Intra and Inter-Device Reliabilities of the Instrumented Timed-Up and Go Test Using Smartphones in Young Adult Population.

The Timed-Up and Go (TUG) test is widely utilized by healthcare professionals for assessing fall risk and mobility due to its practicality. Currently, test results are based solely on execution time, but integrating technological devices into the test can provide additional information to enhance result accuracy. This study aimed to assess the reliability of smartphone-based instrumented TUG (iTUG) parameters. We conducted evaluations of intra- and inter-device reliabilities, hypothesizing that iTUG parameters would be replicable across all experiments. A total of 30 individuals participated in Experiment A to assess intra-device reliability, while Experiment B involved 15 individuals to evaluate inter-device reliability. The smartphone was securely attached to participants' bodies at the lumbar spine level between the L3 and L5 vertebrae. In Experiment A, subjects performed the TUG test three times using the same device, with a 5 min interval between each trial. Experiment B required participants to perform three trials using different devices, with the same time interval between trials. Comparing stopwatch and smartphone measurements in Experiment A, no significant differences in test duration were found between the two devices. A perfect correlation and Bland-Altman analysis indicated good agreement between devices. Intra-device reliability analysis in Experiment A revealed significant reliability in nine out of eleven variables, with four variables showing excellent reliability and five showing moderate to high reliability. In Experiment B, inter-device reliability was observed among different smartphone devices, with nine out of eleven variables demonstrating significant reliability. Notable differences were found in angular velocity peak at the first and second turns between specific devices, emphasizing the importance of considering device variations in inertial measurements. Hence, smartphone inertial sensors present a valid, applicable, and feasible alternative for TUG assessment.

Smartphone-based evaluation of static balance and mobility in long-lasting COVID-19 patients.

Background: SARS-CoV-2 infection can lead to a variety of persistent sequelae, collectively known as long COVID-19. Deficits in postural balance have been reported in patients several months after COVID-19 infection. The purpose of this study was to evaluate the static balance and balance of individuals with long COVID-19 using inertial sensors in smartphones. Methods: A total of 73 participants were included in this study, of which 41 had long COVID-19 and 32 served as controls. All participants in the long COVID-19 group reported physical complaints for at least 7 months after SARS-CoV-2 infection. Participants were evaluated using a built-in inertial sensor of a smartphone attached to the low back, which recorded inertial signals during a static balance and mobility task (timed up and go test). The parameters of static balance and mobility obtained from both groups were compared. Results: The groups were matched for age and BMI. Of the 41 participants in the long COVID-19 group, 22 reported balance impairment and 33 had impaired balance in the Sharpened Romberg test. Static balance assessment revealed that the long COVID-19 group had greater postural instability with both eyes open and closed than the control group. In the TUG test, the long COVID-19 group showed greater acceleration during the sit-to-stand transition compared to the control group. Conclusion: The smartphone was feasible to identify losses in the balance motor control and mobility of patients with long-lasting symptomatic COVID-19 even after several months or years. Attention to the balance impairment experienced by these patients could help prevent falls and improve their quality of life, and the use of the smartphone can expand this monitoring for a broader population.

The role of sex and handedness in the performance of the smartphone-based Finger-Tapping Test.

The Finger Tapping Test (FTT) is a classical neuropsychological test that assesses motor functioning, and recently it has been employed using smartphones. For classical protocols, it has been observed that sex and handedness influence the performance during the test. By assessing the influence of sex and handedness on the test, it is possible to adjust the performance measurements to ensure the validity of test results and avoid sex- and handedness-related bias. The present study aimed to evaluate the influence of sex and handedness on smartphone-based FTT performance. We developed an Android application for the FTT and recruited 40 males and 40 females to carry out three spatial designs on it (protocols I, II, and III). Participants' performance was measured using the global, temporal, and spatial parameters of the FTT. We observed that for the performance in protocol I, handedness had a significant influence on global and temporal variables, while the interaction between handedness and sex had a greater influence on spatial variables. For protocols II and III, we observed that handedness had a significant influence on global, temporal, and spatial variables compared to the other factors. We concluded that the smartphone-based test is partly influenced by handedness and sex, and in clinical implications, these factors should be considered during the evaluation of the smartphone-based FTT.

Bioelectrical impedance vector analysis and body composition in cervical spinal cord injury: A pilot study.

