Insomnia is prevalent in adolescents. Together with an increase of evening preference (i.e. evening chronotype) in adolescent, sleep disturbance in adolescents are associated with a constellation of adverse outcomes. Insomnia and evening chronotype in adolescents are also found to predict the development of mental health problems and negative health-related outcomes in young adulthood. While cognitive behavioural therapy for insomnia (CBT-I) and bright light therapy were evidenced to be effective in managing sleep problems in adults, there is limited evidence to support their efficacy in children and adolescents. To address the limitations in the existing literature, this study aims to conduct a randomised controlled trial to examine the effects of CBT-I and light therapy on insomnia and mood symptoms, and other clinical and daytime symptoms, as well as overall functioning in adolescents with insomnia (particularly sleep onset insomnia) and evening chronotype.
A randomised, assessor-blind, parallel group controlled trial will be conducted in youth with insomnia and eveningness. Eligible participants will be randomised to one of the following groups: CBT-I, CBT-I plus bright light therapy, or waiting-list control. Randomisation will be carried out using an automated online system. Assessments will be conducted at pre-treatment (week 0), during the treatment (week 2 \& 4) and post-treatment (week 6/at the conclusion of the last group session). The two active treatment groups will be additionally followed up at post-treatment one-month and post-treatment six months in order to examine the maintenance effects following the intervention with CBT-I and CBT-I plus bright light therapy respectively.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
150
CBT-I consists of 6 weekly sessions of CBT-I (90-min, 3-6 adolescents in each group) with elements that address the behavioural, cognitive and physiological factors perpetuating insomnia, including: psycho-education about sleep and sleep hygiene, stimulus control, sleep restriction, relaxation training, structured worry time, cognitive restructuring (targeting sleep-related dysfunctional cognitions), and relapse prevention. Participants will additionally undergo daily morning light therapy by wearing Re-timers (a validated portable light emitting device) at home for 30 minutes. Participants will receive constant blue-green light (500 nm, 506 lux).
CBT-I consists of 6 weekly sessions of CBT-I (90-min, 3-6 adolescents in each group) with elements that address the behavioural, cognitive and physiological factors perpetuating insomnia, including: psycho-education about sleep and sleep hygiene, stimulus control, sleep restriction, relaxation training, structured worry time, cognitive restructuring (targeting sleep-related dysfunctional cognitions), and relapse prevention. Participants will additionally undergo daily morning light therapy by wearing Re-timers (a validated portable light emitting device) at home for 30 minutes.Participants will receive red-filtered dim light (\<50 lux).
Sleep Research Clinic and Laboratory, Department of Psychology, The University of Hong Kong
Hong Kong, Hong Kong
RECRUITINGChange in Insomnia Symptoms
Insomnia symptoms measured by Insomnia Severity Index (ISI). ISI is a 5-item self-rated scale. Possible scores range from 0 to 20, with higher scores indicating higher insomnia severity.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Sleep Quality
Pittsburgh Sleep Quality Index (PSQI) is a self-rated scale consisting of 19 questions. All items are combined to form seven component scores on different aspects of sleep quality, each of which ranges from 0 to 3 points with higher scores representing more sleep disturbance. The seven component scores are added to one global score, which ranges from 0 to 21, with higher scores indicating more difficulties with sleep.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Sleep Diary Measure - Time in Bed (TIB)
Daily sleep diary for consecutive seven days. Sleep parameter estimated by daily sleep diary: time in bed (TIB) in hours
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Sleep Diary Measure - Total Sleep Time (TST)
Daily sleep diary for consecutive seven days. Sleep parameter estimated by daily sleep diary: total sleep time (TST) in hours
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Sleep Diary Measure - Sleep Onset Latency (SOL)
Daily sleep diary for consecutive seven days. Sleep parameter estimated by daily sleep diary: sleep onset latency (SOL) in mins
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Sleep Diary Measure - Wake After Sleep Onset (WASO)
