A pilot study on a specific measure for sleep
disorders in Parkinson’s disease: SCOPA-Sleep
P. Martínez-Martín a, E. Cubo-Delgado a,b, M. Aguilar-Barberà c, A. Bergareche d, S. Escalante c, A. Rojo c, J. Campdelacreu c, B. Frades-Payo a, S. Arroyo a, on behalf of the ELEP Group e A PILOT STUDY ON A SPECIFIC MEASURE FOR SLEEP DISORDERS IN PARKINSON'S DISEASE: SCOPA-SLEEPSummary. Introduction. There is a high prevalence of sleep disorders in Parkinson’s disease (PD). Aims. To assess some basic metric attributes of the SCOPA-Sleep scale, a measure for PD patients; secondary objective: to check the impact caused by the sleep disorder on the health-related quality of life (HRQoL) of patients and their caregivers. Subjects and methods. 68 PD patients and their main caregivers; measures: Hoehn and Yahr staging, SCOPA-Motor, Clinical Impression of Severity Index (CISI-PD), PDSS, Hospital Anxiety and Depression Scale, SCOPA-Psychosocial, and EuroQoL. Carers filled in a PDSS questionnaire about patient sleep and HRQoL measures (SF-36, EuroQoL). SCOPA-Sleep acceptability, scaling assumptions, internal consistency, construct validity and precision were determined. Results. SCOPA-Sleep acceptability and scaling assumptions resulted satisfactory, although the nocturnal sleep subescale (SC-Ns) showed a mild ceiling effect (22.1%) and a defective convergent validity was found for daytime sleepiness (SC-Ds) item 6. Internal consistency also was satisfactory for both scales (alpha = 0.84 and 0.75, respectively). The correlation between SC-Ns and PDSS was high (r = –0.70), as it was between SC-Ns and PDSS questionnaire by caregiver (r = –0.53). The corresponding coefficients with the SC-Ds gainedlower values (r = –0.41 y –0.50). Standard error of measurement was 1.45 for the SC-Ns and 1.76 for the SC-Ds. Both,patient and caregiver HRQoL showed a loose association with the sleep measures. Conclusion. SCOPA-Sleep is a feasible, consistent, and useful scale for assessment of sleep disorder in PD patients. A weak association between sleep disorder and HRQoL was found. [REV NEUROL 2006; 43: 577-83] Key words. Assessment. CISI-PD. Health-related quality of life. Parkinson’s disease. Parkinson’s Disease Rating Scale. SCOPA- Sleep. Sleep disorder. INTRODUCTION
such instruments would enable the magnitude of the alterations
While clinical manifestations of Parkinson’s disease (PD) typi-
and the effect of therapies to be quantified. The problem posed
cally include motor disorders, such as tremor, rigidity, hypo-
by this deficit will soon be resolved, however: specific scales
kinesia, and gait disturbances, there is also a wide variety of
for some of these dysfunctions are already available [4-7] and
‘non-motor’ symptoms, to which increasing attention is being
there are several initiatives under way aimed at designing a uni-
paid. Some noteworthy non-motor symptoms are neuropsychi-
fied scale for non-motor symptoms [1,8,9].
atric disturbances, sleep disorders, gastrointestinal and auto-
A very frequent problem in PD is upset sleep, which includes
nomic manifestations, sensory symptoms, and a miscellany
insomnia (difficulty falling or staying asleep at night), parasom-
that includes fatigue, visual troubles, seborrhea, and weight
nias –such as REM (rapid-eye movement) sleep behavior disor-
der–, daytime hypersomnia, and sleep attacks [10-12].
Yet, despite the huge impact these symptoms have on
Non-specific scales for assessment of nocturnal sleep, such
patients’ overall health and quality of life, they are frequently
as the Pittsburgh scale [13], or daytime sleepiness, such as the
overlooked. Indeed, this is so even in the specialized setting,
Epworth scale [14], have been used for evaluation of sleep dis-
where health professionals tend to be more attentive to the motor
turbances in PD. In 2002, Chaudhuri et al [4] published the first
ever specific scale for evaluation of nocturnal sleep quality in
One of the reasons for this situation has been the absence of
PD. Recently, this Parkinson’s Disease Sleep Scale (PDSS) has
simple, valid measurement instruments for systematic applica-
undergone independent validation and cross-cultural adaptation
tion in daily practice and clinical research. The availability of
to Spain [15]. In 2003, Marinus et al [5] published another spe-
guez, F. Rodríguez-Sanz (Segovia), L.J. López del Val (Zaragoza), J. Chacón-Peña, M. Carballo (Sevilla), J.M. Fernández-García (Bilbao), V. Campos-Neuroepidemiology Unit. National Center for Epidemiology. Carlos IIIArillo (Málaga), A. Rojo-Sebastián (Terrassa, Barcelona), M. Álvarez-Saúco,Institute of Public Health. Madrid. b Department of Neurology. NuestraC. Leiva (Alicante), A. Castro, A. Sesar (Santiago de Compostela, A Coru-Señora del Rosario Clinic. Madrid. c Department of Neurology, Mútua deña), A. Ortega-Moreno (Granada), R. Luquin (Pamplona).Terrassa Hospital. Terrassa, Barcelona, d Department of Neurology. BidasoaHospital. Hondarribia, Guipúzcoa. e Head Researcher: P. Martínez-MartínCorresponding author: Dr. P. Martínez Martín. National Center for Epidemi-(Madrid). Steering Committee: P. Martínez-Martín (Madrid), G. Linazasoroology. Carlos III Institute of Public Health. Sinesio Delgado, 6. E-28029(Guipúzcoa), J. Kulisevsky (Barcelona), M. Aguilar-Barberà (Terrassa, Bar-Madrid. Fax: +34 913 877 815. E-mail: pmartinez@isciii.escelona). Technical Committee: J. de Pedro, E. Cubo, M.J. Forjaz, J.M. Fer-nández-Castrillo (Madrid), A. Bergareche (Hondarribia, Guipúzcoa), M.This study was partially funded by the Carlos III Institute of Public Health,Blázquez-Estrada (Oviedo). Members: L. Menéndez-Guisasola, C. Salva-namely: E. Cubo by the CIEN Network of Excellence (C03-06); B. Fradesdor-Aguiar, S. González-González (Oviedo), A. Bayes-Rusiñol, F. Vallde-by the IRYSS Network of Excellence (G03-202); and S. Arroyo by the Intra-oriola (Barcelona), B. Frades-Payo, L. Vela-Desojo, J. Benito-León, F. Vi-mural Research Program (ELEP Project: EPY1271/05).vancos-Matellano, M.J. Catalán-Alonso (Madrid), S. García-Muñozguren (Al-bacete), C. Durán-Herrera (Badajoz), J. Duarte-García, A. Mendoza-Rodrí-
cific scale for PD (SCOPA-Sleep), designed to evaluate noctur-
themselves or by their caregivers [4].The maximum total PDSS score is
150: the lower the score, the worse the quality of sleep.
