The aim of this project is to estimate the effects of therapy with dance and movement and Tai Chi on irisin plasma levels, a myokine with proven neuroprotective effects, in the context of baseline levels of cognitive function and physical performance in seniors over 65 years of age. It is empirically verified that physical activity can have a positive effect on cognitive function even in individuals with mild cognitive impairment. There may be a number of reasons why this is the case. Recently, research investigating the relationship between the secretion of certain myokines and their neuroprotective effects has gained importance. One of these myokines is irisin, which has recently been shown to have beneficial effects on the CNS by upregulating the expression of Brain Derived Neurotrophic Factor (BDNF) in the hippocampus in an animal model. Increased irisin levels as a consequence of exercise have recently been partially demonstrated in humans. What type of physical activity is most effective in terms of its effect on cognitive function in humans is another important scientific challenge. The possibility of influencing endocrine secretion of bioactive substances with proven effects on synaptic plasticity, neurogenesis and neuroprotection through effective therapies may help to combat neurodegenerative diseases, the prevalence of which is increasing with the average age of the population. According to Alzheimer's Disease International, 50 million people worldwide were affected by some form of neurodegenerative disease in 2017. The number of people affected is still rising. It is predicted that this number will reach 75 million sufferers by 2030 (https://www.alz.co.uk/research/statistics). Alzheimer's disease and multiple sclerosis are the two most common manifestations of neurodegenerative diseases. The effect of therapy with dance and movement and the effect of Tai Chi on blood irisin levels in the context of cognitive function and physical performance levels, has not yet been conclusively demonstrated.
It is empirically verified that physical activity can have a positive effect on cognitive function even in individuals with mild cognitive impairment. There may be a number of reasons why this is the case. Recently, research investigating the relationship between the secretion of certain myokines and their neuroprotective effects has gained importance. One of these myokines is irisin, which has recently been shown to have beneficial effects on the CNS by upregulating the expression of Brain Derived Neurotrophic Factor (BDNF) in the hippocampus in an animal model. Increased irisin levels as a consequence of exercise have recently been partially demonstrated in humans. What type of physical activity is most effective in terms of its effect on cognitive function in humans is another important scientific challenge. The possibility of influencing endocrine secretion of bioactive substances with proven effects on synaptic plasticity, neurogenesis and neuroprotection through effective therapies may help to combat neurodegenerative diseases, the prevalence of which is increasing with the average age of the population. According to Alzheimer's Disease International, 50 million people worldwide were affected by some form of neurodegenerative disease in 2017. The number of people affected is still rising. It is predicted that this number will reach 75 million sufferers by 2030 (https://www.alz.co.uk/research/statistics). Alzheimer's disease and multiple sclerosis are the two most common manifestations of neurodegenerative diseases. The effect of therapy with dance and movement and the effect of Tai Chi on blood irisin levels in the context of cognitive function and physical performance levels, has not yet been conclusively demonstrated. The aim of this project is to estimate the effects of therapy with dance and movement and Tai Chi on irisin plasma levels, a myokine with proven neuroprotective effects, in the context of baseline levels of cognitive function and physical performance in seniors over 65 years of age. Implementation of the project: the following personal data will be collected at the Consultation Room for Memory Disorders, AD Centrum Fakultní at the Královské Vinohrady Hospital (PPP AD FNKV): age, weight, height, sex, education, a brief medical history will be taken, current illness and current treatment will be determined, and a basic pharmacological and toxicological history will be taken. The probands who will be admitted to the experimental part of the project, based on the initial screening at the PPP AD FNKV, will have their cognitive function tested and 9 ml of venous blood drawn before and after the intervention at the PPP AD FNKV, and strength and physical performance tested at the UK FTVS. Thereafter, probands will be randomized to either the intervention groups or the control group. This randomized controlled trial will compare the effects of a movement and dance therapy based on Bartenieff fundamentals and the other type of intervention will be implemented as Tai Chi exercises. Both types of exercises are designed to place a greater emphasis on body perception, so that there is a connection between musculoskeletal coordination and movement in conjunction with an emotional experience focused on the ability to perceive bodily signals. This approach will activate cognitive functions more. The experimental part will be carried out with a time intensity of twice a week (90 min) for 12 weeks - all in two phases 09-2021 to 12-2021 and 09-2022 to 12-2022. The control group will be implemented on the principle of wait-list control group. Characteristics of research participants: Based on the power analysis, we expect to recruit approximately 90 participants (age ≥ 65 - ≤ 80 years) from outpatients of the PPP AD FNKV and U3V UK FTVS participants, or other interested persons from Prague 6. Individuals with advanced cognitive impairment, regular use of medications affecting cognitive performance, antidepressants, anxiolytics, and individuals with uncorrected hypertension and ischemic heart disease, acutee (especially infectious) disease, musculoskeletal disorders and chronic diseases limiting physical activity, as well as individuals in recovery after illness or injury cannot take part in the study. Ethical aspects of research: The research will be conducted on seniors who will be enrolled in the research on the basis of voluntary informed consent. Since movement therapy has no negative side effects, it is an ethically conflict-free research from this perspective. On the other hand, a great benefit to society can be expected, in particular the development of a suitable exercise regimen that will be applicable to other age groups. Since the elderly are a specific and relatively easy to influence group, they will be adequately informed about the purpose of the research, and the benefits of the research for them and for the elderly population as a whole will be explained. Before signing the informed consent, the clarity and understanding of the information provided will be carefully checked.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
SINGLE
Enrollment
90
Therapy by dance and movement is based on the principals of movement-analysis by Rudolf Laban and Irmgard Bartenieff. Participants will attend sessions twice a week (90 minutes each) for the duration of three months.