Daily sleep diary for consecutive seven days. Sleep parameter estimated by daily sleep diary: wake after sleep onset (WASO) in mins
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Sleep Diary Measure - Sleep Efficiency (SE)
Daily sleep diary for consecutive seven days. Sleep parameter estimated by daily sleep diary: sleep efficiency (SE), which is calculated by total sleep time divided by total time in bed, %
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Objective Sleep Measures - Time in Bed (TIB)
Actigraphic assessment for consecutive seven days. Sleep parameter estimated by wrist actigraphy: time in bed (TIB) in hours
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Objective Sleep Measures - Total Sleep Time (TST)
Actigraphic assessment for consecutive seven days. Sleep parameter estimated by wrist actigraphy: total sleep time (TST) in hours
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Objective Sleep Measures - Sleep Onset Latency (SOL)
Actigraphic assessment for consecutive seven days. Sleep parameter estimated by wrist actigraphy: sleep onset latency (SOL) in mins
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Objective Sleep Measures - Wake After Sleep Onset (WASO)
Actigraphic assessment for consecutive seven days. Sleep parameter estimated by wrist actigraphy: wake after sleep onset (WASO) in mins
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Objective Sleep Measures - Sleep Efficiency (SE)
Actigraphic assessment for consecutive seven days. Sleep parameter estimated by wrist actigraphy: sleep efficiency (SE), which is calculated by total sleep time divided by total time in bed, %
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Self-Report Chronotype Measures
The Munich Chronotype Questionnaire (MCTQ) is a self-report measures of sleeping patterns during weekdays and weekends separately. The Mid-Sleep Time (MSF/MSFsc) are used to as an indicator of chronotype, where individuals with earlier mid-sleep time reflect a morning chronotype and later mid-sleep time reflect an evening chronotype.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Actigraphic Circadian Measures using Nonparametric circadian rhythm analysis - interdaily stability (IS)
Actigraphic assessment for consecutive seven days. Circadian parameters computed by the nonparametric circadian rhythm analysis method - interdaily stability (IS), which is calculated as the ratio between the variance of the average 24-hour pattern around the mean and the overall variance.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Actigraphic Circadian Measures using Nonparametric circadian rhythm analysis - intradaily variability (IV)
Actigraphic assessment for consecutive seven days. Circadian parameters computed by the nonparametric circadian rhythm analysis method - intradaily variability (IV), which is calculated as the ratio of the mean squares of the difference between consecutive hours and the mean squares around the grand mean.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Actigraphic Circadian Measures using Nonparametric circadian rhythm analysis - M10
Actigraphic assessment for consecutive seven days. Circadian parameters computed by the nonparametric circadian rhythm analysis method - start times and average activity of M10 (i.e. 10 h with maximal activity).
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Actigraphic Circadian Measures using Nonparametric circadian rhythm analysis - L5
Actigraphic assessment for consecutive seven days. Circadian parameters computed by the nonparametric circadian rhythm analysis method - start times and average activity of L5 (i.e. five hours with least activity).
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Actigraphic Circadian Measures using Nonparametric circadian rhythm analysis - relative amplitude (RA)
Actigraphic assessment for consecutive seven days. Circadian parameters computed by the nonparametric circadian rhythm analysis method - relative amplitude (RA), which is calculated using L5 and M10 to give a nonparametric description of amplitude.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Actigraphic Circadian Measures using Cosinor Analysis - acrophase
Actigraphic assessment for consecutive seven days. Circadian parameters computed by the cosinor analysis method - acrophase (the peak of the sine wave).
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Actigraphic Circadian Measures using Cosinor Analysis - amplitude
Actigraphic assessment for consecutive seven days. Circadian parameters computed by the cosinor analysis method - amplitude (the difference between the wave peak and trough).
