Your search keyword '"Tatsunori Watanabe"' showing total 95 results

1. Color-induced cognitive conflicts affect muscle activity prior to gait initiation in the Go/No-go task

Author

Takayuki Horinouchi, Haruki Ishida, Kangjing Yang, Jingnan Li, Takuya Morishita, Tatsunori Watanabe, and Hikari Kirimoto

Subjects

Go/No-go task, prior knowledge of color, gait initiation, tibialis anterior muscle, center of pressure, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionIn traffic rule, green/blue means go, and red means stop. It has been shown that this prior knowledge about traffic signal colors can affect reaction times (RTs). For example, RTs are longer when responding to a red “Go” signal and withholding the response to a blue “No-go” signal (Red Go/Blue No-go task) than when responding to a blue “Go” signal and withholding the response to a red “No-go” signal (Blue Go/Red No-go task), when responses are provided by button press. However, it remains unknown whether this holds in different actions. The aim of this study was to investigate the effect of prior knowledge of color on gait initiation in a Go/No-go task.MethodsSeventeen participants performed Green Go/Red No-go and Red Go/Green No-go tasks, in which they stepped forward from a force plate in response to a green or red signal and withhold the response to red or green signal, respectively. We recorded the center of pressure (COP) and electromyogram (EMG) from the bilateral tibialis anterior muscles during gait initiation.ResultsThe onset of COP movement and toe-off time as well as COP displacements did not differ between the Go/No-go tasks. The EMG onset for the stance leg was delayed in the Red Go/Green No-go than Green Go/Red No-go task.DiscussionThese findings suggest that the conflict between prior knowledge of color related to traffic rule and the meaning of the stimulus color affects muscle activity but not COP characteristics during gait initiation, highlighting two distinct motor control mechanisms, where the initial phase is influenced by cognitive load while the subsequent phase remains unaffected. This dissociation suggests that the later phase of gait initiation relies on robust spinal loops and central pattern generators, which are less influenced by cognitive factors such as prior knowledge.

Published

2024

2. Higher synchronization stability with piano experience: relationship with finger and presentation modality

Author

Kanami Ito, Tatsunori Watanabe, Takayuki Horinouchi, Takuya Matsumoto, Keisuke Yunoki, Haruki Ishida, and Hikari Kirimoto

Subjects

Tapping, Sensorimotor synchronization, Multisensory integration, Finger motor control, Musical experience, Physical anthropology. Somatology, GN49-298

Abstract

Abstract Background Synchronous finger tapping to external sensory stimuli is more stable for audiovisual combined stimuli than sole auditory or visual stimuli. In addition, piano players are superior in synchronous tapping and manipulating the ring and little fingers as compared to inexperienced individuals. However, it is currently unknown whether the ability to synchronize to external sensory stimuli with the ring finger is at the level of the index finger in piano players. The aim of this study was to compare the effect of piano experience on synchronization stability between the index and ring fingers using auditory, visual, and audiovisual combined stimuli. Methods Thirteen piano players and thirteen novices participated in this study. They were instructed to tap with their index or ring finger synchronously to auditory, visual, and audiovisual combined stimuli. The stimuli were presented from an electronic metronome at 1 Hz, and the tapping was performed 30 times in each condition. We analyzed standard deviation of intervals between the stimulus onset and the tap onset as synchronization stability. Results Synchronization stability for visual stimuli was lower during ring than index finger tapping in novices; however, this decline was absent in piano players. Also, piano players showed the higher synchronization stability for audiovisual combined stimuli than sole visual and auditory stimuli when tapping with the index finger. On the other hand, in novices, synchronization stability was higher for audiovisual combined stimuli than only visual stimuli. Conclusions These findings suggest that improvements of both sensorimotor processing and finger motor control by piano practice would contribute to superior synchronization stability.

Published

2023

3. Effect of transcranial static magnetic stimulation over unilateral or bilateral motor association cortex on performance of simple and choice reaction time tasks

Author

Takuya Matsumoto, Tatsunori Watanabe, Kanami Ito, Takayuki Horinouchi, Sumiya Shibata, Hiroshi Kurumadani, Toru Sunagawa, Tatsuya Mima, and Hikari Kirimoto

Subjects

transcranial static magnetic stimulation, non-invasive brain stimulation, premotor cortex, simple reaction time task, choice reaction time task, motor association cortex, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

BackgroundTranscranial static magnetic stimulation (tSMS) is a non-invasive brain stimulation technique that place a strong neodymium magnet on scalp to reduce cortical excitability. We have recently developed a new tSMS device with three magnets placed close to each other (triple tSMS) and confirmed that this new device can produce a stronger and broader static magnetic field than the conventional single tSMS. The aim of the present study was to investigate the effect of the conventional single tSMS as well as triple tSMS over the unilateral or bilateral motor association cortex (MAC) on simple and choice reaction time (SRT and CRT) task performance.MethodsThere were two experiments: one involved the conventional tSMS, and the other involved the triple tSMS. In both experiments, right-handed healthy participants received each of the following stimulations for 20 min on different days: tSMS over the unilateral (left) MAC, tSMS over the bilateral MAC, and sham stimulation. The center of the stimulation device was set at the premotor cortex. The participants performed SRT and CRT tasks before, immediately after, and 15 min after the stimulation (Pre, Post 0, and Post 15). We evaluated RT, standard deviation (SD) of RT, and accuracy (error rate). Simulation was also performed to determine the spatial distribution of magnetic field induced by tSMS over the bilateral MAC.ResultsThe spatial distribution of induced magnetic field was centered around the PMd for both tSMS systems, and the magnetic field reached multiple regions of the MAC as well as the sensorimotor cortices for triple tSMS. SD of CRT was significantly larger at Post 0 as compared to Pre when triple tSMS was applied to the bilateral MAC. No significant findings were noted for the other conditions or variables.DiscussionWe found that single tSMS over the unilateral or bilateral MAC did not affect performance of RT tasks, whereas triple tSMS over the bilateral MAC but not over the unilateral MAC increased variability of CRT. Our finding suggests that RT task performance can be modulated using triple tSMS.

Published

2023

4. Very low-frequency transcranial electrical stimulation over the primary motor area can influence the voluntary movement initiation in humans

Author

Sumiya Shibata, Tatsunori Watanabe, Naofumi Otsuru, Hideaki Onishi, and Tatsuya Mima

Subjects

Voluntary movement, Movement-related cortical potential (MRCP), Event-related desynchronization/synchronization (ERD/S), Transcranial alternating current stimulation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2023

5. Triple tSMS system ('SHIN jiba') for non-invasive deep brain stimulation: a validation study in healthy subjects

Author

Sumiya Shibata, Tatsunori Watanabe, Takuya Matsumoto, Keisuke Yunoki, Takayuki Horinouchi, Hikari Kirimoto, Jianxu Zhang, Hen Wang, Jinglong Wu, Hideaki Onishi, and Tatsuya Mima

Subjects

Transcranial static magnetic field stimulation, Non-invasive brain stimulation, Deep brain stimulation, Neodymium magnet, SHIN jiba, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Background Transcranial static magnetic field stimulation (tSMS) using a small and strong neodymium (NdFeB) magnet can temporarily suppress brain functions below the magnet. It is a promising non-invasive brain stimulation modality because of its competitive advantages such as safety, simplicity, and low-cost. However, current tSMS is insufficient to effectively stimulate deep brain areas due to attenuation of the magnetic field with the distance from the magnet. The aim of this study was to develop a brand-new tSMS system for non-invasive deep brain stimulation. Methods We designed and fabricated a triple tSMS system with three cylindrical NdFeB magnets placed close to each other. We compared the strength of magnetic field produced by the triple tSMS system with that by the current tSMS. Furthermore, to confirm its function, we stimulated the primary motor area in 17 healthy subjects with the triple tSMS for 20 min and assessed the cortical excitability using the motor evoked potential (MEP) obtained by transcranial magnetic stimulation. Results Our triple tSMS system produced the magnetic field sufficient for neuromodulation up to 80 mm depth from the magnet surface, which was 30 mm deeper than the current tSMS system. In the stimulation experiment, the triple tSMS significantly reduced the MEP amplitude, demonstrating a successful inhibition of the M1 excitability in healthy subjects. Conclusion Our triple tSMS system has an ability to produce an effective magnetic field in deep areas and to modulate the brain functions. It can be used for non-invasive deep brain stimulation.

Published

2022

6. Significantly earlier ambulation and reduced risk of near-falls with continuous infusion nerve blocks: a retrospective pilot study of adductor canal block compared to femoral nerve block in total knee arthroplasty

Author

Yutaka Fujita, Hisashi Mera, Tatsunori Watanabe, Kenta Furutani, Haruna O. Kondo, Takao Wakai, Hiroyuki Kawashima, and Akira Ogose

Subjects

Total knee arthroplasty, Continuous infusion nerve blocks, Risk of falls and near-falls, Early ambulation recovery, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background Near-falls should be detected to prevent falls related to the earlier ambulation after Total knee arthroplasty (TKA). The quadriceps weakness with femoral nerve block (FNB) has led to a focus on adductor canal block (ACB). We purposed to examine the risk of falls and the earlier ambulation in each continuous infusion nerve block. Methods Continuous infusion nerve block (FNB or ACB) was performed until postoperative day (POD) 2 or 3. Pain levels and falls/near-falls with knee-buckling were monitored from POD 1 to POD 3. The score on the manual muscle test, MMT (0 to 5, 5 being normal), of the patients who could ambulate on POD 1, was investigated. Results A total of 73 TKA cases, 36 FNB and 37 ACB, met the inclusion criteria. No falls were noted. But episodes of near-falls with knee-buckling were witnessed in 14 (39%) cases in the FNB group and in 4 (11%) in the ACB group (p = 0.0068). In the ACB group, 81.1% of patients could ambulate with parallel bars on POD 1, while only 44.4% of FNB patients could do so (p = 0.0019). The quadriceps MMT values in the ACB group was 2.82, significantly higher than 1.97 in the FNB group (p = 0.0035). There were no significant differences in pain as measured with a numerical rating scale (NRS) and rescue analgesia through POD 3. Conclusion ACB was associated with significantly less knee-buckling and earlier ambulation post-TKA, with better quadriceps strength. Our study indicated the incidence of falls and near-falls with continuous infusion nerve blocks, and support the use of ACB to reduce the risk of falls after TKA. It is suggested that a certain number of the patients even with continuous ACB infusion should be considered with the effect of motor branch to prevent falls.