Tai Chi is based on somatic approach. Participants will attend sessions twice a week (90 minutes each) for the duration of three months.
Faculty Hospital Vinohrady
Prague, Czechia
RECRUITINGFaculty of Physical Education and Sport
Prague, Czechia
RECRUITINGChange in Irisin blood levels after 3 months of the intervention
Irisin levels measured from 9ml blood samples
Time frame: baseline to 3 months
Difference in Irisin blood levels between the arms at 3 months
Irisin levels measured from 9ml blood samples
Time frame: 3 months
Change in brain derived neurotrophic factor (BDNF) levels at 3 months
BDNF measured from a 9ml blood samples.
Time frame: baseline to 3 months
Difference in brain derived neurotrophic factor (BDNF) levels at 3 months between the arms
BDNF measured from a 9ml blood samples.
Time frame: 3 months
Change from baseline cognitive function in the Amnesia Light and Brief Assessment (ALBA) at 3 months better outcome
ALBA is a validated measure assessing memory. The scale spans 0-12 points with higher number of points signifying better outcome
Time frame: baseline to 3 months
Difference in cognitive function in the Amnesia Light and Brief Assessment (ALBA) between the arms at 3 months
ALBA is a validated measure assessing memory. The scale spans 0-12 points with higher number of points signifying better outcome
Time frame: 3 months
Change from baseline cognitive function in Semantic word recollection (category: animals, 1 min) at 3 months
Semantic word recollection is a measure of cognitive function, results range from 0-cca 40, more points signify better outcome
Time frame: baseline to 3 months
Difference in cognitive function in Semantic word recollection (category: animals, 1 min) between the arms at 3 months
Semantic word recollection is a measure of cognitive function, results range from 0-cca 40, more points signify better outcome
Time frame: 3 months
Change in cognitive function in Semantic word recollection (category: letters, 1 min) at 3 months
Semantic word recollection is a measure of cognitive function, results range from 0-cca 40, more points signify better outcome
Time frame: baseline to 3 months
Difference in cognitive function in Semantic word recollection (category: letters, 1 min) at 3 months between the arms
Semantic word recollection is a measure of cognitive function, results range from 0-cca 40, more points signify better outcome
Time frame: 3 months
Change from baseline cognitive function in Rey Auditory Verbal Learning Test (RAVLT) at 3 months
RAVLT is a validated measure of cognitive function, it has 8 subscales, each of them ranging from 0-15, measured in raw scores which are connected to age-dependent population norm
Time frame: baseline to 3 months
Difference in cognitive function in Rey Auditory Verbal Learning Test (RAVLT) at 3 months between the arms
RAVLT is a validated measure of cognitive function, it has 8 subscales, each of them ranging from 0-15, measured in raw scores which are connected to age-dependent population norm
Time frame: 3 months
Change in baseline cognitive function in Wechsler Adult Intelligence Scale, Third edition (WAIS III) - "Symbols" subtest at 3 months
The WAIS III, subtest "Symbols" is a validated measure of cognitive function, the point scale ranges from 0-133 with larger point attainment signalling better outcome
Time frame: baseline to 3 months
Difference in cognitive function in Wechsler Adult Intelligence Scale, Third edition (WAIS III) - "Symbols" subtest at 3 months between the arms
The WAIS III, subtest "Symbols" is a validated measure of cognitive function, the point scale ranges from 0-133 with larger point attainment signalling better outcome
Time frame: 3 months
Change in baseline cognitive function in Trail Making Test (TMT), Parts A & B at 3 months
The TMT is a validated measure of cognitive function, the time upon completion is measured
Time frame: baseline to 3 months
Difference in cognitive function in Trail Making Test (TMT), Parts A & B at 3 months between the arms
The TMT is a validated measure of cognitive function, the time upon completion is measured
Time frame: 3 months
Change in the Clock Drawing Test at 3 months
A validated measure where participant is asked to draw a clock face with the time 23:20
Time frame: baseline to 3 months
Difference in the Clock Drawing Test at 3 months between the arms
A validated measure where participant is asked to draw a clock face with the time 23:20
Time frame: 3 months
Change in Line Picture Production test at 3 months
Participant is asked to produce as many as possible pictures consisting from 4 straight lines in 1 minute.
