The Effects of Multidomain Non-pharmacological Interventions on the Elderly With or Without Mild Cognitive Impairment

Study Description

Brief Summary

The aim of the study is to assess a multidomain non-pharmacological intervention for improvement or maintenance of cognitive functioning and reduction of cognitive decline in the non-demented elderly from the general population. To investigate brain structural and functional imaging changes following a multidomain intervention. The recruited elderly aged 55-75 years with normal cognitive function or MCI will be divided into the intervention group or the control group randomly. The intervention group will be accepted a 6-week multidimensional non-pharmacological intervention (cognitive training, physical exercise, healthy lifestyle intervention, and computerized cognitive training) while the control group receives a 6-week health education. Sociodemographics will be collected before the intervention. comprehensive neuropsychological tests and MRI will be collected before and 6 weeks after the intervention respectively.

Detailed Description

This study is a 6-week randomized controlled trial, conducted at Xinzhuang Town, Minhang District, Shanghai, China.

All participants (control and intervention group) complete the data collection. Demographic data will be collected before intervention including age, sex, education, marriage, etc. A comprehensive cognitive assessment and MRI will be done before and 6 weeks after the intervention respectively. Data will be collected by self-report, home visit, or telephone visit.

The intervention group receive four intervention components including cognitive training, physical exercise, healthy lifestyle intervention, and computerized cognitive training. The intervention includes group and individual sessions. Participants will be divided into 3 groups to accept the sessions successively, and each group has a monitor regarded as the communication bridge between participants and teachers as well as remind participants to attend the training and do homework in time. The training sessions (once times per week, 90 min per session, 6 weeks) referred to the schedule. The group sessions with educational content on cognitive training, healthy lifestyle intervention, and physical exercise, the detail include memory methods and strategies, attention training, brain function development which belong to cognitive training, nutrition recommendation, sleep guidance, and emotional regulation which belong to lifestyle intervention, and the session also include parts of physical exercise such as gymnastics by finger or elastic band. The intervention will be trained by general practitioners and community health workers who accepted trained before the intervention. Individual sessions consist of human-computer interaction and physical exercise. Human-computer interaction is a kind of computer program-based cognitive training guided by professional staff at the study site, conducted in 6 weeks, 3 times per week, 20-30 minutes per session, and 12 sessions. The training program is a web-based in-house developed computer program including several tasks: spatial cognition (participants regulate and merge a couple of cubes or two-dimensional figures that are exactly alike but in different directions by control handle), left and right brain balance (copy the graphics on one computer screen to another computer screen by action tracking or screen touching technology), clock (participants imitate the hour and minute hands of a clock by swinging arms and show a time as same as in the computer screen) and ATM simulation (participants withdraw cash, transfer money, check balances through operating computer similar with ATM, among which need them to remember the password and the amount of money). Individual aerobic training included activities preferred by each participant (5 times per week,30 minutes per time), such as Tai Ji, Baduanjin, elastic band gymnastics or yoga, etc. The training will be guided and supervised by trained staff.

The control group receives regular health advice weekly through brochures, home visits, or telephone calls during 6 weeks of the intervention, detail including (1) patients with cognitive impairment education: prevention from self-injury, falling injury, accidental injury, medication, lost and bad habits; (2) inmates or caregivers education; (3) cognitive impairment knowledge education; (4) prevention of cognitive dysfunction education. The intervention committee ensures that health education activities are consistent across sites and unlikely to increase physical activity.

Study Design

Outcome Measures

Primary Outcome Measures

1. cognitive function assessed by The Montreal Cognitive Assessment (MoCA) [Before the intervention]

   The MoCA is a 1-page test that measures several cognitive domains (visual perception, executive skills, language, attention, memory and orientation). The MoCA score ranges from 0 to 30 (30 = best) and was chosen for its relatively high sensitivity for mild cognitive impairment.

2. cognitive function assessed by The Montreal Cognitive Assessment (MoCA) [6 weeks after the intervention]

   The MoCA is a 1-page test that measures several cognitive domains (visual perception, executive skills, language, attention, memory and orientation). The MoCA score ranges from 0 to 30 (30 = best) and was chosen for its relatively high sensitivity for mild cognitive impairment.

3. cognitive function assessed by the Mini-Mental State Examination (MMSE) [Before the intervention]

   MMSE using the Chinese version revised by Zhang Mingyuan, the scale includes 30 items, including orientation, instantaneous memory, attention, computation, recall, language and visuospatial. The MMSE score ranges from 0 to 30 (30=best).