Introduction: Body composition assessment in cervical spinal cord injury (c-SCI) individuals is important to monitor the fat free-mass (FFM) loss, due to immobilization, or gain, due to exercise practice. Single frequency bioelectrical impedance analysis (SF-BIA) is low in cost, simple and easy. Objectives: The aims of this study are: to evaluate the concordance between the FFM values obtained using dual X-ray absorptiometry (DXA) and the three SF-BIA previous predictive equations; and to test the applicability of the bioelectrical impedance vector analysis (BIVA). Methods: Twenty-three c-SCI males were divided into two groups: Physically active (PA; n = 13; at least 150 min/week) and non-active individuals (NPA) and were assessed by DXA and SF-BIA simultaneously. Results: FFM values were similar between groups PA and NPA. Considering all participants, FFM values obtained by Kocina and Heyward (>11%) and Sun (<15.4%) predictive equations were different when compared to DXA (p < 0.01). However, Buchholz's et al. predictive equation showed FFM values similar to DXA, but presented poor concordance (<7%, p = 0.99; concordance coefficient = 0.85). BIVA showed consistency in ellipse distribution using FFM obtained using Buchholz et al. predictive equation. Conclusions: The use of non-specific BIA equations can lead to misinterpretation in FFM values in male c-SCI individuals. Predictive equations for this group need to be developed.

Validity and reliability of a smartphone-based assessment for anticipatory and compensatory postural adjustments during predictable perturbations.

BACKGROUND: Postural adjustments involve displacements of the center of mass (COM), controlled by the central nervous system (CNS), to maintain equilibrium whilst standing. Postural adjustments can be anticipatory (APAs) or compensatory (CPAs), and are triggered to counteract predictable perturbations. RESEARCH QUESTION: Is the new smartphone application, Momentum, a valid and reliable tool for the assessment of body balance, by measuring APAs and CPAs using accelerometer readings? METHODS: 20 young adults were exposed to external predictable perturbations induced at the shoulder level, whilst standing. COM linear acceleration was recorded by Momentum (extracting data from a smartphone's accelerometer) and a 3D motion capture system. RESULTS: The key results demonstrated a very high, significant correlation (r ≥ 0.7, p < 0.05) between the two device settings in the APA parameters, which obtained r = 0.65, denoting a high correlation. Considering the reliability, variables that are compensatory in nature are presented on a scale of good to excellent in measurement methods, kinematics, and Momentum. However, the anticipatory variables presented excellent reliability only for the kinematics. SIGNIFICANCE: These experiments show that Momentum is a valid method for measuring COM acceleration under predictable perturbations and is reliable for compensatory events.

Hand Resting Tremor Assessment of Healthy and Patients With Parkinson's Disease: An Exploratory Machine Learning Study.

The aim of this study is comparing the accuracies of machine learning algorithms to classify data concerning healthy subjects and patients with Parkinson's Disease (PD), toward different time window lengths and a number of features. Thirty-two healthy subjects and eighteen patients with PD took part on this study. The study obtained inertial recordings by using an accelerometer and a gyroscope assessing both hands of the subjects during hand resting state. We extracted time and temporal frequency domain features to feed seven machine learning algorithms: k-nearest-neighbors (kNN); logistic regression; support vector classifier (SVC); linear discriminant analysis; random forest; decision tree; and gaussian Naïve Bayes. The accuracy of the classifiers was compared using different numbers of extracted features (i.e., 272, 190, 136, 82, and 27) from different time window lengths (i.e., 1, 5, 10, and 15 s). The inertial recordings were characterized by oscillatory waveforms that, especially in patients with PD, peaked in a frequency range between 3 and 8 Hz. Outcomes showed that the most important features were the mean frequency, linear prediction coefficients, power ratio, power density skew, and kurtosis. We observed that accuracies calculated in the testing phase were higher than in the training phase. Comparing the testing accuracies, we found significant interactions among time window length and the type of classifier (p < 0.05). The study found significant effects on estimated accuracies, according to their type of algorithm, time window length, and their interaction. kNN presented the highest accuracy, while SVC showed the worst results. kNN feeding by features extracted from 1 and 5 s were the combination with more frequently highest accuracies. Classification using few features led to similar decision of the algorithms. Moreover, performance increased significantly according to the number of features used, reaching a plateau around 136. Finally, the results of this study suggested that kNN was the best algorithm to classify hand resting tremor in patients with PD.

Comparison of Post-Exercise Hypotension Responses in Paralympic Powerlifting Athletes after Completing Two Bench Press Training Intensities.

Background and objective: Post-exercise hypotension, the reduction of blood pressure after a bout of exercise, is of great clinical relevance. Resistance exercise training is considered an important contribution to exercise training programs for hypertensive individuals and athletes. In this context, post-exercise hypotension could be clinically relevant because it would maintain blood pressure of hypertensive individuals transiently at lower levels during day-time intervals, when blood pressure is typically at its highest levels. The aim of this study was to compare the post-exercise cardiovascular effects on Paralympic powerlifting athletes of two typical high-intensity resistance-training sessions, using either five sets of five bench press repetitions at 90% 1 repetition maximum (1RM) or five sets of three bench press repetitions at 95% 1RM. Materials and Methods: Ten national-level Paralympic weightlifting athletes (age: 26.1 ± 6.9 years; body mass: 76.8 ± 17.4 kg) completed the two resistance-training sessions, one week apart, in a random order. Results: Compared with baseline values, a reduction of 5-9% in systolic blood pressure was observed after 90% and 95% of 1RM at 20-50 min post-exercise. Furthermore, myocardial oxygen volume and double product were only significantly increased immediately after and 5 min post-exercise, while the heart rate was significantly elevated after the resistance training but decreased to baseline level by 50 min after training for both training conditions. Conclusions: A hypotensive response can be expected in elite Paralympic powerlifting athletes after typical high-intensity type resistance-training sessions.

