REM sleep behavior disorder was associated with Parkinson’s disease: a community-based study

Background Our study was aimed to validate a modified RBD (REM sleep behavior disorder) single question (RBD1Q-C), study the prevalence of probable RBD (pRBD) in a rural community based on RBD1Q-C and investigate the association between pRBD and Parkinson’s disease (PD). Methods The validation study of RBD1Q-C included 32 Chinese participants (14 idiopathic RBD patients and 18 controls). All participants underwent a polysomnogram (PSG). We then conducted a door-to-door survey to estimate the prevalence of pRBD assessed by RBD1Q-C, and its association with PD among 19614 residents who lived in Malu community of Shanghai, China. Results RBD1Q-C demonstrated a high sensitivity of 100 %, a moderate specificity of 55.6 %. The agreement between RBD1Q-C and PSG-based RBD diagnosis was good (k = 0.552). PPV of the RBD1Q-C was 63.6 % and NPV was 100 %. The prevalence of pRBD in Malu community was 4.9 %. In people over 50 years old, presence of pRBD was significantly associated with increased risk of having PD (odds ratio = 2.61, 95 % CI: 1.56–4.39). Conclusion RBD1Q-C was shown to be a useful screening tool. Based on the RBD1Q-C, we found that pRBD was not rare in Chinese rural population and associated with odds of PD, calling for more attention from patients, caregivers and physicians. Electronic supplementary material The online version of this article (doi:10.1186/s12883-016-0640-1) contains supplementary material, which is available to authorized users.


Background
Rapid eye movement (REM) sleep behavior disorder (RBD) is a parasomnia characterized by dream enactment behaviors in the setting of increased electromyographic activity during REM sleep [1]. These dream enactment behaviors occur almost always in the setting of an upsetting dream and present as sleep talking, shouting, and vigorous or elaborate body movements including punching, kicking, sitting up, and even falling out of bed [2]. Recent studies found that RBD may represent an early clinical manifestation of a developing neurodegenerative disorders, mostly synucleinopathies such as PD (Parkinson's disease), MSA (multiple system atrophy) and DLB (Lewy Body Dementia) [3][4][5][6]. Reliable, accurate methods for identifying RBD may offer a window for early intervention.
Polysomnographic (PSG) is required for the diagnosis of RBD according to the third edition of the International Classification of Sleep Disorders (ICSD-III). However, PSGs are time and resource consuming. The REM Sleep Behavior Disorder Single-Question Screen (RBD1Q) was developed and validated to be an easily applicable and short diagnostic screening tool [7]. The RBD1Q can detect RBD with 94 % sensitivity and 87 % specificity in a well-characterized, clinic-based cohort of RBD patients and controls.
Because of concerns about the specificity, RBD1Q does not screen for sleep talking or sleep yelling. While the single item analysis of Innsbruck RBD inventory (RBD-I) revealed that sleep-related vocalization (sleep talking not included) had a good specificity of 94.2 % and AUC (0.804) [8]. In consideration of a subset of patients for whom this is the only manifestation, we modified RBD1Q into a Chinese version of RBD1Q (RBD1Q-C) with the inclusion of sleep screaming and sleep yelling in order to obtain a higher sensitivity for the screening purpose. In addition, as the prevalence of RBD and the association of RBD with neurodegenerative diseases has not been well studied in Chinese general population [9][10][11], we aimed in this study to (1) validate the modified RBD1Q (RBD1Q-C); (2) estimate prevalence of probable RBD (pRBD) in a population-based survey by using RBD1Q-C as a screening tool; and (3) examine whether pRBD based on RBD1Q-C was associated with Parkinson's disease.

Screening question
RBD1Q was translated and back-translated by a senior neurologist and a professional translator. Then we included sleep shouting or yelling into the question, named as Chinese version of RBD1Q (RBD1Q-C). RBD1Q-C consists of a single question, answered "yes" or "no," as follows "Did you have the following conditions (or have you ever been told by your husband or wife) that you shout, yell, move your arms or legs in response to your dream contents, even fallen off your bed?" (Additional file 1). This question was designed to be self-administered, with participation by caregivers encouraged.

Participants
For validation study of RBD1Q-C Patients referred to the Departments of Respiratory and Neurology for sleep complaints were recruited in this study based on consequential sampling. People who were unwilling or unable to participate (such as hearing problems) were excluded. People were asked to complete the RBD1Q-C before PSG study after consent. Therefore they did not know their final diagnosis when they completed the questionnaire. All RBD patients had RBD diagnosis confirmed by history and PSG according to the ICSD-III. And patients were classified as the control group who did not meet the RBD diagnosis based on PSG and history. Patients who failed to attain REM sleep on their PSG were excluded from the study.