4. cognitive function assessed by the Mini-Mental State Examination (MMSE) [6 weeks after the intervention]

   MMSE using the Chinese version revised by Zhang Mingyuan, the scale includes 30 items, including orientation, instantaneous memory, attention, computation, recall, language and visuospatial. The MMSE score ranges from 0 to 30 (30=best).

Secondary Outcome Measures

1. MRI--T1-weighted structure imaging [Before the intervention]

   For the T1 MRI images, we first performed quality control using CAT12 to exclude subjects with quality scores lower than "B". Next, we used the recon-all command of FreeSurfer 6.0.0 for brain extraction, tissue segmentation, cortical reconstruction, and brain region labeling for each subject's brain images. We extracted the thickness, surface area, volume for cortical structures, and volume of subcortical structures in different brain regions based on the DK+Aseg parcellation template. Finally, the brain images of each subject were nonlinearly aligned to the MNI152 template using ANTs alignment toolkit for subsequent analysis of BOLD fMRI and DWI images.

2. MRI--T1-weighted structure imaging [6 weeks after the intervention]

   For the T1 MRI images, we first performed quality control using CAT12 to exclude subjects with quality scores lower than "B". Next, we used the recon-all command of FreeSurfer 6.0.0 for brain extraction, tissue segmentation, cortical reconstruction, and brain region labeling for each subject's brain images. We extracted the thickness, surface area, volume for cortical structures, and volume of subcortical structures in different brain regions based on the DK+Aseg parcellation template. Finally, the brain images of each subject were nonlinearly aligned to the MNI152 template using ANTs alignment toolkit for subsequent analysis of BOLD fMRI and DWI images.

3. MRI--resting functional MRI (rfMRI) imaging [Before the intervention]

   We used the alignment results of the T1-weighted image of each subject to transform the resting-state images into MNI152 space , and calculated the functional connectivity between all brain regions, as well as the ALFF, fALFF mean values for each brain region according to the DK+Aseg partitioning template.

4. MRI--resting functional MRI (rfMRI) imaging [6 weeks after the intervention]

   We used the alignment results of the T1-weighted image of each subject to transform the resting-state images into MNI152 space , and calculated the functional connectivity between all brain regions, as well as the ALFF, fALFF mean values for each brain region according to the DK+Aseg partitioning template.

5. MRI--diffusion-weighted imaging (DWI). [Before the intervention]

   For DWI images, we mainly used the FSL toolkit for processing. First, the b0 images of each subject were aligned with the T1 images, followed by eddy correction and head motion correction, and detection and replacement of outliers. Next, we used the DK+Aseg parcellation template for probabilistic fiber tracking of DWI images for each subject, and finally generated a probabilistic white matter connectivity matrix for each brain region for subsequent extraction of graph theoretical metrics.

6. MRI--diffusion-weighted imaging (DWI). [6 weeks after the intervention]

   For DWI images, we mainly used the FSL toolkit for processing. First, the b0 images of each subject were aligned with the T1 images, followed by eddy correction and head motion correction, and detection and replacement of outliers. Next, we used the DK+Aseg parcellation template for probabilistic fiber tracking of DWI images for each subject, and finally generated a probabilistic white matter connectivity matrix for each brain region for subsequent extraction of graph theoretical metrics.

7. memory function assessed by AVLT [Before the intervention]

   Auditory Verbal Learning Test（AVLT）to rate immediate (sum of words recalled on the 5 learning trials) and delayed episodic verbal memory.

8. memory function assessed by AVLT [6 weeks after the intervention]

   Auditory Verbal Learning Test（AVLT）to rate immediate (sum of words recalled on the 5 learning trials) and delayed episodic verbal memory.

9. memory function assessed by LMT [Before the intervention]

   Logic memory test (LMT): which assesses memory for brief passages, similar to newspaper stories. Subjects were assessed on immediate recall and 30 minute interval for delayed recall, according to standard practice. Subjects were not instructed in advance that they would be re-tested on the story after a delay of 30 minutes.

10. memory function assessed by LMT [6 weeks after the intervention]

    Logic memory test (LMT): which assesses memory for brief passages, similar to newspaper stories. Subjects were assessed on immediate recall and 30 minute interval for delayed recall, according to standard practice. Subjects were not instructed in advance that they would be re-tested on the story after a delay of 30 minutes.