The main aim of this study was to assess some basic metric
attributes of the Spanish-version SCOPA-Sleep scale applied to
This scale has two sections, Nocturnal Sleep (SC-NS) and Daytime Sleepi-
a series of PD patients. As a secondary objective, it sought to
ness (SC-DS), which evaluate problems in these respective domains during
analyze the association between sleep disorders and patients’
the ‘last month’. The SC-NS consists of five items addressing trouble
and their caregivers’ health-related quality of life (HRQL).
falling asleep, fragmentation and duration of sleep, early waking, and feel-ing of having had too little sleep. Score options for items range from 0 (noproblem) to 3 (a lot of problems), with the limits of the total score being 0
SUBJECTS AND METHODS
and 15. Following this section is a global evaluation of nighttime sleep with
This was the first independent study on the metric properties of the SCOPA-
seven response options (1, ‘very well’ to 7, ‘very bad’). The SC-DS scale
Sleep and a pilot study for the Spanish version. A multicenter, open, cross-
evaluates daytime hypersomnia in the preceding month. It includes 6 items
sectional, one point-in-time evaluation study.
dealing with the frequency of falling asleep in certain situations (e.g., unex-
Consecutive patients older than 40 years, both genders, with diagnosis of
pectedly, sitting down peacefully, watching television or reading, or speak-
PD as per modified United Kingdom PD Society Brain Bank Criteria [16].
ing to somebody). Each item can score from 0 (never) to 3 (frequently), thus
The modifications consisted of considering ‘clear beneficial response to
dopaminergic treatment’ (not only to levodopa) and ‘maintained responseto dopaminergic treatment’ (instead of response to levodopa treatment for
Hospital Anxiety and Depression Scale (HADS) [24]
more than 5 years) as support criteria (Section 3).
This is composed of 14 items, seven identifying anxiety and seven for depres-
As an additional inclusion criterion, patients were required to have a sta-
sion. Each item scores from 0 (no problem) to 3 (extreme problem). Scores
ble caregiver, and both patients and carers were required to be ‘able to read,
higher than 10 on each subscale are indicative of anxiety or depression,
to understand and to answer questionnaires’ in the participant neurologist’s
respectively. Marinus et al. [25] report that the HADS’ metric properties
mean that it can be applied to PD patients.
Exclusion criteria were defined as the absence of one or more inclusion
criteria and the presence of any comorbidity that could interfere with or sig-
nificantly modify evaluation of the effects caused by PD (e.g., blindness,
This scale was designed to evaluate the psychosocial impact of PD. It con-
serious systemic illness, residual hemiplegia, etc.).
sists of 11 items, each of which assesses the severity of a particular problem
Informed consent was obtained from all participant patients and care-
during the preceding month, using a score ranging from 0 (not at all) to 3
givers. This study forms part of the Longitudinal PD Patient Study –Estudio
(very much). It includes information on psychosocial functioning and diffi-
Longitudinal de pacientes con Enfermedad de Parkinson (ELEP)–, approved
culties vis-à-vis daily living and recreational activities, relationships with
by the Clinical Research Ethics Committees of the Princesa Hospital
family and friends, dependence, isolation and concern about the future.
(Madrid) and the Carlos III Institute of Public Health [17]. Neurologist-based assessments
Intended for use in econometrics, this is an instrument designed to measure
HRQL on the basis of preferences. It contains a descriptive part, comprising
In the present study, we applied the version included in the Unified Parkin-
five items with three answer levels (1 = there are no problems or symptoms,
to 3 = problems or severe symptoms). The descriptive system can thus gen-erate 243 different health profiles. To each of these profiles, a preference
Mini-Mental State Examination (MMSE) [20]
index or social tariff can be assigned, ranging from 1.0 (perfect health state)
This test was applied to ascertain the cognitive state of patients included in
to 0.0 (death). Such an index is obtained by means of techniques such as time
trade-off (the indices used in the present study) or the analogue visual scale.