Published

2022

7. The effects of unilateral and bilateral transcranial static magnetic field stimulation over the premotor cortex on simple and choice reaction times

Author

Takayuki Horinouchi, Takuya Matsumoto, Tatsunori Watanabe, Toru Sunagawa, Sumiya Shibata, Tatsuya Mima, and Hikari Kirimoto

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2023

8. Coupled versus decoupled visuomotor feedback: Differential frontoparietal activity during curved reach planning on simultaneous functional near‐infrared spectroscopy and electroencephalography

Author

Duc Trung Le, Hiroki Ogawa, Masato Tsuyuhara, Kazuki Watanabe, Tatsunori Watanabe, Ryosuke Ochi, Hisao Nishijo, Masahito Mihara, Naoto Fujita, and Susumu Urakawa

Subjects

EEG, feedback, fNIRS, frontoparietal cortex, reach planning, visuomotor transformation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Introduction Interacting with the environment requires the planning and execution of reach‐to‐target movements along given reach trajectory paths. Human neural mechanisms for the motor planning of linear, or point‐to‐point, reaching movements are relatively well studied. However, the corresponding representations for curved and more complex reaching movements require further investigation. Additionally, the visual and proprioceptive feedback of hand positioning can be spatially and sequentially coupled in alignment (e.g., directly reaching for an object), termed coupled visuomotor feedback, or spatially decoupled (e.g., dragging the computer mouse forward to move the cursor upward), termed decoupled visuomotor feedback. During reach planning, visuomotor processing routes may differ across feedback types. Methods We investigated the involvement of the frontoparietal regions, including the superior parietal lobule (SPL), dorsal premotor cortex (PMd), and dorsolateral prefrontal cortex (dlPFC), in curved reach planning under different feedback conditions. Participants engaged in two delayed‐response reaching tasks with identical starting and target position sets but different reach trajectory paths (linear or curved) under two feedback conditions (coupled or decoupled). Neural responses in frontoparietal regions were analyzed using a combination of functional near‐infrared spectroscopy and electroencephalography. Results The results revealed that, regarding the cue period, curved reach planning had a higher hemodynamic response in the left SPL and bilateral PMd and a smaller high‐beta power in the left parietal regions than linear reach planning. Regarding the delay period, higher hemodynamic responses during curved reach planning were observed in the right dlPFC for decoupled feedback than those for coupled feedback. Conclusion These findings suggest the crucial involvement of both SPL and PMd activities in trajectory‐path processing for curved reach planning. Moreover, the dlPFC may be especially involved in the planning of curved reaching movements under decoupled feedback conditions. Thus, this study provides insight into the neural mechanisms underlying reaching function via different feedback conditions.

Published

2022

9. Modulation of sensorimotor cortical oscillations in athletes with yips

Author

Tatsunori Watanabe, Kiyoshi Yoshioka, Kojiro Matsushita, and Shin Ishihara

Subjects

Medicine, Science

Abstract

Abstract The yips, an involuntary movement impediment that affects performance in skilled athletes, is commonly described as a form of task-specific focal dystonia or as a disorder lying on a continuum with focal dystonia at one end (neurological) and chocking under pressure at the other (psychological). However, its etiology has been remained to be elucidated. In order to understand sensorimotor cortical activity associated with this movement disorder, we examined electroencephalographic oscillations over the bilateral sensorimotor areas during a precision force task in athletes with yips, and compared them with age-, sex-, and years of experience-matched controls. Alpha-band event-related desynchronization (ERD), that occurs during movement execution, was greater in athlete with yips as compared to controls when increasing force output to match a target but not when adjusting the force at around the target. Event-related synchronization that occurs after movement termination was also greater in athletes with yips. There was no significant difference in task performance between groups. The enhanced ERD is suggested to be attributed to dysfunction of inhibitory system or increased allocation of attention to the body part used during the task. Our findings indicate that sensorimotor cortical oscillatory response is increased during movement initiation in athletes with yips.

Published

2021

10. Effects of transcranial static magnetic stimulation over the primary motor cortex on local and network spontaneous electroencephalogram oscillations

Author

Sumiya Shibata, Tatsunori Watanabe, Yoshihiro Yukawa, Masatoshi Minakuchi, Ryota Shimomura, Sachimori Ichimura, Hikari Kirimoto, and Tatsuya Mima

Subjects

Medicine, Science

Abstract

Abstract Transcranial static magnetic stimulation (tSMS) is a novel non-invasive brain stimulation technique that reduces cortical excitability at the stimulation site. We investigated the effects of tSMS over the left primary motor cortex (M1) for 20 min on the local electroencephalogram (EEG) power spectrum and interregional EEG coupling. Twelve right-handed healthy subjects participated in this crossover, double-blind, sham-controlled study. Resting-state EEG data were recorded for 3 min before the intervention and 17 min after the beginning of the intervention. The power spectrum at the left central electrode (C3) and the weighted phase lag index (wPLI) between C3 and the other electrodes was calculated for theta (4–8 Hz), alpha (8–12 Hz), and beta (12–30 Hz) frequencies. The tSMS significantly increased theta power at C3 and the functional coupling in the theta band between C3 and the parietal midline electrodes. The tSMS over the left M1 for 20 min exhibited modulatory effects on local cortical activity and interregional functional coupling in the theta band. The neural oscillations in the theta band may have an important role in the neurophysiological effects induced by tSMS over the frontal cortex.

Published

2021

11. Transcranial static magnetic stimulation over the motor cortex can facilitate the contralateral cortical excitability in human

Author

Yasuyuki Takamatsu, Satoko Koganemaru, Tatsunori Watanabe, Sumiya Shibata, Yoshihiro Yukawa, Masatoshi Minakuchi, Ryota Shimomura, and Tatsuya Mima

Subjects

Medicine, Science

Abstract

Abstract Transcranial static magnetic stimulation (tSMS) has been focused as a new non-invasive brain stimulation, which can suppress the human cortical excitability just below the magnet. However, the non-regional effects of tSMS via brain network have been rarely studied so far. We investigated whether tSMS over the left primary motor cortex (M1) can facilitate the right M1 in healthy subjects, based on the hypothesis that the functional suppression of M1 can cause the paradoxical functional facilitation of the contralateral M1 via the reduction of interhemispheric inhibition (IHI) between the bilateral M1. This study was double-blind crossover trial. We measured the corticospinal excitability in both M1 and IHI from the left to right M1 by recording motor evoked potentials from first dorsal interosseous muscles using single-pulse and paired-pulse transcranial magnetic stimulation before and after the tSMS intervention for 30 min. We found that the corticospinal excitability of the left M1 decreased, while that of the right M1 increased after tSMS. Moreover, the evaluation of IHI revealed the reduced inhibition from the left to the right M1. Our findings provide new insights on the mechanistic understanding of neuromodulatory effects of tSMS in human.

Published

2021

12. The effect of prior knowledge of color on reaction time depends on visual modality

Author

Takayuki Horinouchi, Tatsunori Watanabe, Takuya Matsumoto, Keisuke Yunoki, Takayuki Kuwabara, Kanami Ito, Haruki Ishida, and Hikari Kirimoto

Subjects

Go/No-go task, Reaction time, Prior knowledge of color, Visual modality, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Prior knowledge of color, such as traffic rules (blue/green and red mean “go” and “stop” respectively), can influence reaction times (RTs). Specifically, in a Go/No-go task, where signals were presented by a light-emitting diode (LED) lighting device, RT has been reported to be longer when responding to a red signal and withholding the response to a blue signal (Red Go/Blue No-go task) than when responding to a blue signal and withholding the response to a red signal (Blue Go/Red No-go task). In recent years, a driving simulator has been shown to be effective in evaluation and training of driving skills of dementia and stroke patients. However, it is unknown whether the change in RT observed with the LED lighting device can be replicated with a monitor presenting signals that are different from the real traffic lights in terms of depth and texture. The purpose of this study was to elucidate whether a difference in visual modality (LED and monitor) influences the effect of prior knowledge of color on RTs.Fifteen participants performed a simple reaction task (Blue and Red signals), a Blue Go/Red No-go task, and a Red Go/Blue No-go task. Signals were presented from an LED lighting device (Light condition) and a liquid crystal display (LCD) monitor (Monitor condition).The results showed that there was no significant difference in simple RT by signal color in both conditions. In the Go/No-go task, there was a significant interaction between the type of signal presentation device and the color of signal. Although the RT was significantly longer in the Red Go/Blue No-go than Blue Go/Red No-go task in the Light condition, there was no significant difference in RT between the Blue Go/Red No-go and Red Go/Blue No-go tasks in the Monitor condition.It is interpreted that blue and red signals presented from the LCD monitor were insufficient to evoke a perception of traffic lights as compared to the LED. This study suggests that a difference in the presentation modality (LED and monitor) of visual information can influence the level of object perception and consequently the effect of prior knowledge on behavioral responses.

Published

2022

13. Event-related potentials evoked by skin puncture reflect activation of Aβ fibers: comparison with intraepidermal and transcutaneous electrical stimulations

Author

Yui Shiroshita, Hikari Kirimoto, Tatsunori Watanabe, Keisuke Yunoki, and Ikuko Sobue

Subjects

Skin puncture (lance), Blood sampling, Pain, Nociceptive processing, Event-related potentials, Aβ fibers, Medicine, Biology (General), QH301-705.5

Abstract

Background Recently, event-related potentials (ERPs) evoked by skin puncture, commonly used for blood sampling, have received attention as a pain assessment tool in neonates. However, their latency appears to be far shorter than the latency of ERPs evoked by intraepidermal electrical stimulation (IES), which selectively activates nociceptive Aδ and C fibers. To clarify this important issue, we examined whether ERPs evoked by skin puncture appropriately reflect central nociceptive processing, as is the case with IES. Methods In Experiment 1, we recorded evoked potentials to the click sound produced by a lance device (click-only), lance stimulation with the click sound (click+lance), or lance stimulation with white noise (WN+lance) in eight healthy adults to investigate the effect of the click sound on the ERP evoked by skin puncture. In Experiment 2, we tested 18 heathy adults and recorded evoked potentials to shallow lance stimulation (SL) with a blade that did not reach the dermis (0.1 mm insertion depth); normal lance stimulation (CL) (1 mm depth); transcutaneous electrical stimulation (ES), which mainly activates Aβ fibers; and IES, which selectively activates Aδ fibers when low stimulation current intensities are applied. White noise was continuously presented during the experiments. The stimulations were applied to the hand dorsum. In the SL, the lance device did not touch the skin and the blade was inserted to a depth of 0.1 mm into the epidermis, where the free nerve endings of Aδ fibers are located, which minimized the tactile sensation caused by the device touching the skin and the activation of Aβ fibers by the blade reaching the dermis. In the CL, as in clinical use, the lance device touched the skin and the blade reached a depth of 1 mm from the skin surface, i.e., the depth of the dermis at which the Aβ fibers are located. Results The ERP N2 latencies for click-only (122 ± 2.9 ms) and click+lance (121 ± 6.5 ms) were significantly shorter than that for WN+lance (154 ± 7.1 ms). The ERP P2 latency for click-only (191 ± 11.3 ms) was significantly shorter than those for click+lance (249 ± 18.6 ms) and WN+lance (253 ± 11.2 ms). This suggests that the click sound shortens the N2 latency of the ERP evoked by skin puncture. The ERP N2 latencies for SL, CL, ES, and IES were 146 ± 8.3, 149 ± 9.9, 148 ± 13.1, and 197 ± 21.2 ms, respectively. The ERP P2 latencies were 250 ± 18.2, 251 ± 14.1, 237 ± 26.3, and 294 ± 30.0 ms, respectively. The ERP latency for SL was significantly shorter than that for IES and was similar to that for ES. This suggests that the penetration force generated by the blade of the lance device activates the Aβ fibers, consequently shortening the ERP latency. Conclusions Lance ERP may reflect the activation of Aβ fibers rather than Aδ fibers. A pain index that correctly and reliably reflects nociceptive processing must be developed to improve pain assessment and management in neonates.

