Does tele-exercise training for tetraplegia meet the spinal cord injury-specific physical activity guidelines? A 7-month longitudinal study.

INTRODUCTION: Tele-exercise, defined as an intervention that offers physical training provided remotely, represents an alternative for remote care during social isolation and the absence of in-person interventions, considering the difficulties of regular exercise engagement in tetraplegia. The current study aimed to examine whether tele-exercise training in individuals with tetraplegia meets the recommendations proposed by the spinal cord injury (SCI)-specific guidelines, and the adherence. METHODS: Twenty SCI tetraplegia performed tele-exercise training. The weekly training load of the tele-exercise training during the 27 weeks was compared to the estimated training load of SCI-specific guidelines: TW vigorous guideline: vigorous intensity of guideline proposed for Tweedy et al.; MG vigorous guideline: vigorous intensity of guideline proposed for Martin Ginis et al.; MG moderate guideline: moderate intensity of guideline proposed for Martin Ginis et al. Adherence was obtained weekly during 27 weeks. RESULTS: The tele-exercise training load was 22.0% higher than the MG moderate guideline and 21.6% and 47.7% lower than the MG vigorous and TW vigorous guidelines, respectively. The tele-exercise training loads for men and women were, respectively, 2.3% and 35.0% higher than the MG moderate guideline; 34.0% and 13.2% lower than the MG vigorous guideline; and 56.1% and 42.1% lower than the TW vigorous guideline. Adherence was 45.1%. CONCLUSION: The tele-exercise training in men and women with tetraplegia for 7 months met the moderate intensity of recommendation proposed by one SCI exercise guideline. The adherence was 45.1%, with higher values for men compared to women. This finding shows that tele-exercise training may be an alternative exercise training intervention for tetraplegia and prompts reflexion on the inclusion of tele-exercise training in SCI exercise guidelines.

Feasibility and validity of the push-up test for synchronous and asynchronous strength tele-assessment in spinal cord injury individuals with paraplegia.

OBJECTIVES: This study aimed to determine whether the synchronous and asynchronous push-up tele-assessment in individuals with spinal cord injury (SCI) is feasible and valid and to identify the relationship between the participants' self-reported asynchronous strength tele-assessment and asynchronous push-up tele-assessment. STUDY DESIGN: Cross-sectional study. METHODS: Thirty-three men and women with SCI were included in this study. The participants were assessed using the one-maximum repetition test (1RM), the maximum repetitions with 60% of 1RM (MRT) of the bench press exercise, and synchronous and asynchronous push-up tele-assessment. The videos and the total repetitions performed were recorded. The primary outcomes were 1RM, MRT, synchronous push-up tele-assessment and asynchronous volume loads, and the participants' self-reported asynchronous strength tele-assessment volume load. RESULTS: The synchronous push-up tele-assessment and asynchronous volume loads presented significant correlations with 1RM (0.73 and 0.45, p < 0.001, respectively) and MRT volume loads (0.87 and 0.66, p < 0.001, respectively). The asynchronous push-up tele-assessment presented significant correlations with the synchronous version (intraclass correlation coefficient, ICC = 0.86; 95% CI: 0.72-0.93, p < 0.001) and participants' self-reported asynchronous strength tele-assessment volume loads (ICC = 0.88; 95% CI: 0.75-0.94, p < 0.001). The difference between the synchronous push-up tele-assessment and asynchronous volume load means was 254.9 kg, and the interval around the differences was 1856.1 kg. The difference between asynchronous push-up tele-assessment and participants' self-reported asynchronous strength tele-assessment means was -239.4 kg, and the interval around these was 1884.1 kg. CONCLUSION: The synchronous push-up tele-assessment is a feasible and valid way to assess the maximum resistance strength of individuals with SCI. Although the asynchronous push-up tele-assessment demonstrated excellent and significant correlations with the synchronous push-up tele-assessment and participants' self-reported asynchronous strength tele-assessment, the test repetitions and the volume loads were underestimated by 15.5% (synchronous push-up tele-assessment vs. asynchronous) and overestimated by 17.3% (asynchronous push-up tele-assessment vs. participants' self-reported asynchronous strength tele-assessment), and the effect sizes ranged from 0.19-0.38. The authors suggest emphasizing the criteria of repetition validity to reduce test error.

Tracking and Classification of Head Movement for Augmentative and Alternative Communication Systems.

The use of assistive technologies can mitigate or reduce the challenges faced by individuals with motor disabilities to use computer systems. However, those who feature severe involuntary movements often have fewer options at hand. This work describes an application that can recognize the user's head using a conventional webcam, track its motion, model the desired functional movement, and recognize it to enable the use of a virtual keyboard. The proposed classifier features a flexible structure and may be personalized for different user need. Experimental results obtained with participants with no neurological disorders have shown that classifiers based on Hidden Markov Models provided similar or better performance than a classifier based on position threshold. However, motion segmentation and interpretation modules were sensitive to involuntary movements featured by participants with cerebral palsy that took part in the study.