SCOPA-Motor (SC-M) [21]. The SCOPA-Motor scale was designed
The EuroQoL also includes a question on the course of respondents’ gen-
within a program to develop specific PD measures –Scales for Outcomes
eral state of health in the previous 12 months and a visual analogue scale for
in Parkinson’s disease (SCOPA)–. It is made up of the following 3 sec-
evaluation of their current (‘today’) health state (from 0 = worst imaginable
tions: 1) Motor evaluation (‘clinical examination’ subscale, 8 items, and
health state, to 100 = best imaginable health state).
‘historical information’ subscale, 2 items); 2) Activities of daily living(ADL) (7 items); and 3) Motor complications (4 items). Each item is scored
Caregiver-based assessments
from 0 (normal) to 3 (severe). The average time spent on administering this
scale is 8.1 ± 1.9 minutes [21]. A cross-culturally validated Spanish version
A questionnaire containing the same items as the PDSS was purpose-designed
to obtain an evaluation by caregivers (evaluation by proxy) of sleep distur-bances that might go unnoticed by patients.
Clinical Impression of Severity Index (CISI-PD) [23]
This is a clinimetric index comprising four items (motor signs, disability,
Hospital Anxiety & Depression Scale (HADS)
motor complications, and cognitive state) that are scored by the neurologist
Administered to assess caregivers’ mood.
after the interview and examination. Each item is scored from 0 (normal)to 6 (severe). An index is obtained from the sum of these scores (range, 0 to
24), which reflects the neurologist’s impression as regards the severity of
Administered to assess caregivers’ own perceived health state. Patient-based assessments
This is a generic measure of health-related quality of life, which includes
Parkinson’s Disease Sleep Scale (PDSS) [4]
eight dimensions of health state focusing on:
This scale is composed of fifteen items, fourteen of which explore seven
– Functional aspects, such as physical functioning (10 items), social func-
aspects relating to nocturnal sleep, such as global quality of nighttime sleep,
tioning (2 items), and role limitations due to physical (4 items) and emo-
difficulty falling sleep, presence of hallucinations, nocturia, etc. One item
(item 15) evaluates the presence of unexpectedly falling asleep during the
– Well-being, which integrates the domains of mental health (5 items),
day. The time span explored is the preceding week. On a visual analogue
vitality (4 items) and bodily pain (2 items).
scale that runs from ‘always’ (0) to ‘never’ (10), patients indicate their level
of disability for each aspect assessed. The scale can be completed by patients
– Change in health status over time (1 item). Table I. Store distribution of the applied measures.
data and their location have been considered. The maximum acceptable lim-it for missing and non-analyzable data is 5% [32].
The acceptability of the measure indicates to what extent the distribution
of the scores represents the true distribution of health state in the assessed
sample. To determine this property, parameters such as the distance betweenthe mean and the median, floor and ceiling effects (ideally less than 15%)
[33] and skewness (acceptable limits: –1 to +1) [34] are taken into account.
Scaling assumptions refer to the correct grouping of items in the corre-
sponding scales or dimensions, and to what extent it is appropriate for the
respective scores to be directly added to produce a total score representativeof the construct to be measured. To this end, item-total correlation, duly
corrected for overlap, was analyzed. A value of 0.40 [35] was taken as theminimum standard limit. Items should demonstrate higher correlations (+ 2
× standard error of the correlation coefficient) with their own scale than
with the other in the multitrait analysis [32].
Internal consistency is one of the attributes of a measure’s reliability.
This property is based on the homogeneity (intercorrelation) of the itemsthat comprise the scale. The most appropriate statistic for exploring this
property is Cronbach’s α coefficient. A value of 0.70 was taken as the low-er limit for
α [35]. Other techniques for ascertaining this attribute are item
homogeneity coefficient (the mean of the inter-item correlation coefficients;
acceptable lower limit = 0.30) [36] and factor analysis.
Validity assessment tests whether an instrument really measures what it
purports to measure. Construct validity refers to the evidence that enablesscores to be interpreted according to the theoretical implications associated
with the construct that is being measured; convergent validity refers to the
correlation with other accepted measures for the same or related constructs(in which case the coefficients should be high); and divergent or discriminant
validity refers to the relationships with variables that measure other unrelatedconstructs (in this case correlation coefficients should be low). We hypothe-
sized that there would be: a high correlation between the SC-NS and PDSS(r
≥ 0.60) and a moderate correlation between the SC-DS and PDSS (r =
0.30-0.59); a weak association between SC-Sleep subscales and patients’
age, duration of PD, HY, and MMSE (r = 0.10-0.29); a moderate relationshipbetween SC-Sleep and SC-M, CISI-PD, HADS, SC-PS and EuroQoL (r =
0.30-0.59) [15, 37]; and a high correlation between the SC-NS and the PDSS-based questionnaire completed by caregivers. Since the data did not fit a nor-
mal distribution, the Spearman rank correlation coefficient was used.
The ability of a measure to detect differences at a point in time among
patients who are ranked according to different levels of severity, is known as
discriminative validity. This was assessed using the Mann-Whitney andKruskal-Wallis tests, with differences being deemed statistically significant
The precision (sensitivity) of a measure is its ability to detect small dif-
ferences. The statistic recommended for this purpose is standard error of
measurement (SEM = SD × √1 – r , where SD is the standard deviation and
r the coefficient of reliability) [38,39].