Published

2021

14. Midfrontal theta as moderator between beta oscillations and precision control

Author

Tatsunori Watanabe, Tatsuya Mima, Sumiya Shibata, and Hikari Kirimoto

Subjects

Neural oscillations, Theta, Beta, Visual feedback gain, Force control, Cognitive control, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Control of movements using visual information is crucial for many daily activities, and such visuomotor control has been revealed to be supported by alpha and beta cortical oscillations. However, it has been remained to be unclear how midfrontal theta and occipital gamma oscillations, which are associated with high-level cognitive functions, would be involved in this process to facilitate performance. Here we addressed this fundamental open question in healthy young adults by measuring high-density cortical activity during a precision force-matching task. We manipulated the amount of error by changing visual feedback gain (low, medium, and high visual gains) and analyzed event-related spectral perturbations. Increasing the visual feedback gain resulted in a decrease in force error and variability. There was an increase in theta synchronization in the midfrontal area and also in beta desynchronization in the sensorimotor and posterior parietal areas with higher visual feedback gains. Gamma de/synchronization was not evident during the task. In addition, we found a moderation effect of midfrontal theta on the positive relationship between the beta oscillations and force error. Subsequent simple slope analysis indicated that the effect of beta oscillations on force error was weaker when midfrontal theta was high. Our findings suggest that the midfrontal area signals the increased need of cognitive control to refine behavior by modulating the visuomotor processing at theta frequencies.

Published

2021

15. The Effect of Prior Knowledge of Color on Behavioral Responses and Event-Related Potentials During Go/No-go Task

Author

Nami Kubo, Tatsunori Watanabe, Xiaoxiao Chen, Takuya Matsumoto, Keisuke Yunoki, Takayuki Kuwabara, and Hikari Kirimoto

Subjects

N2, P3, Go/No-go task, reaction time, prior knowledge of color, event-related potential, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

In daily life, the meaning of color plays an important role in execution and inhibition of a motor response. For example, the symbolism of traffic light can help pedestrians and drivers to control their behavior, with the color green/blue meaning go and red meaning stop. However, we don’t always stop with a red light and sometimes start a movement with it in such a situation as drivers start pressing the brake pedal when a traffic light turns red. In this regard, we investigated how the prior knowledge of traffic light signals impacts reaction times (RTs) and event-related potentials (ERPs) in a Go/No-go task. We set up Blue Go/Red No-go and Red Go/Blue No-go tasks with three different go signal (Go) probabilities (30, 50, and 70%), resulting in six different conditions. The participants were told which color to respond (Blue or Red) just before each condition session but didn’t know the Go probability. Neural responses to Go and No-go signals were recorded at Fz, Cz, and Oz (international 10–20 system). We computed RTs for Go signal and N2 and P3 amplitudes from the ERP data. We found that RT was faster when responding to blue than red light signal and also was slower with lower Go probability. Overall, N2 amplitude was larger in Red Go than Blue Go trial and in Red No-go than Blue No-go trial. Furthermore, P3 amplitude was larger in Red No-go than Blue No-go trial. Our findings of RT and N2 amplitude for Go ERPs could indicate the presence of Stroop-like interference, that is a conflict between prior knowledge about traffic light signals and the meaning of presented signal. Meanwhile, the larger N2 and P3 amplitudes in Red No-go trial as compared to Blue No-go trial may be due to years of experience in stopping an action in response to a red signal and/or attention. This study provides the better understanding of the effect of prior knowledge of color on behavioral responses and its underlying neural mechanisms.

Published

2021

16. Quadratus lumborum block type 2 for pedicle groin flap analgesia: a case report

Author

Tatsunori Watanabe, Koji Moriya, and Hiroshi Baba

Subjects

Quadratus lumborum block type 2, Pedicle groin flap, Postoperative analgesia, Anesthesiology, RD78.3-87.3, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Published

2020

17. Neural block therapy for radiation enteritis: a case report

Author

Moegi Tanaka, Yoshinori Kamiya, Hiroki Shimizu, Tatsunori Watanabe, Natsuko Naito, and Hiroshi Baba

Subjects

Radiation enteritis, Ileus, Inferior mesenteric artery plexus block, Splanchnic nerve block, Anesthesiology, RD78.3-87.3, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Abstract Background Radiation enteritis following radiotherapy targeting the abdomen occasionally causes ulcers or ileus, which can be difficult to treat and usually progressive and refractory, significantly degrading the patient’s quality of life. Case presentation A 58-year-old woman had undergone surgery for cervical cancer approximately 21 years ago. During treatment, she had also received radiotherapy targeting the pelvis and stomach. She presented with complaints of vomiting and lower abdominal pain and was subsequently diagnosed with multiple gastric ulcers, enterocolitis, and paralytic ileus due to late radiation-induced sequelae. We reasoned that visceral sympathetic block would improve the abdominal symptoms; therefore, we performed a splanchnic nerve block and an inferior mesenteric artery plexus block. As predicted, these block procedures improved the symptoms. Conclusions Radiation enteritis is an iatrogenic disease, and there is no established treatment for intractable cases. However, visceral sympathetic nerve block may show efficacy as a potential therapy for radiation enteritis-associated abdominal pain and ileus.

Published

2019

18. Excitability of the Ipsilateral Primary Motor Cortex During Unilateral Goal-Directed Movement

Author

Takuya Matsumoto, Tatsunori Watanabe, Takayuki Kuwabara, Keisuke Yunoki, Xiaoxiao Chen, Nami Kubo, and Hikari Kirimoto

Subjects

transcranial magnetic stimulation, intracortical inhibition, ipsilateral primary motor cortex, laterality, goal-directed movement, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionPrevious transcranial magnetic stimulation (TMS) studies have revealed that the activity of the primary motor cortex ipsilateral to an active hand (ipsi-M1) plays an important role in motor control. The aim of this study was to investigate whether the ipsi-M1 excitability would be influenced by goal-directed movement and laterality during unilateral finger movements.MethodTen healthy right-handed subjects performed four finger tapping tasks with the index finger: (1) simple tapping (Tap) task, (2) Real-word task, (3) Pseudoword task, and (4) Visually guided tapping (VT) task. In the Tap task, the subject performed self-paced simple tapping on a touch screen. In the real-word task, the subject tapped letters displayed on the screen one by one to create a Real-word (e.g., apple). Because the action had a specific purpose (i.e., creating a word), this task was considered to be goal-directed as compared to the Tap task. In the Pseudoword task, the subject tapped the letters to create a pseudoword (e.g., gdiok) in the same manner as in the Real-word task; however, the word was less meaningful. In the VT task, the subject was required to touch a series of illuminated buttons. This task was considered to be less goal-directed than the Pseudoword task. The tasks were performed with the right and left hand, and a rest condition was added as control. Single- and paired-pulse TMS were applied to the ipsi-M1 to measure corticospinal excitability and short- and long-interval intracortical inhibition (SICI and LICI) in the resting first dorsal interosseous (FDI) muscle.ResultsWe found the smaller SICI in the ipsi-M1 during the VT task compared with the resting condition. Further, both SICI and LICI were smaller in the right than in the left M1, regardless of the task conditions.DiscussionWe found that SICI in the ipsi-M1 is smaller during visual illumination-guided finger movement than during the resting condition. Our finding provides basic data for designing a rehabilitation program that modulates the M1 ipsilateral to the moving limb, for example, for post-stroke patients with severe hemiparesis.

Published

2021

19. Magnification of visual feedback modulates corticomuscular and intermuscular coherences differently in young and elderly adults

Author

Tatsunori Watanabe, Ippei Nojima, Tatsuya Mima, Hideshi Sugiura, and Hikari Kirimoto

Subjects

Visual feedback, Coherence, Beta-band oscillation, Aging, Force control, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Beta-band (15–30 ​Hz) corticomuscular and intermuscular coherences are important markers of the corticospinal interaction. The purpose of this study was to investigate whether amount of visual feedback during an isometric pinch grip contraction would influence these coherences in young and elderly adults. Thirty-three healthy young and elderly subjects performed pinch grip force-matching task with right thumb and index finger, while scalp electroencephalogram (EEG) and electromyogram (EMG) from the first dorsal interosseous (FDI) and abductor pollicis brevis (APB) muscles were recorded. The amount of visual feedback was altered by manipulation of visual gain (low and high). Beta-band corticomuscular coherence was computed between EEG over the sensorimotor cortex and EMG from the FDI muscle and between EEG and EMG from the APB muscle (EEG-FDI and EEG-APB coherences). Also, beta-band intermuscular coherence was computed between EMG signals from the FDI and APB muscles (EMG-EMG coherence). Task performance was quantified as standard deviation (SD) of force and mean force error (MFE). EEG-FDI coherence was larger at high than low visual gain in the elderly but not in the young subjects, whereas there was no effect of age or visual gain on EEG-APB coherence. EMG-EMG coherence was smaller at high than low visual gain in the young and elderly subjects. The MFE was smaller at high than low visual gain in the young and elderly subjects, but the SD of force was smaller at high than low visual gain only in the young subjects. These results suggest that the effect of aging on beta-band coherence depends on the amount of visual feedback and further that visual feedback modulates beta-band corticomuscular and intermuscular coherences differently.

Published

2020

20. Transient Modulation of Working Memory Performance and Event-Related Potentials by Transcranial Static Magnetic Field Stimulation over the Dorsolateral Prefrontal Cortex

Author

Xiaoxiao Chen, Tatsunori Watanabe, Nami Kubo, Keisuke Yunoki, Takuya Matsumoto, Takayuki Kuwabara, Toru Sunagawa, Shota Date, Tatsuya Mima, and Hikari Kirimoto

Subjects

transcranial static magnetic field stimulation, non-invasive brain stimulation, working memory, dorsolateral prefrontal cortex, event-related potentials, N2, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Transcranial static magnetic field stimulation (tSMS) can modulate human cortical excitability and behavior. To better understand the neuromodulatory effect of tSMS, this study investigates whether tSMS applied over the left dorsolateral prefrontal cortex (DLPFC) modulates working memory (WM) performance and its associated event-related potentials (ERPs). Thirteen healthy participants received tSMS or sham stimulation over the left DLPFC for 26 min on different days. The participants performed a 2-back version of the n-back task before, during (20 min after the start of stimulation), immediately after, and 15 min after the stimulation. We examine reaction time for correct responses, d-prime reflecting WM performance, and the N2 and P3 components of ERPs. Our results show that there was no effect of tSMS on reaction time. The d-prime was reduced, and the N2 latency was prolonged immediately after tSMS. These findings indicate that tSMS over the left DLPFC affects WM performance and its associated electrophysiological signals, which can be considered an important step toward a greater understanding of tSMS and its use in studies of higher-order cognitive processes.

Published

2021

21. Risk factors for rescue analgesic use on the first postoperative day after upper limb surgery performed under single-injection brachial plexus block: a retrospective study of 930 cases

Author

Tatsunori Watanabe, Koji Moriya, Takuya Yoda, Naoto Tsubokawa, Andrey B. Petrenko, and Hiroshi Baba

Subjects

Upper limb surgery, Brachial plexus block, Rescue analgesia, Risk factors, Logistic regression model, Anesthesiology, RD78.3-87.3, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Abstract Background Postoperative pain management after upper limb surgery is important for preventing adverse events that can prolong hospital stay and cause readmission. This study aimed to identify the risk factors associated with rescue analgesic use on the first postoperative day after upper limb surgery performed under single-injection brachial plexus block (BPB). Findings We retrospectively analyzed records from 930 patients who underwent upper limb surgery under a single-injection BPB. Postoperatively, patients were administered oral loxoprofen regularly and rescue analgesics when analgesia was insufficient. We assessed the association between patient, surgical information, and rescue analgesic use on the first day after surgery (from 7:00 PM on the day of surgery to 7:00 AM on the first postoperative day), using a logistic regression model. Multivariate analysis revealed a significant association between rescue analgesic use and bone surgery, in particular, osteotomy, ligament repair and reconstruction, osteosynthesis, treatment for an amputated digit, and surgical duration. Conclusion Bone surgery (osteotomy, ligament repair and reconstruction, osteosynthesis, treatment for an amputated digit) and a longer operative time were risk factors for rescue analgesic use for treating postoperative pain after upper limb surgery performed under single-injection BPB.