Validation of the Repetitions in Reserve Rating Scale in Paralympic Powerlifting Athletes.

The present study aimed to validate the perceived exertion scale based on the repetitions in reserve (RIR) of Paralympic Powerlifting (PP) athletes. Twenty-one PP athletes were assessed in the one-maximum repetition test (1RM) of the bench press exercise, maximum repetition strength tests with loads corresponding to 90, 85, 80, and 75% of 1RM, and 4-repetitions strength tests (4-repST) with 100, 90, 85, 80, and 75% of the 1RM. The RIR scale was assessed after each set of the 4-repST and compared to the 1RM and maximum strength tests. For criterion validity, the total estimated repetition was significantly lower compared to the maximum strength test repetitions in the lower scores of the RIR scale (median=7.0 vs. 9.0 for 75% of 1RM). The total estimated repetition correlation with maximum strength was very high and significant (ICC=0.91). Using the Bland and Altman method, the difference between means was 0.9 reps, and the interval around differences was 6.4 reps. For construct validity, and the RIR scale presented high correlation with 1RM intensities (rho=0.86, p≤0.05). The RIR scale was validated and coaches and sports trainers can use this monitoring tool to ensure submaximal loads when improving lift technique, which is extremely rigorous in PP.

Peak Torque Prediction Using Handgrip and Strength Predictors in Men and Women With Motor Complete Spinal Cord Injury.

OBJECTIVES: To establish predictive equations for peak torque of muscle groups with totally and partially preserved innervation in individuals with motor complete spinal cord injury (SCI), based on hand dynamometry and strength predictor variables. METHODS: The cross-sectional study conducted at a rehabilitation hospital consecutively recruited 108 men and women with SCI. All participants performed maximum peak torque tests for shoulder abduction/adduction (isokinetic), trunk flexion/extension (isometric), and handgrip strength testing (hand dynamometer) to establish predictive peak torque equations. The primary outcomes were peak torque variables. Handgrip strength, age, injury level, time since injury, age at injury, body mass, height, body mass index, and physical activity level were the secondary outcomes used as strength predictor variables. RESULTS: Handgrip strength was a predictor variable for shoulder abduction/adduction peak torque. The best predictive models for shoulder abduction/adduction peak torque exhibited R 2 = 0.57 and R 2 = 0.60, respectively (p ≤ .05). Injury level showed the highest significant predictive capacity for trunk flexion/extension peak torque models (R 2 = 0.38 and R 2 = 0.29; p ≤ .05). CONCLUSION: Shoulder abduction/adduction peak torque predictive equations may be an alternative for use in an accessible strength tool (hand dynamometry) to evaluate training and rehabilitation programs. Trunk flexion/extension peak torque equations exhibited moderate correlations and high standard error of the estimates and should be used with caution.

Accuracy and cut-off points of different models of knee extension strength analysis to identify walking performance in individuals with chronic stroke.

BACKGROUND: Adequate muscle strength is essential for walking performance in individuals with stroke. OBJECTIVE: To investigate the accuracy of different forms of muscle knee extension strength analysis to identify high or low walking performance in individuals with chronic stroke. METHODS: Twenty-eight participants with a chronic stroke for more than six months participated. Independence for walking was judged by measurement of walking performance assessed for comfortable walking speed (CWS), maximum walking speed (MWS), and the Six Minute Walk Test (6MWT). Peak knee extension torque of the paretic side, non-paretic side, sum of the sides (SS), and difference in the sides (DS) was assessed during concentric movements using an isokinetic dynamometer. RESULTS: The equation with greatest predictive capacity for CWS and MWS included the DS as the main predictor (R2 of 0.65 and 0.71, respectively, p < 0.05). The variable with the greatest predictive capacity for 6MWT was time since injury (R2 of 0.68, p < 0.05). The highest percentile for CWS in the receiver operating characteristic curve of DS was 25 Nm/kg (cut-off: -12.75 for CWS of 0.498 m/s). The 75th percentile of the 6MWT (324.3 m) was used as the cut-off for the SS (2.1 Nm/kg). The area under the curve for CWS was 0.76 (p < 0.05) on the DS and 0.75 (p < 0.05) for 6MWT on the SS. CONCLUSION: The models of muscle knee extension strength analysis using the SS and DS presented moderate accuracy to identify walking performance in individuals with chronic stroke.

Inhibitory Control of Adjacent Finger Movements while Performing a Modified Version of the Halstead Finger Tapping Test: Effects of Age, Education and Sex.