The association between sleep dysfunction and deterioration in patients’
HRQL was determined by the correlation between PDSS and SC-Sleep
scores and EuroQoL and SC-PS parameters. To analyze the impact of patients’
sleep dysfunction on caregiver’s HRQL, sleep scales scores were correlatedwith caregivers’ EuroQoL and SF-36 indices.
MMSE: Mini-Mental State Examination; CISI-PD: Clinical Impression of Seve-
rity; Index for Parkinson’s disease; HADS: Hospital Anxiety and Depression
A total of sixty-eight PD patients, 61.8% males, were included (Table I).
Scale; PDSS: Parkinson’s Disease Sleep Scale; SC-NS: SCOPA-Nocturnal sleep;SC-DS: SCOPA-Daytime sleepiness; SD: standard deviation
According to HY, the patients distribution was as follows: stage 1, 10.6%;stage 1.5, 6.1%; stage 2, 59.1%; stage 2.5, 9.1%; stage 3, 7.6%; stage 4, 4.5%;and stage 5, 3.0%. Patients were receiving treatment with: levodopa, 82.35%;dopamine agonists, 63.24%; selegiline, 13.24%; amantadine, 2.94%; and apo-
For each dimension, scores are standardized, ranging from 0 (worst health
morphine, 1.47%. Their level of education was: university or equivalent, 13.4%;
state) to 100 (best health state). Finally, the individual dimension scores are
high school, 20.9%; primary, 53.7%; and no formal education, 11.9%.
combined to provide a physical and mental component index [31].
The mean age of caregivers, 77.3%, women, was 62.9 ± 12.3 years. Their
level of education was: university, 21.5%; high school, 21.5%; primary,
The following metric attributes of the SC-Sleep were analyzed: acceptability;
The descriptive statistics of the scales applied to or used by the patients
scaling assumptions; internal consistency; construct validity; and precision.
are shown in table I. A total of 39 caregivers were requested to complete the
Data quality refers to the instrument’s fitness for use in a clinical context
PDSS-based questionnaire on patients’ sleep (mean score: 96.1 ± 31.5; range:
and is determined by the proportion of fully computable data, after missing
One patient failed to answer SC-DS items 5 and 6 (missing data, 1.5%;
Table II. SCOPA-Sleep scaling assumptions (n = 67).
computable, 98.5%). All SC-NS data were available (100%). Accordingly,data quality was satisfactory.
The scores registered for all SC-Sleep items covered the complete theo-
retical range. In contrast, the total score of both subscales failed to reach the
higher theoretical score limit (Table I). The distance of the mean to the
median was 0.63/15 (4.2%) for the SC-NS and 0.55/18 (3.05%) for the SC-DS. Although the SC-NS displayed no floor effect (5.90%), it nevertheless
showed a mild ceiling effect (22.1%), with the corresponding values for theSC-DS being 3.0% and 10.45%, respectively. Skewness proved to be 0.47
for the SC-NS and 1.20 for the SC-DS. To sum up, a slight ceiling effect forthe SC-NS and skewness for the SC-DS were observed.
Item-total correlations were higher than the standard, 0.40 [35], except
for item 6 of the SC-DS (r = 0.21), which registered substandard convergentvalidity (Table II). Hence, with single exception of SC-DS item 6, all items
on both subscales were deemed to fit the scaling assumptions (Table II).
Cronbach α coefficient values were 0.84 for the SC-NS and 0.75 for the
SC-DS, with item homogeneity coefficient values of 0.52 and 0.36, respec-tively. All these coefficients proved higher than the established minimum
limit. The exploratory factor analysis (principal components, orthogonal rota-
tion) showed one factor explaining 62% of the variance in the SC-NS, andtwo factors explaining 68% of the variance in the SC-DS. The first of these
latter two factors comprised the first three items of the SC-DS (falling asleepunexpectedly, falling asleep while sitting peacefully, falling asleep while
watching television or reading), and the second comprised the last three items(falling asleep while talking to someone, problems staying awake during
day, and experiencing falling asleep during the day as a problem).
Correlation coefficients between the SCOPA-Sleep subscales and the
other measures applied in the study are shown in the table III. In line with
a Spearman rank correlation coefficients (rs standard error = 0.12). SC-NS: SCOPA-
our working hypothesis, the correlation between the SC-NS and PDSS
Nocturnal sleep; SC-DS: SCOPA-Daytime sleepiness.
(which also measures quality of the nocturnal sleep) was high (r = –0.70),
and the relationship between the SC-DS and PDSS was moderate (r =
–0.41). The SC-NS registered moderate associations (r = 0.30-0.59) with
Table III. Correlation a between SCOPA-Sleep and the other measures
the HADS (anxiety and depression sections) and Motor complications of
the SC-M. The SC-DS displayed moderate coefficient values with HY and theCISI-PD (Table III). The remaining correlations were weak. No significant
association was observed between sleep scales scores (including the PDSS)and patients’ age or disease duration.
The SC-NS showed a significant correlation with the question on global
evaluation of nocturnal sleep (r = 0.81) and with item 1 (global quality of
night sleep) of the PDSS (r = –0.65, p <0.0001). The correlation between
SC-DS and PDSS item 15 (unexpectedly falling asleep during the day) wasmoderate (r = –0.52, p <0.0001), as was the correlation between SCOPA-
Sleep and the PDSS-based questionnaire completed by caregivers (r =
–0.50 with the SC-NS; r = –0.53 with the SC-DS) (Table III).
