Functional assessment of respiratory muscles and lung capacity of CrossFit athletes.

CrossFit is a high-intensity training related to physical fitness and respiratory capacity that can promote changes in lung function. This cross-sectional study was aimed at evaluating respiratory muscle strength, electromyographic (EMG) activity, and lung capacity in CrossFit athletes. Thirty subjects aged between 25 and 35 years were divided into groups: CrossFit athletes (n=15) and sedentary individuals without comorbidities (n=15). Respiratory muscle strength was evaluated using maximal inspiratory and expiratory pressures, lung capacity, and EMG of the sternocleidomastoid, serratus anterior, external intercostal, and diaphragm muscles at respiratory rest, maximal inspiration and expiration, and respiratory cycle. Data were tabulated and subjected to statistical analyses (t-test and Spearman test, P<0.05). Respiratory muscle strength on EMG of the sternocleidomastoid, serratus, external intercostal, and diaphragm muscles at the respiratory cycle and maximal forced inspiration and expiration were higher in the CrossFit athletes group than in the sedentary group without comorbidities. CrossFit athlete group showed significantly strong positive correlation between maximal inspiratory and expiratory muscle strengths (Spearman rho= 0.903, P=0.000), with increasing muscle strength during inspiration favoring an increase in strength during expiration. The forced vital capacity (FVC) and forced expiratory volume in 1 sec (FEV1) also showed a significantly high positive correlation (Spearman rho=0.912, P=0.000) in the CrossFit athletes group, showing that higher FVC favors higher FEV1. The results of this study suggest that improved fitness is based on increased respiratory muscle strength on EMG in CrossFit athletes.

Análise dos efeitos da marcha suspensa na atividade eletromiográfica dos membros inferiores e irradiação motora aos membros superiores em lesados medulares / Analysis of the effects of body weight-supported gait training on the electromyographic activity of the lower limbs and motor irradiation to the upper limbs in spinal cord injured patients

A reabilitação na esteira com suporte parcial de peso (ESPP) nos indivíduos lesados medulares pode reproduzir de modo passivo a marcha, proporcionando-lhes a descarga de peso em membros inferiores (MMII) e a manutenção da postura ortostática. O objetivo do estudo foi analisar se, durante a marcha passiva na ESPP, existe irradiação motora de MMII aos membros superiores. Foram selecionados três indivíduos do gênero masculino, com diagnóstico de Traumatismo Raquimedular baixo (T10 e L1), classificados como ASIA A com preservação parcial de raízes nervosas. Os indivíduos foram submetidos a uma avaliação passiva da marcha na ESSP, utilizando a avaliação eletromiográfica dos músculos: bíceps braquial (BB), reto femoral (RF) e gastrocnêmio lateral (GL) bilateralmente e a uma análise estatística, incluindo testes de Shapiro-Wilk e de Levene, One way ANOVA, post-hoc Tukey HSD. Na condição clínica de repouso, observou-se menor ativação dos músculos BB bilateralmente, quando comparado aos músculos RF e GL, fato justificado pelos comprometimentos secundários advindos da lesão dos indivíduos. As condições clínicas do ciclo da marcha (CM) repetiram-se três vezes; no CM1 observou-se uma maior ativação eletromiográfica do músculo GL direito e uma menor ativação do músculo BB direito, e estatisticamente, GL direito e BB esquerdo demonstraram maior atividade média (resultados estatisticamente significantes). No CM2 o mesmo padrão de ativação do CM1 foi observado, no entanto o músculo RF direito reduziu seu limiar de ativação. No CM3 os níveis de ativação das condições anteriores mantiveram-se, no entanto, o músculo RF esquerdo apresentou aumento nos limiares de ativação eletromiográfica, quando comparado aos demais músculos. Com base nestes resultados, o músculo BB apresentou variações quantitativas na ativação eletromiográfica, determinando a presença de irradiação motora de MMII para superiores durante o CM. Em uma análise qualitativa, foi observado que durante as fases de apoio da marcha houve "picos" de ativação deste músculo. [au]

Rehabilitation on the treadmill with partial body weight support (PBWS) in individuals with spinal cord injuries can passively reproduce gait, helping them with weight bearing on the lower limbs (LL) and orthostatic posture. The objective of the study was to assess motor irradiation from the lower limbs to the upper limbs during gait training with PBWS. The participants were three male individuals diagnosed with low spinal cord injury (T10 and L1), classified as ASIA A, with partial preservation of nerve roots. Subjects were submitted to gait training with PBWS and electromyographic assessment of the muscles Biceps brachii (BB), Rectus femoris (RF) and Lateral Gastrocnemius (LG) on both sides. Statistical analysis included Shapiro-Wilk and de Levene tests, One way ANOVA test and Tukey's HSD post-hoc test. In the resting state, there was less activity of BB muscles on both sides when compared to the RF and LG, which can be explained by the secondary impairments arising from the individuals' injury. The gait cycle (GC) was repeated three times; in GC1 there was greater electromyographic activity in the right LG muscle and lower activity of the right BB muscle and, statistically, right LG and left BB showed higher mean activity (statistically significant results). In GC2, the same pattern of activity of GC1 was observed, but the right RF muscle reduced its activation threshold. In GC3, the activity levels of the previous cycles were maintained, but the left RF muscle showed an increase in the thresholds of electromyographic activation when compared to the other muscles. Based on these results, the BB muscle presented quantitative variations in electromyographic activation, demonstrating the presence of motor irradiation from LL to upper limbs during the GC. The qualitative analysis showed "peaks" of activity in this muscle mainly during the support phases of the gait training. [au]

Bite Force, Thickness, and Thermographic Patterns of Masticatory Muscles Post-Hemorrhagic Stroke.

OBJECTIVE: Stroke is a neurological deficit of cerebrovascular origin, considered a 21st-century epidemic that causes functional changes in the human body. This study aimed to evaluate the stomatognathic system of patients after hemorrhagic stroke through the bite force, thickness, and skin temperature in the region of the masseter and temporalis muscles. MATERIAL AND METHODS: Twenty-four subjects were divided into groups: post-hemorrhagic stroke; with right side of the affected body (n = 12) and without the neurological disorder (n = 12). Maximum molar bite force was verified using a digital dynamometer. Muscle thickness was measured using ultrasound images obtained at rest and during maximal voluntary contraction of the masseter and temporalis muscles. Thermographic camera was used to record the thermographic patterns of the masseter and temporalis muscles. Data were subjected to Student's t-test (P < .05). RESULTS: The maximum molar bite force showed significant differences in the right (P = .04) and left (P = .03) sides, with a reduction in force in the post-hemorrhagic stroke group on the affected and unaffected sides. There was a significant difference (P < .05) in the thickness of the left temporal muscle at mandibular rest (P = .01) between groups. The post-hemorrhagic stroke group clinically presented greater muscle thickness in almost 100% of the muscles evaluated in both clinical conditions. There were no significant differences in skin temperature in the masseter and temporal muscles between the groups. CONCLUSIONS: Our results suggest functional changes in the stomatognathic system of subjects after a hemorrhagic stroke, especially concerning molar bite force and masticatory muscle thickness in the temporal muscle (unaffected side).