For pRBD prevalence study
This door-to-door study was conducted in Malu community of Jiading district which is located in north-west rural area of Shanghai from April to October 2013. According to the censorship, there are 45353 residents aged ≥20 years. About 31202 (68.8 %) residents completed RBD1Q-C. pRBD diagnosis was based on RBD1Q without PSG study. Therefore, we used pRBD instead of RBD in our study.

For PD ascertainment
We did a two-step door-to-door study to screen PD patients in people aged 50 years or older in Malu community to examine whether RBD was associated with PD. In the first step, local doctors from medical center of Malu community had one-day clinical teaching course of evaluating parkinsonism and essential tremor by movement disorders specialists from the Department of Neurology, Rui Jin Hospital affiliated to Shanghai Jiao Tong University School of Medicine. This clinical teaching course included video presentation of symptoms of parkinsonism and essential tremor and how to retrieve the history. Under the supervision of movement disorder specialist, local doctor was considered qualified when they demonstrated competency to do the clinical examination of tremor, bradykinesia, rigidity and gait. After being trained, these local doctors visited residents ≥50 years from door to door and reported possible parkinsonism cases to the movement disorder specialists. In the second step, movement disorder specialists revisited these possible parkinsonism cases to made the final diagnosis which included imaging studies, routine exclusion of other parkinsonian disorders such as multiple system atrophy, progressive supranuclear palsy, or cortico-basal degeneration, etc. The diagnosis of PD patients was based on the United Kingdom Parkinson's Disease Society Brain Bank Clinical Diagnostic Criteria.

Statistical analysis
Analysis was carried out by using IBM SPSS Statistics Version 17.0 (SPSS, Chicago, IL). For validation study of RBD1Q-C, demographic feature of participants were compared by student t test and χ 2 test. The psychometric properties of the RBD1Q-C were assessed by calculating the sensitivity, specificity, positive predictive value (PPV) and negative predictive value (NPV) for each threshold with a 95 % confidence interval (CI). The diagnostic value of RBD1Q-C was calculated by the area under the curve (AUC). The agreement (k coefficent) of RBD1Q-C with PSG was calculated. k values were used to categorize results as very good (0.81-1.0), good (0.61-0.8), moderate (0.41-0.6), fair (0.21-0.4) or poor (0-0.2). The Fisher exact test was used to compare the detection rate between the RBD1Q-C and PSG-based RBD diagnosis and a p value <0.05 was considered significantly different.
To estimate the association between pRBD and PD, we used logistic regression model to calculate odds ratio (OR) with 95 % confidence interval (95 % CI), according to pRBD status, adjusting for age and sex.

Validation of RBD1Q-C
A total of 139 participants with sleep complaints were enrolled (26-87 year, 47 female and 92 male). These patients were not on medication associated with RBD such as SSRI antidepressant. People on benzodiazepine were asked to stop medication for at least one week to perform the PSG test. About 46 subjects were excluded because of lack REM sleep during v-PSG or technical problems (10 PD with RBD, 1 iRBD, 12 OSAS, 8 insomnia, 5 RLS, 3 epilepsy, 7 others). Among 93 remaining subjects, 36 were diagnosed as RBD (20 PD with RBD, 2 MSA with RBD, and 14 idiopathic RBD) and 57 non-RBD (2 PD without RBD, 4 Restless legs syndrome, 26 OSAS (10 severe OSAS), 8 Epilepsy, 1 subdural hemorrhage, 1 dementia with insomnia, 8 insomnia, and 8 others). We included totally 32 subjects into our validation study: 14 idiopathic RBD patients and 18 non-RBD controls (1 subdural hemorrhage, 1 dementia with insomnia, 8 insomnia and 8 others). Mean RBD patient age was 64.07 ± 4.62 years old, in comparable to non-RBD group (60.39 ± 13.00) (p = 0.32). About 50 % of RBD patients were men, compared to 66.7 % of controls (p = 0.47).

Prevalence of pRBD
There were 1521 of 31202 participants who answered "yes" to RBD1Q-C. Among the 1521 residents, 612 were men (40.2 %), 909 were women (59.8 %), the mean age was 66.53 ± 11.48 years (range 20-99). The crude prevalence of pRBD (diagnosis of pRBD was based on RBD1Q without PSG confirming) in Malu community was estimated to be 4.9 % (95 % CI: 4.6-5.1 %), significantly higher for women than men (5.6 vs. 4.1 %, p < 0.001). For both men and women, the prevalence of pRBD increased with age and reached the peak in the 70-79 age population (Table 1).