There were no significant gender-related differences in the SCOPA-Sleep
scores. The SC-NS score displayed a non-statistically significant rising trend
as HY stage increased. The SC-DS registered a non-linear trend, with highest
values in stage 3 (7.75 points) and inferior values in the lower and higherstages (e.g., 2.4 in stage 1 and 5.5 in stage 5) (Kruskal-Wallis, p = 0.03).
Mean SC-NS scores increased significantly with global evaluation of
night sleep (Table IV) (Kruskal-Wallis, p <0.0001). The SEM was 1.45 for
The correlation coefficients between patients’ HRQL measures and sleep
rating scales (both SC-Sleep and PDSS) were weak overall (r = –0.06 at
–0.27). The SC-NS and PDSS showed a moderate association with the SC-PS (r = 0.37 and –0.36; p = 0.002 and 0.004, respectively).
With respect to the impact of patients’ sleep dysfunction on caregivers’
HRQL, the correlation between patients’ sleep rating scales and caregivers’
HRQL measures ranged from –0.01 (SC-DS and the physical component of
the SF-36) to –0.23 (SC-DS and the EuroQoL tariff). The PDSS-based ques-
Spearman rank correlation coefficient. CISI-PD: Clinical Impression of Severity
Index for Parkinson's Disease; HADS: Hospital Anxiety and Depression Scale;
tionnaire completed by caregivers correlated moderately with the EuroQoL
PDSS: Parkinson's Disease Sleep Scale; SC-NS: SCOPA-Nocturnal sleep; SC-DS:
tariff (r = 0.34, p <0.05) and weakly with the other caregiver HRQL parame-
ters (r = 0.03-0.29; p = n.s.).
DISCUSSION
has led to the design of numerous evaluation methods over the
Valid, specific measures are required to assess the diversity of
last five decades [40]. Recent years have witnessed increasing
manifestations that may be present in PD patients. This need
recognition of the importance of a complete evaluation that
Table IV. SCOPA-Nocturnal sleep score distribution by the anchor question.
As hypothesized, a close association was found between
each SC-Sleep subscale and the respective PDSS parameters
for nocturnal sleep and daytime hypersomnia. The correlation
between SC-NS and the question on global evaluation of
night sleep proved similar to that of the original study (0.81vs. 0.85) [5]. The convergent validity of the SC-Sleep scale is
therefore viewed as satisfactory. As for the other measures,
the SC-NS showed moderate correlations with mood distur-bances and motor complications. In addition, a moderate asso-
ciation was found between the SC-DS and PD severity meas-
ures, suggesting that nocturnal and daytime sleep dysfunctionshave different relationships with the range of aspects evaluated
As in the original study [5], the SC-Sleep failed to identify
significant differences among patients with different levels of
Test de Kruskal-Wallis, p < 0.0001.
severity or disease duration. Similarly, these differences werenot observed when the PDSS was used, either in this or in otherprevious studies [15]. This suggests that: 1) relationships between
encompasses the great variety of non-motor manifestations that
sleep dysfunction and disease severity, motor or cognitive status
can affect patients’ quality of life [1-3,41].
tend to be loose; 2) the type of sleep disturbance could change
Practically all PD patients suffer night sleep disturbances
over time without significantly modifying total scale scores;
and/or day hypersomnia [4,41]. Useful instruments, capable
or 3) sleep disturbances are present from the beginning of the
of reflecting the type and severity of these dysfunctions and
disease and do not increase despite the progression of the dis-
their response to therapeutic strategies, are therefore regarded
The SC-NS displayed excellent discriminative validity vis-
The first specific scale for assessing sleep disorders in PD
à-vis global evaluation of night sleep. The lack of a similar anchor
(PDSS) was published by Chaudhuri et al in 2002 [4]. Subse-
question in the SC-DS means that this particular attribute can-
quently, the validation of the PDSS was completed in an inde-
not be explored in the same way for this subscale.
pendent study conducted in Spain, after the necessary cross-
The influence of sleep disturbances on PD patients’ HRQL
cultural adaptation [15]. Marinus et al published another spe-
has been highlighted [43-45], but this relationship has yielded
cific scale for evaluation of sleep disturbances in PD, known as
low-to-moderate correlation coefficients between specific
the SC-Sleep [5]. To our knowledge, this scale has, as yet, nei-
measures that evaluated both aspects (PDQ-39 and PDSS) in
ther been subjected to independent validation nor been adapted
previous studies (|r | = 0.26-0.39) [15,46]. In the present study,
for use in a Spanish setting. The main objective of this study,
while a moderate correlation was observed between the sleep
albeit preliminary, was to assess some basic metric attributes of
scales (SC-NS and PDSS) and the SC-PS, the correlation between
both scales and the EuroQoL was low or nonexistent. Further
Analysis of data quality and acceptability shows that the
studies are called for, in order to apply the data furnished by the
SC-Sleep is a viable scale, with a mild ceiling effect in the SC-
new specific measures and thereby enhance our knowledge of
NS domain (22.1%), in line with the data reported in the origi-
Although patients’ sleep disorders influence caregivers’ sleep
In our study, item 6 of the SC-DS was shown by the scaling
and quality of life [47], the present study failed to find a signif-
assumptions analysis to be substandard. In contrast, the study
icant association between patients’ sleep disorders and care-
by Marinus et al [5] showed that all the item-total correlation
givers’ HRQL. However, a PDSS questionnaire adapted for
coefficients exceeded the standard criterion of 0.40. Neverthe-
proxy assessment showed that there was a moderate relation-
less, in view of the differences in size and characteristic of the
ship between the EuroQoL index and caregiver evaluation of
two samples, no conclusion can be drawn on this point.
