Your search keyword '"Ryota Akagi"' showing total 117 results

1. Adaptive walking performance is related to the hip joint position sense during active hip flexion rather than during passive hip flexion

Author

Taishi Matsui, Kosuke Hirata, Naokazu Miyamoto, and Ryota Akagi

Subjects

crossing over obstacles, angular velocity, error from the target angle, isotonic contraction, dynamometer, Sports, GV557-1198.995

Abstract

The purpose of this study was to investigate the relationship between hip joint position sense during active or passive hip flexion and adaptive walking performance across obstacles. After screening, 30 young men with the right dominant leg (age, 21 ± 2 years) participated in the experiment. To measure adaptive walking performance on the first day, the participants stepped over an obstacle underfoot with the left leg just high enough to avoid touching the obstacle. The difference between the height of the knee joint at the moment of crossing the obstacle and the height of the obstacle was normalized to the lower limb length and used to evaluate performance. To measure hip joint position sense on the second day, the participants adjusted their left hip joint angle to the target angle (range of joint motion: 80° of hip flexion) by active or passive hip flexion using a dynamometer. Although the absolute error in hip joint position sense during active hip flexion (6.3° ± 4.4°) significantly correlated with that during passive hip flexion (23.2° ± 11.0°) (r = 0.507, P

Published

2025

2. Home-based resistance training performed at either fast or slow speeds improves power output in older adults

Author

Kosuke Hirata, Mari Ito, Yuta Nomura, Chiho Kawashima, Tsukasa Yoshida, Yosuke Yamada, Neale A. Tillin, Geoffrey A. Power, and Ryota Akagi

Subjects

Muscle architecture, Body mass-based training, Sit-to-stand, Isotonic contraction, Medicine, Biology (General), QH301-705.5

Abstract

Purpose: We investigated the effect of an unsupervised, body mass- home-based resistance training program in older adults performed at either a fast or slow contractile speed on changes to muscle-power, -volume, -architecture, and fatigue resistance of the knee extensors. Methods: Thirty-two male older adults (age 65–88 years) were separated into 1) fast-speed exercise (Fast-group), 2) slow-speed exercise (Slow-group), and 3) no exercise (Control-group) groups. Participants in the exercise groups performed 30–45 repetitions of knee-extension and sit-to-stand exercises 3 times a week for 8 weeks with different exercise speed between the groups. Before and after the intervention period, the following variables were measured: Isotonic power, isometric strength, twitch contractile properties, muscle-activity, -architecture, and -quality, neuromuscular fatigue resistance of the knee extensors, and thigh muscle volume. Results: Peak power was increased in both the Fast-group (+24 %, P

Published

2024

3. A report of three cases of patients with tubulointerstitial nephritis with IgM-positive plasma cells, treatment, and serum-IgM as a sensitive marker for relapse

Author

Ryota Akagi, Akira Ishii, Keiichi Kaneko, Naoya Kondo, Hideki Yokoi, Takeshi Matsubara, Sachiko Minamiguchi, Yoshihiko Kanno, and Motoko Yanagita

Subjects

Tubulointerstitial nephritis with IgM-positive plasma cells, Relapse, Serum IgM, Distal renal tubular acidosis (d-RTA), Fanconi syndrome, Sjögren syndrome, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Abstract Background Tubulointerstitial nephritis with IgM-positive plasma cells (IgMPC-TIN) is a newer disease about which there are many unclear points. Glucocorticoid therapy is effective in many cases of IgMPC-TIN; however, relapse during glucocorticoid tapering has been reported. Relapse and its treatment are poorly defined. Case Presentation Case 1 was a 61-year-old man with renal dysfunction and proteinuria. Tubulointerstitial nephritis and IgM-positive plasma cells were observed in a renal biopsy. He was diagnosed with IgMPC-TIN accompanied by Fanconi syndrome and distal renal tubular acidosis (d-RTA). Prednisolone (PSL; 30 mg daily, 0.45 mg/kg/day) treatment was highly effective, and PSL was gradually tapered and discontinued after 1 year. However, 1 month after PSL discontinuation, therapeutic markers were elevated. Therefore, PSL (10 mg daily, 0.15 mg/kg/day) was administered, and the markers indicated improvement. Case 2 was a 43-year-old woman referred for renal dysfunction and proteinuria. Laboratory data revealed that she had primary biliary cholangitis (PBC), d-RTA, and Fanconi syndrome. A renal biopsy showed accumulation of IgM-positive plasma cells in the tubulointerstitium without any glomerular changes. A diagnosis of IgMPC-TIN was made and the patient was started on PSL (35 mg daily, 0.6 mg/kg/day). Therapeutic markers decreased immediately and PSL was discontinued after 1 year. Three months later, the proteinuria and Fanconi syndrome worsened. PSL treatment was restarted (20 mg daily, 0.35 mg/kg/day) and markers indicated improvement. Case 3 was a 45-year-old woman with renal dysfunction and proteinuria. Tubulointerstitial nephritis and IgM-positive plasma cells were observed in a renal biopsy. The patient had PBC, Sjögren syndrome, d-RTA, and Fanconi syndrome, and the diagnosis of IgMPC-TIN was made. The patient was started on PSL (30 mg daily, 0.4 mg/kg/day) and disease markers decreased immediately. However, when PSL was tapered to 15 mg daily (0.2 mg/kg/day), the patient’s serum IgM levels increased; therefore, we maintained the PSL at 15 mg daily (0.2 mg/kg/day). Conclusion We report three cases of relapsed IgMPC-TIN associated with reduction or discontinuation of glucocorticoid therapy. In these cases, elevation of serum IgM preceded that of other markers such as urinary β2-microglobulin, proteinuria, and glycosuria. We recommend monitoring serum IgM levels while tapering glucocorticoids; a maintenance dose of glucocorticoid should be considered if relapse is suspected or anticipated.

Published

2023

4. Relation of leg phase angle from bioelectrical impedance analysis with voluntary and evoked contractile properties of the plantar flexors

Author

Kosuke Hirata, Yosuke Yamada, Natsuki Iida, Akihiro Kanda, Mikio Shoji, Tsukasa Yoshida, and Ryota Akagi

Subjects

bioelectrical impedance spectroscopy, triceps surae, muscle strength, rate of torque development, twitch contractile properties, electromyography, Physiology, QP1-981

Abstract

Introduction: Bioelectrical impedance analysis (BIA) can noninvasively and quickly assess electrical properties of the body, such as the phase angle. Phase angle is regarded as the quantity and/or quality of skeletal muscle and is associated with exercise performance, such as jump height and walking speed. Although the phase angle derived from BIA is assumed to be a useful way to assess muscle function, the relationship between the phase angle and neuromuscular properties has not been fully investigated. The purpose of this study was to investigate the association of phase angle with voluntary and evoked contractile properties in 60 adults (age, 21–83 years; 30 females and 30 males).Methods: The phase angle of the right leg at 50 kHz was evaluated using BIA. The twitch contractile properties (peak twitch torque [PTtwitch], rate of twitch torque development [RTDtwitch], and time-to-PTtwitch [TPTtwitch]) of the plantar flexors were measured using tibial nerve electrical stimulation. Maximal voluntary isometric contractions (MVICs) were performed to measure the maximal muscle strength and explosive muscle strength, from which the peak MVIC torque (PTMVIC) and rate of torque development (RTD) over a time interval of 0–200 ms were assessed, respectively. The root mean square (RMS) values of electromyographic (EMG) activity during the PTMVIC and RTD measurements (EMG-RMSMVIC and EMG-RMSRTD, respectively) were calculated. The RTD and EMG-RMSRTD were normalized using PTMVIC and EMG-RMSMVIC, respectively.Results and discussion: Phase angle significantly correlated with twitch contractile properties (|r| ≥ 0.444, p < 0.001), PTMVIC (r = 0.532, p < 0.001), and RTD (r = 0.514, p < 0.001), but not with normalized RTD (r = 0.242, p = 0.065) or normalized EMG-RMSRTD (r = −0.055, p = 0.676). When comparing measurement variables between the low- and high-phase angle groups while controlling for sex and age effects, the high-phase angle group showed greater PTtwitch, RTDtwitch, PTMVIC, and RTD (p < 0.001) and shorter TPTtwitch (p < 0.001) but not normalized RTD (p = 0.184) or normalized EMG-RMSRTD (p = 0.317). These results suggest that the leg phase angle can be an indicator of voluntary and evoked muscle contractile properties but not the neuromuscular activity of the plantar flexors, irrespective of sex and age.

Published

2023

5. Association of age-related decrease in intracellular-to-total water ratio with that in explosive strength of the plantar flexors: a cross-sectional study

Author

Kosuke Hirata, Natsuki Iida, Akihiro Kanda, Mikio Shoji, Tsukasa Yoshida, Yosuke Yamada, and Ryota Akagi

Subjects

Rate of torque development, Bioelectrical impedance spectroscopy, Muscle quality, Twitch contractile properties, Triceps surae, Time-to-peak torque, Physical anthropology. Somatology, GN49-298

Abstract

Abstract Background We aimed to investigate the association of age-related differences in the intracellular-to-total water ratio with explosive strength of the plantar flexors. Methods A total of 60 young (21–33 years) and older (64–83 years) individuals were recruited. Intracellular- (ICW) and total-water (TW) content within the right leg was evaluated by bioelectrical impedance spectroscopy as indicators of muscle cell mass and whole muscle mass within the segment, respectively. ICW divided by TW (ICW/TW) was calculated as an index of the occupancy of muscle cells within whole muscle. Rate of torque development (RTD) and electromyography (EMG) activity during maximal voluntary isometric plantar flexion were measured as indicators of explosive muscle strength and neuromuscular activity, respectively. RTD was calculated from three time windows of 0–50, 50–100, and 100–200 ms. Time-to-peak torque (TPT) was assessed from evoked twitch contraction. Results Compared with young participants, older participants showed lower ICW/TW (−7%, P < 0.001), RTD (−25 to −40%, P = 0.003 to 0.001), and longer TPT (+11%, P < 0.001). ICW/TW associated positively with RTD (r = 0.377 to 0.408, P = 0.004 to 0.001) and negatively with TPT (r = −0.392, P = 0.002), but not with EMG activity. RTD was associated positively with EMG for each time window (r = 0.527 to 0.607, P < 0.001). Conclusions These results indicate that ICW/TW may be a useful predictor of the age-related decrease in RTD, and that the decrease in ICW/TW with age may reflect age-associated changes in intrinsic contractile properties.

