Elderly Sleep Disturbance Through Home Care Solution
- Conditions
- Sleep DisturbanceAging
- Interventions
- Device: CPAPDevice: Light box
- Registration Number
- NCT05302492
- Lead Sponsor
- Chang Gung Memorial Hospital
- Brief Summary
Humans spend a third of their time on sleep. Therefore, maintaining a deep, stable and consistent sleep is very important for a good quality of life. Aging is often related to a decrease in the ability to fall asleep and maintain sleep. Getting older, various factors can worsen the normal sleep process, which is essential for restoring function and body function. Aging-related diseases, life changes, or own aging can disrupt the normal sleep cycle and seriously affect healthy aging. For example, the circadian rhythm and sleep consolidation will be broken with normal aging. These changes may lead to aging, or become part of the risk factors for diseases such as Alzheimer's disease. How to avoid disability and dementia by improving the quality of sleep to make the elderly healthy and aging, will bring huge effects to the economy, society, and health care.
From this plan, investigators will participate in an integrated plan (main plan)-" Integrating Systematic Data of Geriatric Medicine to Explore the Solution for Healthy Aging". In the main plan, 500 subjects will be enrolled. All subjects consent to provide medical record and will be tested for sarcopenia, including body composition, 4-meter walk, handgrip strength. The subjects screened sleep-affected subjects. It is estimated that 250 people will be invited for home sleep testing, such as continuous positive pressure breathing aid (CPAP) for sleep apnea (OSA) (approximately 120 subjects). For non-OSA and non-periodic limb movement disorder (PLMS) sleep problems, take a phototherapy program (about 60 subjects). The following goals are expected to be achieved:
1. Link to the main project to explore the correlation between common sleep disorders in the elderly and blood pressure, cognition, sarcopenia, metabolomics or intestinal microbiome
2. To verify the prognosis of sleep apnea and sleep disorders after intervention.
- Detailed Description
Not available
Recruitment & Eligibility
- Status
- COMPLETED
- Sex
- All
- Target Recruitment
- 107
-
Those who are willing to sign the written subject consent
-
Participants who participated in the integrated project (main project) - "Integrating Systematic Data of Geriatric Medicine to Explore the Solution for Healthy Aging"
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The results of the sleep questionnaire meet one of the following:
- Pittsburgh Sleep Quality Scale (PSQI) > 5 points
- The Self-Sleep Assessment Questionnaire (STOP-BANG) is at high risk for sleep apnea (OSA)
- Patients with severe cataracts who have not received treatment, patients with color blindness and chronic skin diseases (including psoriasis, eczema), or those who are considered by the host to be unable to receive light therapy.
- Those who are unsuitable after evaluation by a physician.
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- PARALLEL
- Arm && Interventions
Group Intervention Description Sleep apnea group with CPAP CPAP Intervention group: CPAP for 3 months in elderly diagnosis with sleep apnea and AHI \> 15/h. Control group: sleep apnea and patient refuse treatment or poor compliance. sleep disturbance without sleep apnea nor PLMS Light box Intervention group: light box on elderly with sleep disturbance with PSQI \> 5 and no OSA and no PLMS control group: elderly with sleep disturbance with PSQI \> 5 and no OSA and no PLMS refuse light box or poor compliance
- Primary Outcome Measures
Name Time Method Change from baseline PSQI ( Pittsburg Sleep Quality Index ) at 3 months 3 months Subjective sleep quality will be assessed by the PSQI questionnaire. The measure consists of 19 individual items, creating 7 components that produce one global score. Each component is weighted on a 0-3 interval scale. The global PSQI score is then calculated by totaling the seven component scores, providing an overall score ranging from 0 to 21, where lower scores denote a healthier sleep quality.
- Secondary Outcome Measures
Name Time Method Change from baseline total sleep time at 3 months 3 months The total sleep time, defined as the minutes of sleep between sleep onset and wake time, was calculated as a daily average from one week of actigraphy recordings. Increased total sleep time will be identified as improved objective sleep quality.
Change from baseline sleep onset latency at 3 months 3 months The sleep onset latency, defined as the minutes between lights off and first sleep episode, was calculated as a daily average from one week of actigraphy recordings. Decreased sleep onset latency will be identified as improved objective sleep quality.
Change from baseline appendicular skeletal muscle mass at 3 months 3 months The appendicular skeletal muscle mass was evaluated by body composition analysis.(Tanita MC-780 MA)
Change from baseline wake after sleep onset (WASO) at 3 months 3 months The WASO, defined as the minutes awake during the sleep period after sleep onset, was calculated as a daily average from one week of actigraphy recordings. Decreased WASO (wake after sleep onset) will be identified as improved objective sleep quality.
Change from baseline sleep efficiency at 3 months 3 months The sleep efficiency, defined as the percent of time scored as sleep during the sleep period, was calculated as a daily average from one week of actigraphy recordings. Increased sleep efficiency will be identified as improved objective sleep quality.
Change from baseline handgrip strength at 3 months 3 months The handgrip strength (kg) was evaluated by Hand Dynamometer. (Jamar® Plus+ Digital Hand Dynamometer)
Change from baseline gait speed at 3 months 3 months The gait speed test was performed by recording the average time of walking 4 meters and representing with the distance (m) per second.
Trial Locations
- Locations (1)
Chang Gung Memorial Hospital
🇨🇳Taoyuan, Taiwan