Both the SC-NS and SC-DS obtained α and item-homo-
The limitations of this study are linked to the characteristics
geneity coefficients higher than the established limit, demon-
of the sample, with scant representation of patients in the most
strating that their internal consistency is satisfactory. However,
advanced stages of the disease and those with the most severe
there was a qualitative difference with respect to the findings by
sleep disturbances. These facts limit the generalizability of the
Marinus et al [5], according to which α was almost equivalent for
results. Yet the quality of the relevant SC-Sleep metric attrib-
the two subscales (difference = 0.03), with it being slightly high-
utes, assessment of which constituted the main objective of this
er for the SC-DS. Yet, in our study, not only was the difference
pilot study, was nevertheless confirmed. Stability of the meas-
between the subscales greater (0.09), but it was also in favour of
the SC-NS. At all events, both studies coincide in substantiating
The SC-Sleep is a viable scale, with appropriate scaling
the reliability of the two subscales. While the exploratory factor
assumptions, internal consistency, and construct validity. On the
analysis confirmed the unidimensionality of the SC-NS, the fol-
whole, the impact of sleep dysfunctions on patients’ and care-
lowing two factors were identified in the SC-DS: the first
givers’ HRQL proved to be low, yet these relationships should
included items 1 to 3 and could be defined as ‘drowsiness in
be explored by means of specific studies, which have a design
inactivity’; and the second contained items 4 to 6 and was relat-
different to ours and implement newly-developed specific meas-
ed to ‘inappropriate daytime sleepiness’.
1. Chaudhuri KR, Yates L, Martínez-Martín P. The non-motor symptom
23. Martínez-Martín P, Forjaz MJ, Cubo E, Frades B, De Pedro-Cuesta J.
complex of Parkinson’s disease: a comprehensive assessment is essen-
Global versus factor-related impression of severity in Parkinson’s dis-
tial. Curr Neurol Neurosci Rep 2005; 5: 275-83.
ease: a new clinimetric index (CISI-PD). Mov Disord 2006; 21: 208-14.
2. Global Parkinson’s Disease Survey Steering Committee. Factors im-
24. Zigmond AS, Snaith RP. The hospital anxiety and depression scale.
pacting on quality of life in Parkinson’s disease: results from an inter-
Acta Psychiatr Scand 1983; 67: 361-70.
national survey. Mov Disord 2002; 17: 60-7.
25. Marinus J, Leentjens AFG, Visser M, Stiggelbout AM, Van Hilten JJ.
3. Shulman LM, Taback RL, Rabinstein AA, Weiner WJ. Non-recogni-
Evaluation of the hospital anxiety and depression scale in patients with
tion of depression and other non-motor symptoms in Parkinson’s dis-
Parkinson’s disease. Clin Neuropharmacol 2002; 25: 318-24.
ease. Parkinsonism Relat Disord 2002; 8: 193-7.
26. Marinus J, Visser M, Martínez-Martín P, Van Hilten JJ, Stiggelbout
4. Chaudhuri KR, Pal S, DiMarco A, Whately-Smith C, Bridgman K,
AM. A short psychosocial questionnaire for patients with Parkinson’s
Mathew R, et al. The Parkinson’s disease sleep scale: a new instrument
disease: the SCOPA-PS. J Clin Epidemiol 2003; 56: 61-7.
for assessing sleep and nocturnal disability in Parkinson’s disease. J
27. EuroQol Group. EuroQol: a new facility for the measurement of health
Neurol Neurosurg Psychiatry 2002; 73: 629-35.
related quality of life. Health Policy 1990; 16: 199-208.
5. Marinus J, Visser M, Van Hilten JJ, Lammers GJ, Stiggelbout AM.
28. Badía X, Roset M, Montserrat S, Herdman M, Segura A. La versión es-
Assessment of sleep and sleepiness in Parkinson disease. Sleep 2003;
pañola del EuroQoL: descripción y aplicaciones. Med Clin (Barc) 1999;
6. Marinus J, Visser M, Verwey NA, Verhey FR, Middelkoop HA,
29. Ware JE, Sherbourne CD. The MOS 36-item Short-Form Health Sur-
Stiggelbout AM, et al. Assessment of cognition in Parkinson’s disease.
vey (SF-36). I. Conceptual framework and item selection. Med Care
7. Visser M, Marinus J, Stiggelbout AM, Van Hilten JJ. Assessment of
30. Alonso J, Prieto L, Antó JM. La versión española del SF-36 Health
autonomic dysfunction in Parkinson’s disease: the SCOPA-AUT. Mov
Survey (cuestionario de salud SF-36): un instrumento para la medida
de los resultados clínicos. Med Clin (Barc) 1995; 104: 771-6.
8. Chaudhuri KR, Schapira AHV, Martínez-Martín P, Brown R, Koller W,
31. MOS. Puntuación del cuestionario de salud SF-36. Versión española.
Sethi K, et al. Can we improve the holistic assessment of Parkinson’s
Boston: Medical Outcomes Trust; 1995.
disease? The development of a non-motor symptom questionnaire and
32. Smith SC, Lamping DL, Banarjee S, Harwood R, Foley B, Smith P, et
scale for Parkinson’s disease. Advances in Clinical Neuroscience and
al. Measurement of health-related quality of life for people with
dementia: development of a new instrument (DEMQOL) and an evalu-
9. Dodel RC, Dubois B, Fahn S, Goetz CG, Holloway R, Jankovic J, et al.
ation of current methodology. Health Technol Assess 2005; 9: 16-9.