Published

2022

6. Effects of three-dimension movie visual fatigue on cognitive performance and brain activity

Author

Ryota Akagi, Hiroki Sato, Tatsuya Hirayama, Kosuke Hirata, Masahiro Kokubu, and Soichi Ando

Subjects

critical flicker fusion frequency (CFF), functional near-infrared spectroscopy (fNIRS), Go/NoGo task, visual task, auditory task, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

To further develop three-dimensional (3D) applications, it is important to elucidate the negative effects of 3D applications on the human body and mind. Thus, this study investigated differences in the effects of visual fatigue on cognition and brain activity using visual and auditory tasks induced by watching a 1-h movie in two dimensions (2D) and 3D. Eighteen young men participated in this study. Two conditions were randomly performed for each participant on different days, namely, watching the 1-h movie on television in 2D (control condition) and 3D (3D condition). Before and after watching the 1-h movie on television, critical flicker fusion frequency (CFF: an index of visual fatigue), and response accuracy and reaction time for the cognitive tasks were determined. Brain activity during the cognitive tasks was evaluated using a multi-channel near-infrared spectroscopy system. In contrast to the control condition, the decreased CFF, and the lengthened reaction time and the decreased activity around the right primary somatosensory cortex during Go/NoGo blocks in the visual task at post-viewing in the 3D condition were significant, with significant repeated measures correlations among them. Meanwhile, in the auditory task, the changes in cognitive performance and brain activity during the Go/NoGo blocks were not significant in the 3D condition. These results suggest that the failure or delay in the transmission of visual information to the primary somatosensory cortex due to visual fatigue induced by watching a 3D movie reduced the brain activity around the primary somatosensory cortex, resulting in poor cognitive performance for the visual task. This suggests that performing tasks that require visual information, such as running in the dark or driving a car, immediately after using a 3D application, may create unexpected risks in our lives. Thus, the findings of this study will help outlining precautions for the use of 3D applications.

Published

2022

7. Individual differences in knee extensor fatigue induced by sustained mid-level contraction

Author

Naoya Hirata, Shinya Sato, Hiroki Tanimoto, Naoto Imaizumi, Kosuke Hirata, and Ryota Akagi

Subjects

knee extensor, mid-level contraction, neuromuscular fatigue, peripheral fatigue, central fatigue, Sports medicine, RC1200-1245, Physiology, QP1-981

Abstract

Identifying the factors that contribute to individual differences in mid-level intensity neuromuscular fatigue is essential to improve performance and effective exercise in training and rehabilitation. This study investigated factors affecting individual differences in knee extensor fatigue induced by sustained isometric mid-level contractions. Twenty-six healthy young men performed a sustained fatiguing contraction to task failure at 40% maximal voluntary contraction (MVC) torque of the knee extensors. The MVC torque (TQMVC), evoked triplet torque (TQTRI), and voluntary activation (VA%) of the knee extensors were determined before and after the fatiguing task. Differences in TQMVC, TQTRI, and VA% before and after the fatiguing task were examined, and the relationship between TQMVC and TQTRI or VA% after the fatiguing task normalized to baseline was examined using Pearson product-moment correlation analysis. TQMVC and TQTRI decreased significantly after the fatiguing task (31.1% decrease for TQMVC, 38.8% decrease for TQTRI, p < 0.001), whereas VA% did not change significantly (4.2% increase for VA%, p = 0.057). After the fatiguing task, the normalized TQMVC was significantly correlated with the normalized TQTRI (r = 0.617, p < 0.001), but not with the normalized VA% (r = 0.348, p = 0.082). Individual differences in knee extensor fatigue induced by sustained mid-level contraction were more affected by peripheral fatigue than by central fatigue. Therefore, focusing on fatigue resistance in peripheral areas is important to improve endurance in moderate-intensity exercises.

Published

2021

8. Association between interindividual variability in training volume and strength gain

Author

Ryoichi Ema, Itaru Saito, and Ryota Akagi

Subjects

high responders, hip flexion, isometric training, knee extension, low responders, maximal voluntary contraction, Physiology, QP1-981

Abstract

This study aimed to examine the association between interindividual variability in strength changes and in training volume. A total of 26 untrained men completed 4-weeks of isometric knee extension (KE group, n = 12) and hip flexion (HF group, n = 14) training. Each training session comprised four sets of ten isometric contractions, 3-s contractions every 20 s. Training volume, which was defined as impulse during contractions, and maximal voluntary contraction (MVC) torque during KE and HF were evaluated. Based on the magnitude of MVC torque changes, the participants were divided into the high and low responders (n = 13; KE = 6 and HF = 7 per responders). The MVC torque changes (KE, 20.8%; HF, 22.4%) and total training volume did not significantly differ between the two groups. A higher training volume was demonstrated in the low responders than the high responders. The total training volume was positively associated with the MVC torque changes in low responders (r = 0.869%, 95% confidence interval [0.610, 0.960], p < 0.001), but not in high responders [r = 0.229, 95% confidence interval (−0.368, 0.693), p = 0.451], KE or HF group. Results showed that training volume was an important factor in determining the magnitude of strength gains in low responders, and MVC torque could improve by approximately 20% with the use of the study protocol regardless of joint actions involved during training.

Published

2022

9. Contribution of muscle stiffness of the triceps surae to passive ankle joint stiffness in young and older adults

Author

Kosuke Hirata and Ryota Akagi

Subjects

elastography, shear modulus, dorsiflexion, aging, gastrocnemius, soleus, Physiology, QP1-981

Abstract

This study aimed to investigate whether triceps surae muscle stiffness is associated with passive ankle joint stiffness in 40 young (21–24 years) and older (62–83 years) males. Using ultrasound shear wave elastography, the shear modulus of each muscle of the triceps surae (the medial [MG], lateral gastrocnemius [LG], and soleus [Sol]) was assessed as muscle stiffness at the ankle neutral position (NP) and 15-degree dorsiflexed position (DF15) with the knee fully extended. Passive ankle joint stiffness at the NP and DF15 was calculated as the gradient of the angle–torque relationship at each joint angle during passive ankle dorsiflexion at 1°∙s−1 controlled by using an isokinetic dynamometer. Passive ankle joint stiffness was normalized by the body mass. There was no correlation between the absolute ankle joint stiffness and muscle shear modulus of triceps surae in the young and older groups at the NP (r ≤ 0.349, p ≥ 0.138). Significant positive correlations between absolute ankle joint stiffness and muscle shear modulus at DF15 were observed for MG and Sol in the young group (r ≥ 0.451, p ≤ 0.044) but not in the older group. The normalized ankle joint stiffness at the NP was significantly positively correlated with the LG shear modulus in young participants and with the MG and LG shear modulus in older participants (r ≥ 0.466 and p ≤ 0.039). There were significant positive correlations between the normalized ankle joint stiffness and the muscle shear modulus of the triceps surae at DF15 in young and older participants (r ≥ 0.464 and p ≤ 0.040), except for the MG shear modulus in older participants (r = 0.419 and p = 0.066). These results suggest that the material properties of the entire triceps surae, even Sol, which is the most compliant muscle among the triceps surae, affect passive ankle joint stiffness, especially when the triceps surae is lengthened and body size is considered.

Published

2022

10. Can phase angle from bioelectrical impedance analysis associate with neuromuscular properties of the knee extensors?

Author

Kosuke Hirata, Mari Ito, Yuta Nomura, Tsukasa Yoshida, Yosuke Yamada, and Ryota Akagi

Subjects

bioelectrical impedance spectroscopy, quadriceps femoris, aging, sarcopenia, electromyography, twitch contractile properties, Physiology, QP1-981

Abstract

Maintenance and improvement of neuromuscular functions is crucial for everyone regardless of age. An easy way to assess neuromuscular properties without muscle contraction is useful especially for those who cannot perform strenuous muscular force production, such as older adults and patients with orthopedic or cognitive disorders. Bioelectrical impedance analysis (BIA) can assess body electrical properties e.g., phase angle (PhA) which is regarded as muscle quantity/quality index. The purpose of this study was to investigate associations of PhA with neuromuscular properties of the knee extensors in 55 young (n = 23) and older (n = 32) adults. The values of PhA of the right thigh and whole-body were determined with BIA at 50 kHz. The participants performed 4-s maximal voluntary isometric contraction (MVIC) to measure peak torque (PTMVIC), and 1-s brief MVIC to assess rate of torque development (RTD) over the time interval of 0–200 ms. As markers of physiological mechanisms of muscle force production, twitch contractile properties (peak twitch torque, rate of twitch torque development, and time-to-peak twitch torque) of the knee extensors obtained by femoral nerve electrical stimulation, and muscle activity assessed as root mean square values of electromyographic activity (EMG-RMS) during PTMVIC and RTD measurements were measured. Thigh and whole-body PhA significantly correlated with PTMVIC (r ≥ 0.555, p < 0.001) and electrically evoked twitch parameters (peak twitch torque, rate of twitch torque development, and time-to-peak twitch torque; |r| ≥ 0.420, p ≤ 0.001), but not RTD (r ≤ 0.237, p ≥ 0.081) or EMG-RMSs (|r| ≤ 0.214, p ≥ 0.117). Stepwise multiple linear regression analysis revealed that thigh PhA was selected as a significant variable to predict PTMVIC but not RTD. Whole-body PhA was not selected as a significant variable to predict PTMVIC or RTD. In conclusion, both thigh and whole-body PhA can associate with maximal voluntary muscle strength of the knee extensors, and this association may be due to intrinsic contractile properties but not neural aspects. Regarding prediction of the knee extensor strength, thigh PhA is preferable as the predictor rather than whole-body PhA which is used as a widely acknowledged indicator of sarcopenia.