Time frame: baseline to 3 months
Difference in Line Picture Production test at 3 months between the arms
Participant is asked to produce as many as possible pictures consisting from 4 straight lines in 1 minute.
Time frame: 3 months
Change in Picture Naming and Immediate Recall test (PICNIR) at 3 months
Cognitive measure where participants first write down names of 20 pictures and then are asked to recall these names within 1 minute
Time frame: Baseline to 3 months
Difference in Picture Naming and Immediate Recall test (PICNIR) at 3 months between the arms
Cognitive measure where participants first write down names of 20 pictures and then are asked to recall these names within 1 minute.
Time frame: 3 months
Change in baseline mood in Geriatric Depression Scale at 3 months.
A self-report measure of mood, measured on 0-15 point scale, higher point attainment signifies worse outcome.
Time frame: baseline to 3 months
Difference in mood in Geriatric Depression Scale at 3 months.
A self-report measure of mood, measured on 0-15 point scale, higher point attainment signifies worse outcome.
Time frame: 3 months
Change from baseline self-sufficiency self-reported in Questionnaire of functional state (abbreviation in original language: subjective FAQ-CZ) at 3 months
FAQ-CZ is a self-report measure of self-sufficiency, it is measured on a scale of 0-30 with higher point attainment signalling worse outcome
Time frame: baseline to 3 months
Difference in self-sufficiency self-reported in Questionnaire of functional state (abbreviation in original language: subjective FAQ-CZ) at 3 months between the arms
FAQ-CZ is a self-report measure of self-sufficiency, it is measured on a scale of 0-30 with higher point attainment signalling worse outcome
Time frame: 3 months
Change in Sarcopenia at 3 months
An ultrasound imaging method for diagnosing sarcopenia based on changes in muscle geometric proportions: muscle thickness (MT), pennation angle (PA), fiber length (FL), and ultrasound sarcopenic index (USI) calculated as FL/MT.
Time frame: baseline to 3 months
Difference in Sarcopenia at 3 months between the arms
An ultrasound imaging method for diagnosing sarcopenia based on changes in muscle geometric proportions: muscle thickness (MT), pennation angle (PA), fiber length (FL), and ultrasound sarcopenic index (USI) calculated as FL/MT.
Time frame: 3 months
Change in knee extensor isometric strength and static fatigue at 3 months
Knee extensor isometric strength and static fatigue were measured by a stationary dynamometer: isometric torque (Nm), and fatigue index calculated as the Area Under Force vs. Time Curve of right knee extensor during a sustained 30 s maximal voluntary muscle contraction. Handgrip strength.
Time frame: baseline to 3 months
Difference in knee extensor isometric strength and static fatigue at 3 months between the arms
Knee extensor isometric strength and static fatigue were measured by a stationary dynamometer: isometric torque (Nm), and fatigue index calculated as the Area Under Force vs. Time Curve of right knee extensor during a sustained 30 s maximal voluntary muscle contraction. Handgrip strength.
Time frame: 3 months
Change in short physical performance battery (SPPB) at 3 months
The short physical performance battery (SPPB) is a group of measures that combines the results of the gait speed, chair stand and balance tests. It is used as a predictive tool for possible disability and can aid in the monitoring of function in older people.
Time frame: baseline to 3 months
Difference in short physical performance battery (SPPB) at 3 months between the arms
The short physical performance battery (SPPB) is a group of measures that combines the results of the gait speed, chair stand and balance tests. It is used as a predictive tool for possible disability and can aid in the monitoring of function in older people.
Time frame: 3 months
Change in Body Composition at 3 months
Body composition by a bioelectrical impedance analysis (BIA).
Time frame: baseline to 3 months
Difference in Body Composition at 3 months between the arms
Body composition by a bioelectrical impedance analysis (BIA).
Time frame: 3 months
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