Addressing non-motor impairments in Parkinson’s disease: the new
33. McHorney CA, Tarlov AR. Individual-patient monitoring in clinical
version of the UPDRS. Mov Disord 2005; 20 (Suppl 10): S83 (P 277).
practice: are available health status surveys adequate? Qual Life Res
10. Olson EJ, Boeve BF, Silber MH. Rapid eye movement sleep behaviour
disorder: demographic, clinical and laboratory findings in 93 cases.
34. Holmes W, Bix B, Shea J. SF-20 score and item distributions in a hu-
man immunodeficiency virus-seropositive sample. Med Care 1996; 34:
11. Poewe W, Högl B. Parkinson’s disease and sleep. Curr Opin Neurol
35. Fayers P, Machin D. Quality of life: assessment, analysis and interpre-
12. García-Borreguero D, Larosa O, Bravo M. Parkinson’s disease and sleep.
tation. Chichester: John Wiley & Sons; 2000. p. 72-90.
36. Eisen M, Ware Jr. JE, Donald CA, Brook RH. Measuring components
13. Buysse DJ, Reynolds III CF, Monk TH, Berman SR, Kupfer DJ. The
of children’s health status. Med Care 1979; 17: 902-21.
Pittsburgh Sleep Quality Index: a new instrument for psychiatric prac-
37. Fisk JD, Brown MG, Sketris IS, Metz LM, Murray TJ, Stadnyk KJ. A
tice and research. Psychiatry Res 1989; 28: 193-213.
comparison of health utility measures for the evaluation of multiple
14. Johns MW. A new method for measuring daytime sleepiness: the Ep-
sclerosis treatments. J Neurol Neurosurg Psychiatry 2005; 76: 58-63.
worth Sleepiness Scale. Sleep 1991; 14: 540-5.
38. Scientific Advisory Committee of the Medical Outcomes Trust. Assess-
15. Martínez-Martín P, Salvador C, Menéndez-Guisasola L, González S,
ing health status and quality-of-life instruments: attributes and review
Tobías A, Almazán J, et al. Parkinson’s Disease Sleep Scale: validation
criteria. Qual Life Res 2002; 11: 193-205.
study of a Spanish version. Mov Disord 2004; 19: 1226-32.
39. Beaton DE, Bombardier C, Katz JN, Wright JG. A taxonomy for
16. Gibb WRG, Lees AJ. The relevance of the Lewy body to the pathogen-
responsiveness. J Clin Epidemiol 2001; 54: 1204-17.
esis of idiopathic Parkinson’s disease. J Neurol Neurosurg Psychiatry
40. Martínez-Martín P. Rating scales in Parkinson’s disease. In Jankovic J,
Tolosa E, eds. Parkinson’s disease and movement disorders. 2 ed. Bal-
17. Grupo ELEP. Estudio longitudinal de pacientes con enfermedad de
timore: Williams & Wilkins; 1993. p. 281-92.
Parkinson (estudio ELEP). Objetivos y metodología. Rev Neurol 2006;
41. Chaudhuri KR, Healy DG, Schapira A. Non-motor symptoms of Par-
kinson’s disease: diagnosis and management. Lancet Neurol 2006; 5:
18. Hoehn MM, Yahr MD. Parkinsonism: onset, progression, and mortali-
42. Karlsen KH, Tandberg E, Arsland D, Larsen JP. Health related quality
19. Fahn S, Elton RL, for the UPDRS Development Committee. Unified
of life in Parkinson’s disease: a prospective longitudinal study. J Neu-
Parkinson’s Disease Rating Scale. In Fahn S, Marsden CD, Calne
rol Neurosurg Psychiatry 2000; 69: 584-9.
DB, Goldstein M, eds. Recent developments in Parkinson’s disease.
43. Martínez-Martín P. An introduction to the concept of ‘quality of life in
Vol. 2. Florham Park: Macmillan Health Care Information; 1987. p.
Parkinson’s disease’. J Neurol 1998; 245 (Suppl 1): S2-5.
44. Damiano AM, Snyder C, Strausser B, Willian MK. A review of health-
20. Folstein MF, Folstein SE, McHugh PR. Mini-Mental State: a practical
related quality-of-life concepts and measures for Parkinson’s disease.
method for grading the mental state of patients for the clinicians. J Psy-
45. Karlsen KH, Larsen JP, Tandberg E, Maeland JG. Influence of clinical
21. Marinus J, Visser M, Stiggelbout AM, Martin-Rabey J, Martínez-Mar-
and demograhic variables on quality of life in patients with Parkinson’s
tín P, Bonuccelli U, et al. A short scale for the assessment of motor im-
disease. J Neurol Neurosurg Psychiatry 1999; 66: 431-5.
pairments and disabilities in Parkinson’s disease: the SPES/SCOPA. J
46. Scaravilli T, Gasparoli E, Rinaldi F, Polesello G, Bracco F. Health-
Neurol Neurosurg Psychiatry 2004; 75: 388-95.
