Impact of a dual task on the energy cost of walking in individuals with subacute phase stroke.

OBJECTIVE: To assess the impact of cognitive Dual Task (DT) during walking on the energy cost of walking (Cw) in individuals with subacute stroke. The secondary objective was to determine whether there is an association between the Cw and cortical activity of the prefrontal area. METHODS: Any individual with stroke localized in the temporal-parietal regions and able to walk without human assistance was included. Cw and prefrontal cortical activity, recorded by fNIRS, were measured during simple task walking activity and cognitive dual task during walking. RESULTS: Nineteen individuals with stroke (age = 67.7 ± 9.6 yrs) were included. The cognitive DT during walking resulted in an increase in Cw of 23.1%; 95%CI [13.1%; 34.5%]. The increase in Cw in cognitive DT was correlated with the Cw for the single task walking activity (r = 0.48, p < 0.01) as well as the predominance of cortical activity of the prefrontal area in the contralesional hemisphere (r = -0.33, p < 0.01). CONCLUSION: There is an increase in Cw during the cognitive DT. This increase is even more significant, as the Cw of the single task walking activity is high, and the cortical activity of the prefrontal areas predominates in the contralesional hemisphere.

Individualized home-based rehabilitation after stroke in France: a pragmatic study of a community stroke rehabilitation team.

BACKGROUND: Community stroke rehabilitation teams (CSRT) provide an individualized home-based rehabilitation service to patients recovering from stroke. OBJECTIVE: To examine whether there is an improvement in the social participation of patients who received a rehabilitation program provided by CSRT. The secondary objectives were to show if there is an improvement in the patients' quality of life and a reduction in the caregiver burden. METHODS: Retrospective cohort study, pragmatic in real-care conditions. The rehabilitation program delivered by the CSRT was adapted to the needs of the patients and caregivers. The outcome questionnaires included: the Frenchay Activity Index (FAI), the Minizarit, the EuroQol EQ5D, and the Barthel Index. The primary outcome measure was the FAI. RESULTS: We included 206 patients followed by the CSRT over the 2018-2020 study period, for whom the primary endpoint was present. The mean age was 66.3 ± 12.7 years, the post-stroke delay was 16.4 ± 32.7 months, and the Barthel index was 66.42 ± 12.6. The duration of the rehabilitation program was on average 162 ± 109 days. We observed a significant improvement in the FAI, from 12.9 ± 10.4 to 17.85 ± 12.4 (p < 0.00001); in the EuroQol, from 57.51 ± 19.96 to 66.36 ± 18.87 (p < 0.00001); in the mini-Zarit, from 2.49 ± 1.75 to 2.06 ± 1.67 (p = 0.0002); and in the Barthel index, from 66.42 ± 12.67 to 84.81 ± 23.70 (p < 0.001). CONCLUSION: Patients who received a rehabilitation program by the CSRT have an improvement in their social participation, and their informal caregivers have a reduction in their burden.

The impact of the energy cost of walking on the quality of life of post-stroke individuals: A one-year longitudinal study.

BACKGROUND: The increased energy cost of walking (Cw) for stroke patients affects the walking function and walking independence of stroke patients. However, its impact on quality of life (QoL) has never been studied. OBJECTIVE: Assess the association between Cw and QoL for post-stroke individuals in the year following hospital discharge. METHOD: Thirty-seven individuals with stroke were included. QoL was assessed by the EuroQol-5 Dimensions on the day after hospital discharge (T0), at six months (T1) and at one year after hospital discharge (T2). Concomitant an evaluation of Cw, mood disorders (HADS), fatigue, independence in activities of daily living and the presence of a family caregiver was performed. The association between QoL and the different covariates was analyzed using multiple regression analysis. RESULTS: At T2, data from 29 individuals were analyzable. Multiple regression analyses showed Cw had a significant influence on the QoL at T1 (coeff -0.42 (-0.71 to -0.12), P = .008) and T2 (coeff -0.49 (-0.71 to -0.26), P < .001). HADS score was the only other variable to significantly impact variances of QoL at T0, T1 and T2. Moreover, we showed that Cw at T0 explained 29% of variances of QoL at T1 and 42% at T2. CONCLUSION: Cw appears to be an independent factor in the QoL of individuals with stroke at six months and one year after hospital discharge. In addition, the initial Cw and HADS are predictive of QoL at one year highlighting the importance of early interventions in these two dimensions to improve QoL over the long term.