OBJECTIVE: Selective motor inhibition is known to decline with age. The purpose of this study was to determine the frequency of failures at inhibitory control of adjacent finger movements while performing a repetitive finger tapping task in young, middle-aged and older adults. Potential education and sex effects were also evaluated. METHODS: Kinematic recordings of adjacent finger movements were obtained on 107 healthy adults (ages 20-80) while they performed a modified version of the Halstead Finger Tapping Test (HTFF). Study participants were instructed to inhibit all finger movements while tapping with the index finger. RESULTS: Inability to inhibit adjacent finger movements while performing the task was infrequent in young adults (2.9% of individuals between 20 and 39 years of age) but increased with age (23.3% between the ages of 40 and 59; 31.0% between ages 60 and 80). Females and males did not differ in their inability to inhibit adjacent finger movements, but individuals with a college education showed a lower frequency of failure to inhibit adjacent finger movements (10.3%) compared to those with a high school education (28.6%). These findings were statistically significant only for the dominant hand. CONCLUSION: Selective motor inhibition failures are most common in the dominant hand and occur primarily in older healthy adults while performing the modified version of the HFTT. Monitoring selective motor inhibition failures may have diagnostic significance.

Does prolonged walking cause greater muscle fatigability in individuals with incomplete spinal cord injury compared with matched-controls?

BACKGROUND: Individuals with incomplete spinal cord injury (iSCI) might show muscle fatigability during walking, primarily over long distances. The cause can be related to the motor impairment and walking compensations identified in this population. However, evidence on the occurrence of muscle fatigability after prolonged walking in individuals with iSCI is conflicting. RESEARCH QUESTION: Does prolonged walking cause higher muscle fatigability in individuals with iSCI compared with matched-controls? METHODS: We adopted a repeated measures design, in which maximal voluntary isometric contractions were performed before and after a walking test to induce the fatigability, in 24 individuals with iSCI and 24 matched-controls. Body weight-normalized peak torque (PT/BW), rate of force development (RFD), root mean square (RMS) and neuromuscular efficiency were used to assess the muscle fatigability. A mixed model ANOVA (2 × 2) was used for between-group and within-group comparisons. The significance was set in 5%. RESULTS: Individuals with iSCI showed a greater decline in the PT/BW and RMS after the walking test. However, the RFD presented a greater decrease in the control group. SIGNIFICANCE: Our results showed that prolonged walking caused higher muscle fatigability in individuals with iSCI compared to healthy individuals. Therefore, muscle fatigability should be considered during the rehabilitation planning and in activities of daily living of individuals with iSCI. Moreover, the identification of muscle fatigability in individuals with iSCI might be useful to prevent high levels of physical exertion and, possibly, the risk of fall.

Kinematic recordings while performing a modified version of the Halstead Finger Tapping Test: Age, sex, and education effects.

Introduction: This study attempts to demonstrate that kinematic recordings of finger movements help explain the well-known effects of age, education, and sex on the Halstead Finger Tapping Test (HFTT). Method: High-speed kinematic recordings were obtained on 107 healthy adults (ages 21 to 80 years) while they performed a modified version of the Halstead Finger Tapping Test (HFTT). The number of "valid" taps and "invalid" taps (i.e., lever movements that did not produce an increase in the mechanical number count), tapping speed variability, "learning" and "fatigue" effects was obtained. Results: Previous age, education, and sex effects were replicated. Males had faster start and stop times when finger tapping and these measures correlated with the number of valid taps per 10 s. Educational level correlated with start times, not stop times. Age correlated only with the number of valid taps. Variability of tapping movements correlated with the number of invalid taps, but not valid taps. Females had more invalid taps than males. Fatigue and learning effects were independent of the person's age, education, and sex. Conclusion: Kinematic recordings of finger tapping help explain the well-known age, education, and sex effects on finger tapping speeds. A modified method of administrating the HFTT is also introduced to assess fatigue and learning effects while performing this task.

Influence of Relative Strength on Functional Independence of Patients With Spinal Cord Injury.

OBJECTIVE: To investigate the influence of strength values and fat mass on functional independence of men with different spinal cord injury (SCI) levels. DESIGN: Cross-sectional study. SETTING: Hospital network. PARTICIPANTS: Men with SCI (N=45). INTERVENTIONS: Subjects were assessed in functional independence scales, a 1 repetition maximum (1RM) test, and body composition to detect absolute and relative strength: 1RM divided by body mass (BM) and lean body mass (LBM), respectively. MAIN OUTCOME MEASURES: Stepwise multiple regression analysis was used to verify the influence of predictors on functional independence (FIM and Spinal Cord Independence Measure [SCIM] scale and subscales). Receiver operating characteristic curves were created to identify cutoff points of strength for functional independence. RESULTS: The best models for FIM total, FIM mobility, and SCIM total used 1RM as the best predictor (adjusted R2=.75, .67, and .65, respectively; P<.05). Relative strength (1RM/LBM) was the best predictor for SCIM mobility (adjusted R2=.62, P<.05). A FIM score of 69 has a 1RM cutoff point of 50.1kg, and a FIM score of 76 has cutoff points of .73 for 1RM/BM and .91 for 1RM/LBM. A SCIM score of 68 has cutoff points for 1RM, 1RM/BM, and 1RM/LBM of 50.1kg, .77, and .92, respectively. CONCLUSIONS: Cutoff points of relative strength should be used as determinant variables for independence, health, or sports performance. This study may contribute to more adequate guidance of physical activity during a rehabilitation program and after discharge.