Published

2017

22. Null Effect of Transcranial Static Magnetic Field Stimulation over the Dorsolateral Prefrontal Cortex on Behavioral Performance in a Go/NoGo Task

Author

Tatsunori Watanabe, Nami Kubo, Xiaoxiao Chen, Keisuke Yunoki, Takuya Matsumoto, Takayuki Kuwabara, Toru Sunagawa, Shota Date, Tatsuya Mima, and Hikari Kirimoto

Subjects

transcranial static magnetic field stimulation, non-invasive brain stimulation, cognitive function, dorsolateral prefrontal cortex, response inhibition, Go/NoGo task, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The purpose of this pilot study was to investigate whether transcranial static magnetic field stimulation (tSMS), which can modulate cortical excitability, would influence inhibitory control function when applied over the dorsolateral prefrontal cortex (DLPFC). Young healthy adults (n = 8, mean age ± SD = 24.4 ± 4.1, six females) received the following stimulations for 30 min on different days: (1) tSMS over the left DLPFC, (2) tSMS over the right DLPFC, and (3) sham stimulation over either the left or right DLPFC. The participants performed a Go/NoGo task before, immediately after, and 10 min after the stimulation. They were instructed to extend the right wrist in response to target stimuli. We recorded the electromyogram from the right wrist extensor muscles and analyzed erroneous responses (false alarm and missed target detection) and reaction times. As a result, 50% of the participants made erroneous responses, and there were five erroneous responses in total (0.003%). A series of statistical analyses revealed that tSMS did not affect the reaction time. These preliminary findings suggest the possibility that tSMS over the DLPFC is incapable of modulating inhibitory control and/or that the cognitive load imposed in this study was insufficient to detect the effect.

Published

2021

23. Can Event-Related Potentials Evoked by Heel Lance Assess Pain Processing in Neonates? A Systematic Review

Author

Yui Shiroshita, Hikari Kirimoto, Mio Ozawa, Tatsunori Watanabe, Hiroko Uematsu, Keisuke Yunoki, and Ikuko Sobue

Subjects

heel lance, infant, event-related potential, pain assessment tool, Pediatrics, RJ1-570

Abstract

To clarify the possibility of event-related potential (ERP) evoked by heel lance in neonates as an index of pain assessment, knowledge acquired by and problems of the methods used in studies on ERP evoked by heel lance in neonates were systematically reviewed, including knowledge about Aδ and C fibers responding to noxious stimuli and Aβ fibers responding to non-noxious stimuli. Of the 863 reports searched, 19 were selected for the final analysis. The following points were identified as problems for ERP evoked by heel lance in neonates to serve as a pain assessment index: (1) It is possible that the ERP evoked by heel lance reflected the activation of Aβ fibers responding to non-noxious stimuli and not the activation of Aδ or C fibers responding to noxious stimulation; (2) Sample size calculation was presented in few studies, and the number of stimulation trials to obtain an averaged ERP was small. Accordingly, to establish ERP evoked by heel lance as a pain assessment in neonates, it is necessary to perform a study to clarify ERP evoked by Aδ- and C-fiber stimulations accompanied by heel lance in neonates.

Published

2021

24. Influence of Static Magnetic Field Stimulation on the Accuracy of Tachystoscopically Presented Line Bisection

Author

Hikari Kirimoto, Tatsunori Watanabe, Nami Kubo, Shota Date, Toru Sunagawa, Tatsuya Mima, Katsuya Ogata, Hisato Nakazono, Shozo Tobimatsu, and Antonio Oliviero

Subjects

transcranial static magnetic field stimulation, non-invasive brain stimulation, visuospatial cognition, unilateral spatial neglect, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Transcranial static magnetic stimulation (tSMS) has been known to reduce human cortical excitability. Here, we investigated whether tSMS would modulate visuo-spatial cognition in healthy humans. Subjects performed a visuo-spatial task requiring judgements about the symmetry of pre-bisected lines. Visual stimuli consisted of symmetrically or asymmetrically transected lines, tachystoscopically presented for 150 ms on a computer monitor. Task performance was examined before, immediately after, and 10 min after tSMS/sham stimulation of 20 min over the posterior parietal cortex (PPC: P4 from the international 10–20 system) or superior temporal gyrus (STG: C6). Nine out of 16 subjects misjudged pre-bisected lines by consistently underestimating the length of the right-side segment (judging lines to be exactly pre-bisected when the transector was located to the left of the midpoint, or judging the left-side segment to be longer when the transector was located at the midpoint). In these subjects showing a leftward bias, tSMS over the right STG reduced the magnitude of the leftward bias. This did not occur with tSMS over the right PPC or sham stimulation. In the remaining right-biased subjects, no intervention effect was observed with any stimulation. Our findings indicate that application of tSMS over the right STG modulates visuo-spatial cognition in healthy adults.

Published

2020

25. Age-Related Declines in the Ability to Modulate Common Input to Bilateral and Unilateral Plantar Flexors During Forward Postural Lean

Author

Tatsunori Watanabe, Kotaro Saito, Kazuto Ishida, Shigeo Tanabe, and Ippei Nojima

Subjects

EMG coherence, plantar flexors, common input, balance, aging, forward postural lean, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Aging can impair an ability to lean the body forward to the edge of the base of support. Here, we investigated, using a coherence analysis, common inputs to bilateral and unilateral plantar flexor muscles to test a hypothesis that the age-related impairment would be related to strong synchronous bilateral activation and reduced cortical control of these muscles. Healthy young (n = 14) and elderly adults (n = 19), who were all right-foot dominant, performed quiet standing task and tasks that required the subjects to lean their body forward to 35 and 75% of the maximum lean distance. The electromyogram was recorded from the bilateral medial gastrocnemius (MG) and soleus (SL) muscles. We analyzed delta-band coherence, that reflects comodulation of muscle activity, between the bilateral homologous muscles (MG-MG and SL-SL pairs). The origin of this bilateral comodulation is suggested to be the subcortical system. Also, we examined beta-band coherence, that is related to the corticospinal drive, between the unilateral muscles (MG-SL pair) in the right leg. Results indicated that the bilateral delta-band coherence for the MG-MG pair was significantly smaller in the 75% forward lean than quiet standing and 35% forward lean tasks for the young adults (quiet: p = 0.036; 35%: p = 0.0011). The bilateral delta-band coherence for the SL-SL pair was significantly smaller in the 75% forward lean than 35% forward lean task for the young adults (p = 0.027). Furthermore, the unilateral beta-band coherence was larger in the forward lean than quiet standing task for the young adults (35%: p < 0.001; 75%: p = 0.029). Contrarily, the elderly adults did not demonstrate such changes. These findings suggest the importance of decreasing the synchronous bilateral activation and increasing the unilateral cortical control of the plantar flexor muscles for the successful forward postural lean performance, and that aging impairs this modulatory ability.

Published

2018

26. Modulation of EMG-EMG Coherence in a Choice Stepping Task

Author

Ippei Nojima, Tatsunori Watanabe, Kotaro Saito, Shigeo Tanabe, and Hoshinori Kanazawa

Subjects

EMG-EMG coherence, anticipatory postural adjustment, elderly, risk of fall, corticospinal excitability, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The voluntary step execution task is a popular measure for identifying fall risks among elderly individuals in the community setting because most falls have been reported to occur during movement. However, the neurophysiological functions during this movement are not entirely understood. Here, we used electromyography (EMG) to explore the relationship between EMG-EMG coherence, which reflects common oscillatory drive to motoneurons, and motor performance associated with stepping tasks: simple reaction time (SRT) and choice reaction time (CRT) tasks. Ten healthy elderly adults participated in the study. Participants took a single step forward in response to a visual imperative stimulus. EMG-EMG coherence was analyzed for 1000 ms before the presentation of the stimulus (stationary standing position) from proximal and distal tibialis anterior (TA) and soleus (SOL) muscles. The main result showed that all paired EMG-EMG coherences in the alpha and beta frequency bands were greater in the SRT than the CRT task. This finding suggests that the common oscillatory drive to the motoneurons during the SRT task occurred prior to taking a step, whereas the lower value of corticospinal activity during the CRT task prior to taking a step may indicate an involvement of inhibitory activity, which is consistent with observations from our previous study (Watanabe et al., 2016). Furthermore, the beta band coherence in intramuscular TA tended to positively correlate with the number of performance errors that are associated with fall risks in the CRT task, suggesting that a reduction in the inhibitory activity may result in a decrease of stepping performance. These findings could advance the understanding of the neurophysiological features of postural adjustments in elderly individuals.

Published

2018

27. Differential Effects of Transcranial Static Magnetic Stimulation Over Left and Right Dorsolateral Prefrontal Cortex on Brain Oscillatory Responses During a Working Memory Task

Author

Tatsunori Watanabe, Xiaoxiao Chen, Keisuke Yunoki, Takuya Matsumoto, Takayuki Horinouchi, Kanami Ito, Haruki Ishida, Toru Sunagawa, Tatsuya Mima, and Hikari Kirimoto

Subjects

General Neuroscience

Published

2023

28. Transcranial static magnetic stimulation over the motor cortex can facilitate the contralateral cortical excitability in human

Author

Tatsunori Watanabe, Tatsuya Mima, Yasuyuki Takamatsu, Masatoshi Minakuchi, Ryota Shimomura, Sumiya Shibata, Satoko Koganemaru, and Yoshihiro Yukawa

Subjects

Adult, Male, 0301 basic medicine, Dorsum, medicine.medical_treatment, Science, Stimulation, Article, 03 medical and health sciences, 0302 clinical medicine, Double-Blind Method, Humans, Medicine, Brain network, Multidisciplinary, business.industry, Motor Cortex, Healthy subjects, Transcranial Magnetic Stimulation, Left primary motor cortex, Transcranial magnetic stimulation, 030104 developmental biology, medicine.anatomical_structure, Neurology, Brain stimulation, Cortical Excitability, Female, business, Neuroscience, 030217 neurology & neurosurgery, Motor cortex

Abstract

Transcranial static magnetic stimulation (tSMS) has been focused as a new non-invasive brain stimulation, which can suppress the human cortical excitability just below the magnet. However, the non-regional effects of tSMS via brain network have been rarely studied so far. We investigated whether tSMS over the left primary motor cortex (M1) can facilitate the right M1 in healthy subjects, based on the hypothesis that the functional suppression of M1 can cause the paradoxical functional facilitation of the contralateral M1 via the reduction of interhemispheric inhibition (IHI) between the bilateral M1. This study was double-blind crossover trial. We measured the corticospinal excitability in both M1 and IHI from the left to right M1 by recording motor evoked potentials from first dorsal interosseous muscles using single-pulse and paired-pulse transcranial magnetic stimulation before and after the tSMS intervention for 30 min. We found that the corticospinal excitability of the left M1 decreased, while that of the right M1 increased after tSMS. Moreover, the evaluation of IHI revealed the reduced inhibition from the left to the right M1. Our findings provide new insights on the mechanistic understanding of neuromodulatory effects of tSMS in human.

