Janaine Cunha Polese

Treadmill training is effective for ambulatory adults with stroke: a systematic review

QUESTION Does mechanically assisted walking increase walking speed or distance in ambulatory people with stroke compared with no intervention/non-walking intervention, or with overground walking? DESIGN Systematic review with meta-analysis of randomised trials. PARTICIPANTS Ambulatory adults with stroke. INTERVENTION Mechanically assisted walking (treadmill or gait trainer) without body weight support. OUTCOME MEASURES Walking speed measured in m/s during the 10-m Walk Test and walking distance measured in m during the 6-min Walk Test. RESULTS Nine studies of treadmill training comprising 977 participants were included. Treadmill training resulted in faster walking than no intervention/non-walking intervention immediately after the intervention period (MD 0.14m/s, 95% CI 0.09 to 0.19) and this was maintained beyond the intervention period (MD -0.12m/s, 95% CI 0.08 to 0.17). It also resulted in greater walking distance immediately after the intervention period (MD 40m, 95% CI 27 to 53) and this was also maintained beyond the intervention period (MD 40m, 95% CI 24 to 55). There was no immediate, statistically significant difference between treadmill training and overground training in terms of walking speed (MD 0.05m/s, 95% CI 0.12 to 0.21) or distance (MD -6m, 95% CI -45 to 33). CONCLUSION This systematic review provides evidence that, for people with stroke who can walk, treadmill training without body weight support results in faster walking speed and greater distance than no intervention/ non-walking intervention and the benefit is maintained beyond the training period.

The effects of walking sticks on gait kinematics and kinetics with chronic stroke survivors

BACKGROUND There are robust clinical paradigms against the prescription of walking sticks for people with stroke. However, there is little information on the biomechanics of gait with and without these devices to guide clinical practice. Therefore, this study investigated how the use of walking sticks (canes or crutches) affected both the kinematics and kinetics of gait in people with chronic stroke after their walking had stabilized. METHODS Nineteen people with chronic stroke walked at both comfortable and fast speeds. A 3-D motion analysis system and one force platform were used to obtain kinematic and kinetic data of the paretic lower limb during four conditions: With and without walking sticks, and at comfortable and fast speeds. Outcomes included linear kinematics (walking speeds) and angular kinematics (maximum joint angles), power, and work of the paretic hip, knee and ankle joints in the saggital plane. FINDINGS The use of walking sticks resulted in increases in speed during both fast (P<0.001) and comfortable (P=0.001) walking, but did not result in changes in maximum joint angles. This also led to increases in ankle plantar flexion (P<0.01), knee extension (P<0.01), and hip flexion (P<0.001) power generation, but did not result in changes in work. There were no greater changes as a result of using walking sticks during fast versus comfortable walking for any outcome. INTERPRETATIN: The outcomes with the use of walking sticks were beneficial, which suggests that the prescription of these devices is not detrimental to walking that was stabilized in people with stroke.

Cyclical electrical stimulation increases strength and improves activity after stroke: a systematic review

QUESTION Does electrical stimulation increase strength after stroke and are any benefits maintained beyond the intervention period or carried over to activity? DESIGN Systematic review with meta-analysis of randomised or controlled trials. PARTICIPANTS Adults who have had a stroke. INTERVENTION Cyclical electrical stimulation applied in order to increase muscle strength. OUTCOME MEASURES Strength measures had to be representative of maximum voluntary contraction and were obtained as continuous measures of force or torque, or ordinal measures such as manual muscle tests. Activity was measured using direct measures of performance that produced continuous or ordinal data, or with scales that produced ordinal data. RESULTS Sixteen trials representing 17 relevant comparisons were included in this systematic review. Effect sizes were calculated as standardised mean differences because various muscles were studied and different outcome measures were used. Overall, electrical stimulation increased strength by a standardised mean difference (SMD) of 0.47 (95% CI 0.26 to 0.68) and this effect was maintained beyond the intervention period (SMD 0.33, 95% CI 0.07 to 0.60). Electrical stimulation also improved activity (SMD 0.30, 95% CI 0.05 to 0.56) and this effect was also maintained beyond the intervention period (SMD 0.38, 95% CI 0.09 to 0.66). CONCLUSION Cyclical electrical stimulation increases strength and improves activity after stroke. These benefits were maintained beyond the intervention period with a small-to-moderate effect size. The sustained effect on activity suggests that the benefits were incorporated into daily life. Review registration: PROSPERO (CRD42013003895).