O "rugby" em cadeira de rodas no âmbito da universidade: relato de experiência da Universidade Estadual de Campinas / Wheelchair rugby at university: an experience report of State University of Campinas

O "Rugby" em Cadeira de Rodas (RCR) é uma modalidade paralímpica praticada por pessoas com deficiência física e a participação das universidades é importante para seu crescimento. Este estudo descreveu o desenvolvimento do RCR na extensão universitária, através do estudo de caso no projeto de extensão da Faculdade de Educação Física da UNICAMP. O RCR relaciona-se com o ensino, pesquisa e extensão; através do contato com a modalidade nas disciplinas; realização de estudos; oportunidade de prática e contato com a comunidade. A extensão universitária é um espaço importante para a vivência prática de alunos de Educação Física e contato com a comunidade. Através da aproximação da ciência com a prática, o RCR é trabalhado de forma consistente, alcançando bons resultados esportivos

The wheelchair rugby (WR) is a paralympic Sport played by people with physical disabilities and its growth is related to university participation. This study described the WR development at university, through a case study at Physical Education College of Unicamp. The WR is related to learning, researching and extension; due the contact with the sport, conducting research; practical experience and approach to community. The university extension is a important opportunity to practical experience and approach to community of Physical Education students. Due the approaching to science, the work with WR is consistent, reaching good sports results

Validação da bateria "Beck" de testes de habilidades para atletas brasileiros de "rugby" em cadeira de rodas / Validation of beck battery of skills tests to Brazilian players of wheelchair rugby

O "Rugby" em Cadeira de Rodas é uma modalidade praticada por sujeitos com tetraplegia ou tetra-equivalência, desde 2005 no Brasil, onde existem aproximadamente 10 equipes em atividade. A avaliação motora é um dos meios de controle do treinamento que possibilita conquistar avanços no planejamento. A bateria "Beck" de testes de habilidades (manejo de bola, precisão de passes, bloqueio, velocidade e passes de longa distância) para atletas da modalidade foi desenvolvida nos EUA por Yilla e Sherrill (1998). O objetivo deste estudo foi analisar os critérios de autenticidade científica da bateria para a população de atletas brasileiros. Os resultados de duas avaliações com a bateria (teste e re-teste) realizadas com 11 atletas (média de idade 27,59 ± 5,37 anos, tempo de lesão 8,19 ± 3,83 anos), foram registrados por três avaliadores, o que possibilitou a análise de objetividade, fidedignidade e consistência interna. Foram utilizadas as ferramentas ANOVA para análise de objetividade e, coeficiente de correlação intraclasse e teste t para análise de fidedignidade e consistência. Não foram encontradas diferenças entre os resultados dos diferentes avaliadores (valores de p variando de 0,45 a 1,00) e os valores de correlação intraclasse encontrados (variação de r de 0,78 a 0,99) permitem concluir que a bateria é consistente e fidedigna. Os resultados encontrados neste estudo são evidências de que os critérios de autenticidade científica para a bateria são satisfeitos e a bateria pode ser considerada um instrumento válido para avaliação motora de atletas brasileiros de "rugby" em cadeira de rodas.

The Wheelchair Rugby is a sport practiced by subjects with tetraplegia or tetra-equivalence, since 2005 in Brazil, where there are approximately 10 teams in business. The motricity evaluation is a means of training control that allows achieve real progress in planning. The BECK battery of skills tests (ball handling, precision passing, blocking, speed and long distance passing) to wheelchair rugby athletes was developed in the U.S.A. by Yilla & Sherrill (1998).The aim of this study was to examine the criteria of scientific authenticity of the battery to the Brazilian athletes population. The results of two assessments with the battery (test and retest) with 11 athletes (mean age 27.59 ± 5.37 years, length of lesion 8.19 ± 3.83 years), were recorded by three assessors , which allowed the analysis of objectivity, reliability and internal consistency. We used ANOVA for analysis of objectivity and linear correlation and t test for analysis of reliability and consistency. No differences were found between results from different raters (p values ranging from 0.45 to 1.00) and the values of intraclass correlation coefficient found (range r 0.78 to 0.99 p < 0.00) indicate that the battery is consistent and reliable. The results of this study indicate that the criteria of scientific authenticity to the battery are satisfied and battery can be considered a valid tool for motricity evaluation of wheelchair rugby brazilian players.