Published

2021

29. Two-Month Individually Supervised Exercise Therapy Improves Walking Speed, Step Length, and Temporal Gait Symmetry in Chronic Stroke Patients: A before–after Trial

Author

Kiyoshi Yoshioka, Tatsunori Watanabe, Norikazu Maruyama, Mizuki Yoshioka, Keita Iino, Kimikazu Honda, and Koshiro Hayashida

Subjects

Health Information Management, stroke, hemiparesis, gait asymmetry, exercise therapy, chronic phase, Leadership and Management, Health Policy, Health Informatics

Abstract

Gait asymmetry is common after stroke and is a major risk factor for falls. In particular, temporal gait asymmetry often remains in the chronic stage of stroke. However, health insurance does not cover rehabilitation for patients with chronic stroke in many countries. Accordingly, it is undetermined whether individually supervised exercise therapy has beneficial effects on chronic hemiparetic gait. Patients with stroke (n = 25) more than 6 months after onset performed 70 min of individually supervised exercise twice weekly for 2 months in 16 sessions with qualified personnel. The intervention significantly reduced the pre-swing phase on the paretic side (mean = 91.8%, 95%CI, 84.8–98.8). In addition, there was a significant improvement in pre-swing phase symmetry in those with great asymmetry prior to the intervention (p = 0.022). Step length significantly increased after the intervention on both sides (non-paretic, p = 0.029; paretic, p = 0.0055). Walking time at both comfortable and maximum speeds was significantly shortened (comfortable, p = 0.0041; maximum, p < 0.0001). Our findings suggest that there remains scope to improve gait ability with individually supervised exercise therapy in patients with chronic stroke, whose functional recovery is often considered unlikely. This type of intervention may be a simple and effective option to improve gait parameters, including temporal asymmetry, even in patients with chronic stroke.

Published

2022

30. Significantly Earlier Ambulation and Reduced Risk of Near-Falls with Continuous Infusion Nerve Blocks: A Retrospective Pilot Study of Adductor Canal Block Compared to Femoral Nerve Block in Total Knee Arthroplasty

Author

Hiroyuki Kawashima, Takao Wakai, Yutaka Fujita, Hisashi Mera, Kenta Furutani, Tatsunori Watanabe, Akira Ogose, and Haruna O. Kondo

Subjects

Pain, Postoperative, medicine.medical_specialty, Reduced risk, business.industry, Continuous infusion, Adductor canal, Total knee arthroplasty, Nerve Block, Pilot Projects, Walking, Femoral nerve block, Surgery, Analgesics, Opioid, medicine.anatomical_structure, Rheumatology, Block (telecommunications), medicine, Humans, Orthopedics and Sports Medicine, Muscle Strength, Anesthetics, Local, Arthroplasty, Replacement, Knee, business, Femoral Nerve, Retrospective Studies

Abstract

Background Near-falls should be detected to prevent falls related to the earlier ambulation after Total knee arthroplasty (TKA). The quadriceps weakness with femoral nerve block (FNB) has led to a focus on adductor canal block (ACB). We purposed to examine the risk of falls and the earlier ambulation in each continuous infusion nerve block. Methods Continuous infusion nerve block (FNB or ACB) was performed until postoperative day (POD) 2 or 3. Pain levels and falls/near-falls with knee-buckling were monitored from POD 1 to POD 3. The score on the manual muscle test, MMT (0 to 5, 5 being normal), of the patients who could ambulate on POD 1, was investigated. Results A total of 73 TKA cases, 36 FNB and 37 ACB, met the inclusion criteria. No falls were noted. But episodes of near-falls with knee-buckling were witnessed in 14 (39%) cases in the FNB group and in 4 (11%) in the ACB group (p = 0.0068). In the ACB group, 81.1% of patients could ambulate with parallel bars on POD 1, while only 44.4% of FNB patients could do so (p = 0.0019). The quadriceps MMT values in the ACB group was 2.82, significantly higher than 1.97 in the FNB group (p = 0.0035). There were no significant differences in pain as measured with a numerical rating scale (NRS) and rescue analgesia through POD 3. Conclusion ACB was associated with significantly less knee-buckling and earlier ambulation post-TKA, with better quadriceps strength. Our study indicated the incidence of falls and near-falls with continuous infusion nerve blocks, and support the use of ACB to reduce the risk of falls after TKA. It is suggested that a certain number of the patients even with continuous ACB infusion should be considered with the effect of motor branch to prevent falls.

Published

2021

31. Transient Modulation of Working Memory Performance and Event-Related Potentials by Transcranial Static Magnetic Field Stimulation over the Dorsolateral Prefrontal Cortex

Author

Hikari Kirimoto, Keisuke Yunoki, Takayuki Kuwabara, Shota Date, Tatsunori Watanabe, Toru Sunagawa, Nami Kubo, Xiaoxiao Chen, Takuya Matsumoto, and Tatsuya Mima

Subjects

non-invasive brain stimulation, dorsolateral prefrontal cortex, Working memory, General Neuroscience, N2, Stimulation, Cognition, P3, Neurosciences. Biological psychiatry. Neuropsychiatry, Magnetostatics, event-related potentials, Article, working memory, Dorsolateral prefrontal cortex, Electrophysiology, medicine.anatomical_structure, Event-related potential, transcranial static magnetic field stimulation, medicine, Transient (computer programming), Psychology, Neuroscience, RC321-571

Abstract

Transcranial static magnetic field stimulation (tSMS) can modulate human cortical excitability and behavior. To better understand the neuromodulatory effect of tSMS, this study investigates whether tSMS applied over the left dorsolateral prefrontal cortex (DLPFC) modulates working memory (WM) performance and its associated event-related potentials (ERPs). Thirteen healthy participants received tSMS or sham stimulation over the left DLPFC for 26 min on different days. The participants performed a 2-back version of the n-back task before, during (20 min after the start of stimulation), immediately after, and 15 min after the stimulation. We examine reaction time for correct responses, d-prime reflecting WM performance, and the N2 and P3 components of ERPs. Our results show that there was no effect of tSMS on reaction time. The d-prime was reduced, and the N2 latency was prolonged immediately after tSMS. These findings indicate that tSMS over the left DLPFC affects WM performance and its associated electrophysiological signals, which can be considered an important step toward a greater understanding of tSMS and its use in studies of higher-order cognitive processes.

Published

2021

32. Acute spatial spread of NO‐mediated potentiation during hindpaw ischaemia in mice

Author

Takeshi Onishi, Yoshinori Kamiya, Tatsunori Watanabe, Hiroshi Baba, Tatsuro Kohno, Katsuei Shibuki, Mika Sasaki, Hirohide Takebayashi, Ryuichi Hishida, Masao Horie, and Hiroaki Tsukano

Subjects

0301 basic medicine, Agonist, Male, medicine.medical_specialty, Physiology, medicine.drug_class, Stimulation, Nitric Oxide Synthase Type I, Somatosensory system, Neuropathic pain, Receptors, Metabotropic Glutamate, 03 medical and health sciences, Mice, 0302 clinical medicine, Ischemia, Internal medicine, medicine, Animals, Pain Measurement, Spinal cord, Chemistry, Long-term potentiation, Nitric oxide, Mice, Inbred C57BL, 030104 developmental biology, Endocrinology, medicine.anatomical_structure, NG-Nitroarginine Methyl Ester, nervous system, Metabotropic glutamate receptor, Neuralgia, Metabotropic glutamate receptor 2, Nitric Oxide Synthase, 030217 neurology & neurosurgery, Research Paper, Neuroscience

Abstract

Key points Neuropathic pain spreads spatially beyond the injured sites, and the mechanism underlying the spread has been attributed to inflammation occurring in the spinal cord.However, the spatial spread of spinal/cortical potentiation induced by conduction block of the peripheral nerves can be observed prior to inflammation.In the present study, we found that spreading potentiation and hypersensitivity acutely induced by unilateral hindpaw ischaemia are nitric oxide (NO)‐dependent and that NO is produced by ischaemia and quickly diffuses within the spinal cord.We also found that NO production induced by ischaemia is not observed in the presence of an antagonist for group II metabotropic glutamate receptors (mGluRs) and that neuronal NO synthase‐positive dorsal horn neurons express group II mGluRs.These results suggest strongly that NO‐mediated spreading potentiation in the spinal cord is one of the trigger mechanisms for neuropathic pain. Abstract Cortical/spinal responses to hindpaw stimulation are bilaterally potentiated by unilateral hindpaw ischaemia in mice. We tested the hypothesis that hindpaw ischaemia produces nitric oxide (NO), which diffuses in the spinal cord to induce spatially spreading potentiation. Using flavoprotein fluorescence imaging, we confirmed that the spreading potentiation in hindpaw responses was induced during ischaemia in the non‐stimulated hindpaw. This spreading potentiation was blocked by spinal application of l‐NAME, an inhibitor of NO synthase (NOS). Furthermore, no spreading potentiation was observed in neural NOS (nNOS) knockout mice. Spinal application of an NO donor was enough to induce cortical potentiation and mechanical hypersensitivity. The spatial distribution of NO during unilateral hindpaw ischaemia was visualized using 4‐amino‐5‐methylamino‐2′,7′‐difluorofluorescein (DAF‐FM). An increase in fluorescence derived from the complex of DAF‐FM with NO was observed on the ischaemic side of the spinal cord. A similar but smaller increase was also observed on the contralateral side. Somatosensory potentiation after hindpaw ischaemia is known to be inhibited by spinal application of LY354740, an agonist of group II metabotropic glutamate receptors (mGluRs). We confirmed that the spinal DAF‐FM fluorescence increases during hindpaw ischaemia were not observed in the presence of LY354740. We also confirmed that approximately half of the nNOS‐positive neurons in the superficial laminae of the dorsal horn expressed mGluR2 mRNA. These results suggest that disinhibition of mGluR2 produces NO which in turn induces a spreading potentiation in a wide area of the spinal cord. Such spreading, along with the consequent non‐specific potentiation in the spinal cord, may trigger neuropathic pain., Key points Neuropathic pain spreads spatially beyond the injured sites, and the mechanism underlying the spread has been attributed to inflammation occurring in the spinal cord.However, the spatial spread of spinal/cortical potentiation induced by conduction block of the peripheral nerves can be observed prior to inflammation.In the present study, we found that spreading potentiation and hypersensitivity acutely induced by unilateral hindpaw ischaemia are nitric oxide (NO)‐dependent and that NO is produced by ischaemia and quickly diffuses within the spinal cord.We also found that NO production induced by ischaemia is not observed in the presence of an antagonist for group II metabotropic glutamate receptors (mGluRs) and that neuronal NO synthase‐positive dorsal horn neurons express group II mGluRs.These results suggest strongly that NO‐mediated spreading potentiation in the spinal cord is one of the trigger mechanisms for neuropathic pain.