Published

2022

11. Relationship Between Drop Jump Training–Induced Changes in Passive Plantar Flexor Stiffness and Explosive Performance

Author

Ryosuke Ando, Shinya Sato, Naoya Hirata, Hiroki Tanimoto, Naoto Imaizumi, Yasuhiro Suzuki, Kosuke Hirata, and Ryota Akagi

Subjects

passive muscle stiffness, gastrocnemius, soleus, rate of torque development, drop jump, elastography, Physiology, QP1-981

Abstract

Passive muscle stiffness is positively associated with explosive performance. Drop jump training may be a strategy to increase passive muscle stiffness in the lower limb muscles. Therefore, the purpose of this study was to examine the effect of 8-week drop jump training on the passive stiffness in the plantar flexor muscles and the association between training-induced changes in passive muscle stiffness and explosive performance. This study was a randomized controlled trial. Twenty-four healthy young men were divided into two groups, control and training. The participants in the training group performed drop jumps (five sets of 20 repetitions each) 3days per week for 8weeks. As an index of passive muscle stiffness, the shear moduli of the medial gastrocnemius and soleus were measured by shear wave elastography before and after the intervention. The participants performed maximal voluntary isometric plantar flexion at an ankle joint angle of 0° and maximal drop jumps from a 15cm high box. The rate of torque development during isometric contraction was calculated. The shear modulus of the medial gastrocnemius decreased for the training group (before: 13.5±2.1kPa, after: 10.6±2.1kPa); however, such a reduction was not observed in the control group. There was no significant group (control and training groups)×time (before and after the intervention) interaction for the shear modulus of the soleus. The drop jump performance for the training group improved, while the rate of torque development did not change. Relative changes in these measurements were not correlated with each other in the training group. These results suggest that drop jump training decreases the passive stiffness in the medial gastrocnemius, and training-induced improvement in explosive performance cannot be attributed to change in passive muscle stiffness.

Published

2021

12. Muscle Damage Indicated by Maximal Voluntary Contraction Strength Changes From Immediately to 1 Day After Eccentric Exercise of the Knee Extensors

Author

Mikio Shoji, Ryoichi Ema, Kazunori Nosaka, Akihiro Kanda, Kosuke Hirata, and Ryota Akagi

Subjects

maximal voluntary isometric contraction, recovery rate, muscle soreness, voluntary activation, potentiated doublet torque, shear modulus, Physiology, QP1-981

Abstract

The present study examined if the magnitude of changes in indirect muscle damage markers could be predicted by maximal voluntary isometric contraction (MVIC) torque changes from immediately to 1 day after eccentric exercise. Twenty-eight young men performed 100 maximal isokinetic (60°/s) eccentric contractions of the knee extensors. MVIC torque, potentiated doublet torque, voluntary activation (VA) during MVIC, shear modulus of rectus femoris (RF), vastus medialis and lateralis, and muscle soreness of these muscles were measured before, immediately after, and 1–3 days post-exercise. Based on the recovery rate of the MVIC torque from immediately to 1-day post-exercise, the participants were placed to a recovery group that showed an increase in the MVIC torque (11.3–79.9%, n = 15) or a no-recovery group that showed no recovery (−71.9 to 0%, n = 13). No significant difference in MVIC torque decrease immediately post-exercise was found between the recovery (−33 ± 12%) and no-recovery (−32 ± 9%) groups. At 1–3 days, changes in MVIC torque (−40 to −26% vs. −22 to −12%), potentiated doublet torque (−37 to −22% vs. −20 to −9%), and proximal RF shear modulus (29–34% vs. 8–15%) were greater (p < 0.05) for the no-recovery than recovery group. No significant group differences were found for muscle soreness. The recovery rate of MVIC torque was correlated (p < 0.05) with the change in MVIC torque from baseline to 2 (r = 0.624) or 3 days post-exercise (r = 0.526), or peak change in potentiated doublet torque at 1–3 days post-exercise from baseline (r = 0.691), but not correlated with the changes in other dependent variables. These results suggest that the recovery rate of MVIC torque predicts changes in neuromuscular function but not muscle soreness and stiffness following eccentric exercise of the knee extensors.

Published

2021

13. Age-Related Differences in the Effect of Prolonged Vibration on Maximal and Rapid Force Production and Balance Ability

Author

Ryoichi Ema, Akihiro Kanda, Mikio Shoji, Natsuki Iida, and Ryota Akagi

Subjects

electromyography, plantar flexion, rate of torque development, triceps surae muscle, single-leg standing, maximal voluntary contraction, Physiology, QP1-981

Abstract

We tested the hypothesis that older adults would not likely experience deficits in maximal and explosive plantar flexion strength and standing balance performance induced by prolonged Achilles tendon vibration compared with young adults. Fifteen older men (OM, 73 ± 5 years) and 15 young men (YM, 24 ± 4 years) participated in two interventions on different days: lying in a quiet supine position for 30 min with or without prolonged vibration to the Achilles tendon. Before and after the interventions, maximal voluntary contraction (MVC) torque during plantar flexion, rate of torque development (RTD), and center of pressure (COP) speed during single-leg standing were measured. The root mean square of the electromyogram (RMS-EMG) during performance and V-wave and voluntary activation during MVC were assessed. The MVC torque (7 ± 7%) and RTD (16 ± 15%) of YM but not OM significantly decreased after vibration. In addition, the relative changes observed in YM positively correlated with changes in RMS-EMG of the medial gastrocnemius (MG) (MVC torque and RTD) and in MG V-wave and voluntary activation (MVC torque). COP speed significantly increased (16 ± 20%) in YM only after vibration and was accompanied by increased activation of the lateral gastrocnemius. This is the first study to show that the effects of prolonged Achilles tendon vibration on strength and balance performances were apparent in young adults only. The differences between the age groups may be related to the attenuated gastrocnemius neuromuscular function in older adults.

Published

2020

14. Eight-Week Low-Intensity Squat Training at Slow Speed Simultaneously Improves Knee and Hip Flexion and Extension Strength

Author

Ryota Akagi, Shinya Sato, Naoya Hirata, Naoto Imaizumi, Hiroki Tanimoto, Ryosuke Ando, Ryoichi Ema, and Kosuke Hirata

Subjects

muscle strength, muscle size, magnetic resonance imaging, electromyography, voluntary activation, low-intensity, Physiology, QP1-981

Abstract

Considering that the squat exercise requires flexion and extension of the knee and hip joints, a resistance training program based on squat exercises should efficiently increase the flexion and extension strength of both the knee and hip. To our knowledge, however, no study has simultaneously investigated the effects of squat training on both flexion and extension strength in both the knee and hip. Low-intensity squat exercises at slow speeds can be expected to effectively and safely improve knee and hip flexion and extension strength in a wide range of individuals. This study aimed to clarify whether knee and hip flexion and extension strength improved after an 8-week low-intensity squat training program at slow speed. Twenty-four untrained young men were randomly assigned to a training or control group. Participants in the training group performed 40% one-repetition maximum parallel squats at slow speed (4 s for concentric/eccentric actions), 3 days per week for 8 weeks. Before and after the intervention, isometric peak torque of the knee and hip flexors and extensors during maximal voluntary contraction (MVC) was determined. For the knee flexors and extensors, muscle volume was also measured. There were significant training-induced increases in peak torque (P < 0.05). The training effects on knee and hip extension torque (effect size = 0.36–0.38) were higher than those on knee and hip flexion torque (effect size = 0.09–0.13). The squat training used here increased both knee and hip flexion and extension strength, but the training effects on the flexion strength were less than those on the extension strength. Regarding the knee extensors, a significant training-related increase in muscle volume was found (P < 0.05) without neuromuscular adaptations. In addition, there were significant correlations between the training-induced increases in muscle volume and peak torque of KE. These results suggest that muscle hypertrophy may be responsible for increased muscle strength of the knee extensors after an 8-week low-intensity squat training program at slow speed.

Published

2020

15. Differential contributions of fatigue‐induced strength loss and slowing of angular velocity to power loss following repeated maximal shortening contractions

Author

Ryota Akagi, Avery Hinks, Brooke Davidson, and Geoffrey A. Power

Subjects

dorsiflexion, isometric contraction, isotonic contraction, neuromuscular fatigue, Physiology, QP1-981

Abstract

Abstract The purpose of this study was to investigate the relationship between fatigue‐induced reductions in isometric torque and isotonic power and to quantify the extent to which the decreases in angular velocity and dynamic torque can explain the power loss immediately following an isotonic fatiguing task and throughout recovery in seven young males and six young females. All measurements were performed with both legs. For dorsiflexion, fatigue‐related time‐course changes in isometric maximal voluntary contraction (MVC) torque, angular velocity, dynamic torque, and power production following repeated maximal isotonic contractions (load: 20% MVC) were investigated before, immediately after, and 1, 2, 5 and 10 min after a fatiguing task. There were no relationships between the fatigue‐related reductions in isometric MVC torque and peak power at any timepoint, suggesting that fatigue‐induced reductions in isometric MVC torque does not entirely reflect fatigue‐induced changes in dynamic performance. The relative contribution of fatigue‐related reduction in dynamic torque on power loss was greater immediately following the task, and lower throughout recovery than the corresponding decrease in angular velocity. Thus, power loss immediately following the task was more strongly related to the decline in dynamic torque; however, this relationship shifted throughout recovery to a greater dependence on slowing of angular velocity for power loss.

Published

2020

16. Does the combination of different pitches and the absence of pitch type information influence timing control during batting in baseball?

Author

Shuji Kidokoro, Yuji Matsuzaki, and Ryota Akagi

Subjects

Medicine, Science

Abstract

Baseball pitchers use various pitch types to reduce hitting accuracy, but little is understood of the practical strategy of using visuomotor skills and timing control to respond to different pitches. This study examined 1) effectiveness of pitch type combinations, and 2) relationship between the presence and absence of advance information about the next pitch and the timing error. Twenty-six high school baseball players hit a ball launched from a pitching machine in a combination of fastballs (34.3±1.3 m·s-1), curveballs (25.4±1.0 m·s-1), and slowballs (25.5±0.9 m·s-1). Each participant performed three conditions. (1) Continuity condition (15 trials), in which the same pitch type was thrown five times consecutively. (2) Random condition (30 trials), in which pitch type was not preliminarily conveyed to the participants. (3) Open condition (20 trials), in which the next pitch type was preliminarily conveyed to participants. Participants' hitting movement was recorded by an optical motion capture system and force platform. We calculated timing error based on the difference between the measured impact location (ball position relative to the batter's body at ball-bat impact) and optimal impact location. The timing error between n-th pitch type, (n-1)-th pitch, and the presence or absence of advance information about pitch type (open vs random condition) were analyzed using three-way repeated ANOVA. The results showed that the (n-1)-th pitch type did not affect the timing of impact (p = 0.338). In contrast, the timing errors in open conditions were fewer compared to random conditions (p < 0.001). These results indicate that the pitch type sequence has insignificant effects, and advance information about pitches affects the timing errors. Therefore, having two or more pitch types, reducing the fluctuation of the pitching motion, and the early trajectory of the ball between different pitches potentially lead to increase timing errors.