11. executive function assessed by TMT-A [Before the intervention]

    The trail marking test A (TMT-A): The TMT-A consisted of a standardized page on which the numbers 1 to 25 are scattered within circles, and the participants were asked to connect the numbers in order as quickly as possible. A maximum time of 300 seconds was allowed before discontinuing the test. Direct scores of TMT-A were the time in seconds taken to complete task.

12. executive function assessed by TMT-A [6 weeks after the intervention]

    The trail marking test A (TMT-A): The TMT-A consisted of a standardized page on which the numbers 1 to 25 are scattered within circles, and the participants were asked to connect the numbers in order as quickly as possible. A maximum time of 300 seconds was allowed before discontinuing the test. Direct scores of TMT-A were the time in seconds taken to complete task.

13. executive function assessed by DSST [Before the intervention]

    Digit Symbol Substitution Test (DSST): The DSST was used to assess visual search, and perceptual and graphomotor speed. The number of correct substitutions during a 90-second interval was used as the score.

14. executive function assessed by DSST [6 weeks after the intervention]

    Digit Symbol Substitution Test (DSST): The DSST was used to assess visual search, and perceptual and graphomotor speed. The number of correct substitutions during a 90-second interval was used as the score.

15. concentration function assessed by DST [Before the intervention]

    Digit Span Test (DST): including digit span forwards (DSF) and digit span backwards (DSB)

16. concentration function assessed by DST [6 weeks after the intervention]

    Digit Span Test (DST): including digit span forwards (DSF) and digit span backwards (DSB)

17. quality of life assessed by the Barthel index [Before the intervention]

    Barthel index:The main aim is to establish degree of independence from any help, physical or verbal, however minor and for whatever reason.

18. quality of life assessed by the Barthel index [6 weeks after the intervention]

    Barthel index:The main aim is to establish degree of independence from any help, physical or verbal, however minor and for whatever reason.

19. quality of life assessed by EQ-5D-5L [Before the intervention]

    European quality of life-5 dimensions with 5 level (EQ-5D-5L): The descriptive system of the EQ-5D comprises five dimensions: mobility (MO), self-care (SC), usual activities (UA), pain/discomfort (PD), and anxiety/depression (AD); each dimension is described at five levels, corresponding roughly to no, slight, moderate, severe, and extreme problems.

20. quality of life assessed by EQ-5D-5L [6 weeks after the intervention]

    European quality of life-5 dimensions with 5 level (EQ-5D-5L): The descriptive system of the EQ-5D comprises five dimensions: mobility (MO), self-care (SC), usual activities (UA), pain/discomfort (PD), and anxiety/depression (AD); each dimension is described at five levels, corresponding roughly to no, slight, moderate, severe, and extreme problems.

21. quality of life assessed by IADL [Before the intervention]

    The Lawton instrumental activities of daily living scale (IADL): IADL is an appropriate instrument to assess independent living skills. The instrument is most useful for identifying how a person is functioning at the present time, and to identify improvement or deterioration over time. There are eight domains of function measured with the Lawton IADL scale. Women are scored on all 8 areas of function; historically, for men, the areas of food preparation, housekeeping, laundering are excluded. Clients are scored according to their highest level of functioning in that category. A summary score ranges from 0 (low function, dependent) to 8 (high function, independent) for women, and 0 through 5 for men.

22. quality of life assessed by IADL [6 weeks after the intervention]

    The Lawton instrumental activities of daily living scale (IADL): IADL is an appropriate instrument to assess independent living skills. The instrument is most useful for identifying how a person is functioning at the present time, and to identify improvement or deterioration over time. There are eight domains of function measured with the Lawton IADL scale. Women are scored on all 8 areas of function; historically, for men, the areas of food preparation, housekeeping, laundering are excluded. Clients are scored according to their highest level of functioning in that category. A summary score ranges from 0 (low function, dependent) to 8 (high function, independent) for women, and 0 through 5 for men.

23. quality of life assessed by PSMS [Before the intervention]

    Physical Self-Maintenance Scale (PSMS): To assess functional abilities in elderly patients. The format the PSMS is first a six item based on the ADL and then eight-items based on the IADL scale. A 5-point scale for responses ranges from total independence to total dependence.

24. quality of life assessed by PSMS [6 weeks after the intervention]

    Physical Self-Maintenance Scale (PSMS): To assess functional abilities in elderly patients. The format the PSMS is first a six item based on the ADL and then eight-items based on the IADL scale. A 5-point scale for responses ranges from total independence to total dependence.