Published

2019

33. Modulation of sensorimotor cortical oscillations in athletes with yips

Author

Shin Ishihara, Kojiro Matsushita, Tatsunori Watanabe, and Kiyoshi Yoshioka

Subjects

Adult, Male, medicine.medical_specialty, Movement disorders, Science, Neurophysiology, 050105 experimental psychology, Article, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Physical medicine and rehabilitation, Motor control, medicine, Humans, 0501 psychology and cognitive sciences, Dystonia, Involuntary movement, Multidisciplinary, biology, Athletes, 05 social sciences, Electroencephalography, Focal dystonia, biology.organism_classification, medicine.disease, Cross-Sectional Studies, Dystonic Disorders, Cortical oscillations, Medicine, Sensorimotor Cortex, medicine.symptom, Psychology, 030217 neurology & neurosurgery, Muscle Contraction

Abstract

The yips, an involuntary movement impediment that affects performance in skilled athletes, is commonly described as a form of task-specific focal dystonia or as a disorder lying on a continuum with focal dystonia at one end (neurological) and chocking under pressure at the other (psychological). However, its etiology has been remained to be elucidated. In order to understand sensorimotor cortical activity associated with this movement disorder, we examined electroencephalographic oscillations over the bilateral sensorimotor areas during a precision force task in athletes with yips, and compared them with age-, sex-, and years of experience-matched controls. Alpha-band event-related desynchronization (ERD), that occurs during movement execution, was greater in athlete with yips as compared to controls when increasing force output to match a target but not when adjusting the force at around the target. Event-related synchronization that occurs after movement termination was also greater in athletes with yips. There was no significant difference in task performance between groups. The enhanced ERD is suggested to be attributed to dysfunction of inhibitory system or increased allocation of attention to the body part used during the task. Our findings indicate that sensorimotor cortical oscillatory response is increased during movement initiation in athletes with yips.

Published

2021

34. Null Effect of Transcranial Static Magnetic Field Stimulation over the Dorsolateral Prefrontal Cortex on Behavioral Performance in a Go/NoGo Task

Author

Tatsuya Mima, Xiaoxiao Chen, Takayuki Kuwabara, Takuya Matsumoto, Tatsunori Watanabe, Shota Date, Nami Kubo, Keisuke Yunoki, Toru Sunagawa, and Hikari Kirimoto

Subjects

medicine.medical_specialty, non-invasive brain stimulation, dorsolateral prefrontal cortex, business.industry, General Neuroscience, Go/NoGo task, Mean age, Stimulation, Cognition, Right wrist, Audiology, Article, lcsh:RC321-571, Task (project management), Dorsolateral prefrontal cortex, medicine.anatomical_structure, Statistical analyses, Inhibitory control, transcranial static magnetic field stimulation, medicine, response inhibition, business, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, cognitive function

Abstract

The purpose of this pilot study was to investigate whether transcranial static magnetic field stimulation (tSMS), which can modulate cortical excitability, would influence inhibitory control function when applied over the dorsolateral prefrontal cortex (DLPFC). Young healthy adults (n = 8, mean age ± SD = 24.4 ± 4.1, six females) received the following stimulations for 30 min on different days: (1) tSMS over the left DLPFC, (2) tSMS over the right DLPFC, and (3) sham stimulation over either the left or right DLPFC. The participants performed a Go/NoGo task before, immediately after, and 10 min after the stimulation. They were instructed to extend the right wrist in response to target stimuli. We recorded the electromyogram from the right wrist extensor muscles and analyzed erroneous responses (false alarm and missed target detection) and reaction times. As a result, 50% of the participants made erroneous responses, and there were five erroneous responses in total (0.003%). A series of statistical analyses revealed that tSMS did not affect the reaction time. These preliminary findings suggest the possibility that tSMS over the DLPFC is incapable of modulating inhibitory control and/or that the cognitive load imposed in this study was insufficient to detect the effect.

Published

2021

35. Influence of Static Magnetic Field Stimulation on the Accuracy of Tachystoscopically Presented Line Bisection

Author

Tatsunori Watanabe, Tatsuya Mima, Shozo Tobimatsu, Hisato Nakazono, A. Oliviero, Toru Sunagawa, Hikari Kirimoto, Katsuya Ogata, Shota Date, and Nami Kubo

Subjects

non-invasive brain stimulation, unilateral spatial neglect, medicine.medical_specialty, Visual perception, genetic structures, business.industry, General Neuroscience, Posterior parietal cortex, Intervention effect, Cognition, Stimulation, Audiology, visuospatial cognition, Magnetostatics, behavioral disciplines and activities, Article, lcsh:RC321-571, Superior temporal gyrus, transcranial static magnetic field stimulation, Visuospatial cognition, medicine, business, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, psychological phenomena and processes

Abstract

Transcranial static magnetic stimulation (tSMS) has been known to reduce human cortical excitability. Here, we investigated whether tSMS would modulate visuo-spatial cognition in healthy humans. Subjects performed a visuo-spatial task requiring judgements about the symmetry of pre-bisected lines. Visual stimuli consisted of symmetrically or asymmetrically transected lines, tachystoscopically presented for 150 ms on a computer monitor. Task performance was examined before, immediately after, and 10 min after tSMS/sham stimulation of 20 min over the posterior parietal cortex (PPC: P4 from the international 10–20 system) or superior temporal gyrus (STG: C6). Nine out of 16 subjects misjudged pre-bisected lines by consistently underestimating the length of the right-side segment (judging lines to be exactly pre-bisected when the transector was located to the left of the midpoint, or judging the left-side segment to be longer when the transector was located at the midpoint). In these subjects showing a leftward bias, tSMS over the right STG reduced the magnitude of the leftward bias. This did not occur with tSMS over the right PPC or sham stimulation. In the remaining right-biased subjects, no intervention effect was observed with any stimulation. Our findings indicate that application of tSMS over the right STG modulates visuo-spatial cognition in healthy adults.

Published

2020

36. SUZYTM forceps facilitate nasogastric tube insertion under McGRATHTM MAC videolaryngoscopic guidance: A randomized, controlled trial

Author

Yoshinori Kamiya, Keiichiro Matsuda, Kenta Furutani, Tatsunori Watanabe, and Hiroshi Baba

Subjects

Male, medicine.medical_specialty, medicine.medical_treatment, Nostril, Forceps, Video Recording, Anesthesia, General, law.invention, 03 medical and health sciences, 0302 clinical medicine, Randomized controlled trial, Insertion time, Japan, law, Sore throat, medicine, Clinical endpoint, Intubation, Humans, 030212 general & internal medicine, Prospective Studies, Prospective cohort study, Intubation, Gastrointestinal, Aged, Laryngoscopy, business.industry, General Medicine, Equipment Design, Middle Aged, Surgical Instruments, Surgery, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Female, medicine.symptom, business

Abstract

Background Nasogastric tubes can be easily inserted in patients under general anesthesia. However, for difficult cases, insertion techniques that can be used in routine clinical practice are limited. SUZY forceps are designed for the removal of pharyngolaryngeal foreign bodies under guidance of a McGrath videolaryngoscope. We hypothesized that using SUZY forceps under McGrath videolaryngoscopic guidance may facilitate nasogastric tube insertion and tested this in a randomized controlled trial. Methods Adult patients who underwent gastrointestinal or hepato-pancreato-biliary surgery were randomly allocated to 2 groups; the SUZY group and the Magill group. Patients, nurses, and all clinical staff except for the attending anesthesiologist were blinded to group assignment throughout the study. After anesthesia induction, insertion of the nasogastric tube was performed by skilled anesthesiologists with either SUZY or Magill forceps according to group allocation under McGrath videolaryngoscopic guidance. The primary endpoint was insertion time which was defined as the time required to advance the nasogastric tube by 55 cm from the nostril. Secondary endpoints were the success rates of the nasogastric tube insertion, which were defined as a 55-cm advancement from the nostril at the 1st, 2nd, and 3rd attempt, proper insertion rate, the severity of pharyngolaryngeal complications, and hemodynamic parameters during nasogastric tube insertion. Results Sixty patients were randomized and none of these patients were excluded from the final analysis. The median [interquartile range] insertion time was 25 [18-33] seconds in the SUZY group, and 33 [21-54] seconds in the Magill group (P = .02). Success rates were not different between the groups (97% and 80% in the SUZY and Magill group at 1st attempt, respectively, P = .10). Both, the severity score of the mucosal injury and the severity of sore throat were higher in the Magill than in the SUZY group, whereas the degree of hoarseness did not differ between the 2 groups. Hemodynamic parameters were not significantly different between the groups. Conclusion Using SUZY forceps under McGrath videolaryngoscopic guidance reduced the time required to insert a nasogastric tube and the severity of pharyngolaryngeal complications, when compared to using Magill forceps.

Published

2020

37. Quadratus lumborum block type 2 for pedicle groin flap analgesia: a case report

Author

Koji Moriya, Tatsunori Watanabe, and Hiroshi Baba

Subjects

medicine.medical_specialty, business.industry, Pain medicine, lcsh:Medical emergencies. Critical care. Intensive care. First aid, MEDLINE, Quadratus lumborum block type 2, lcsh:RC86-88.9, Surgery, lcsh:RD78.3-87.3, Anesthesiology and Pain Medicine, lcsh:Anesthesiology, Pedicle groin flap, Postoperative analgesia, Anesthesiology, medicine, Block type, business, Letter to the Editor, Groin flap

Published

2020

38. Direction-specific Disruption of Paretic Arm Movement in Post-stroke Patients

Author

Kiyoshi Yoshioka, Mizuki Yoshioka, Koshiro Hayashida, Keita Iino, Yuji Kuninaka, Kimikazu Honda, and Tatsunori Watanabe

Subjects

medicine.medical_specialty, arm movement, business.industry, General Medicine, stroke, reaching, Reachable workspace, Physical medicine and rehabilitation, Hemiparesis, Post stroke, Medicine, Original Article, hemiparesis, medicine.symptom, business, FERET

Abstract

Objective: This study aimed to characterize reaching movements of the paretic arm in different directions within the reachable workspace in post-stroke patients. Methods: A total of 12 post-stroke patients participated in this study. Each held a ball with a tracking marker and performed back-and-forth reaching movements from near the middle of the body to one of two targets in front of them located on the ipsilateral and contralateral sides of the arm performing the movement. We recorded and analyzed the trajectories of the tracking marker. The stability of arm movements was evaluated using areas and minimum Feret diameters to assess the trajectories of both the paretic and non-paretic arms. The speed of the arm movement was also calculated. Results: For the paretic arm, contralateral movement was more impaired than ipsilateral movement, whereas for the non-paretic arm, no difference was observed between the directions. The maximum speed of the contralateral movement was significantly slower than that of the ipsilateral movement in both the paretic and non-paretic arms. Conclusion: The paretic arm shows direction-specific instability in movement toward the contralateral side of the arm.

