The ACTIONcardioRisk trial is designed to investigate the effect of aerobic and progressive resistance training exercises combined with cognitive training, on neurocognitive functioning of sedentary older adults with and without cardiovascular risk factors.
The proportion of older adults is on the rise in Canada, with the fastest growth recorded among those seventy years of age or older. The prevalence of cardiovascular risk factors (CVRF) such as diabetes, hypertension, and high cholesterol increases drastically with age. Individuals with CVRF often show impaired cognition, such as attention and memory deficits. In healthy older adults, exercise training and cognitive stimulation can help enhance cognitive performances. More precisely, combined intervention, including physical and cognitive training, has shown beneficial effects on cognition in older adults without cognitive impairment and with mild cognitive impairment. However, the effect of such programs on cognition in individuals with CVRF is not well documented. This project compares the effect of a physical exercise program, including aerobic and resistance training, alone or combined with cognitive training on cognitive performances and brain imaging outcomes in individuals with CVRF and healthy controls.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
DOUBLE
Enrollment
159
Participants will be encouraged to perform sessions of cognitive training 3 times per week (30 minutes/session). Two of these sessions will involve computer- or tablet-based attentional control training targeting dual-tasking, updating and working memory, as well as inhibition and switching. Difficulty of cognitive training will be tailored to participants' performances. The remaining session will consist of memory training. Participants will be instructed mnemotechnic, as well as be taught about memory in aging in general.
Participants will follow a periodized exercise training program with thrice-weekly 60 minutes trainings. The sessions will start with a 5-10mins warm-up, followed by aerobic and resistance trainings, and ends with a 5-10mins cool-down and stretching period. Intensity of aerobic sessions will be monitored with heart rate chest strap and should match with the moderate to vigorous intensity zone as defined by the ACSM (65% of Heart Rate maximum or more and a Perceived Exertion higher than 12 on the 6 to 20 Borg scale). Exercise intensity and duration will be gradually increased during the program. After aerobic training, a 15-20mins resistance training will be performed with a gradual progression of higher intensities and/or numbers of sets. The one maximal repetition (1RM) will be assessed for each RT movements at baseline, during (each 3 months) and at the end of the program. RT intensities will go from 40 to 70% of 1RM, with 8 to 10 forms of exercise involving majors muscle groups.
Preventive medicine and physical activity centre (centre EPIC), Montreal Heart Institute
Montreal, Quebec, Canada
RECRUITINGChange in general cognitive functioning
Montreal Cognitive Assessment (0-30 score, with a higher score indicating a better cognitive functioning).
Time frame: Baseline and post-intervention at 12 months.
Change in processing speed
Validated remote version of neuropsychological tests and iPad tests (Composite Z-score).
Time frame: Baseline and post-intervention at 12 months.
Change in executive functions
Validated remote version of neuropsychological tests and iPad tests (Composite Z-score).
Time frame: Baseline and post-intervention at 12 months.
Change in episodic memory
Validated remote version of neuropsychological tests and iPad tests (Composite Z-score).
Time frame: Baseline and post-intervention at 12 months.
Change in cerebral autoregulation - frontal cortical region
Variations of prefrontal cortical oxygen saturation (rSO2, \[HbO\]/(\[HbO\]+\[HbR\])) will be measured by Near Infrared Spectroscopy (NIRS), as a surrogate of cortical blood flow. Variations of continuous peripheral blood pressure (mm Hg) will be simultaneously measured by plethysmography at the finger. Autoregulation indices (unitless) will be derived from the correlation between variations of oxygen saturation measures and variations of peripheral blood pressure.
Time frame: Baseline and post-intervention at 12 months.
Change in cerebral autoregulation - middle cerebral arteries
Variations of cerebral blood flow velocity (cm/s) at the level of the middle cerebral artery will be measured by Transcranial Doppler (TCD). Variations of continuous peripheral blood pressure (mm Hg) will be simultaneously measured by plethysmography at the finger. Autoregulation indices (unitless) will be derived from the correlation between variations of cerebral blood flow measures and variations of peripheral blood pressure.
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Participants in the active control condition will take part in three 60 minutes stretching and toning sessions per week. Each session will start with a five-minutes warm-up, followed by fifteen min of body stretching exercises mainly in a seated position and finish with a five-minutes cool down. Participants will engage in four muscle-toning exercises (light intensity) using dumbbells or resistance bands, two exercises designed to improve balance, one yoga sequence, and one exercise of their choice. Intensity of stretching and toning sessions will be monitored with heart rate chest strap and should not exceed the light intensity zone as defined by the ACSM (64% of Heart Rate maximum or less and a Perceived Exertion lower than 11 on the 6 to 20 Borg scale).
Time frame: Baseline and post-intervention at 12 months.
Change in cerebral vasoreactivity - whole brain
Cerebral VasoReactivity (CVR, % change per mm Hg of PaCO2) will be measured by Arterial Spin Labeling MRI in two third of the study participants who do not present contra-indication for imaging studies.
Time frame: Baseline and post-intervention at 12 months.
Change in cerebral vasoreactivity - prefrontal cortex
Cerebral VasoReactivity (CVR, % change per mm Hg of PaCO2) will be measured using NIRS in the prefrontal region.
Time frame: Baseline and post-intervention at 12 months.
Change in cerebral vasoreactivity - middle cerebral arteries
Cerebral VasoReactivity (CVR, % change per mm Hg of PaCO2) will be measured using TCD in the middle cerebral arteries
Time frame: Baseline and post-intervention at 12 months.
Change in cerebral pulsatility - cortical frontal region
Pulsatility will be measured as the normalized difference of relative near-infrared light intensity changes between systole and diastole, using NIRS in the prefrontal cortical region.
Time frame: Baseline and post-intervention at 12 months.
Change in cerebral pulsatility - middle cerebral arteries
Pulsatility will be measured as the normalized difference of relative blood flow velocities between systole and diastole, using TCD in the middle cerebral arteries.
Time frame: Baseline and post-intervention at 12 months.
Change in cerebral activity
Significant changes in brain activity evoked by a Stroop task relative to baseline will be assessed by t-statistics maps, computed from variations of \[HbO\] and \[HbR\] measured by NIRS at the prefrontal cortex.
Time frame: Baseline and post-intervention at 12 months.
Change in brain structure
Multimodal structural MRI will be performed in two third of the study participants who do not present contra-indication for imaging studies, to measure regional cerebral volumes, as well as volume of angiopathic markers (eg lacunes, microbleeds, white matter hyperintensities), in cm3.
Time frame: Baseline and post-intervention at 12 months.