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Actigraphic Circadian Measures using Cosinor Analysis - mesor
Actigraphic assessment for consecutive seven days. Circadian parameters computed by the cosinor analysis method - mesor.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change in Objective Circadian Measures: Dim-light melatonin onset (DLMO)
Dim-light melatonin onset (express as time value hh:mm) is determined by 10-hours salivary melatonin collected at 30-minutes interval. Melatonin is assayed by gas chromatography-mass spectrometry.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants
Change of Depressive Symptoms (Assessor-rated)
Children's Depression Rating Scale (CDRS-R) is a 17-item rating scale based on a semistructured interview with children. Possible scores range from 17 to 113, with higher scores indicating severer depressive symptoms.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Self-report Mood Symptoms
Hospital Anxiety and Depression Scale (HADS) is a self-assessed scale for detecting states of depression and anxiety. The depression subscale range in scores from 0 to 21, with higher scores indicating severer states of depression. Similarly, the anxiety subscale range in scores from 0-21 with higher scores indicating severer states of anxiety. No additional computation will be made with the two subscores.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Suicidal Ideation
Depressive Symptom Inventory Suicidality Subscale (DSI-SS) is a 4-item self-rated scale measuring suicidal ideation. Possible total scores range from 0 to 12, with higher scores indicating higher suicidal ideation.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Daytime Sleepiness
Paediatric Daytime Sleepiness Scale (PDSS) is an 8-item self-rated scale measuring daytime sleepiness, ranging in total scores from 0 to 32 with higher scores indicating more sleepiness.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Daytime Fatigue
Multidimensional Fatigue Inventory (MFI) is a 20-item self-rated scale on fatigue symptoms. There are three subscales, measuring the physical (possibly scored from 7 to 35), mental (possibly scored from 6 to 30), and spiritual (possibly scored from 7 to 35), dimensions of fatigue. A grand total score can be calculated by summing up the three sub scores. In all cases, a higher score represents higher fatigue symptoms.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Quality of Life (KIDSCREEN-27)
KIDSCREEN-27 is a 27-item self-rated scale measuring health related quality of life measure for children and adolescents. There are five subscales on: physical well-being (possibly scored from 5 to 25), psychological well-being (possibly scored 7 to 35), autonomy \& parents (possibly scored 7 to 35), peers \& social support (possibly scored 4 to 20), and school environment (possibly scored 4 to 20). A grand total score can be calculated by summing up the five sub scores. In all cases, a higher score represents higher perceived well-being.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Overall Severity of Clinical Symptoms
Clinical Global Impression (CGI) Scale is a clinician-rated scale, comprised of two one-item subscales: Severity of Illness (CGI-S) subscale evaluating the severity of psychopathology, and Clinical Global Improvement Scale (CGI-I) evaluating change from the initiation of treatment. In both cases, the score is given on a seven-point scale, with higher values indicating higher severity of illness and larger improvement respectively.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Objective Cognitive Performance (visual attention & task switching)
Trail Making Test for assessing visual attention and task switching. In Trail Making Test, longer reaction time indicates lower level of attention.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Objective Cognitive Performance (inhibitory ability)
Go/No-go Task for assessing inhibitory ability. In Go/No-go Task, a higher error rate indicates lower inhibition control.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Objective Cognitive Performance (working memory by digit span)
Digit Span Task for assessing working memory capacity. In Digit Span Task, a higher number of recalled digits indicates better working memory.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Objective Cognitive Performance (working memory by N-Back)
N-back Task for assessing working memory capacity and manipulation. In N-back Task, a d prime score will be calculated based on the signal detection theory, where a higher score indicates better working memory performance.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Objective Cognitive Performance (episodic memory)
Chinese Auditory Verbal Learning Task for assessing episodic memory, where a higher number of recalled words indicates better episodic memory performance.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of Objective Cognitive Performance (problem solving)
Wisconsin Card Sorting Test for assessing problem solving. In Wisconsin Card Sorting Test, lower executive functioning is indicated by a higher percentage of persistent errors and a higher number of trials taken to complete the first category.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of sleep related attention bias
Sleep-related Dot-Probe Task for assessing sleep-related attention bias. In the Sleep-related Dot-probe Task, a higher attention bias score indicates higher vigilance towards sleep-related stimuli.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
Change of risk-taking & decision making
Balloon Analogue Risk Task for assessing risk-taking and decisionmaking. In Balloon Analogue Risk Task, a score will be calculated by averaging the number of pumps on unexploded blue balloons, where a higher score indicates more risk-taking and impulsive propensities.
Time frame: Baseline, Post-Treatment (at the conclusion of the last session) for all participants, and additional two follow-ups at Post-Treatment 1-month and Post-Treatment 6-month for participants in the treatment groups
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