Strength of the respiratory and lower limb muscles and functional capacity in chronic stroke survivors with different physical activity levels

BACKGROUND The assessment of strength and its relationships with functional capacity could contribute to more specific and effective disability management of stroke survivors. OBJECTIVE To compare and investigate associations between measures of strength and functional capacity of 98 chronic stroke survivors, stratified into three groups, according to their physical activity levels. METHOD The physical activity levels were classified as impaired, moderately active, and active, based on their Human Activity Profile (HAP) scores. Strength was assessed by the maximal inspiratory (MIP) and expiratory (MEP) pressures and by the residual deficits (RDs) of work of the lower limb and trunk muscles, whereas functional capacity was evaluated by the distance covered during the six-minute walking test (6MWT). RESULTS One-way analyses of variance revealed significant differences between the groups, except between the active and moderately active groups regarding the RDS of the hip and knee flexors/extensors and ankle dorsiflexors (2.91<F<8.62; 0.001<p<0.01). Differences between the groups were found for the 6MWT (F=10.75; p<0.001), but no differences were found for the MIP and MEP measures (0.92<F<2.13; 0.13<p<0.40). Significant, negative, and fair correlations were observed between the RDS of the hip and knee muscles and the 6MWT (0.30<r<-0.43; p<0.01) and the HAP (-0.28<r<-0.41; p<0.01). Moderate to good correlations were found between the 6MWT and the HAP (r=0.50; p<0.0001). There were no significant correlations between measures of respiratory strength and any of the investigated variables (-0.11<r<0.12; 0.26<p<0.56). CONCLUSIONS Lower strength deficits and higher functional capacity were associated with higher physical activity levels. However, the moderately active and active groups demonstrated similar strength deficits.

Isometric hand grip strength correlated with isokinetic data of the shoulder stabilizers in individuals with chronic stroke

The purpose of this study was to examine the relationships between isometric hand grip (HG) strength and isokinetic strength data of the glenoumeral and scapulothoracic muscles in 12 individuals with chronic hemiparesis due to stroke. Measures of maximal grip strength were obtained on the HG dynamometer Jamar(®). Isokinetic measures of peak torque and work during shoulder rotations and scapular protraction-retraction movements were obtained with the isokinetic dynamometer at a speed of 60°/s. Pearson correlation coefficients between isometric HG and isokinetic strength data ranged between 0.60 and 0.82 for the peak torque and between 0.59 and 0.86 for the isokinetic work. The findings suggested that, in absence of isokinetic dynamometers, isometric HG strength measurements could be clinically used to monitor strength levels of the shoulder stabilizers and to guide load progressions during strengthening interventions for people with chronic hemiparesis.

Respiratory muscle training increases respiratory muscle strength and reduces respiratory complications after stroke: a systematic review.

QUESTION After stroke, does respiratory muscle training increase respiratory muscle strength and/or endurance? Are any benefits carried over to activity and/or participation? Does it reduce respiratory complications? DESIGN Systematic review of randomised or quasi-randomised trials. PARTICIPANTS Adults with respiratory muscle weakness following stroke. INTERVENTION Respiratory muscle training aimed at increasing inspiratory and/or expiratory muscle strength. OUTCOME MEASURES Five outcomes were of interest: respiratory muscle strength, respiratory muscle endurance, activity, participation and respiratory complications. RESULTS Five trials involving 263 participants were included. The mean PEDro score was 6.4 (range 3 to 8), showing moderate methodological quality. Random-effects meta-analyses showed that respiratory muscle training increased maximal inspiratory pressure by 7 cmH2O (95% CI 1 to 14) and maximal expiratory pressure by 13 cmH2O (95% CI 1 to 25); it also decreased the risk of respiratory complications (RR 0.38, 95% CI 0.15 to 0.96) compared with no/sham respiratory intervention. Whether these effects carry over to activity and participation remains uncertain. CONCLUSION This systematic review provided evidence that respiratory muscle training is effective after stroke. Meta-analyses based on five trials indicated that 30minutes of respiratory muscle training, five times per week, for 5 weeks can be expected to increase respiratory muscle strength in very weak individuals after stroke. In addition, respiratory muscle training is expected to reduce the risk of respiratory complications after stroke. Further studies are warranted to investigate whether the benefits are carried over to activity and participation. REGISTRATION PROSPERO (CRD42015020683). [Menezes KKP, Nascimento LR, Ada L, Polese JC, Avelino PR, Teixeira-Salmela LF (2016) Respiratory muscle training increases respiratory muscle strength and reduces respiratory complications after stroke: a systematic review.Journal of Physiotherapy62: 138-144].

Predictors of energy cost during stair ascent and descent in individuals with chronic stroke.

[Purpose] This study aimed to determine which clinical measures of walking performance and lower limb muscle strength would predict energy cost during stair ascent and descent in community-dwelling individuals with stroke. [Subjects and Methods] Regression analysis of cross-sectional data from 55 individuals between one and five years post-stroke was used to investigate the measures of walking (speed and distance covered during the 6-minute walk test [6MWT]), and strength of the paretic knee extensor and ankle plantar flexor muscles would predict energy cost during stair ascent and descent. [Results] Three predictors (habitual walking speed, distance covered during the 6MWT, and strength of the paretic knee extensor muscles) were kept in the model. Habitual walking speed alone explained 47% of the variance in energy cost during stair ascent and descent. When the strength of the paretic knee extensor muscles was included in the model, the explained variance increased to 53%. By adding the distance covered during the 6MWT, the variance increased to 58%. [Conclusion] Habitual walking speed, distance covered during the 6MWT, and strength of the paretic knee extensor muscles were significant predictors of energy cost during stair ascent and descent in individuals with mild walking limitations.