First Systematic Review and Meta-analysis of the Validity and Test-Retest Reliability of Physical Activity Monitors for Estimating Energy Expenditure During Walking in Individuals With Stroke.

OBJECTIVE: To evaluate the validity and test-retest reliability of physical activity trackers (accelerometer, multisensor, smartphone, pedometer) for estimating energy expenditure during walking in individuals with stroke. DATA SOURCES: Webline, MEDLINE, Scopus, ScienceDirect, Bielefeld Academic Search Engine, and Wiley Online Library databases from 1980 to November 2020. STUDY SELECTION: The inclusion criteria were studies that examined the validity of portable physical activity trackers for estimating energy expenditure in individuals with stroke during walking activities compared to indirect calorimetry. DATA EXTRACTION: This systematic review was reported according to Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines, and the methodological quality of the included studies was determined with the Quality Assessment of Diagnostic Accuracy Studies. The study selection was made by 2 blind observers. DATA SYNTHESIS: We screened 3677 articles; 3647 were excluded after duplicate removal and title and abstract review. Thirty articles were included for full-text analysis. Eight articles met the inclusion criteria (184 individuals with stroke) and were included in the data synthesis and meta-analysis. For all monitors, activities, and placements, the overall level of correlation with indirect calorimetry was 0.34 (95% confidence interval [CI], 0.23-0.44). After subgroups analysis, we showed that type and placement have no effect on the level of validity. Test-retest reliability was high, with intraclass correlation equal to 0.89 (95% CI, 0.76-0.95). CONCLUSIONS: Portable physical activity monitors provided a low correlation with indirect calorimetry during walking in individuals with stroke. It seems essential to pursue studies to improve their validity in this population.

The Best Choice of Oxygen Cost Prediction Equation for Computing Post-Stroke Walking Energy Expenditure Using an Accelerometer.

BACKGROUND: The integration of oxygen cost into the accelerometer's algorithms improves accuracy of total energy expenditure (TEE) values as post-stroke individuals walk. Recent work has shown that oxygen cost can be estimated from specific prediction equations for stroke patients. OBJECTIVE: The objective is to the validity of the different oxygen cost estimation equations available in the literature for calculating TEE using ActigraphGT3x as individuals with stroke sequelae walk. METHOD: Individuals with stroke sequelae who were able to walk without human assistance were included. The TEE was calculated by multiplying the walking distance provided by an ActigraphGT3x worn on the healthy ankle and the patient's oxygen cost estimated from the selected prediction equations. The TEE values from each equation were compared to the TEE values measured by indirect calorimetry. The validity of the prediction methods was evaluated by Bland-Altman analysis (mean bias (MB) and limits of agreement (LoA) values). RESULTS: We included 26 stroke patients (63.5 years). Among the selected equations, those of Compagnat and Polese obtained the best validity parameters for the ActigraphGT3x: MBCompagnat = 1.2 kcal, 95% LoACompagnat = [-12.0; 14.3] kcal and MBPolese = 3.5 kcal, 95% LoAPolese = [-9.2; 16.1] kcal. For comparison, the estimated TEE value according to the manufacturer's algorithm reported MBManufacturer = -15 kcal, 95% LoAManufacturer = [-52.9; 22.8] kcal. CONCLUSION: The Polese and Compagnat equations offer the best validity parameters in comparison with the criterion method. Using oxygen cost prediction equations is a promising approach to improving assessment of TEE by accelerometers in post-stroke individuals.

Which method should be chosen to estimate the oxygen cost of walking in post-stroke individuals?