25. quality of life assessed by SF-36 [Before the intervention]

    The short-form 36 item health survey (SF-36): The SF-36 includes one multi-item scale that assesses eight health concepts: 1) limitations in physical activities because of health problems; 2) limitations in social activities because of physical or emotional problems; 3) limitations in usual role activities because of physical health problems; 4) bodily pain; 5) general mental health (psychological distress and well-being); 6) limitations in usual role activities because of emotional problems; 7) vitality (energy and fatigue); and 8) general health perceptions.

26. quality of life assessed by SF-36 [6 weeks after the intervention]

    The short-form 36 item health survey (SF-36): The SF-36 includes one multi-item scale that assesses eight health concepts: 1) limitations in physical activities because of health problems; 2) limitations in social activities because of physical or emotional problems; 3) limitations in usual role activities because of physical health problems; 4) bodily pain; 5) general mental health (psychological distress and well-being); 6) limitations in usual role activities because of emotional problems; 7) vitality (energy and fatigue); and 8) general health perceptions.

27. social support assessed by SSRS [Before the intervention]

    Social Support Rating Scale (SSRS): SSRS developed by Xiao was utilized to measure social support. The 10-item scale consists of 3 dimensions including objective support, subjective support and availability. Higher scores indicate higher levels of social support. The scale has presented impressive validity and reliability in Chinese population.

28. social support assessed by SSRS [6 weeks after the intervention]

    Social Support Rating Scale (SSRS): SSRS developed by Xiao was utilized to measure social support. The 10-item scale consists of 3 dimensions including objective support, subjective support and availability. Higher scores indicate higher levels of social support. The scale has presented impressive validity and reliability in Chinese population.

29. quality of sleep assessed by PSQI [Before the intervention]

    Pittsburgh sleep quality index (PSQI): Sleep quality was assessed using the Chinese version of the PSQI, which is composed of 19 items classified into seven components: subjective sleep quality, sleep latency, sleep duration, habitual sleep efficiency, sleep disturbances, use of sleeping medication, and daytime dysfunction during the past month. Each component is weighted from 0 to 3, generating one global score ranging from 0 to 21. The higher score the poorer sleep quality.

30. quality of sleep assessed by PSQI [6 weeks after the intervention]

    Pittsburgh sleep quality index (PSQI): Sleep quality was assessed using the Chinese version of the PSQI, which is composed of 19 items classified into seven components: subjective sleep quality, sleep latency, sleep duration, habitual sleep efficiency, sleep disturbances, use of sleeping medication, and daytime dysfunction during the past month. Each component is weighted from 0 to 3, generating one global score ranging from 0 to 21. The higher score the poorer sleep quality.

31. emotion assessed by GDS-15 [Before the intervention]

    Geriatric Depression Scale (GDS-15): The short form including 15 items. Items represent characteristics of depression in the elderly in the affective (e.g., sadness, apathy, crying) and cognitive domains (e.g., thoughts of hopelessness, helplessness, guilt, worthlessness. Higher GDS scores are indicative of more severe depression.

32. emotion assessed by GDS-15 [6 weeks after the intervention]

    Geriatric Depression Scale (GDS-15): The short form including 15 items. Items represent characteristics of depression in the elderly in the affective (e.g., sadness, apathy, crying) and cognitive domains (e.g., thoughts of hopelessness, helplessness, guilt, worthlessness. Higher GDS scores are indicative of more severe depression.

Eligibility Criteria

Criteria

Inclusion Criteria:

1. Age 55-75 years old, Male or Female

2. The resident elderly or those who have lived in the sampled community for more than 6 months

3. Be able to communicate with investigators and understand the questionnaire questions

4. More than 6 years of education

5. Mild cognitive impairment or cognitively normal within the past year

6. Volunteer to participate in the study

Exclusion Criteria:

1. Individuals with neurological diseases

2. Cognitive decline due to other disorders (cerebrovascular disease, central nervous system infections, etc.)

3. Mental Disorders included in The Diagnostic and Statistical Manual of Mental Disorders of The American Psychiatric Association

4. Blindness, aphasia, or severe hearing impairment

5. History of myocardial infarction within the previous year, Unstable cardiac, renal, lung, liver or other severe chronic diseases

6. Coincident participation in another intervention trial

Contacts and Locations

Locations

Sponsors and Collaborators

• Huashan Hospital
• School of Public Health，Fudan University
• Medicine-Mental Health Center of Minhang District
• Xinzhuang Community Health Service Center

Investigators

• Study Chair: Ying Wang, professor, Deputy Director, Professor, School of Public Health, Fudan University

Study Documents (Full-Text)

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