Published

2020

17. Effect of acute eye fatigue on cognition for young females: a pilot study

Author

Ryota Akagi, Miki Tonotsuka, Ryota Horie, Kosuke Hirata, and Soichi Ando

Subjects

Go/NoGo task, Memory recognition task, Black-and-white inverted images, Refractive error, Medicine, Biology (General), QH301-705.5

Abstract

The number of people suffering from eye fatigue induced by visual display terminal (VDT) viewing is expected to increase in the modern world. Eye dysfunction is suggested to induce a decrease in cognitive function, at least in the long term. Furthermore, considering other previous findings, it may be reasonable to think that acute or relatively short-term eye dysfunction attenuates cognitive function for not only older but also young individuals. Hence, clarification of the effect of eye fatigue induced by VDT viewing on cognitive performance is essential in order to maintain and/or improve our quality of life in the modern world regardless of age. The present study investigated the effect of eye fatigue induced by 1-h VDT viewing on cognitive performance, to test the hypothesis that such eye fatigue impairs cognitive performance in young individuals. A total of 19 healthy female university students voluntarily participated in this study. Before and after the 1-h VDT viewing or resting, the degree of eye fatigue and cognitive performance were evaluated. Refractive error measurement was performed to assess the degree of eye fatigue using a binocular auto refractometer, and a memory recognition task and Go/NoGo task were used to estimate cognitive performance. Response accuracy and reaction time were evaluated in the two tasks. Due to difficulty in interpreting the data of refractive error for one participant from the perspective of eye fatigue, the data for 18 participants were used for further analysis. The refractive error was significantly lower after than before the VDT viewing, but a corresponding change was not found before and after resting. Regarding cognitive performance, only the reaction time in the memory recognition task varied with the VDT viewing or resting. The reaction time was significantly longer after than before resting, without a corresponding difference before and after the VDT viewing. Thus, the 1-h VDT viewing induced eye fatigue, but relatively improved rather than attenuated reaction time in the memory recognition task. These results suggest that the effect of the increase in arousal level induced by the present VDT viewing on memory recognition compensated for the negative effect of 1-h resting of the eyes. We conclude that the acute eye fatigue induced by the 1-h VDT viewing does not have detrimental effects on cognition in young females at least under the present conditions.

Published

2019

18. Effects of sex and joint action on voluntary activation

Author

Ryoichi Ema, Momoka Suzuki, Emi Kawaguchi, Itaru Saito, and Ryota Akagi

Subjects

Knee extension, Plantar flexion, Sex difference, Twitch interpolation technique, Medicine, Biology (General), QH301-705.5

Abstract

The current study tested the hypothesis that voluntary activation during maximal voluntary contraction (MVC) conditionally depends on sex and joint action. Twenty-eight healthy adults (14 of each sex) performed knee extensor MVC and plantar flexor MVC at extended and flexed knee positions. Voluntary activation during MVC was assessed using a twitch interpolation technique. The voluntary activation during plantar flexor MVC at the extended knee position was significantly lower (P = 0.020, 95% confidence interval 1.4 to 14.6, Cohen’s d for between-subject design = 0.94) in women (88.3% ± 10.0%) than in men (96.2% ± 6.6%). In contrast, no significant sex differences were shown in the voluntary activation during knee extensor MVC (93.7% ± 5.9% (women) vs. 95.0% ± 3.9% (men)) and during plantar flexor MVC at the flexed knee position (90.4% ± 12.2% (women) vs. 96.8% ± 5.6% (men)). The voluntary activation during knee extensor MVC was significantly higher (P = 0.001, 95% confidence interval 2.1 to 8.8, Cohen’s d for within-subject design = 0.69) than that during plantar flexor MVC at the extended knee position in women, whereas the corresponding difference was not observed in men. The results revealed that the existence of sex difference in the voluntary activation during MVC depends on joint action and joint angle.

Published

2018

19. Training-induced changes in architecture of human skeletal muscles: Current evidence and unresolved issues

Author

Ryoichi Ema, Ryota Akagi, Taku Wakahara, and Yasuo Kawakami

Subjects

muscle architecture, fascicle length, pennation angle, muscle hypertrophy, athlete, resistance training, Sports medicine, RC1200-1245, Physiology, QP1-981

Abstract

The present review summarizes current evidence and unresolved issues regarding training-induced changes in the architecture of human skeletal muscles. As architectural parameters, we focused on the fascicle length and pennation angle, which are related to force-generating capability of pennate muscles. Cross-sectional studies in sport athletes suggested changes in both the parameters following chronic sport-specific activities. Longitudinal training intervention experiments indicated direct evidence of the plasticity of the two parameters induced by resistance training, but no consensus has been reached regarding the factors influencing those changes. Considering the importance of fascicle arrangement on muscle function, future studies are required to explain the underpinning mechanisms of the adaptation.

Published

2016

20. Muscle Shear Moduli Changes and Frequency of Alternate Muscle Activity of Plantar Flexor Synergists Induced by Prolonged Low-Level Contraction

Author

Ryota Akagi, Takahito Fukui, Masato Kubota, Masashi Nakamura, and Ryoichi Ema

Subjects

muscle fatigue, joint torque, shear wave ultrasound elastography, evoked torque, electromyography, Physiology, QP1-981

Abstract

During prolonged low-level contractions, synergist muscles are activated in an alternating pattern of activity and silence called as alternate muscle activity. Resting muscle stiffness is considered to increase due to muscle fatigue. Thus, we investigated whether the difference in the extent of fatigue of each plantar flexor synergist corresponded to the difference in the frequency of alternate muscle activity between the synergists using muscle shear modulus as an index of muscle stiffness. Nineteen young men voluntarily participated in this study. The shear moduli of the resting medial and lateral gastrocnemius muscles (MG and LG) and soleus muscle (SOL) were measured using shear wave ultrasound elastography before and after a 1-h sustained contraction at 10% peak torque during maximal voluntary contraction of isometric plantar flexion. One subject did not accomplish the task and the alternate muscle activity for MG was not found in 2 subjects; therefore, data for 16 subjects were used for further analyses. The magnitude of muscle activation during the fatiguing task was similar in MG and SOL. The percent change in shear modulus before and after the fatiguing task (MG: 16.7 ± 12.0%, SOL: −4.1 ± 13.9%; mean ± standard deviation) and the alternate muscle activity during the fatiguing task (MG: 33 [20–51] times, SOL: 30 [17–36] times; median [25th–75th percentile]) were significantly higher in MG than in SOL. The contraction-induced change in shear modulus (7.4 ± 20.3%) and the alternate muscle activity (37 [20–45] times) of LG with the lowest magnitude of muscle activation during the fatiguing task among the plantar flexors were not significantly different from those of the other muscles. These results suggest that the degree of increase in muscle shear modulus induced by prolonged contraction corresponds to the frequency of alternate muscle activity between MG and SOL during prolonged contraction. Thus, it is likely that, compared with SOL, the alternate muscle activity of MG occurs more frequently during prolonged contraction due to the greater increase in fatigue of MG induced by the progression of a fatiguing task.

Published

2017

21. Reliability and validity of quantifying absolute muscle hardness using ultrasound elastography.

Author

Kentaro Chino, Ryota Akagi, Michiko Dohi, Senshi Fukashiro, and Hideyuki Takahashi

Subjects

Medicine, Science

Abstract

Muscle hardness is a mechanical property that represents transverse muscle stiffness. A quantitative method that uses ultrasound elastography for quantifying absolute human muscle hardness has been previously devised; however, its reliability and validity have not been completely verified. This study aimed to verify the reliability and validity of this quantitative method. The Young's moduli of seven tissue-mimicking materials (in vitro; Young's modulus range, 20-80 kPa; increments of 10 kPa) and the human medial gastrocnemius muscle (in vivo) were quantified using ultrasound elastography. On the basis of the strain/Young's modulus ratio of two reference materials, one hard and one soft (Young's moduli of 7 and 30 kPa, respectively), the Young's moduli of the tissue-mimicking materials and medial gastrocnemius muscle were calculated. The intra- and inter-investigator reliability of the method was confirmed on the basis of acceptably low coefficient of variations (≤6.9%) and substantially high intraclass correlation coefficients (≥0.77) obtained from all measurements. The correlation coefficient between the Young's moduli of the tissue-mimicking materials obtained using a mechanical method and ultrasound elastography was 0.996, which was equivalent to values previously obtained using magnetic resonance elastography. The Young's moduli of the medial gastrocnemius muscle obtained using ultrasound elastography were within the range of values previously obtained using magnetic resonance elastography. The reliability and validity of the quantitative method for measuring absolute muscle hardness using ultrasound elastography were thus verified.

Published

2012

22. Resistance Training Support System with Pose Estimation.

Author

Koki Yamada, Naka Gotoda, and Ryota Akagi

Published

2023

23. Development of a Promotion System for Home-Based Squat Training for Elderly People.

Author

Yuki Hirasawa, Takuya Ishioka, Naka Gotoda, Kosuke Hirata, and Ryota Akagi

Published

2019

24. Promotion System for Home-Based Squat Training Using OpenPose.

Author

Yuki Hirasawa, Naka Gotoda, Ryo Kanda, Kosuke Hirata, and Ryota Akagi

Published

2020

25. Receiver cooperative MIMO-OFDM with higher-frequency radio forwarding.

Author

Daisuke Umehara, Shuhei Ueno, and Ryota Akagi

Published

2017

26. A Rare Case of Drug Reaction with Eosinophilia and Systemic Symptoms Syndrome Leading to Hemodialysis and Multiple Infections: A Case Report and Literature Review.