BACKGROUND: The oxygen cost of walking (Cw) represents the energy expenditure involved in walking, which is a major concern when quantifying physical activity in stroke. Recent studies have reported that Cw may be estimated accurately with a prediction equation using the self-self-selected walking speed (Sfree). RESEARCH QUESTION: To evaluate the validity of Cw estimates according to different modalities of Sfree measurements (10-m walking test, 6-minute walking test, GaitRite system). METHODS: Twenty-one stroke individuals in subacute phase who were able to walk without human aid were included. Cw was estimated from the walking speed measured during a 10-m walking test, a 6-minute walking test and a recording on a GaitRite system. The values of the Cw estimates were compared to those measured by a respiratory gas exchange analyzer (Metamax3b). RESULTS: The findings showed that there is no significant difference between the Cw measured by Metamax3b and the Cw estimates regardless of the modalities used to measure Sfree (Fvalue = 0.02; pvalue = 0.99). The mean bias between Cw measured by the Metamax3b and those estimated using the different Sfree measurement modalities was less than 2.5 % of the mean Cw value. Test retest reliability was excellent with an intraclass correlation coefficient higher than 0.95. SIGNIFICANCE: in stroke survivors who are able to walk independently without human aid, the use of a 10-m walking test, a 6-minute walking test or a GaitRite recording can be considered validated for estimating Cw.

The Functional Independence of Patients With Stroke Sequelae: How Important Is the Speed, Oxygen Consumption, and Energy Cost of Walking?

OBJECTIVE: To evaluate the association between self-selected walking speed (Sfree), oxygen consumption at Sfree (Vo2free), the oxygen cost of walking (Cw) at Sfree, and mobility independence and independence for activities of daily living in individuals poststroke. DESIGN: Cross-sectional study. SETTING: Hospital. PARTICIPANTS: Individuals with stroke who were able to walk without human assistance were included. We included 90 individuals (N=90; mean age, 63.5±14.0y). INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: Cw was captured during walking from measurements of Sfree and Vo2free. We assessed mobility independence based on the modified Functional Ambulation Classification (mFAC) and independence in activities of daily living by the Barthel Index (BI). Multiple linear regression analyses were performed to evaluate the independence of Cw, Vo2free, and Sfree from the determination of BI and mFAC among the various characteristics of the population (age, stroke delay, body mass index, motor function, spasticity). RESULTS: We reported Cw=0.36 mL/kg/m (interquartile range [IQR]=0.28 mL/kg/m), Sfree=0.60±0.32 m/s, Vo2free=11.2 mL/kg/min (IQR=1.8 mL/kg/min). The multiple linear regression analyses showed that Cw and Sfree were independently associated with the BI (P<.01) and the mFAC (P<.01) scores. Vo2free was not found to be an explanatory variable of functional independence (P>.05). CONCLUSIONS: Cw was independently associated with functional independence. This association appears to be primarily determined by Sfree and not Vo2free, underscoring the importance of evaluating and acting on Sfree to improve the functional independence of individuals with stroke.

Post-stroke Complications and Mortality in Burkinabè Hospitals: Relationships with Deglutition Disorders and Nutritional Status.

Stroke frequently causes deglutition disorders, leading to a decline in nutritional status and complications, and increasing mortality. Sub-Saharan data are scarce. The objectives of this study were to assess complications and mortality among hospitalized patients in Burkina Faso during the first two weeks after stroke, and to investigate associated factors. Patients with stroke were followed prospectively in Ouagadougou and Bobo-Dioulasso hospitals. Deglutition disorders and nutritional parameters were assessed at baseline (D0) and on Days 8 (D8) and 14 (D14). Complications and mortality were recorded up to D14. Factors associated with complications and mortality were investigated using multivariate analysis. Of the 222 patients included, 81.5% developed at least one complication, and mortality was 17.1%. At D0, D8, and D14, the rate of deglutition disorders was 37.4%, 28.4%, and 15.8%, respectively, and that of undernourishment 25.2%, 29.4%, and 31.0%, respectively. In multivariate analysis, only the presence of deglutition disorders was a risk factor for developing at least one complication (OR = 5.47, 95% CI 1.81-16.51). Factors predicting death were the presence of deglutition disorders at D0 (OR = 7.19, 95% CI 3.10-16.66), and at least one seizure during follow-up (OR = 3.69, 95% CI 1.63-8.36). After stroke, the rates of complications, death, and undernourishment were high compared to Western countries. Prevention and management of deglutition disorders, and specific follow-up of patients with seizures could reduce post-stroke mortality.

