64 There was no significant difference in initial versus final mean dose (0.63 ± 0.4 vs. 0.97 ± 0.89 mg), 76 indicating absence of tolerance; withdrawal symptoms typically did not develop upon dose reduction or drug discontinuation.64,76 However, many patients are unable taped simple, but not complex, motor behaviors.86 The study in PD subjects that did not demonstrate clinical efficacy also did not show any statistically significant changes in R-related increases in muscle tone.88 Taken together, these few studies suggest the possibility that pramipexole may be helpful in some patients with RBD.If a benefit exists, it seems to be in patients who have not yet been diagnosed with neurodegenerative disease.Dopaminergic agonists may exacerbate symptoms of DLB, and since many patients with IRBD ultimately develop DLB, caution should be exercised with its use.

Paroxetine
Paroxetine is a selective serotonin reuptake inhibitor (SSRI).Case reports of SSRI-induced RBD 35,36 suggest that it might exacerbate RBD.A recent population study 38 showed an increased risk ratio of being on antidepressants (including paroxetine) for patients with early-onset RBD.Nonetheless, paroxetine was used in 1 Level 4 case series 50 of 19 subjects with cryptogenic RBD because of its ability to suppress R sleep.Sixteen of the 19 participants noted improvement in RBD symptoms, with 11 showing significant improvement but none having complete elimination of symptoms.Doses ranged from 10-40 mg at bedtime.Paroxetine was also noted to be efficacious in 1 case report 49 at a dose of 10 mg.Yet there is also a case report 34 of paroxetine causing RBD (the dose was 30 mg daily).Reported side effects included nausea, dizziness, diarrhea, 50 and thirst. 49hese data provide little support for the use of paroxetine in the treatment of RBD.

L-DoPa
There are limited Level 4 data demonstrating efficacy of L-DOPA in the treatment of RBD.However, there are additional low-grade data that imply that L-DOPA may promote RBD, although this conclusion cannot be definitively inferred.A small Level 4 case series 89 reported efficacy of L-DOPA in 3 RBD subjects with PD at unspecified doses.The postulated mechanism for efficacy was a reduction in R sleep. 89In contrast, there are data 79 showing that patients with PD and RBD have had a greater exposure to L-DOPA than those with PD alone, suggesting that L-DOPA may not be efficacious.In addition, a Level 4 prospective case series showed the onset of RBD in under one year of administering L-DOPA in 5/15 L-DOPA naïve participants. 90Furthermore, PSG showed a statistically significant increase in tonic and phasic chin EMG activity in the group as a whole.The authors do not speculate on how L-DOPA would trigger the onset of RBD.These data overall suggest a limited role for L-DOPA in the treatment of RBD at this time.

acetyLchoLinesterase inhibitors
As described above, circuitry controlling R sleep involves multiple neurotransmitters, including acetylcholine.Thus, dysfunction of cholinergic nuclei or pathways are likely to be involved, even if they are only secondarily affected by dysfunction in modulating systems, such as those of the basal ganglia.Some authors have suggested that RBD may be due to a disruption in Rrelated cholinergic systems. 91Despite the fact that cholinesterase inhibitors may be associated with sleep disruption, vivid dreams and sleep-related disruptive behaviors, they have also been con-quent agents; therefore, based on the evidence plus clinical consensus melatonin use is recommended at Level B. Melatonin 3-12 mg at bedtime has been shown to be effective in the treatment of RBD in Level 4 studies with relatively few subjects.Initially, melatonin was introduced to promote sleep, 81 but others have speculated that it may help with an underlying disorder of desynchronization. 82This benefit has been reported in 1 case report, 81 2 open-label prospective case series of patients with IRBD, 82,83 and 2 retrospective case series. 78,84aken together, these reports include a total of 38 patients.Thirty-one were noted to experience improvement with melatonin, 78,81-84 2 more experienced transient improvement, 84 and 1 seemed to worsen. 84Follow-up as far as 25 months was reported. 84Doses ranged from 3 mg 81 to 12 mg, 84 and 6 subjects were also taking clonazepam (one of these used gabapentin as well). 78,84Successfully treated patients included those with synucleinopathies including DLB, PD and MSA 82,84 , memory problems, 78,82,85 and sleep-disordered breathing. 78,85Dose-related side effects included morning headache, morning sleepiness, and delusions/hallucinations. 84PSG showed statistically significant decreases in number of R epochs without atonia 82,83 and in movement time in R. 82 This contrasts with the persistence of tonic muscle tone in R sleep seen with patients treated with clonazepam. 56