Author

Yohei Iwashige, Shinya Yamamoto, Kaoru Ohue, Hisashi Sugimoto, Hiroyuki Yabumoto, Ryo Kamimatsuse, Hisashi Kamido, Ryota Akagi, Minami Matsumoto, Kanae Yamamoto-Nonaka, Sachiko Minamiguchi, and Motoko Yanagita

Published

2024

27. Can a Short-term Daily Oral Administration of Propolis Improve Muscle Fatigue and Recovery?

Author

Yuma, Tsuchiya, Naoya, Hirata, Takashi, Asama, Naomi, Osakabe, Kosuke, Hirata, and Ryota, Akagi

Subjects

Male, Double-Blind Method, Torque, Electromyography, Isometric Contraction, Muscle Fatigue, Administration, Oral, Humans, Orthopedics and Sports Medicine, Physical Therapy, Sports Therapy and Rehabilitation, Muscle, Skeletal, Propolis, Muscle Contraction

Abstract

This study investigated the effect of 1-week oral administration of propolis on muscle fatigue and recovery after performing a fatigue task (total 100 maximal voluntary concentric knee extension repetitions). In this placebo-controlled, double-blind study, 18 young men consumed a formulation with high Brazilian green propolis dose (H-BGP), a formulation with low Brazilian green propolis dose, or a placebo, for 1 week before performing the fatigue task (an interval between each intervention: 1–2 weeks). Maximal voluntary contraction torque, central fatigue (voluntary activation and root mean square values of the surface electromyography amplitude), and peripheral fatigue (potentiated triplet torque) were assessed before, immediately after, and 2 minutes after the fatigue task. Maximal voluntary contraction torque decreased immediately after the fatigue task in all conditions (P

Published

2022

28. Estimation of load-maximizing power output using bench press and bench throw tests

Author

Yuji KOBAYASHI, Ryota AKAGI, Kuniaki HIRAYAMA, and Takeo MATSUBAYASHI

Subjects

General Medicine

Published

2022

29. Individual differences in knee extensor fatigue induced by sustained mid-level contraction

Author

Kosuke Hirata, Hiroki Tanimoto, Ryota Akagi, Naoya Hirata, Naoto Imaizumi, and Shinya Sato

Subjects

medicine.medical_specialty, Contraction (grammar), Knee extensors, neuromuscular fatigue, business.industry, Physiology, peripheral fatigue, central fatigue, knee extensor, Physical medicine and rehabilitation, mid-level contraction, Neuromuscular fatigue, Sports medicine, Medicine, QP1-981, business, RC1200-1245

Abstract

Identifying the factors that contribute to individual differences in mid-level intensity neuromuscular fatigue is essential to improve performance and effective exercise in training and rehabilitation. This study investigated factors affecting individual differences in knee extensor fatigue induced by sustained isometric mid-level contractions. Twenty-six healthy young men performed a sustained fatiguing contraction to task failure at 40% maximal voluntary contraction (MVC) torque of the knee extensors. The MVC torque (TQMVC), evoked triplet torque (TQTRI), and voluntary activation (VA%) of the knee extensors were determined before and after the fatiguing task. Differences in TQMVC, TQTRI, and VA% before and after the fatiguing task were examined, and the relationship between TQMVC and TQTRI or VA% after the fatiguing task normalized to baseline was examined using Pearson product-moment correlation analysis. TQMVC and TQTRI decreased significantly after the fatiguing task (31.1% decrease for TQMVC, 38.8% decrease for TQTRI, p < 0.001), whereas VA% did not change significantly (4.2% increase for VA%, p = 0.057). After the fatiguing task, the normalized TQMVC was significantly correlated with the normalized TQTRI (r = 0.617, p < 0.001), but not with the normalized VA% (r = 0.348, p = 0.082). Individual differences in knee extensor fatigue induced by sustained mid-level contraction were more affected by peripheral fatigue than by central fatigue. Therefore, focusing on fatigue resistance in peripheral areas is important to improve endurance in moderate-intensity exercises.

Published

2021

30. Muscle length influence on rectus femoris damage and protective effect in knee extensor eccentric exercise

Author

Ryota Akagi, Koya Ikeda, Ryoichi Ema, Kazunori Nosaka, Akihiro Kanda, and Ryosuke Kawashima

Subjects

Male, medicine.medical_specialty, Supine position, Physical Therapy, Sports Therapy and Rehabilitation, Electromyography, Isometric exercise, 030204 cardiovascular system & hematology, Sitting, Quadriceps Muscle, Young Adult, 03 medical and health sciences, 0302 clinical medicine, shear modulus, Elastic Modulus, Isometric Contraction, Internal medicine, Supine Position, hip flexion, medicine, Humans, Knee, Orthopedics and Sports Medicine, Muscle Strength, repeated bout effect, Exercise, muscle soreness, Sitting Position, Knee extensors, medicine.diagnostic_test, business.industry, Myalgia, Original Articles, 030229 sport sciences, musculoskeletal system, Torque, maximal voluntary contraction, Eccentric exercise, Cardiology, Original Article, business, human activities, Hip flexion

Abstract

This study tested the hypothesis that the magnitude of rectus femoris (RF) damage and the repeated bout effect (RBE) would be greater after knee extensor eccentric exercise performed in a supine (long RF lengths) than a sitting (short RF lengths) position, and the muscle length effects would be more prominent at the proximal than distal RF. Young untrained men were placed to one of the two groups (n = 14 per group). S group performed the knee extensor eccentric exercise in the sitting position for the first bout and the supine position for the second bout, and L group performed the exercise in the supine position for two bouts, with 4 weeks between bouts. Dependent variables included evoked and maximal voluntary isometric contraction (MVC) torque, electromyography (EMG) during MVC, muscle soreness, and shear modulus, which were measured before and 1‐3 days after each exercise bout. After the first bout, L group in comparison with S group showed greater (P

Published

2020

31. Differential changes in muscle architecture and neuromuscular fatigability induced by isometric resistance training at short and long muscle-tendon unit lengths

Author

Geoffrey A. Power, Avery Hinks, and Ryota Akagi

Subjects

Male, Physiology, Isometric exercise, Biology, Plateau (mathematics), Tendons, 03 medical and health sciences, 0302 clinical medicine, Isometric Contraction, Physiology (medical), medicine, Humans, Muscle, Skeletal, Resistance training, Resistance Training, 030229 sport sciences, Anatomy, Tendon, medicine.anatomical_structure, Torque, Muscle Fatigue, Fascicle length, Female, Muscle architecture, 030217 neurology & neurosurgery, Research Article

Abstract

We evaluated the effects of differential muscle architectural adaptations on neuromuscular fatigue resistance. Seven young males and six females participated in this study. Using a longitudinal within-subject design, legs were randomly assigned to perform isometric training of the tibialis anterior (TA) three times per week for 8 wk at a short (S-group) or long muscle-tendon unit length (L-group). Before and following training, fascicle length (FL) and pennation angle (PA) of the TA were assessed. As well, fatigue-related time course changes in isometric maximal voluntary contraction (MVC) torque and isotonic peak power (20% MVC resistance) were determined before, immediately after, and 1, 2, 5, and 10 min following task failure. The fatiguing task consisted of repeated maximal effort isotonic (20% MVC resistance) contractions over a 40° range of motion until the participant reached a 40% reduction in peak power. Although there was no clear improvement in neuromuscular fatigue resistance following training in either group (P = 0.081; S-group: ∼20%; L-group: ∼51%), the change in neuromuscular fatigue resistance was related positively to the training-induced increase in PA (∼6%, P < 0.001) in the S-group (r = 0.739, P = 0.004) and negatively to the training-induced increase in FL (∼4%, P = 0.001) in the L-group (r = −0.568, P = 0.043). Both groups recovered similarly for MVC torque and peak power after the fatiguing task as compared with before training. We suggest that the relationships between the changes in muscle architecture and neuromuscular fatigue resistance depend on the muscle-tendon unit lengths at which the training is performed. NEW & NOTEWORTHY Eight weeks of isometric training at a long or short muscle-tendon unit length increased and did not change fascicle length, respectively. The “width” of the torque-angle relationship plateau became broader following isometric training at the long length. Despite marked differences in muscle architecture and functional adaptations between the groups, there was only a small-magnitude improvement in neuromuscular fatigue resistance, which was surprisingly negatively related to increased fascicle length in the long length-training group.

Published

2020

32. Associations between Range of Motion and Tissue Stiffness in Young and Older People

Author

Ryosuke Yamadera, Ryota Akagi, and Kosuke Hirata

Subjects

Adult, Male, musculoskeletal diseases, Aging, medicine.medical_specialty, Physical Therapy, Sports Therapy and Rehabilitation, SOLEUS, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Fascia Lata, Prone Position, Humans, Medicine, Orthopedics and Sports Medicine, Range of Motion, Articular, Muscle, Skeletal, Aged, Leg, Electromyography, business.industry, Ultrasound, Applied Sciences, FASCIA, 030229 sport sciences, Fascia, musculoskeletal system, Sciatic Nerve, GASTROCNEMIUS, ULTRASOUND SHEAR WAVE ELASTOGRAPHY, body regions, Prone position, medicine.anatomical_structure, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, Elasticity Imaging Techniques, Sciatic nerve, Deep fascia, Tissue stiffness, Range of motion, business, Older people, Ankle Joint

Abstract

Supplemental digital content is available in the text., Purpose The purpose of this study was to investigate differences in the associations between passive ankle dorsiflexion range of motion (ROM) and stiffness of the triceps surae, sciatic nerve, and deep fascia located in the posterior leg between young and older people. Methods Twenty young and twenty older males were recruited and were placed in a prone position with their hip and knee fully extended. Passive ankle dorsiflexion ROM was determined based on the onset of pain during passive dorsiflexion at 1°·s−1 using an isokinetic dynamometer. Shear wave speeds (as a stiffness index) of the triceps surae, the sciatic nerve, and the deep fascia in the posterior leg were evaluated by ultrasound shear wave elastography. Results The shear wave speeds of the medial and lateral gastrocnemius measured at 15° dorsiflexion correlated negatively with passive ROM in young but not in older participants. The shear wave speed of the sciatic nerve measured at 15° dorsiflexion correlated negatively with passive ROM only in older participants. No association was observed between passive ROM and shear wave speed of the deep fascia in the posterior leg. For data measured at maximal dorsiflexion angle (as an index of stretch tolerance), shear wave speeds of the triceps surae and passive joint torque correlated positively with passive ROM in both groups. Conclusion These results suggest that the tissues limiting passive ankle dorsiflexion ROM are muscle and nerve for young and older people, respectively, whereas stretch tolerance influences passive ROM for both groups. This implies that the relative contribution of nonmuscular tissues to joint flexibility become stronger than that of muscles with age.