Effect of individualized coaching at home on walking capacity in subacute stroke patients: A randomized controlled trial (Ticaa'dom).

BACKGROUND: The gains in walking capacity achieved during rehabilitation often plateau, or are lost, when the patient returns home. Moreover, maintaining or increasing the patient's daily physical activity level after a stroke remains challenging. We aimed to evaluate the effectiveness of a six-month individualized coaching program at home on walking capacity, as evaluated by the six-minute walk test in subacute stroke patients. METHODS: Stroke patients in the physical medicine and rehabilitation service participated in a monocentric observer blinded randomized controlled trial with two groups, intervention versus usual care control. The inclusion criteria were: age≥18 years, first ischemic or hemorrhagic stroke, and stroke within<6 months. Participants were randomly assigned (blocks of variable size) to an intervention group (EG) receiving individualized coaching on physical activity, or to a control group (CG) receiving standard care. The six-month program was composed of monitored physical activity, home visits and a weekly phone call. Participants were evaluated after hospital discharge (T0), at the end of the six-month program (T1) and six months later(follow-up; T2). The primary outcome was the walking distance performance, as evaluated with the six-minute walk test at T1. RESULTS: Eighty-three participants (age: 61y [IQR=22]; time post-stroke: 2.4 month [IQR=1.7]; Barthel index: 100[IQR=5]) were included in the study: (EG, n=41; CG, n=42). The difference between the two groups was not significant at T1(418m [IQR=165] for the EG and 389m [IQR=188] for the CG; P=0.168) and at T2(425m [IQR=121] for the EG vs. 382m [IQR=219] for the CG; P=0.208). CONCLUSION: Our study shows no difference in the six-minute walk test between the two groups of subacute stroke patients after 6 months of the individualized coaching program, combining home visits, feedback on daily performance and weekly telephone calls. http://ClinicalTrials.gov (NCT01822938).

Functional Status Is Associated With Prefrontal Cortex Activation in Gait in Subacute Stroke Patients: A Functional Near-Infrared Spectroscopy Study.

Increasing cerebral oxygenation, more precisely the overactivation of the prefrontal cortex (PFC), reflects cortical control of gait in stroke disease. Studies about the relationship between brain activation and the functional status in stroke patients remain scarce. The aim of this study was to compare brain activation, gait parameters, and cognitive performances in single and dual tasks according to the functional status in subacute stroke patients. Twenty-one subacute stroke patients were divided in two groups according to Barthel Index ("low Barthel" and "high Barthel") and randomly performed ordered walking, cognitive task (n-back task), and dual tasks (walking + n-back task). We assessed gait performances (speed, variability) using an electronic walkway system and cerebral oxygenation (ΔO2Hb) by functional near-infrared spectroscopy. Patients with better functional status (high Barthel) showed a lower PFC activation (ΔO2Hb) and better gait parameters in single and dual tasks compared to low-Barthel patients, who exhibited decreased gait performances despite a higher PFC activation, especially in the unaffected side (P < 0.001). PFC overactivation in less functional subacute stroke patients may be due to the loss of stepping automaticity. Our results underline the interest of proposing rehabilitation programs focused on walking, especially for patients with low functional capacity.

Oxygen Cost During Walking in Individuals With Stroke: Hemiparesis Versus Cerebellar Ataxia.

Background. Understanding the factors that limit mobility in stroke patients is fundamental for proposing appropriate rehabilitation strategies. A high oxygen cost during walking (Cw) has a strong impact on the community ambulation of hemiparetic patients. The Cw in poststroke cerebellar ataxia is poorly evaluated, unlike hemiparetic gait. Objective. To compare the oxygen cost/self-selected walking speed (S) relationship in stroke individuals with cerebellar ataxia or hemiparetic gait. Methods. Thirty-three subjects were included (14 cerebellar stroke, 19 hemispheric stroke), with stroke confirmed by brain imaging and able to walk without human assistance. We measured Cw using the Metamax3B. The relationship between Cw and self-selected walking speed was modelled by logistic regression and then compared between the cerebellar and hemispheric groups. Results. No significant difference was found between the 2 groups for all characteristics of the population, except motor impairments, spasticity, and ataxia (P < .01). We identified 2 separate Cw/S relationships with different logistic regression equations for the 2 groups. Faster than 0.4 m s-1, Cw was 30.6% to 39.9% higher in patients with cerebellar stroke in comparison with hemispheric stroke individuals. The Cw was correlated with ataxia (r = 0.88; P < .001) in the cerebellar group, whereas there was a correlation with motor impairments (r = -0.61; P < .01), spasticity (r = 0.59; P < .01), and ataxia (r = 0.81; P < .01) in hemispheric stroke individuals. Conclusion. The Cw in poststroke cerebellar ataxia is significantly higher compared with hemiparetic patients at an equivalent walking speed. The impact on community walking needs to be explored in stroke survivors with cerebellar stroke.