PramiPexoLe
The relationship of RBD and PD, as well as the results of PET 48 and SPECT 45 scans suggesting dysfunction in the dopaminergic nigrostriatal systems of patients with IRBD, led some to consider dopaminergic agents in the treatment of RBD.Level 4 studies with pramipexole, a dopaminergic D 2 -D 3 receptor agonist, have produced mixed results.There are 2 published case series 86,87 examining the effectiveness of pramipexole in idiopathic and secondary RBD and a third 88 examining the role in patients already receiving therapy for previously diagnosed PD.There were a total of 29 subjects with and without synucleinopathies diagnosed at the time of the reports.Of these, 13 had a positive response, 86,87 with an additional 2 subjects having a brief transient response. 86ne study 88 of 11 subjects with PD demonstrated no benefit from pramipexole treatment on RBD symptoms, including blinded review of post treatment video.It should be noted that the pramipexole dose was titrated using general PD motor symptoms rather than RBD symptoms as an endpoint with a maximal dose of 0.7 mg three times a day.However, this was similar to the mean nightly dose used in the other 2 studies (0.78 and 0.89 mg). 86,87Surprisingly, 1 study with pretreatment and treatment PSG, which demonstrated clinical efficacy, showed a statistically significant increase in tonic REM motor tone during treatment with a decrease in video-Practice Guide for the Treatment of RBD symptoms returned and were unresponsive to higher doses; for the other patient, the dose was not specified) 1 although 2 other patients did demonstrate a response to alprazolam at a dose of 1-3 mg. 76The exact mechanism of action is unknown.

yi-Gan san, an herbaL meDication
A Level 4 case series 96 of 3 subjects who were either intolerant of clonazepam or for whom clonazepam was contraindicated reported complete resolution of symptoms with Yi-Gan San, which consists of Atractylodis Lanceae rhizoma, Hoelen, Cnidii rhizoma, Angelicae radix, Bupleuri radix, Glycyrrhizae radix, and Uncariae ramulus et uncus.The authors propose that the efficacy demonstrated by Yi-Gan San may reflect the GABA-ergic and serotonergic (5-HT 2 ) properties of Angelicae radix.The dose of Yi-Gan San was 2.5 g before meals 3 times a day except in a patient with renal dysfunction, who was successfully treated with 1 evening dose of 2.5 g.One of the other subjects was also treated with a small dose of clonazepam (0.25 mg) in addition to the Yi-Gan San.Yi-Gan San did not result in any side effects in this study.

DesiPramine
The original RBD case series 1 included 3 patients treated with desipramine because of its ability to suppress phasic and tonic components of R sleep, with sustained success in 1 of 3 patients.One patient had suppression of violent behaviors with persistence of minor behaviors (such as minor limb twitching and vocalizations) at a dose of 50 mg nightly; 1 patient had suppression of RBD symptoms for only 3 weeks, despite doses up to 250 mg nightly and eventually required treatment with clonazepam; and 1 patient was unable to tolerate desipramine.

cLozaPine
Three patients are reported 7,11 to have been treated with clozapine (dose not specified) who had both RBD and dementia, in 2 of whom clonazepam had failed.No presumed mechanism of action was mentioned.One patient had complete resolution of RBD symptoms, 1 had partial resolution, and 1 had reduced symptoms.Both of these were level 4 studies.

carbamazePine
There is sparse Level 4 evidence consisting of 1 case report 97 and 1 small case series 60 (4 subjects) with minimal information suggesting that carbamazepine, perhaps in conjunction with alprazolam, may be effective in the treatment of RBD.The case report from Bamford 97 presents a patient with RBD who responded to carbamazepine at a dose of 100 mg three times a day.Carbamazepine was chosen at the time because of its ability to control aggressive behavior in psychiatric disorders (which was not present during the day in the patient) and resulted in an absence of violent behavior during the night, elimination of "crazy dreams," and a 75% improvement in jerking nocturnal movements.The case series 60 is of patients with parasomnia overlap syndrome, most of whom were treated with clonazepam, but there is mention that 4 subjects were treated with carbamazepine (500 to 1500 mg) and/or alprazolam who had full or substantial control of symptoms.Unfortunately, the exact dosing and the number of subjects on carbamazepine alone are not reported.sidered for the treatment of RBD, possibly through enhancing cholinergic R-on neurons to normalize the R circuitry. 59,92There were 2 papers 59,93 presenting 6 cases of treatment of RBD with donepezil-4 were associated with unspecified neurodegenerative disorders (and 1 had previously undergone resection of a craniopharyngioma) and 1 was "childhood onset".Four patients responded at doses between 10 mg and 15 mg, 59,93 and two patients failed to respond to donepezil at a dose of 10 mg. 59he data addressing efficacy of rivastigmine are compromised by the absence of the typical history of clearly acting out dreams, which may be a function of the difficulty obtaining clear subjective symptoms from patients with DLB.Instead, correlates such as nightmares, PLMS, vigorous movements during sleep, and confusion on wakening are used to suggest the presence of RBD in the DLB population.Two small case series 94,95 examined the efficacy of rivastigmine on multiple symptoms of DLB.Ten subjects were thought to have RBD, which was not documented by PSG data, and all 10 were reported to have improvement of nighttime symptoms with rivastigmine at doses ranging from 4.5 mg to 6 mg twice daily.
Unfortunately, most of the reported cases of the use of cholinesterase inhibitors included patients with the diagnosis of DLB.None of the studies addressed the issue of disease fluctuation making it difficult to determine with any degree of certainty whether or not improvements in clinical state are the result of treatment or represent the natural course of the disease, particularly in the absence of large numbers of subjects followed over a long period of time. 21