Published

2020

33. Ultrasonic shear-wave elastography: A novel method for assessing musculoskeletal soft tissue and nerves

Author

Masatoshi Nakamura and Ryota Akagi

Subjects

Neurology, Physiology (medical), Elasticity Imaging Techniques, Humans, Ultrasonics, Neurology (clinical), Sensory Systems

Published

2022

34. Muscle quality indices separately associate with joint-level power-related measures of the knee extensors in older males

Author

Kosuke Hirata, Mari Ito, Yuta Nomura, Chiho Kawashima, Yuma Tsuchiya, Kosuke Ooba, Tsukasa Yoshida, Yosuke Yamada, Geoffrey A. Power, Neale A. Tillin, and Ryota Akagi

Subjects

Male, Knee Joint, Physiology, Public Health, Environmental and Occupational Health, Water, General Medicine, Quadriceps Muscle, Torque, Physiology (medical), Isometric Contraction, Humans, Orthopedics and Sports Medicine, Knee, Muscle Strength, Muscle, Skeletal, Aged

Abstract

Purpose The purpose of this study was to investigate associations of muscle quality indices with joint-level power-related measures in the knee extensors of thirty-two older males (65–88 years). Methods Muscle quality indices included: echo intensity, ratio of intracellular- to total water content (ICW/TW), and specific muscle strength. Echo intensity was acquired from the rectus femoris (EIRF) and vastus lateralis (EIVL) by ultrasonography. ICW/TW was computed from electrical resistance of the right thigh obtained by bioelectrical impedance spectroscopy. Specific muscle strength was determined as the normalized maximal voluntary isometric knee extension (MVIC) torque to estimated knee extensor volume. Isotonic maximal effort knee extensions with a load set to 20% MVIC torque were performed to obtain the knee extension power-related measures (peak power, rate of power development [RPD], and rate of velocity development [RVD]). Power and RPD were normalized to MVIC. Results There were no significant correlations between muscle quality indices except between EIRF and EIVL (|r|≤ 0.253, P ≥ 0.162). EIRF was negatively correlated with normalized RPD and RVD (r ≤ − 0.361, P ≤ 0.050). ICW/TW was positively correlated with normalized peak power (r = 0.421, P = 0.020). Specific muscle strength was positively correlated with absolute peak power and RPD (r ≥ 0.452, P ≤ 0.012). Conclusion Knee extension power-related measures were lower in participants with higher EI, lower ICW/TW, and lower specific muscle strength, but the muscle quality indices may be determined by independent physiological characteristics.

Published

2022

35. Trade-Off Between Maximal Power Output and Fatigue Resistance of the Knee Extensors for Older Men

Author

Ryota Akagi, Yuta Nomura, Chiho Kawashima, Mari Ito, Kosuke Oba, Yuma Tsuchiya, Geoffrey A. Power, and Kosuke Hirata

Subjects

Male, Torque, Electromyography, Isometric Contraction, Rehabilitation, Muscle Fatigue, Humans, Physical Therapy, Sports Therapy and Rehabilitation, Knee, Geriatrics and Gerontology, Muscle, Skeletal, Gerontology, Aged

Abstract

This study investigated associations of fatigue resistance determined by an exercise-induced decrease in neuromuscular power with prefatigue neuromuscular strength and power of the knee extensors in 31 older men (65–88 years). A fatigue task consisted of 50 consecutive maximal effort isotonic knee extensions (resistance: 20% of prefatigue isometric maximal voluntary contraction torque) over a 70° range of motion. The average of the peak power values calculated from the 46th to 50th contractions during the fatigue task was normalized to the prefatigue peak power value, which was defined as neuromuscular fatigue resistance. Neuromuscular fatigue resistance was negatively associated with prefatigue maximal power output (r = −.530) but not with prefatigue maximal voluntary contraction torque (r = −.252). This result highlights a trade-off between prefatigue maximal power output and neuromuscular fatigue resistance, implying that an improvement in maximal power output might have a negative impact on neuromuscular fatigue resistance.

Published

2021

36. Membrane capacitance and characteristic frequency are associated with contractile properties of skeletal muscle

Author

Yosuke Yamada, Kosuke Hirata, Natsuki Iida, Akihiro Kanda, Mikio Shoji, Tsukasa Yoshida, Motohiko Myachi, and Ryota Akagi

Subjects

History, Polymers and Plastics, Electromyography, Biomedical Engineering, Biophysics, Industrial and Manufacturing Engineering, Electric Stimulation, Torque, Isometric Contraction, Humans, Female, Business and International Management, Muscle, Skeletal, Muscle Contraction

Abstract

The cell membrane capacitance (Cm) and characteristic frequencies (fc) of tissues can be obtained using segmental bioelectrical impedance spectroscopy (S-BIS). Higher Cm and lower fc are associated with a larger surface area of skeletal muscle fibers with T-tubules in the tissues. Muscle fiber membrane is one of the major physiological factors that influence surface electromyograms (EMGs) as well as the number of recruited motor units so that the amplitude of surface EMG may be correlated with Cm and fc. The aim of the current study was to examine the association of fc or Cm in the lower leg with contractile and neuromuscular properties in the plantar flexors. We analyzed data from 59 participants (29 women) aged 21-83 years. The Cm, fc, and intracellular water (ICW) in the lower leg were obtained using S-BIS. We measured electrical-evoked torque, maximal voluntary contraction (MVC) torque, and amplitude of EMG normalized by the M wave during MVC contraction. The high Cm group had a significantly lower fc and significantly higher MVC torque, estimated maximum torque, twitch torque, and root mean square (RMS) of EMG normalized by the M wave (EMG:M) in the musculus triceps surae compared to the low Cm group (P 0.05). Cm was positively and fc was negatively correlated with the nRMS of EMG:M in the triceps surae (P 0.05). S-BIS recordings can be used to detect changes in skeletal muscle membrane capacitance, which may provide insights into the number of T-tubules. The muscle capacitance measured with S-BIS can be predictive of muscle force generation.

Published

2022

37. Relationship between resting medial gastrocnemius stiffness and drop jump performance

Author

Naoya Hirata, Ryosuke Ando, Ryota Akagi, Hiroki Tanimoto, Shinya Sato, Yasuhiro Suzuki, Naoto Imaizumi, and Kosuke Hirata

Subjects

Adult, Male, Materials science, Movement, Biophysics, Neuroscience (miscellaneous), Medial gastrocnemius, Athletic Performance, Shear modulus, Tendons, 03 medical and health sciences, 0302 clinical medicine, Elastic Modulus, medicine, Humans, Muscle, Skeletal, Leg, Drop (liquid), Stiffness, 030229 sport sciences, Muscle stiffness, musculoskeletal system, Shear (sheet metal), Drop jump, Jump, Elasticity Imaging Techniques, Neurology (clinical), medicine.symptom, 030217 neurology & neurosurgery, Biomedical engineering

Abstract

Although the influence of the series elastic element of the muscle–tendon unit on jump performance has been investigated, the corresponding effect of the parallel elastic element remains unclear. This study examined the relationship between the resting calf muscle stiffness and drop jump performance. Twenty-four healthy men participated in this study. The shear moduli of the medial gastrocnemius and the soleus were measured at rest as an index of muscle stiffness using ultrasound shear wave elastography. The participants performed drop jumps from a 15 cm high box. The Spearman rank correlation coefficient was used to examine the relationships between shear moduli of the muscles and drop jump performance. The medial gastrocnemius shear modulus showed a significant correlation with the drop jump index (jump height/contact time) (r = 0.414, P = 0.044) and jump height (r = 0.411, P = 0.046), but not with contact time (P > 0.05). The soleus shear modulus did not correlate with these jump parameters (P > 0.05). These results suggest that the resting medial gastrocnemius stiffness can be considered as one of the factors that influence drop jump performance. Therefore, increase in resting muscle stiffness should enhance explosive athletic performance in training regimens.

Published

2021

38. Influence of isometric training at short and long muscle-tendon unit lengths on the history dependence of force

Author

Geoffrey A. Power, Avery Hinks, Brooke Davidson, and Ryota Akagi

Subjects

Anterior Fascicle, Adult, Male, Sarcomeres, medicine.medical_specialty, Time Factors, Action Potentials, Physical Therapy, Sports Therapy and Rehabilitation, Isometric exercise, Electromyography, 030204 cardiovascular system & hematology, Plantar flexion, Tendons, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Isometric Contraction, medicine, Humans, Orthopedics and Sports Medicine, Muscle Strength, Peripheral Nerves, Muscle, Skeletal, Ultrasonography, medicine.diagnostic_test, business.industry, Resistance training, Resistance Training, 030229 sport sciences, Adaptation, Physiological, Electric Stimulation, Tendon, medicine.anatomical_structure, Torque, Fascicle length, Female, business, Muscle architecture

Abstract

The history dependence of force is an intrinsic property of muscle whereby a muscle actively shortened or lengthened to an isometric steady-state produces less (residual force depression; rFD) or more force (residual force enhancement; rFE), respectively, than a purely isometric contraction at the same muscle length and level of activation. Previous studies on the modifiability of the history dependence of force have been inconclusive, and none have attempted to modify rFD and rFE through isometric resistance training biased to short versus long muscle-tendon unit (MTU) lengths. We tested maximal voluntary rFD and rFE in 7 males and 6 females before and after 8 weeks of maximal isometric dorsiflexion training 3 days/week. Participants trained one leg at 0° of plantar flexion (short-MTU training) and one at 40° of plantar flexion (long-MTU training). Ultrasonography of the tibialis anterior assessed resting muscle architecture. Tibialis anterior fascicle length decreased by ~3% following short-MTU training (P = 0.03) and increased by ~4% following long-MTU training (P = 0.01). rFD did not change following training at either MTU length (absolute rFD: P = 0.53; percent rFD: P = 0.51), nor did rFE (absolute rFE: P = 0.78; percent rFE: P = 0.80), with no relationships between the change in fascicle length and the change in percent rFD (R2 = 0.01, P = 0.62) nor rFE (R2 = 0.001, P = 0.88). Our data indicate that voluntary rFD and rFE were not modified by isometric training and not related to the fascicle length adaptations we observed.