RBD and PD
Totally 19614 people over 50 years old answered RBD1Q-C questionnaire (1428 answered "yes" and 18186 answered "no") and examined by local doctors and further movement disorders specialists for PD diagnosis. After first screen, 124 subjects were diagnosed as parkinsonism by local doctors. Movement disorders specialist revisited 124 subjects and made the final diagnosis of PD in 97 subjects. Prevalence of PD was 1.2 % among those with pRBD and 0.4 % among those without pRBD (age-and sex-adjusted OR = 2.61, 95 % CI: 1.56-4.39, P < 0.001).

Discussion
Our study demonstrated that RBD1Q-C was reliable to screen potential RBD in large epidemiological study. The prevalence of pRBD diagnosed by RBD1Q-C was 4.9 %, higher in women than men. pRBD was associated with PD in people over 50 years.
Regarding to the importance of RBD in synucleinopathies and the difficulty to perform PSG, a few RBD screening questionnaires have been designed to facilitate population-based studies which included RBD1Q-C, REM sleep behavior disorder screening questionnaire (RBDSQ), RBDQ-HK (Hong Kong), Mayo Sleep questionnaire (MSQ) and Innsbruck RBD inventory (RBD-I) [8,[12][13][14]. So far, RBDSQ and RBDQ-HK have been validated in China [15,16]. RBD1Q-C in our study which included of sleep vocalization in RBD1Q showed a good consistency with "golden" criteria in diagnosing RBD patients, high sensitivity (100 %) and moderate specificity (55.6 %) which was comparable to RBD1Q and other screening questionnaires (Table 2). In addition, RBD1Q-C was short and easy-to-use in large/broad epidemiologic surveys.
We reported a relatively high pRBD crude prevalence of 4.9 % by RBD1Q-C in comparison to other populationbased RBD prevalence studies (Table 3). This might be due to the fact that pRBD in our prevalence study was diagnosed by RBD1Q-C instead of PSG. Several previous studies reported a comparative low prevalence of PSG as they enrolled relatively severe RBD cases, for example, the United Kingdom study investigated violent behavior during sleep and the Hong Kong study examined sleep-related injury. Interestingly, a recent study reported a prevalence of probable RBD based RBDSQ or RBDHK as high as 4.6 % which was similar to our results [17]. In addition, another finding in our study was that the prevalence of pRBD was higher in women than men, which was in contrast to the clinical finding that RBD were more common in men than women [18,19]. It was possible that women might have a less severe form of RBD [20], and therefore less likely to be referred to a sleep clinics. Another possibility is that some pRBD cases screened by RBD1Q-C might be RBD mimics. Women were more likely suffer from some RBD mimics such as insomnia [21].
In our study, we found a significant association between PD and possible RBD based on RBD1Q-C screening. This finding was consistent with several other studies. Schenk et al. reported that 11 of 29 idiopathic RBD (iRBD) subjects (38 %) developed parkinsonism nearly 4 years after the diagnosis of iRBD and 13 years after the onset of RBD symptoms [4]. In a second series, 26 of 93 iRBD patients (28 %) developed PD, DLB or MSA after a mean follow-up of 5 years [22]. Iranzo et al. reported that 31 of 44 iRBD patients (70.4 %) developed a defined synucleinopathy disorder after a mean followup of 10.5 years [23]. These results supported the hypothesis of Braak and colleagues, which suggested that the preclinical stages 1 and 2 of PD start at the olfactory amd medullary area of the brainstem [24]. Some limitations should be noted. Firstly, for the validation study of RBD1Q-C, the number of subjects recruited was small and thus may overestimate the sensitivity, specificity, PPV and NPV. In addition, subjects who know RBD might affect their response to the RBD1Q-C [25]. For prevalence study, our population was from East China, thus not representing the whole country. Also, RBD1Q-C has moderate false-positive rates and low PPV, diagnosis of pRBD was based on RBD1C questionnaire without PSG confirming, which might result in an overestimation of pRBD prevalence in our study. For PD and RBD study, we adopted two-steps of diagnostic procedure and reached the final diagnosis of PD by movement disorders specialists through exclusive investigations. However, it is possible that some mild parkinsonism cases were not detected by local doctors and therefore affected the result of PD-pRBD association study. Overall, we demonstrated that a single question-based questionnaire (RBD1Q-C) was sensitive to screen pRBD in large population. Using this tool, we identified the prevalence of pRBD was 4.9 % in a rural community and associated with Parkinson's disease.

Conclusion
RBD1Q-C was shown to be a useful screening tool with a high sensitivity of 100 % and a moderate specificity of 55.6 %. Based on the RBD1Q-C, we found that the prevalence of pRBD was 4.9 % in Chinese rural population aged ≥20 years old and associated with odds of PD, calling for more attention from patients, caregivers and physicians.