Prefrontal Cortex Activation During Dual Task With Increasing Cognitive Load in Subacute Stroke Patients: A Pilot Study.

Stroke patients often exhibit difficulties performing a cognitive task while walking, defined as a dual task (DT). Their prefrontal cortex (PFC) activity is higher in DT than in single task (ST). The effects of an increasing load on PFC activity during DT in subacute stroke patients remains unexplored. Our objective was to assess the effects of N-back tasks (low/high load) on cerebral activity, gait parameters, and cognitive performances. Eleven subacute stroke patients (days post-stroke 45.8 ± 31.6) participated in this pilot study (71.4 ± 10 years, BMI 26.7 ± 4.8 kg.m-2, Barthel index 81.8 ± 11.0). Patients completed a STwalk, and 4 conditions with 1-back (low load) and 2-back (high load): STlow, SThigh, DTlow, and DThigh. Overground walking was performed at a comfortable pace and -N-back conditions were carried out verbally. Both gait (speed, stride variability) and cognitive (rate of correct answers) performances were recorded. Changes in PFC oxyhemoglobin (ΔO2Hb) and deoxyhemoglobin (ΔHHb) were measured by functional near infrared spectroscopy (fNIRS). Results showed an increase of ΔO2Hb while walking, which was not augmented by cognitive loads in DT. Walking speed was reduced by low and high cognitive loads in DT compared to STwalk (P < 0.05), but was not different between DTlow and DThigh. Cognitive performances were negatively impacted by both walking (P < 0.05) and cognitive load (between "low" and "high," P < 0.001). These data highlight a "ceiling" effect in ΔO2Hb levels while walking, leaving no available resources for simultaneous cognitive tasks, during the early recovery period following stroke. In these patients, cognitive, but not motor, performances declined with a higher cognitive load.

Effort Assessment of Stroke Patients in Physiotherapy Session by Accelerometry and Perceived Exertion Score: Preliminary Study.

OBJECTIVE: To determine whether post-stroke patient's perceived exertion correlates with effort intensity score as measured by a wearable sensor and to assess whether estimates of perceived exertion are correlated to the cerebral hemisphere involved in the stroke. METHODS: We evaluated the effort intensity score during physiotherapy sessions using a wearable sensor and subjects assessed their perceived exertion using the modified Borg CR10 Scale. RESULTS: Fifty-seven subacute stroke patients participated in the study. The correlation between perceived exertion rating and measured effort intensity was insignificant-mean (r=-0.04, p=0.78) and peak (r=-0.05, p=0.70). However, there was a significant difference (p<0.02) in the perceived exertion ratings depending on the cerebral hemisphere where the stroke occurred. Patients with left-hand side lesions rated their perceived exertion as 4.5 (min-max, 0.5-8), whereas patients with right-hand side lesions rated their perceived exertion as 5.0 (2-8). CONCLUSION: While there was an insignificant correlation between perceived exertion and effort intensity measured by a wearable sensor, a consistent variations in perceived exertion estimates according to the side of the cerebral lesion was identified and established.

Quantification of energy expenditure during daily living activities after stroke by multi-sensor.