Published

2020

39. Magnification of visual feedback modulates corticomuscular and intermuscular coherences differently in young and elderly adults

Author

Hideshi Sugiura, Tatsunori Watanabe, Tatsuya Mima, Ippei Nojima, and Hikari Kirimoto

Subjects

Adult, Male, medicine.medical_specialty, Aging, Cognitive Neuroscience, Magnification, Isometric exercise, Visual feedback, Scalp electroencephalogram, Electroencephalography, Audiology, 050105 experimental psychology, lcsh:RC321-571, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Feedback, Sensory, Isometric Contraction, Beta-band oscillation, medicine, Humans, 0501 psychology and cognitive sciences, Elderly adults, Muscle, Skeletal, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Aged, medicine.diagnostic_test, business.industry, Electromyography, 05 social sciences, Pinch grip, Motor Cortex, Index finger, Force control, body regions, medicine.anatomical_structure, Neurology, business, Beta Rhythm, Coherence, 030217 neurology & neurosurgery

Abstract

Beta-band (15–30 ​Hz) corticomuscular and intermuscular coherences are important markers of the corticospinal interaction. The purpose of this study was to investigate whether amount of visual feedback during an isometric pinch grip contraction would influence these coherences in young and elderly adults. Thirty-three healthy young and elderly subjects performed pinch grip force-matching task with right thumb and index finger, while scalp electroencephalogram (EEG) and electromyogram (EMG) from the first dorsal interosseous (FDI) and abductor pollicis brevis (APB) muscles were recorded. The amount of visual feedback was altered by manipulation of visual gain (low and high). Beta-band corticomuscular coherence was computed between EEG over the sensorimotor cortex and EMG from the FDI muscle and between EEG and EMG from the APB muscle (EEG-FDI and EEG-APB coherences). Also, beta-band intermuscular coherence was computed between EMG signals from the FDI and APB muscles (EMG-EMG coherence). Task performance was quantified as standard deviation (SD) of force and mean force error (MFE). EEG-FDI coherence was larger at high than low visual gain in the elderly but not in the young subjects, whereas there was no effect of age or visual gain on EEG-APB coherence. EMG-EMG coherence was smaller at high than low visual gain in the young and elderly subjects. The MFE was smaller at high than low visual gain in the young and elderly subjects, but the SD of force was smaller at high than low visual gain only in the young subjects. These results suggest that the effect of aging on beta-band coherence depends on the amount of visual feedback and further that visual feedback modulates beta-band corticomuscular and intermuscular coherences differently.

Published

2020

40. Effect of transcranial static magnetic stimulation on intracortical excitability in the contralateral primary motor cortex

Author

Ryota Shimomura, Yoshihiro Yukawa, Masatoshi Minakuchi, Sumiya Shibata, Tatsuya Mima, and Tatsunori Watanabe

Subjects

0301 basic medicine, Adult, Male, medicine.medical_treatment, Stimulation, Functional Laterality, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Cortex (anatomy), Medicine, Humans, business.industry, General Neuroscience, Motor Cortex, Neural Inhibition, Evoked Potentials, Motor, Transcranial Magnetic Stimulation, Transcranial magnetic stimulation, 030104 developmental biology, medicine.anatomical_structure, Intracortical facilitation, Brain stimulation, Scalp, Intracortical inhibition, Female, Primary motor cortex, business, human activities, Neuroscience, 030217 neurology & neurosurgery

Abstract

Transcranial static magnetic stimulation (tSMS) is a new technique of non-invasive brain stimulation using a small, high-powered neodymium magnet placed on the scalp. It can reduce cortical excitability below the magnet. The aim of this study was to investigate the effect of tSMS on the intracortical excitability of the primary motor cortex (M1) contralateral to the M1 where the magnet was placed. Fourteen right-handed healthy subjects participated in this experiment. TSMS was applied over the left M1 for 20 min. Single-pulse and paired-pulse transcranial magnetic stimulation (TMS) was applied over the right M1 to assess corticospinal excitability, short-latency intracortical inhibition (SICI), and intracortical facilitation (ICF) before and immediately after the intervention. ICF decreased significantly after tSMS, whereas corticospinal excitability and SICI did not change. This study suggests that tSMS applied over the M1 for 20 min has a remote modulatory effect on the interneuronal facilitatory circuit in the contralateral M1. The ability of tSMS to modulate neuronal activities in the remote cortex could expand the possibility of its clinical use.

Published

2020

41. Repetitive training of contralateral limb through reconsolidation strengthens motor skills

Author

Kazuto Ishida, Tatsunori Watanabe, Tomoya Gyoda, and Ippei Nojima

Subjects

Male, medicine.medical_specialty, General Neuroscience, education, Training (meteorology), Isometric exercise, Functional Laterality, Task (project management), Young Adult, Left limb, Physical medicine and rehabilitation, Motor Skills, medicine, Humans, Learning, Female, Memory consolidation, Contralateral limb, Psychology, Motor learning, Motor skill, Memory Consolidation

Abstract

Consolidated memories become transiently labile after memory reactivation, allowing update through reconsolidation. Although previous reports have indicated that the effects of post-reactivation training depend on the type of practice, it is unclear whether post-reactivation motor skill training of one limb can enhance the performance of the opposite limb. The present study aimed to investigate whether post-reactivation training (performing an isometric pinch force task) under two different training conditions using the left limb would enhance motor skills of the right limb through reconsolidation. Motor skills were measured in 38 healthy right-handed young adults during three sessions (S): S1 (right-hand training), S2 (memory reactivation and left-hand training 6 h after S1), and S3 (right-hand motor skill test 24 h after S1). Participants were assigned to one of three groups according to the task performed during S2: untrained controls (no training), left-hand training (constant force conditions), or left-hand training (variable force conditions). Left-hand training after memory reactivation during S2 significantly enhanced the motor skills of the right hand. Notably, constant training conditions significantly increased performance compared to the control group. These findings suggest that post-reactivation training in one limb effectively enhances motor skills in the opposite limb, and the effects depend on the training strategy, which has important implications for motor rehabilitation.

Published

2022

42. Effect of remifentanil on postoperative nausea and vomiting: a randomized pilot study

Author

Tatsunori Watanabe, Hiroshi Baba, Naoto Tsubokawa, and Koji Moriya

Subjects

Adult, Male, medicine.medical_specialty, medicine.medical_treatment, Remifentanil, Pilot Projects, Anesthesia, General, 03 medical and health sciences, 0302 clinical medicine, Double-Blind Method, 030202 anesthesiology, Anesthesiology, medicine, Humans, Prospective Studies, 030212 general & internal medicine, Saline, Aged, Brachial plexus block, Pain, Postoperative, business.industry, Incidence (epidemiology), Middle Aged, Acetaminophen, Analgesics, Opioid, Clinical trial, Anesthesiology and Pain Medicine, Anesthesia, Postoperative Nausea and Vomiting, Female, medicine.symptom, business, Postoperative nausea and vomiting, medicine.drug

Abstract

Opioid-related postoperative nausea and vomiting should not occur following remifentanil administration because of its relatively short time to elimination. However, studies have indicated that the incidence of postoperative nausea and vomiting associated with remifentanil is similar to that with other opioids. Hence, we aimed to determine whether intraoperative remifentanil itself is associated with postoperative nausea and vomiting when postoperative pain is managed without opioid use. In this prospective pilot study, 150 patients who underwent unilateral upper limb surgery under general anesthesia with brachial plexus block were included. Patients in the remifentanil and control groups received 0.5 µg/kg/min remifentanil and saline, respectively. Postoperative pain was managed using a brachial plexus block, non-steroidal anti-inflammatory drugs, and acetaminophen. The presence of postoperative nausea and vomiting within the first 24 h after anesthesia was assessed by an evaluator blinded to patient allocation. Eight patients were excluded from the final analysis, resulting in 72 and 70 patients in the remifentanil and control groups, respectively. Postoperative nausea and vomiting within 24 h after surgery occurred in 11 and 9 patients in the remifentanil and control groups, respectively. These data suggest that remifentanil use only minimally affects the incidence of postoperative nausea and vomiting under sevoflurane anesthesia. UMIN Clinical Trials Registry identification number: UMIN000016110.

Published

2018

43. Event-related potentials evoked by skin puncture reflect activation of Aβ fibers: comparison with intraepidermal and transcutaneous electrical stimulations

Author

Hikari Kirimoto, Ikuko Sobue, Keisuke Yunoki, Yui Shiroshita, and Tatsunori Watanabe

Subjects

Schmidt sting pain index, Blood sampling, Pain, Stimulation, behavioral disciplines and activities, Pediatrics, General Biochemistry, Genetics and Molecular Biology, Skin puncture (lance), Dermis, Event-related potential, medicine, Aβ fibers, Latency (engineering), Aδ fibers, Anesthesiology and Pain Management, business.industry, General Neuroscience, General Medicine, Nociceptive processing, Nociception, medicine.anatomical_structure, Medicine, General Agricultural and Biological Sciences, business, Free nerve ending, Neuroscience, Event-related potentials, Biomedical engineering

Abstract

Background Recently, event-related potentials (ERPs) evoked by skin puncture, commonly used for blood sampling, have received attention as a pain assessment tool in neonates. However, their latency appears to be far shorter than the latency of ERPs evoked by intraepidermal electrical stimulation (IES), which selectively activates nociceptive Aδ and C fibers. To clarify this important issue, we examined whether ERPs evoked by skin puncture appropriately reflect central nociceptive processing, as is the case with IES. Methods In Experiment 1, we recorded evoked potentials to the click sound produced by a lance device (click-only), lance stimulation with the click sound (click+lance), or lance stimulation with white noise (WN+lance) in eight healthy adults to investigate the effect of the click sound on the ERP evoked by skin puncture. In Experiment 2, we tested 18 heathy adults and recorded evoked potentials to shallow lance stimulation (SL) with a blade that did not reach the dermis (0.1 mm insertion depth); normal lance stimulation (CL) (1 mm depth); transcutaneous electrical stimulation (ES), which mainly activates Aβ fibers; and IES, which selectively activates Aδ fibers when low stimulation current intensities are applied. White noise was continuously presented during the experiments. The stimulations were applied to the hand dorsum. In the SL, the lance device did not touch the skin and the blade was inserted to a depth of 0.1 mm into the epidermis, where the free nerve endings of Aδ fibers are located, which minimized the tactile sensation caused by the device touching the skin and the activation of Aβ fibers by the blade reaching the dermis. In the CL, as in clinical use, the lance device touched the skin and the blade reached a depth of 1 mm from the skin surface, i.e., the depth of the dermis at which the Aβ fibers are located. Results The ERP N2 latencies for click-only (122 ± 2.9 ms) and click+lance (121 ± 6.5 ms) were significantly shorter than that for WN+lance (154 ± 7.1 ms). The ERP P2 latency for click-only (191 ± 11.3 ms) was significantly shorter than those for click+lance (249 ± 18.6 ms) and WN+lance (253 ± 11.2 ms). This suggests that the click sound shortens the N2 latency of the ERP evoked by skin puncture. The ERP N2 latencies for SL, CL, ES, and IES were 146 ± 8.3, 149 ± 9.9, 148 ± 13.1, and 197 ± 21.2 ms, respectively. The ERP P2 latencies were 250 ± 18.2, 251 ± 14.1, 237 ± 26.3, and 294 ± 30.0 ms, respectively. The ERP latency for SL was significantly shorter than that for IES and was similar to that for ES. This suggests that the penetration force generated by the blade of the lance device activates the Aβ fibers, consequently shortening the ERP latency. Conclusions Lance ERP may reflect the activation of Aβ fibers rather than Aδ fibers. A pain index that correctly and reliably reflects nociceptive processing must be developed to improve pain assessment and management in neonates.