zoPicLone
One case series and 1 case report mention treatment of RBD with zopiclone. 29,78The authors do not propose a specific mechanism other than to suggest that there may be a class-specific effect of GABA acting hypnotics on RBD. 78In total, 9/12 subjects were effectively treated with zopiclone, of which 2 required an additional benzodiazepine agent.The dose ranged from 3.75 mg to 7.5 mg nightly.Side effects included rash and nausea. 78hus, there are positive but sparse Level 4 data supporting the use of zopiclone.

benzoDiazePines other than cLonazePam: temazePam, triazoLam, aLPrazoLam
The data on benzodiazepines other than clonazepam consists of Level 4 studies of generally 1 or 2 subjects.Efficacy was noted in 1 subject treated with temazepam alone (10 mg) 29 and one treated with temazepam in conjunction with zopiclone (dose not specified) 78 ; 1 of 2 subjects given triazolam (dose not stated) 7 ; and reference to success in 4 patients with parasomnia overlap syndrome given alprazolam (1-3 mg) and/or carbamazepine, so the exact efficacy of alprazolam is difficult to infer. 60Another report of 2 patients treated with alprazolam failed to demonstrate clinical efficacy (initially effective at 0.5 mg but ous objects should be removed from the bedroom, weapons (if any) should be stored and locked away safely outside the bedroom with the key entrusted to another person, the corners around the bed should be padded or cushioned, and window protection should be considered. 77,99linicians should emphasize the importance of maintaining a safe sleep environment to prevent potentially injurious nocturnal behaviors as an adjunct to treatment with medications during sleep or as the sole therapy when medications are not indicated.Given the nature of the problem, controlled studies will not be feasible; however longitudinal data collection in larger clinic and community based samples with measured outcomes are recommended.

Clonazepam is suggested to decrease the occurrence of sleep-related injury caused by RBD for whom pharmacologic therapy is deemed necessary. It should be used in caution in patients with dementia, gait disorders, or concomitant OSA, and its use should be monitored carefully over time. Level B
Clonazepam was effective in 2 Level 4 case series of SRI and RBD and 1 level 4 case series of SRI that had just 1 patient with RBD: 62/71 subjects in a case series from Hong Kong, 64 in "most" of 33 patients with RBD and SRI in an early report of the syndrome, 73 and in a patient admitted to the ICU with a C-2 fracture secondary to RBD (and in 11 other ICU patients who had RBD but were not admitted for injury from RBD). 62Clonazepam at a dose of 0.25-2.0mg 1 to 2 hours before bedtime was effective in preventing further injuries.The rate of SRI after treatment with clonazepam fell from 80.8% pre-treatment to 5.6% post-treatment in the Hong Kong series. 64

ConCLuSion and aReaS foR futuRe ReSeaRCh
The medical literature on the treatment of RBD lacks randomized, double-blind controlled or head-to-head clinical trials of pharmacologic therapy.The most abundant published data are on the use of clonazepam, a medication with significant side effects, particularly in those patients with concomitant dementia.Given that there is a significant likelihood of any patient with RBD developing a synucleinopathy, alternative medications that will not have adverse effects on cognition are needed for the treatment of this disorder.It may be advantageous to switch from benzodiazepine therapy to an alternative when symptoms such as dementia arise in the course of the disorder.Melatonin use is increasing as a first-line treatment for RBD and in patients with dementia and sleep apnea.A variety of other medications have been tried without much data supporting their use.With or without pharmacologic therapy, the physician should counsel the patient about ways to modify the sleep environment to ensure safety.
Future studies should focus on the effects of medications on critical outcomes of treatment: prevention of injury, improvement of sleep quality, reduction of adverse daytime effects and improvement of the PSG features of RBD such as RSWA.In addition, long-term efficacy and safety in medications other than clonazepam needs to be established.A central registry tracking treatment effects may also advance the field.