Objective: To explore the validity of energy expenditure estimates using the SenseWear Armband during a sequence of four daily living activities in patients post-stroke. Method: Patients with stroke who were able to walk during 6 min without human assistance were asked to wear the SenseWear Armband on the non-paretic arm while performing transfers, a manual task, walking, and walking up and down stairs. The energy expenditure estimated using the SenseWear Armband was compared to the energy expenditure calculated from oxygen consumption, measured by a portable indirect calorimeter (Metamax 3B). The mean of energy expenditure was pooled for each task. Accuracy was explored by mean bias (MB) of Bland-Altman analysis and root mean square error (RMSE), agreement by 95% of limits of agreement (95%LoA) and coefficient of correlation (r). Results: Thirty-eight participants (65.7 ± 13.5 years) were included. The SenseWear Armband globally underestimated energy expenditure, MB = 9.77 kcal for the whole sequence. RMSE were large, accounting for 15% to 41% of the measured energy expenditure. Agreement was low with r < 0.70 and 95%LoA from 42% to 93% of the measured energy expenditure. Conclusions: This study reported a global underestimation and a low level of agreement of the energy expenditure estimated by SenseWear Armband in four daily living activities in patients after stroke. Abbreviations: EE: Energy Expenditure; NIHSS: National Institute of Health Stroke Score.

Validity of the Walked Distance Estimated by Wearable Devices in Stroke Individuals.

BACKGROUND: Health professionals need valid devices to assess a stroke individual's ability to walk. The aim was to evaluate the validity of the estimation of the walked distance by wearable devices and the impact of the sensor's position in stroke individuals. METHODS: Post-stroke patients able to walk without human assistance were equipped with several wearable devices: pedometers, Actigraph, and Sensewear Armband placed according to the manufacturers' recommendations. Participants walked for 6 min at a comfortable speed wearing all sensors at the same time. We analyzed the validity of sensor-estimated distances according to their position using Bland-Altman analysis, root-mean-square error, and coefficient of correlation. RESULTS: In total, 35 individuals were included (mean age = 65 ± 15 years). The best estimations were given by the Actigraph worn on the unaffected ankle (mean bias (MB) = 22.6 ± 32.4 m; p = 0.37) and by the pedometer worn on the unaffected hip (MB = 20.5 ± 24.6 m; p = 0.46). The other sensors and positions provided large estimation errors over 95 m (p < 0.05). CONCLUSION: This study led to a recommendation of a pedometer worn on the unaffected hip or an Actigraph worn on the unaffected ankle to get a valid estimation of the distance walked by stroke individuals.

Compendium of Physical Activities Strongly Underestimates the Oxygen Cost During Activities of Daily Living in Stroke Patients.

OBJECTIVE: The aim of the study was to measure the metabolic equivalent task when performing physical activities of daily living in poststroke individuals. DESIGN: Poststroke individuals who were able to walk without human assistance were recruited and asked to perform the following activities of daily living: washing dishes (activity code: 05041 in Ainsworth's compendium), walking at a slow pace of less than 2 mph (activity code: 17151), climbing stairs (activity code: 17133), and walking down stairs (activity code: 17070). The metabolic equivalent task was measured along these activities using a portable breath gas exchange analyzer. The measured values were then compared with Ainsworth's compendium. RESULTS: Thirty-five participants were included (mean [SD] age = 64.3 [14.3] yrs). The mean (SD) resting metabolic rate was 3.08 (0.79) ml O2 kg(-1) min(-1). The metabolic equivalent task values were significantly higher than the compendium values: metabolic equivalent task washing dishes = 2.57 (0.96) versus 1.80 for compendium; metabolic equivalent task walking = 4.16 (0.93) versus 2.00 for compendium; metabolic equivalent task climbing stairs = 5.90 (1.43) versus 4.00 for compendium; metabolic equivalent task walking down stairs = 3.29 (0.48) versus 3.50 for compendium. CONCLUSIONS: The metabolic equivalent tasks during activities were higher than Ainsworth's compendium. Stroke individuals are thus exposed to high oxygen requirements when performing activities of daily living, which could have a strong impact on their ability to perform these activities in real life.

Validity of the Actigraph GT3x and influence of the sensor positioning for the assessment of active energy expenditure during four activities of daily living in stroke subjects.