Published

2021

44. High-flow nasal cannula oxygen therapy was effective for dysphagia associated with respiratory muscle paralysis due to cervical spinal cord injury

Author

Satomi Ohashi, Toshiaki Tamura, Koki Maruyama, Tatsunori Watanabe, Yoshihiro Watanabe, Mayumi Iizuka, Ryota Imai, and Seigo Yamaguchi

Subjects

Male, dysphagia, medicine.medical_treatment, Aspiration pneumonia, medicine.disease_cause, Thoracic Vertebrae, Swallowing, Oxygen therapy, Positive airway pressure, otorhinolaryngologic diseases, medicine, Cannula, Humans, Respiratory function, Clinical Case Report, Spinal Cord Injuries, high-flow nasal cannula oxygen therapy, Aged, 80 and over, business.industry, digestive, oral, and skin physiology, Oxygen Inhalation Therapy, Cervical Cord, General Medicine, medicine.disease, Magnetic Resonance Imaging, Respiratory Paralysis, Dysphagia, low cervical spinal cord injury, swallowing rehabilitation, Anesthesia, medicine.symptom, Deglutition Disorders, Respiratory Insufficiency, business, Nasal cannula, Research Article

Abstract

Rationale: Respiratory muscle paralysis due to low cervical spinal cord injury (CSCI) can lead to dysphagia. Noninvasive positive airway pressure (PAP) therapy can effectively treat this type of dysphagia. High-flow nasal cannula (HFNC) oxygen therapy can generate a low level of positive airway pressure resembling PAP therapy, it may improve the dysphagia. Patient concerns: The patient was an 87-year-old man without preexisting dysphagia. He suffered a CSCI due to a dislocated C5/6 fracture, without brain injury, and underwent emergency surgery. Postoperatively (day 2), he complained of dysphagia, and the intervention was initiated. Diagnosis: Based on clinical findings, dysphagia in this case, may have arisen due to impaired coordination between breathing and swallowing, which typically occurs in patients with CSCI who have reduced forced vital capacity. Interventions: HFNC oxygen therapy was started immediately after the surgery, and swallowing rehabilitation was started on Day 2. Indirect therapy (without food) and direct therapy (with food) were applied in stages. HFNC oxygen therapy appeared to be effective because swallowing function temporarily decreased when the HFNC oxygen therapy was changed to nasal canula oxygen therapy. Outcomes: Swallowing function of the patient improved and he did not develop aspiration pneumonia. Lessons: HFNC oxygen therapy improved swallowing function in a patient with dysphagia associated with respiratory-muscle paralysis following a CSCI. It may have prolonged the apnea tolerance time during swallowing and may have improved the timing of swallowing. HFNC oxygen therapy can facilitate both indirect and direct early swallowing therapy to restore both swallowing and respiratory function.

Published

2021

45. Significant decreases in blood propofol concentrations during adrenalectomy for phaeochromocytoma

Author

Takuya Araki, Hiroshi Baba, Tohru Aomori, Daisuke Nagano, Koujirou Yamamoto, Tomonori Nakamura, Haruhiko Hiraoka, and Tatsunori Watanabe

Subjects

Pharmacology, Cardiac output, business.industry, Adrenalectomy, medicine.medical_treatment, Cardiac index, Hemodynamics, 030208 emergency & critical care medicine, 03 medical and health sciences, 0302 clinical medicine, Blood pressure, 030202 anesthesiology, Bispectral index, medicine.artery, Anesthesia, Medicine, Pharmacology (medical), Radial artery, business, Propofol, medicine.drug

Abstract

Aim The kinetics of propofol are influenced by cardiac output. The aim of this study was to examine changes in blood propofol concentrations during phaeochromocytoma surgery using target-controlled infusion (TCI) anaesthesia with propofol. Methods This is a prospective observational study. Ten patients with phaeochromocytoma who underwent unilateral adrenalectomy were included. Cardiac output was measured using an arterial pressure-based cardiac output analysis method. The target blood propofol concentrations were adjusted to maintain an approximate bispectral index (BIS) value of 40 before initiating surgery. The settings remained constant during surgery. Blood samples for propofol concentrations were collected from the radial artery at seven time points: two before tumour manipulation (T1, 2), two during tumour manipulation (T3, 4), and three after tumour vein ligation (T4–7). BIS values, the arterial pressure cardiac index (APCI) and haemodynamic parameters were measured at the same time points as the blood samples. The prop-ratio was calculated by dividing blood propofol concentrations by target concentrations of TCI. Results APCI increased during tumour manipulation and after tumour vein ligation. The prop-ratio was reduced significantly by approximately 40% and showed a significant negative correlation with APCI. BIS values increased significantly and showed a significant negative correlation with the prop-ratio. Conclusion The increased APCI during tumour manipulation and after tumour vein ligation was associated with markedly reduced blood propofol concentrations. These results reveal that significant decreases in the anaesthetic effect may be observed in patients undergoing phaeochromocytoma surgery even if TCI anaesthesia is used with propofol.

Published

2017

46. Smaller muscle mass is associated with increase in EMG-EMG coherence of the leg muscle during unipedal stance in elderly adults

Author

Yuki Suwa, Ippei Nojima, Shigeo Tanabe, Tatsunori Watanabe, Taiji Noguchi, Hideshi Sugiura, and Tatsuya Mima

Subjects

Male, medicine.medical_specialty, Biophysics, Experimental and Cognitive Psychology, Electromyography, Muscle mass, Leg muscle, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Humans, Orthopedics and Sports Medicine, Elderly adults, Muscle, Skeletal, Aged, Aged, 80 and over, Leg, medicine.diagnostic_test, business.industry, 030229 sport sciences, General Medicine, Coherence (statistics), Healthy elderly, Walking Speed, Standing Position, Regression Analysis, Female, business, Stance time, 030217 neurology & neurosurgery, Lateral gastrocnemius

Abstract

Age-induced decline in the ability to perform daily activities is associated with a deterioration of physical parameters. Changes occur in neuromuscular system with age; however, the relationship between these changes and physical parameters has not been fully elucidated. Therefore, in this study, we aimed to determine the relationship between neuromuscular system evaluated using a coherence analysis of the leg muscles and physical parameters in community-dwelling healthy elderly adults. The participants were required to stand still in bipedal and unipedal stances on a force plate. Then, electromyography (EMG) was recorded from the tibialis anterior (TA) and medial and lateral gastrocnemius (MG/LG) muscles, and intermuscular coherence was calculated between the following pairs: TA and MG (TA–MG), TA and LG (TA–LG), and MG and LG (MG–LG). Furthermore, gait speed, unipedal stance time, and muscle mass were measured. EMG–EMG coherence for the MG–LG pair was significantly greater in the unipedal stance task than in the bipedal one (p = .001). Multiple linear regression analysis revealed that the muscle mass of the leg was negatively correlated with the change in the β-band coherence for the MG–LG pair from bipedal to unipedal stance (R2 = 0.067, standard β = −0.345, p = .044). As the β-band coherence could reflect the corticospinal activity, the increased β-band coherence may be a compensation for the smaller muscle mass, or alternatively may be a sign of changes in the nervous system resulting in the loss of muscle mass.

Published

2019

47. Evaluation of the diagnostic accuracy of nonverbal signs used by medical staff to assess postoperative pain

Author

Reiko Okawa, Andrey B. Petrenko, Hiroshi Baba, Tsuyoshi Sato, and Tatsunori Watanabe

Subjects

medicine.medical_specialty, Medical staff, business.industry, Postoperative pain, MEDLINE, Diagnostic accuracy, 03 medical and health sciences, Nonverbal communication, 0302 clinical medicine, Anesthesiology and Pain Medicine, Postoperative diagnosis, 030220 oncology & carcinogenesis, Physical therapy, medicine, 030212 general & internal medicine, Prospective cohort study, business

Published

2017

48. High-flow nasal cannula oxygen therapy was effective for dysphagia associated with respiratory muscle paralysis due to cervical spinal cord injury: A case report.

Author

Yoshihiro Watanabe, Toshiaki Tamura, Ryota Imai, Koki Maruyama, Mayumi Iizuka, Satomi Ohashi, Seigo Yamaguchi, Tatsunori Watanabe, Watanabe, Yoshihiro, Tamura, Toshiaki, Imai, Ryota, Maruyama, Koki, Iizuka, Mayumi, Ohashi, Satomi, Yamaguchi, Seigo, and Watanabe, Tatsunori

Published

2021

49. The effects of transcranial static magnetic fields stimulation over the supplementary motor area on anticipatory postural adjustments

Author

Hikari Kirimoto, Daisuke Tsuru, Toru Sunagawa, Tatsuya Mima, Tatsunori Watanabe, Xiaoxiao Chen, and Nami Kubo

Subjects

Adult, Male, 0301 basic medicine, medicine.medical_specialty, Transcranial static magnetic stimulation, Movement, Deltoid curve, Stimulation, Anticipatory postural adjustments, Shoulder flexion, Biceps, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Humans, Non-invasive brain stimulation, Muscle, Skeletal, Postural Balance, Supplementary motor area, Electromyography, business.industry, General Neuroscience, Motor Cortex, Anticipation, Psychological, SMA, Adaptation, Physiological, Transcranial Magnetic Stimulation, Trunk, body regions, 030104 developmental biology, medicine.anatomical_structure, Female, business, Psychomotor Performance, 030217 neurology & neurosurgery, Muscle Contraction

Abstract

We investigated the influence of transcranial static magnetic field stimulation (tSMS) over the supplementary motor area (SMA) on anticipatory postural adjustments (APAs), in which the activation of the postural muscles of the legs and trunk that control standing posture precedes the activation of the prime mover muscles during rapid shoulder flexion movement. Eighteen subjects performed a self-paced rapid shoulder flexion task before, during, and after tSMS. Electromyogram (EMG) activity was recorded from the deltoid anterior (AD) as the prime mover muscle and the biceps femoris (BF) as the postural muscle during the task. The EMG latency difference (ΔEMG onset) between the two muscles was calculated by subtracting the EMG burst onset of the BF from that of the AD. The ΔEMG onset was significantly shortened, but center-of-pressure parameters were not affected after tSMS stimulation. These findings suggest that tSMS applied over the SMA could inhibitively modulate APAs function.

Published

2020

50. Transcranial static magnetic stimulation over the primary motor cortex alters sequential implicit motor learning

Author

Ippei Nojima, Takashi Ikeda, Tomoya Gyoda, Hisato Sugata, Tatsunori Watanabe, and Tatsuya Mima

Subjects

0301 basic medicine, Serial reaction time, Adult, Male, medicine.medical_specialty, Prefrontal Cortex, Stimulation, Audiology, behavioral disciplines and activities, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Cognition, medicine, Reaction Time, Humans, Learning, Session (computer science), General Neuroscience, Motor Cortex, Hand, Transcranial Magnetic Stimulation, Dorsolateral prefrontal cortex, 030104 developmental biology, medicine.anatomical_structure, Motor Skills, Brain stimulation, Offline learning, Female, Primary motor cortex, Psychology, Motor learning, psychological phenomena and processes, 030217 neurology & neurosurgery, Psychomotor Performance

Abstract

Transcranial static magnetic stimulation (tSMS) is a recently introduced noninvasive brain stimulation technique that can modulate brain excitability. Here, we investigated a hypothesis that motor learning would be altered by tSMS applied to the primary motor cortex (M1). For motor task, we chose a serial reaction time task consisting of sequential trials and random trials in which the visual cue doesn’t play out a repeating pattern of positions to evaluate an implicit motor learning, where the M1 is a key structure for skill acquisition and early consolidation. Forty-four healthy right-handed volunteers participated in the present study. TSMS was placed over the right M1 or dorsolateral prefrontal cortex (DLPFC). The control group received Sham stimulation over the right M1. Reaction times (RTs) of left hand were analyzed before (Pre session) and after (Post session) practice to examine online learning, and were also assessed 24 h later to examine offline learning (Cons session). The results showed that the RTs became faster in Post than Pre session regardless of the stimulation location. Interestingly, the RTs were significantly faster with the M1 stimulation than the DLPFC or Sham stimulation in Cons session. There was not significant difference in error rate among sessions or stimulation locations. These findings suggest that the modulation of the M1 using tSMS can enhance offline motor learning in an implicit task.

Published

2018