soDium oxybate
There is 1 case report within a recent case series (Level 4 evidence) citing efficacy of sodium oxybate, dose not specified, in a patient with RBD. 78

the following are injury prevention techniques for patients with RBd
A striking aspect of RBD is the history of SRI.Injuries were a significant portion of the morbidity related to the disorder.The reported sleep clinic prevalence of SRI in diagnosed RBD patients ranged from 30% to 81%. 7,11,64,73In a community sample of 1034 elderly surveyed in Hong Kong, 0.8% reported history of sleep-related injuries. 8Types of injuries ranged from ecchymoses and lacerations to fractures and subdural hematomas, 11,62,64,73,75 with ecchymoses and lacerations being significantly more common than fractures. 62,64,73RBD also carries an ongoing risk for injury to the bed partner. 11n a series 7 of 92 patients, 64% of the bed partners (53/83) sustained punches, kicks, attempted strangulation, and assault with objects.RBD-related injuries may warrant ICU admission or may arise during ICU admissions for other medical reasons, such as stroke. 62RBD is also a treatable cause of falls in the elderly. 68

Modifying the sleep environment is suggested for the treatment of patients with RBD who have sleep-related injury. Level A
There was a strong consensus among task force members that non-pharmacologic measures, specifically maintaining a safe sleeping environment for both the patient and the bed partner, are paramount to injury prevention and should be enforced as an adjunct to therapeutic intervention. 8,98,99Recommended measures include placing a mattress on the floor, padding corners of furniture, window protection, and removing potentially dangerous objects, such as guns or sharp objects, from the bedroom.In addition, it may be prudent for the bed partner to sleep in a different room until the RBD symptoms are controlled.
In 4 Level 4 case series for treatments, methods improvised by both patients and clinicians to prevent injuries were summarized.These provide the basis for current recommendations to prevent trauma related to nocturnal RBD-related behaviors.Self-protection measures adopted by the patients include placing a mattress on the floor, 8,64,73 sleeping in separate beds or separate rooms from bed partners, 64,73 barricades of pillows or plastic screens, 64,73 restraint devices (including sleeping bags and ropes, belts, or dog leashes attaching patients to their beds), 64,73 and padded waterbeds. 64,73In a case series of RBD patients requiring ICU admissions, 62 patients were safeguarded from injury during their PSG studies by having padded rails on their beds, by removing potentially dangerous objects from their bedside, and by having a technician continuously observing them on a video monitor in an adjacent room during sleep.No active restraints were used as such devices were considered potentially dangerous if sudden twisting movements occurred.In the Mayo clinic series, 7 the authors advised institution of safety measures of the sleeping environment, including moving furniture away from the bed and sleeping on a mattress on the floor.Additionally, potentially danger-

table 1 -
Summary of PICO questions Do patients with RBD demonstrate a clinical response to clonazepam compared with natural history or other medications?Do patients with RBD demonstrate a clinical response to melatonin compared with natural history or other medications?

table 2 -
AASM classification of evidence (Adapted from Oxford Centre for Evidence-based Medicine 2 )

RBd invoLveS MediCation and injuRy PRevention 4.1. the following medications are treatment options for RBd 4.1.1. Clonazepam is suggested for the treatment of RBD but should be used with caution in patients with dementia, gait disorders, or concomitant OSA. Its use should be monitored carefully over time as RBD appears to be a precursor to neurodegenerative disorders with dementia in some patients. Level B
The original case series describing RBD bySchenck et al. in  1986 Practice Guide for the Treatment of RBD Nine patients used it alone and 2 in combination with another drug.Eight of 11 found it effective and welltolerated.Three patients stopped usage: one was ineffective, one developed a rash, and one found if effective but felt nauseated.
RBD EvidenceTable-All other medications continued on following page S5 Journal of Clinical Sleep Medicine, Vol.6, No. 1, 2010 Practice Guide for the Treatment of RBD RBD Evidence Table-All other medications (continued) RBD Evidence Table-All other medications continued on following page RBD Evidence Table-All other medications (continued) RBD Evidence Table-All other medications continued on following page S7 Journal of Clinical Sleep Medicine, Vol.6, No. 1, 2010