Strength deficits of the shoulder complex during isokinetic testing in people with chronic stroke

OBJECTIVES: To examine the strength deficits of the shoulder complex after stroke and to characterize the pattern of weakness according to type of movement and type of isokinetic parameter. METHOD: Twelve chronic stroke survivors and 12 age-matched healthy controls had their shoulder strength measured using a Biodex isokinetic dynamometer. Concentric measures of peak torque and work during shoulder movements were obtained in random order at speeds of 60°/s for both groups and sides. Type of movement was defined as scapulothoracic (protraction and retraction), glenohumeral (shoulder internal and external rotation) or combined (shoulder flexion and extension). Type of isokinetic parameter was defined as maximum (peak torque) or sustained (work). Strength deficits were calculated using the control group as reference. RESULTS: The average strength deficit for the paretic upper limb was 52% for peak torque and 56% for work. Decreases observed in the non-paretic shoulder were 21% and 22%, respectively. Strength deficit of the scapulothoracic muscles was similar to the glenohumeral muscles, with a mean difference of 6% (95% CI -5 to 17). Ability to sustain torque throughout a given range of motion was decreased as much as the peak torque, with a mean difference of 4% (95% CI -2 to 10). CONCLUSIONS: The findings suggest that people after stroke might benefit from strengthening exercises directed at the paretic scapulothoracic muscles in addition to exercises of arm elevation. Clinicians should also prescribe different exercises to improve the ability to generate force and the ability to sustain the torque during a specific range of motion.

Cardiorespiratory Stress is not Achieved During Routine Physiotherapy in Chronic Stroke

Background: Cardiorespiratory deconditioning is a well-established sequel of stroke and this may interfere with integration into community. In the chronic phase, when motor recovery has plateaued, rehabilitation should include cardiorespiratory training. Objective: To determine whether physiotherapy rehabilitation in the chronic phase of stroke provides enough stress in terms of duration (>10 min) and intensity (>40% of heart rate reserve - HRR) to induce cardiorespiratory benefits. Methods: Two physiotherapy sessions, at least one week apart, of 20 chronic stroke patients (mean time since the onset of the stroke of 26 months, mean age of 58 years, 45% male) were observed, in terms of duration (time) and intensity (40 %HRR). The activities were categorized as upper limb tasks, standing, stepping, basic walking, and advanced walking. Average duration and intensity for each participant across the two sessions were determined. Results: Lower limb activities, such as standing and walking were undertaken for 25 (SD 5) minutes; comprising 57% of the total session. The remainder of the session was taken up with upper limb activities (27%) or inactivity (16%). None of the activities reached the target intensity, with the highest average intensity being achieved during advanced walking (mean 32% HRR, SD 2). Conclusions: Routine physiotherapy did not provide sufficient duration or intensity to induce cardiorespiratory stress in this group of chronic stroke patients. The evidence practice gap needs to be closed for cardiorespiratory fitness to be trained.

Strength deficits of the paretic lower extremity muscles were the impairment variables that best explained restrictions in participation after stroke.

Abstract Purpose: To evaluate which measures of physical impairments of both upper extremity (UE) and lower extremity (LE) would predict restrictions in participation with 105 community-dwelling stroke subjects. Methods: For this cross-sectional, exploratory study, participation was assessed by the daily activity and social role domains of the Assessment of Life Habits (LIFE-H). The potential predictors included measures of physical impairments (UE and LE motor recovery, sensation, motor coordination, and strength deficits). Results: Step-wise multiple linear regression analyses revealed that, for the daily activity domain, LE strength deficits and UE motor recovery explained 28% of the variance in the LIFE-H scores and LE strength deficits alone explained 22% (F = 29.5; p< .0001). For the social role domain, LE strength deficits and sensation explained 22% of the variance in the LIFE-H scores and LE strength deficits alone explained 16% (F = 20.6; p< .0001). Conclusions: Strength deficits of the LE muscles were the physical impairment variables that best predicted participation in both daily activity and social role domains of the LIFE-H. Although significant, UE motor recovery and LE sensation added little to the explained variance. Future research is needed to determine whether progressive resistance strength training program enhances participation after stroke. Implications for Rehabilitation Residual strength deficits of the LE muscles were the physical impairments that showed to be the main predictors of restrictions in participation, as determined by the daily activity and social role domains of the LIFE-H 3.1. It is possible that stroke individuals would benefit from physical interventions aiming at improving the strength of the LE muscles, when the goal is to enhance participation.