Trauma Immediately Preceding REM-Behavior Disorder: A Valuable Prognostic Marker?

Dream Enactment Behaviour in Post-Traumatic Stress Disorder

Background: Sleep disturbances are widely reported in Post-Traumatic Stress Disorder (PTSD). Although Dream Enactment Behaviour (DEB) has long been associated with PTSD, its high prevalence has only recently been recognized, sparking discussions about the classification of trauma-related sleep disorders. The impact of DEB on treatment outcomes in PTSD remains unexplored.Objective: To investigate the role of DEB in functional impairment, symptom severity, subjective sleep disturbances, and treatment response in patients with PTSD, and how it relates to Trauma-Associated Sleep Disorder (TASD). Methods: We analyzed data from a randomized controlled trial carried out in a specialized mental health clinic in Denmark. The trial investigated refugees with PTSD allocated to four groups receiving different combinations of PTSD therapy. Participants completed self-report questionnaires assessing functional impairment, symptom severity, and subjective sleep disturbances, including the REM Sleep Behaviour Disorder Screening Questionnaire (RBDSQ), the Pittsburgh Sleep Quality Index (PSQI), and the Typical Dream Questionnaire (TDQ), at baseline and follow-up. The sample was split into two groups based on the presence of self-reported DEB, and compared at baseline and follow-up. Statistical analyses included chi-square test, Mann-Whitney U test, and regression. Results: A sample of 176 RBDSQ respondents was studied, of which 71% met the criteria for DEB (N = 125). DEB was significantly associated with a poorer treatment response on sleep quality as assessed by the PSQI (N = 122, p = .035), irrespective of treatment group. No differences were observed in functional impairment or symptom severity. Of the 67 TDQ respondents with DEB, 60% did not have trauma-related nightmares (N = 40). Conclusions: DEB is a significant feature of sleep in PTSD and seems to limit the efficacy of treatment interventions. TASD does not encompass all cases of DEB in PTSD and the concept needs further development to be clinically useful.Trail Registration: ClinicalTrials.gov identifier: NCT02761161; clinicaltrials.gov/study/NCT02761161.

Symptomatic treatment of REM sleep behavior disorder (RBD): A consensus from the international RBD study group - Treatment and trials working group

Rapid-eye-movement sleep behavior disorder (RBD) is a parasomnia causing motor behaviors and vocalizations during sleep, which can lead to injuries in patients and their bed partners. Adult-onset RBD generally precedes a neurodegenerative synucleinopathy, while other cases can be associated with antidepressant use, neurotrauma and narcolepsy. The management of RBD relies on the systematic identification of etiologic and contributing factors, implementation of safety measures, appropriate pharmacotherapy and counseling, which should be patient-centered. In this manuscript, we summarize the evidence on the management of RBD. We summarize the evidence supporting the use of clonazepam, melatonin, rivastigmine, and pramipexole, the four agents currently recommended by the American Academy of Sleep Medicine. For each agent and for alternative therapies, we discuss efficacy, dosing, adverse effects and indications. We integrate the current knowledge on therapies in RBD in treatment algorithms that can guide providers in choosing the most appropriate initial therapy, and alternative options based on the course of symptoms and comorbidities. There is a large need for additional, well tolerated therapies for reducing RBD symptoms. The last section of this manuscript discusses current challenges and unmet needs, as well as future directions in developing therapies and improving the care of patients with RBD.

Tonic REM sleep muscle activity is the strongest predictor of phenoconversion risk to neurodegenerative disease in isolated REM sleep behaviour disorder

Previous studies have shown that rapid eye movement sleep without atonia during polysomnography can predict the risk of phenoconversion to neurodegenerative disease in patients with isolated rapid eye movement sleep behaviour disorder. Discrepancy remains with regards to the morphology of rapid eye movement sleep without atonia that best predicts phenoconversion risk. This study aimed to ascertain the predictive value of tonic, phasic and mixed rapid eye movement sleep without atonia in patients with isolated rapid eye movement sleep behaviour disorder, at time of diagnosis. Sixty-four patients with polysomnography-confirmed isolated rapid eye movement sleep behaviour disorder, including 19 who phenoconverted during follow-up, were identified from an existing database. Tonic, phasic, mixed and "any" rapid eye movement sleep without atonia activity from the mentalis, tibialis anterior and flexor digitorum superficialis muscles was analysed blind to status using the diagnostic polysomnography. Rapid eye movement sleep without atonia variables were compared between converters and non-converters. Rapid eye movement sleep without atonia cut-offs predicting phenoconversion were established using receiver-operating characteristic analysis. The mean follow-up duration was 5.50 ± 4.73 years. Phenoconverters (n = 19) had significantly higher amounts of tonic (22.2 ± 19.1%, p = 0.0014), mixed (18.1 ± 14.1%, p = 0.0074) and "any" (mentalis muscle; 58.7 ± 28.0%, p = 0.0009) and all muscles (68.0 ± 20.8%, p = 0.0049) rapid eye movement sleep without atonia at diagnosis than non-converters. Optimal rapid eye movement sleep without atonia cut-off values predicting phenoconversion were 5.8% for tonic (73.7% sensitivity; 75.6% specificity), 7.3% for mixed (68.4% sensitivity; 73.3% specificity) and 43.6% for "any" (mentalis muscle; 68.4% sensitivity; 80.0% specificity) activity. "Any" (mentalis muscle) rapid eye movement sleep without atonia had the highest area under the curve (0.809) followed by tonic (0.799). The percentage of tonic rapid eye movement sleep without atonia was the strongest biomarker of phenoconversion in this cohort of patients with isolated rapid eye movement sleep behaviour disorder.