OBJECTIVE:: To explore the validity of the Actigraph and the influence of the placement of the sensor when estimating the active energy expenditure in four common daily activities (transfers, manual task, walking in overground and walking up and down stairs) in stroke survivors. DESIGN:: Cross-sectional study. SETTING:: Department of Physical Medicine and Rehabilitation. SUBJECTS:: A total of 46 subjects affected with stroke sequelae were wearing the Actigraph on three different locations-ankle, hip and wrist on the non-affected side-and performed four tasks: transfers, manual task, walking on flat ground and walking up and down stairs. MAIN MEASURES:: The values of active energy expenditure estimated by the Actigraph were compared to those measured by a portable breathing gas exchange analyzer Metamax3B. The accuracy and agreement between Actigraph and Metamax values were analyzed with mean bias, root mean square error, correlation coefficient and Bland-Altman plots for each task and each sensor location. RESULTS:: The mean bias between the Metamax and Actigraph placed on wrist, hip and ankle were, respectively, MD = 1.16 kcal (%MD = 3%), MD =-20.44 kcal (%MD =-58%) and MD = 17.64 kcal (%MD = 50%). The agreement with the Metamax was poor in general regardless of the sensor location and type of task ( r = 0.12-0.58). CONCLUSION:: This study found large differences and a poor agreement between the active energy expenditure as measured by the Actigraph and the Metamax according to the location of the sensor and the type of task performed by the subject.

Home-based physical activity incentive and education program in subacute phase of stroke recovery (Ticaa'dom): study protocol for a randomized controlled trial.

BACKGROUND: Stroke causes functional decline, psychological disorders and cognitive impairments that affect activities of daily living and quality of life. Although physical activity (PA) is beneficial in stroke recovery, PA recommendations are rarely met after hospital discharge. There is presently no standard strategy for monitoring and inciting PA at home during the subacute phase of stroke recovery. The main aim of this study is to evaluate the effects of a home-based physical activity incentive and education program (Ticaa'dom) on functional capacity in subacute stroke patients. METHODS: This study is a comparative prospective, observer-blinded, monocentric, parallel, randomized controlled clinical trial. This study will include 84 patients: 42 patients in the home-based physical activity incentive group (HB-PAI) and 42 in the control group (CG). The intervention group will follow the HB-PAI program over 6 months: their PA will be monitored with an accelerometer during the day at home while they record their subjective perception of PA on a chart; they will observe a weekly telephone call and a home visit every three weeks. The CG will receive traditional medical care over 12 months. The main study outcome will be the distance on a 6-minute walk test. Secondary outcomes will include measurements of lower limb strength, independence level, body composition, cardiac analysis, fatigue and depression state. DISCUSSION: The results of this trial will demonstrate the value of implementing the Ticaa'dom program during the subacute phase of stroke recovery. TRIAL REGISTRATION: ClinicalTrials.gov, NCT01822938 . Registered on 25 March 2013.

Rating of perceived exertion with Borg scale in stroke over two common activities of the daily living.

Background The Borg Scale for the rating of perceived exertion (RPE) is recommended to measure the intensity of physical exercise during stroke rehabilitation, but its reliability in activities of daily living is not explored. Objective To evaluate the correlation between the RPE using the Borg Scale (6-20) and the intensity of effort as measured by the Total Energy Expenditure per minute (TEE.min-1) in a post-stroke population for two tasks: walking at spontaneous comfortable speed and walking up and down stairs. Methods A cross-sectional study has been conducted. Any post-stroke subjects able to walk without being helped were recruited. Subjects were asked to walk at their spontaneous comfortable walking speed for 6 min and then to walk up and down stairs with a portable gas analyzer to measure the TEE.min-1. The RPE was evaluated by the Borg scale (6-20). The correlation between the RPE and the TEE.min-1 for each subject's walking task and stairs task was calculated with the Pearson coefficient. Results Twenty subjects were included. TEE.min-1 averaged at 5.6 (±1.2 kcal.min-1) for the walking task and 9.58 (±4.3 kcal.min-1) for the stairs task. The median RPE was 11 (min 6; max 15) for the walking task and 11 (min 6; max 16) for the stairs task. The correlation coefficient between the RPE and TEE.min-1 was r = 0.12 (p = 0.25). Conclusion Our work has not determined a correlation between the RPE and TEE.min-1 for two common activities of daily living in post-stroke subjects.