Published

2020

39. A Biomechanical Analysis of the Relationship between the Joint Powers during the Standing Long Jump and Maximum Isokinetic Strength of the Lower Limb Joints*

Author

Ryota Akagi, Toshiharu Yokozawa, Hiroshi Arakawa, Yoichi Katsumata, and Daisuke Kumagawa

Subjects

medicine.medical_specialty, Physical medicine and rehabilitation, Arm swing, medicine, Isokinetic strength, Standing long jump, Joint (geology), Lower limb, Mathematics

Published

2019

40. Theaflavins decrease skeletal muscle wasting in disuse atrophy induced by hindlimb suspension in mice

Author

Ryota Akagi, Tomoya Ueno, Kenta Suzuki, Naomi Osakabe, Yasuyuki Fujii, Ayaka Yamamoto, Taiki Fushimi, and Nayuta Hirashima

Subjects

0301 basic medicine, medicine.medical_specialty, Clinical Biochemistry, Protein metabolism, Medicine (miscellaneous), FoxO3a, theaflavins, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, skeletal muscle atrophy, Internal medicine, medicine, Initiation factor, Wasting, Protein kinase B, PI3K/AKT/mTOR pathway, 030109 nutrition & dietetics, Nutrition and Dietetics, Skeletal muscle, Hindlimb Suspension, musculoskeletal system, medicine.anatomical_structure, Endocrinology, chemistry, Phosphorylation, 030211 gastroenterology & hepatology, Original Article, hindlimb suspension, medicine.symptom

Abstract

We previously found that a single dose of theaflavins induced skeletal muscle metabolic changes. In this study, we examined the effect of theaflavins on disuse muscle atrophy model mice by hindlimb suspension. Mice were assigned to 4 groups; ground-vehicle, ground-theaflavins, suspension-vehicle, and suspension-theaflavins, dosed with theaflavins (250 mg/kg/day) for 2 weeks. The peak of myotube size of cross sectional area was significantly moved to the smaller side in the suspension-vehicle group compared with the ground-vehicle group, and these shifts were significantly reduced by the treatment with theaflavins in both soleus and extensor digitorum longus. The level of phosphorylated eukaryotic translation initiation factor 4E-binding protein (4EBP)-1, located downstream of the Akt/mTOR pathway, was significantly different between suspension-vehicle and suspension-theaflavins in soleus. The ratio of forkhead box O (FoxO) 3a to phosphorylated FoxO3a significantly increased in soleus or tended to rise in extensor digitorum longus of suspension-vehicle group compared with ground-vehicle. In contrast, these changes were not observed in suspension-theaflavins group. These results suggested that theaflavins inhibited the progress of disuse muscle atrophy through modulation of protein metabolism.

Published

2020

41. Neuromuscular adaptations induced by adjacent joint training

Author

Ryoichi Ema, I. Saito, and Ryota Akagi

Subjects

Adult, Male, musculoskeletal diseases, medicine.medical_specialty, Knee Joint, education, Physical Therapy, Sports Therapy and Rehabilitation, Rectus femoris muscle, Isometric exercise, Electromyography, Knee extension, Quadriceps Muscle, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Humans, Orthopedics and Sports Medicine, Muscle Strength, Range of Motion, Articular, medicine.diagnostic_test, Knee extensors, business.industry, Training (meteorology), Resistance Training, Twitch interpolation, 030229 sport sciences, musculoskeletal system, Adaptation, Physiological, Torque, Hip Joint, business, 030217 neurology & neurosurgery, Hip flexion

Abstract

Effects of resistance training are well known to be specific to tasks that are involved during training. However, it remains unclear whether neuromuscular adaptations are induced after adjacent joint training. This study examined the effects of hip flexion training on maximal and explosive knee extension strength and neuromuscular performance of the rectus femoris (RF, hip flexor, and knee extensor) compared with the effects of knee extension training. Thirty-seven untrained young men were randomly assigned to hip flexion training, knee extension training, or a control group. Participants in the training groups completed 4 weeks of isometric hip flexion or knee extension training. Standardized differences in the mean change between the training groups and control group were interpreted as an effect size, and the substantial effect was assumed to be ≥0.20 of the between-participant standard deviation at baseline. Both types of training resulted in substantial increases in maximal (hip flexion training group: 6.2% ± 10.1%, effect size = 0.25; knee extension training group: 20.8% ± 9.9%, effect size = 1.11) and explosive isometric knee extension torques and muscle thickness of the RF in the proximal and distal regions. Improvements in strength were accompanied by substantial enhancements in voluntary activation, which was determined using the twitch interpolation technique and RF activation. Differences in training effects on explosive torques and neural variables between the two training groups were trivial. Our findings indicate that hip flexion training results in substantial neuromuscular adaptations during knee extensions similar to those induced by knee extension training.

Published

2017

42. Effect of calf-raise training on rapid force production and balance ability in elderly men

Author

Ryoichi Ema, Shunsuke Ohki, Yuji Kobayashi, Hirokazu Takayama, and Ryota Akagi

Subjects

Male, medicine.medical_specialty, electromyography, Physiology, education, Posture, Electromyography, rate of torque development, Plantar flexion, single-leg standing, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), Isometric Contraction, medicine, Production (economics), Humans, Muscle, Skeletal, Postural Balance, plantar flexion, home-based, Balance (ability), Aged, medicine.diagnostic_test, business.industry, Teaching, Training (meteorology), 030229 sport sciences, Home based, Torque, Physical therapy, business, 030217 neurology & neurosurgery, Research Article

Abstract

Calf-raise training with the intent to move rapidly, without special equipment or venue, induces an improvement of explosive plantar flexion force, which is attributable to neuromuscular rather than musculotendinous adaptations. Although the training effect on balance performance was trivial, we found a sign of improvement (i.e., neuromuscular adaptations during standing). In conclusion, functional neuromuscular capacity can be enhanced by home-based calf-raise exercise in elderly men, which may protect against mobility loss with aging., This study examined whether home-based, high-speed calf-raise training changes the rate of torque development (RTD) during plantar flexion contractions and balance performance in elderly men. Thirty-four healthy elderly men (73 ± 5 yr) were randomly assigned to a training or control group (n = 17 in each group). The subjects in the training group completed 8 wk (3 times/wk) of home-based bilateral calf-raise training using body mass. Before and after the intervention, RTD during plantar flexion contractions and center-of-pressure (COP) displacement during single-leg standing were measured. Surface electromyographic amplitude of the triceps surae and tibialis anterior during the strength and single-leg standing was measured. Clinical magnitude-based inferences were used to interpret the training effect, with the smallest worthwhile effect assumed to be 0.2 of the baseline SD. The peak RTD increased 21% (90% confidence limits, ±19%) relative to the control group, which was accompanied by corresponding changes of the medial gastrocnemius (MG) and soleus (SOL) activations. The effect on COP displacement was possibly trivial (0%, ±13%), whereas substantial reduction in the MG (−19%, ±15%) and SOL (−25%, ±13%) activations during standing was observed. Our findings indicate that calf-raise training at home, performed without special equipment or venue, induces a substantial increase in the plantar flexors’ rapid force-generating capability and triceps surae activations. Although the training effect on standing balance performance was not substantial, observed changes in the triceps surae activations during standing are expected to contribute to future balance performance improvement. NEW & NOTEWORTHY Calf-raise training with the intent to move rapidly, without special equipment or venue, induces an improvement of explosive plantar flexion force, which is attributable to neuromuscular rather than musculotendinous adaptations. Although the training effect on balance performance was trivial, we found a sign of improvement (i.e., neuromuscular adaptations during standing). In conclusion, functional neuromuscular capacity can be enhanced by home-based calf-raise exercise in elderly men, which may protect against mobility loss with aging.

Published

2017

43. Does the combination of different pitches and the absence of pitch type information influence timing control during batting in baseball?

Author

Ryota Akagi, Yuji Matsuzaki, and Shuji Kidokoro

Subjects

Male, Kinematics, Time Factors, Physiology, Social Sciences, Animal flight, 0302 clinical medicine, Mathematical and Statistical Techniques, Hearing, Statistics, Bats, Elbow Joint, Medicine and Health Sciences, Psychology, Bat Flight, Range of Motion, Articular, Pitch Perception, Musculoskeletal System, Animal Flight, Mathematics, Mammals, Multidisciplinary, Shoulder Joint, Physics, Eukaryota, Classical Mechanics, Thorax, Random condition, Sports Science, Vertebrates, Physical Sciences, Ball (bearing), Medicine, Sensory Perception, Female, Anatomy, Research Article, Sports, Adolescent, Science, Pitch perception, Research and Analysis Methods, Baseball, Motion capture, Pelvis, 03 medical and health sciences, Young Adult, Timing error, Animals, Humans, Force platform, Statistical Methods, Behavior, Analysis of Variance, Biological Locomotion, Organisms, Biology and Life Sciences, 030229 sport sciences, Amniotes, Recreation, 030217 neurology & neurosurgery, Neuroscience

Abstract

Baseball pitchers use various pitch types to reduce hitting accuracy, but little is understood of the practical strategy of using visuomotor skills and timing control to respond to different pitches. This study examined 1) effectiveness of pitch type combinations, and 2) relationship between the presence and absence of advance information about the next pitch and the timing error. Twenty-six high school baseball players hit a ball launched from a pitching machine in a combination of fastballs (34.3±1.3 m·s-1), curveballs (25.4±1.0 m·s-1), and slowballs (25.5±0.9 m·s-1). Each participant performed three conditions. (1) Continuity condition (15 trials), in which the same pitch type was thrown five times consecutively. (2) Random condition (30 trials), in which pitch type was not preliminarily conveyed to the participants. (3) Open condition (20 trials), in which the next pitch type was preliminarily conveyed to participants. Participants' hitting movement was recorded by an optical motion capture system and force platform. We calculated timing error based on the difference between the measured impact location (ball position relative to the batter's body at ball-bat impact) and optimal impact location. The timing error between n-th pitch type, (n-1)-th pitch, and the presence or absence of advance information about pitch type (open vs random condition) were analyzed using three-way repeated ANOVA. The results showed that the (n-1)-th pitch type did not affect the timing of impact (p = 0.338). In contrast, the timing errors in open conditions were fewer compared to random conditions (p < 0.001). These results indicate that the pitch type sequence has insignificant effects, and advance information about pitches affects the timing errors. Therefore, having two or more pitch types, reducing the fluctuation of the pitching motion, and the early trajectory of the ball between different pitches potentially lead to increase timing errors.