related quality of life and sleep disorders in Parkinson’s disease. Neurol
22. Martínez-Martín P, Benito-León J, Burguera JA, Castro A, Linazasoro
G, Martínez-Castrillo JC, et al. The SCOPA-Motor Scale for assess-
47. Happe S, Berger K, FAQT Study Investigators. The association between
ment of Parkinson’s disease is a consistent and valid measure. J Clin
caregiver burden and sleep disturbances in partners of patients with
Parkinson’s disease. Age Ageing 2002; 31: 349-54. ESPECÍFICA PARA LOS TRASTORNOS DEL SUEÑO ESPECÍFICA PARA AS PERTURBAÇÕES DO SONO DE LA ENFERMEDAD DE PARKINSON: SCOPA-SUEÑOASSOCIADAS À DOENÇA DE PARKINSON: SCOPA-SONOResumen. Introducción. En la enfermedad de Parkinson (EP) exis- Resumo. Introdução. A doença de Parkinson (DP) associa-se a uma te una alta prevalencia de trastornos del sueño. Objetivos. Compro-elevada prevalência de perturbações do sono. Objectivos. Comprovarbar los atributos métricos básicos de la escala SCOPA-sueño paraos atributos métricos básicos da escala SCOPA-sono para doentespacientes con EP; objetivo secundario: analizar el impacto del tras-com DP; objectivo secundário: analisar o impacto das perturbaçõ-torno del sueño en la calidad de vida relacionada con la saludes do sono na qualidade de vida relacionada com a saúde (QVRS)(CVRS) del paciente y de su cuidador principal. Sujetos y métodos. do doente e do seu principal cuidador. Sujeitos e métodos. Foram68 pacientes con EP y sus cuidadores principales. Se aplicaron:estudados 68 doentes com DP e respectivos cuidadores. Aplicaram-Hoehn y Yahr, SCOPA-motor, impresión clínica de gravedad (CISI-se as escalas: Hoehn e Yahr, SCOPA-motor, Clinical Impression of
PD), escala PDSS, Hospital Anxiety and Depression Scale, SCO-
Severity Index for Parkinson’s Disease (CISI-PD), escala PDSS,PA-psicosocial y EuroQoL. El cuidador cumplimentó un cuestiona-
Hospital Anxiety and Depression Scale, SCOPA-psicosocial e Euro-rio PDSS sobre el sueño del paciente y las medidas de la CVRSQoL. O cuidador preencheu um questionário PDSS sobre o sono do(SF-36, EuroQoL). Se analizaron la aceptabilidad, las asuncionesdoente e as medidas da QVRS (SF-36, EuroQoL). Foram analisadasescalares, la consistencia interna, la validez de constructo y la pre-a aceitabilidade, as assunções escalares a consistência interna, acisión de la SCOPA-sueño. Resultados. La SCOPA-sueño mostróvalidade de construção e a precisão da SCOPA-sono. Resultados. Aaceptabilidad satisfactoria y asunciones escalares. La subescalaSCOPA-sono revelou aceitabilidade satisfatória e assunções das es-sueño nocturno (SC-Sn) presentó leve efecto techo (22,1%), y lacalas. A subescala sono nocturno (SC-Sn) apresentou um discretosubescala somnolencia diurna (SC-Sd), defectuosa validez conver-efeito tecto (22,1%) e a subescala sonolência diurna (SC-Sd) umagente del ítem 6; la consistencia interna de ambas resultó satisfac-validade convergente imperfeita do item 6; a consistência interna detoria (alfa = 0,84 y 0,75, respectivamente). SC-Sn correlacionó sig-ambas resultou satisfatória (alfa = 0,84 e 0,75, respectivamente).nificativamente con la PDSS (r = –0,70) y con el cuestionario PDSSSC-Sn correlacionou-se significativamente com a PDSS (r = –0,70)cumplimentado por el cuidador (r = –0,53), y fueron menores lose com o questionário PDSS preenchido pelo cuidador (r = –0,53), evalores respectivos para la SC-Sd (r = –0,41 y –0,50). Error están-foram menores os valores respectivos para a SC-Sd (r = –0,41dar de la medida: SC-Sn, 1,45; SC-Sd, 1,76. La CVRS del pacientee –0,50). O erro standard das medidas foi: SC-Sn, 1,45; SC-Sd,y la del cuidador mostraron una escasa correlación con las me-1,76. A QVRS do doente e do cuidador revelou uma ténue correla-didas de sueño. Conclusiones. La escala SCOPA-sueño es viable,ção com as medidas do sono. Conclusões. A escala SCOPA-sono éconsistente y útil para evaluar el trastorno del sueño en pacientesviável, consistente e útil para avaliar a perturbação do sono emcon EP. La relación entre la CVRS y la alteración del sueño fuedoentes com DP. Detectou-se uma ténue relação entre a QVRS e adébil. [REV NEUROL 2006; 43: 577-83]alteração do sono. [REV NEUROL 2006; 43: 577-83]Palabras clave. Calidad de vida relacionada con la salud. CISI-PD. Palavras chave. Avaliação. CISI-PD. Doença de Parkinson. Esca- Enfermedad de Parkinson. Evaluación. Parkinson’s Disease Rating
la para avaliação da doença de Parkinson. Perturbação do sono.
Scale. SCOPA-sueño. Trastorno del sueño.Qualidade de vida relacionada com a saúde. SCOPA-sono.
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Medos, Fobias & Outros Bichos. "Um dos efeitos do medo é perturbar os sentidos e fazer com que as coisas não pareçam o que são." - disse Miguel de Cervantes em Dom Quixote, século XVII. O distúrbio do medo patológico pode se apresentar como Fobia Específica, quando o pavor tem um objetivo certo, como por exemplo, medo de animais, de escuridão, de água, altura, etc.