What respiratory physicians should know about parasomnias

Parasomnias have significant quality-of-life, prognostic and potentially forensic implications for patients and their bed-partners. Identifying key clinical features will accelerate diagnosis and appropriate management for these patients. Parasomnias are undesirable physical events or experiences that arise out of, or during, sleep. They can include movements, behaviours, emotions, perceptions, dreams or autonomic nervous system activity. While more common during childhood, they can persist into, or present de novo, during adulthood. Parasomnias can arise out of non-rapid eye movement (NREM) sleep, as in confusional arousals, sleepwalking, sleep terrors or sleep-related eating disorder, or out of REM sleep, as in REM behaviour disorder, recurrent isolated sleep paralysis or nightmare disorder. Sleep-related hypermotor epilepsy is an important differential diagnosis to consider in patients presenting with a parasomnia. A thorough clinical history, including a collateral history if available, is crucial to identify characteristic clinical features. Video polysomnography is useful to identify macro- and micro-sleep architectural features, characteristic behavioural events, and any concomitant sleep pathologies. Treatment of parasomnias involves a combined approach of pharmacological and non-pharmacological intervention, including safety measures, sleep hygiene and medicines such as clonazepam or melatonin to improve sleep consolidation and reduce behavioural activity. As parasomnias can not only be disruptive for the patient and their bed-partner but have important prognostic or forensic consequences, an understanding of their pathophysiology, clinical features and management is valuable for any respiratory physician who may encounter them.

Educational aims

To understand the common features of NREM and REM parasomnias.To differentiate between the causes of motor behaviours during sleep.To discuss the treatment approach for NREM and REM parasomnias.

REM sleep behavior disorder as a complex condition with heterogeneous underlying disorders: clinical management and prognostic implications [Commentary]

PURPOSE

To review how REM sleep behavior disorder (RBD) is a complex condition with heterogeneous underlying disorders; and to review clinical management issues and prognostic implications.

METHODS

PubMed literature search and contents from the first textbook of RBD (2018).

RESULTS

RBD, with its core objective diagnostic feature of REM-without-atonia (RWA) documented by video-polysomnography, can emerge during the entire lifespan, and can initially present as an idiopathic (isolated) condition (iRBD), or can be associated with a broad spectrum of disorders including narcolepsy, alpha-synuclein neurodegenerative disorders (esp. Parkinson's disease [PD] and dementia with Lewy bodies [DLB]), paraneoplastic neurological syndromes and autoimmune disorders, CNS lesions (e.g., tumors, stroke), other neurological disorders, psychiatric disorders (PTSD, mood disorders), can be triggered by antidepressant/other medications, and can emerge acutely with drug withdrawal states, toxic-metabolic states, etc. Important clinical issues include the evolution of iRBD to PD/DLB in most middle-aged and older patients over a period of years to several decades, with compelling prognostic implications, along with the hope of enrolling these patients in future clinical trials to test promising disease-modifying therapies. Also, the strong link of RBD with narcolepsy needs further investigation. Parasomnia overlap disorder involves RBD and NREM parasomnias that can be idiopathic or linked with a broad range of clinical disorders. RBD usually responds to therapy consisting mainly of melatonin and/or clonazepam at bedtime. The complex associations of RBD with OSA are being increasingly investigated. RBD mimics with dream-enactment need to be recognized for diagnostic and management purposes, including severe OSA, NREM parasomnias, PLMD, nocturnal seizures, and other conditions.

CONCLUSIONS

The clinical and research RBD fields span across the disciplines of neurology, pulmonary, psychiatry, psychology, and pediatric sleep medicine, along with physical medicine and rehabilitation medicine, other allied disciplines, and the basic and clinical neurosciences.