Published

2020

44. Differential contributions of fatigue-induced strength loss and slowing of angular velocity to power loss following repeated maximal shortening contractions

Author

Brooke Davidson, Geoffrey A. Power, Ryota Akagi, and Avery Hinks

Subjects

Adult, Male, neuromuscular fatigue, Physiology, dorsiflexion, Angular velocity, Strength loss, Isometric exercise, 030204 cardiovascular system & hematology, lcsh:Physiology, isometric contraction, 03 medical and health sciences, 0302 clinical medicine, Physiology (medical), Isotonic, Torque, Humans, Muscle Strength, Muscle, Skeletal, Mathematics, Original Research, Power loss, lcsh:QP1-981, Differential (mechanical device), isotonic contraction, Mechanics, Power (physics), Biomechanical Phenomena, Muscle Fatigue, Female, 030217 neurology & neurosurgery

Abstract

The purpose of this study was to investigate the relationship between fatigue‐induced reductions in isometric torque and isotonic power and to quantify the extent to which the decreases in angular velocity and dynamic torque can explain the power loss immediately following an isotonic fatiguing task and throughout recovery in seven young males and six young females. All measurements were performed with both legs. For dorsiflexion, fatigue‐related time‐course changes in isometric maximal voluntary contraction (MVC) torque, angular velocity, dynamic torque, and power production following repeated maximal isotonic contractions (load: 20% MVC) were investigated before, immediately after, and 1, 2, 5 and 10 min after a fatiguing task. There were no relationships between the fatigue‐related reductions in isometric MVC torque and peak power at any timepoint, suggesting that fatigue‐induced reductions in isometric MVC torque does not entirely reflect fatigue‐induced changes in dynamic performance. The relative contribution of fatigue‐related reduction in dynamic torque on power loss was greater immediately following the task, and lower throughout recovery than the corresponding decrease in angular velocity. Thus, power loss immediately following the task was more strongly related to the decline in dynamic torque; however, this relationship shifted throughout recovery to a greater dependence on slowing of angular velocity for power loss., The current study used multiplication of the standard regression coefficient and Pearson's product–moment correlation coefficient to tease out the relative contributions of angular velocity and dynamic torque to power production immediately following a maximal dynamic fatiguing task and throughout recovery. Here, we show for the first time that the relative contributions of fatigue‐induced slowing of angular velocity and decrease in dynamic torque to power loss vary depending on the timepoints from immediately following the fatiguing task to throughout recovery.

Published

2019

45. Active recovery has a positive and acute effect on recovery from fatigue induced by repeated maximal voluntary contractions of the plantar flexors

Author

Shinya Sato, Naoya Hirata, Kosuke Hirata, Ryota Akagi, Naoto Imaizumi, and Hiroki Tanimoto

Subjects

Adult, Male, medicine.medical_specialty, Contraction (grammar), Biophysics, Neuroscience (miscellaneous), Passive recovery, Acute effect, Electromyography, Isometric exercise, Plantar flexion, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Isometric Contraction, medicine, Humans, Muscle, Skeletal, medicine.diagnostic_test, business.industry, Significant difference, 030229 sport sciences, Recovery of Function, Compound muscle action potential, Torque, Muscle Fatigue, Neurology (clinical), business, 030217 neurology & neurosurgery

Abstract

This study investigated the acute effect of active recovery (AR) following fatigue induced by 80 three-second maximal voluntary isometric plantar flexion contractions (MVICs) in 12 young men. AR consisted of a total of 180 voluntary isometric ramp contractions of the plantar flexors (0.75-s contraction/relaxation) targeting 10% of MVIC torque. MVIC torque, voluntary activation and root mean square values of electromyographic signals for the triceps surae normalized by each peak-to-peak amplitude of compound motor action potential were determined before, and immediately, 10, 20 and 30 min after the fatiguing task. Evoked torques were similarly assessed except for immediately after it. The AR and passive recovery were randomly performed on two days by each participant between 5 min and 10 min after the fatiguing task. For all the parameters other than MVIC torque, there was no significant difference between the conditions at any time point. MVIC torque decreased significantly immediately after the fatiguing task regardless of condition (P 0.05), and the corresponding decrease in MVIC torque recovered 30 min after the fatiguing task only in AR (P 0.05). These results suggest an acute positive effect of AR on recovery of neuromuscular function and/or contractile properties after fatigue.

Published

2019

46. A Six-Week Resistance Training Program Does Not Change Shear Modulus of the Triceps Brachii.

Author

Ryota Akagi, Tomofumi Shikiba, Jun Tanaka, and Hideyuki Takahashi

Subjects

ANALYSIS of variance, MEDICAL protocols, RESEARCH funding, SHEAR (Mechanics), T-test (Statistics), TIME, TRICEPS, EVALUATION of human services programs, DATA analysis software, RESISTANCE training

Published

2016

47. Plantar flexor strength at different knee positions in older and young males and females

Author

Ryoichi Ema, Ryota Akagi, Emi Kawaguchi, and Momoka Suzuki

Subjects

Male, 0301 basic medicine, Aging, medicine.medical_specialty, Knee Joint, Medial gastrocnemius, Biochemistry, Plantar flexion, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Physical medicine and rehabilitation, Voluntary contraction, Isometric Contraction, Genetics, medicine, Humans, Knee, Muscle, Skeletal, Molecular Biology, Young male, Aged, Electromyography, business.industry, Cell Biology, musculoskeletal system, body regions, 030104 developmental biology, Torque, Time to peak, Female, Early phase, business, human activities, 030217 neurology & neurosurgery, Lateral gastrocnemius

Abstract

Introduction This study examined the effects of age and knee position (fully extended, K0; 90° flexed, K90) on plantar flexor maximal voluntary contraction (MVC) torque and the rate of torque development (RTD) in both sexes. Methods The following parameters were measured in 32 older (66–81 yr, 17 males and 15 females) and 37 young (20–30 yr, 18 males and 19 females) adults: evoked peak twitch torque, time to peak twitch torque, RTD of the twitch torque, MVC torque, RTD at early (0–50 ms, RTD0–50) and later (100–200 ms, RTD100–200) time intervals during explosive contractions, voluntary activation (VA%) during MVC, root mean square of the electromyogram (RMS-EMG) during MVC and explosive contractions, thickness of the triceps surae, and pennation angle of the medial gastrocnemius. The magnitudes of the differences were interpreted based on Cohen's d (d). Results Age-related difference in RTD0–50 was greater for females (d = 1.36) than males (d = 1.03) and vice versa for MVC torque and RTD100–200. For young adults, MVC torque, RTDs, and RMS-EMGs of the gastrocnemius but not the soleus were significantly higher in K0 than in K90. For older adults, no differences in voluntary RTDs were observed between K0 and K90, and RMS-EMGs of the gastrocnemius were higher in K90 than in K0, except for that of the lateral gastrocnemius in the early time intervals during explosive contraction. The age-related difference in the effect of knee position for RTD0–50 was higher in females than males, and vice versa for MVC torque and RTD100–200. Conclusion The results suggested that the effects of age and knee joint angle on the plantar flexor performance were more prominent in the early phase of force production for females and were more apparent in the later phase and maximal force for males.

Published

2020

48. Carbon dioxide hydrate as a recovery tool after fatigue of the plantar flexors

Author

Ryota Akagi, Hiroki Tanimoto, Naoto Imaizumi, Shinya Sato, Kosuke Hirata, Yoshihiko Sugihara, Hiroyuki Murakami, and Naoya Hirata

Subjects

Male, 0206 medical engineering, Biomedical Engineering, Biophysics, 02 engineering and technology, Isometric exercise, Plantar flexion, 03 medical and health sciences, 0302 clinical medicine, Isometric Contraction, Humans, Medicine, Orthopedics and Sports Medicine, Peripheral muscle fatigue, Muscle, Skeletal, Carbon dioxide clathrate, Muscle fatigue, Electromyography, business.industry, Rehabilitation, Carbon Dioxide, 020601 biomedical engineering, Electric Stimulation, Torque, Anesthesia, Muscle Fatigue, business, 030217 neurology & neurosurgery

Abstract

This study investigated the effects of cooling the triceps surae with carbon dioxide hydrate (CDH), which is a gas hydrate, a crystalline structure belonging to the clathrates, on the recovery from muscle fatigue. Thirty-six healthy young men were equally and randomly assigned to an ICE group, a CDH group, or a non-cooling (NON) group. All participants performed 80 maximal voluntary isometric contractions (MVCs) of the plantar flexors as a fatiguing task. MVC torque and voluntary activation were determined before, immediately after, and 20 min after the fatiguing task. Evoked torque was similarly assessed except for immediately after the task. In the ICE and CDH groups, the triceps surae was cooled for 5 min using ice and CDH, starting 5 min after the fatiguing task, respectively. The MVC torque and voluntary activation were higher in order of before >20 min after >immediately after the fatiguing task regardless of group, and those time-course changes did not differ between the groups. A decrease in the evoked torque from before to 20 min after the fatiguing task was observed in the ICE and NON groups but not in the CDH group. These results suggest that cooling muscle with CDH can facilitate recovery from peripheral muscle fatigue. This may be due to an increase in blood flow caused by carbon dioxide contained within the CDH, and indicates the potential of CDH as a recovery tool after fatiguing exercise.

Published

2020

49. Effects of 4 Weeks of Explosive-type Strength Training for the Plantar Flexors on the Rate of Torque Development and Postural Stability in Elderly Individuals

Author

Y. Kobayashi, Ryota Akagi, Yuta Ueyasu, and Y. Yamashita

Subjects

Male, medicine.medical_specialty, Strength training, Posture, Physical Therapy, Sports Therapy and Rehabilitation, Electromyography, Muscle volume, Plantar flexion, 03 medical and health sciences, 0302 clinical medicine, Voluntary contraction, Physical medicine and rehabilitation, medicine, Humans, Torque, Orthopedics and Sports Medicine, Muscle Strength, Muscle, Skeletal, Aged, medicine.diagnostic_test, Foot, business.industry, Resistance Training, 030229 sport sciences, body regions, Postural stability, Physical therapy, Female, business, 030217 neurology & neurosurgery, Lower Leg Length

Abstract

This study aimed to investigate the effect of a 4-week explosive-type strength training program for the plantar flexors on the rate of torque development and postural stability. The participants were 56 elderly men and women divided into training (17 men and 15 women) and control (14 men and 10 women) groups. The participants in the training group underwent explosive-type strength training of the plantar flexors 2 days per week for 4 weeks. Training consisted of 3 sets of 10 repetitions of explosive plantar flexion lasting less than 1 s. The following parameters were determined: muscle volume of the plantar flexors estimated by the muscle thickness and lower leg length, maximal voluntary contraction torque and rate of torque development of plantar flexion, and one-leg standing ability. The training increased the maximal voluntary contraction torque and rate of torque development, but corresponding increases in muscle volume and one-leg standing ability were not found. These results suggest that, for elderly individuals, the 4-week explosive-type strength training of the plantar flexors is effective for increasing the maximal voluntary contraction torque and rate of torque development of plantar flexion but is not effective for improving postural stability.

Published

2016

50. Biomechanical study of relationship between joint powers of the lower limb during the standing long jump and maximum isokinetic strength

Author

Daisuke Kumagawa, Ryota Akagi, Toshiharu Yokozawa, Yoichi Katsumata, and Hiroshi Arakawa

Subjects

03 medical and health sciences, medicine.medical_specialty, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Isokinetic strength, 030229 sport sciences, 030204 cardiovascular system & hematology, Standing long jump, Joint (geology), Lower limb, Mathematics

Published

2016