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1.
Neuroscience Bulletin ; (6): 157-170, 2024.
Article in English | WPRIM | ID: wpr-1010660

ABSTRACT

In this study, we investigated how empathic neural responses unfold over time in different empathy networks when viewing same-race and other-race individuals in dynamic painful conditions. We recorded magnetoencephalography signals from Chinese adults when viewing video clips showing a dynamic painful (or non-painful) stimulation to Asian and White models' faces to trigger painful (or neutral) expressions. We found that perceived dynamic pain in Asian models modulated neural activities in the visual cortex at 100 ms-200 ms, in the orbitofrontal and subgenual anterior cingulate cortices at 150 ms-200 ms, in the anterior cingulate cortex around 250 ms-350 ms, and in the temporoparietal junction and middle temporal gyrus around 600 ms after video onset. Perceived dynamic pain in White models modulated activities in the visual, anterior cingulate, and primary sensory cortices after 500 ms. Our findings unraveled earlier dynamic activities in multiple neural circuits in response to same-race (vs other-race) individuals in dynamic painful situations.


Subject(s)
Adult , Humans , Brain Mapping , Pain , Empathy , Racism , Gyrus Cinguli/physiology , Magnetic Resonance Imaging , Brain/physiology
2.
Rev. chil. anest ; 52(4): 348-359, 2023. ilus, tab
Article in Spanish | LILACS | ID: biblio-1578492

ABSTRACT

Linear thinking, which explains phenomena in narrow temporalities and with a cause-effect relationship that generate a single possible outcome, has predominated in the everyday life of humankind. Science has shown that linear phenomena are rare in nature and that most of them respond to the dynamics of complex non-linear systems. In anaesthesia, the conceptual development has also been simplified and modelled to achieve certain clinical goals, but in recent years a readjustment to new insights and data, obtained from neuroscience and pharmacology, has become peremptory. In this article we develop some central concepts that should be reconsidered in clinical activity and in the understanding of phenomena of the brain dynamics of anaesthetised patients and their recovery.


El pensamiento lineal, que explica los fenómenos en temporalidades estrechas y con una relación causa-efecto que generan un solo resultado posible, ha predominado en la vida cotidiana de la humanidad. La ciencia ha mostrado que los fenómenos lineales son escasos en la naturaleza y que la mayoría responde a dinámica de sistemas complejos no lineales. En anestesia, el desarrollo conceptual también ha sido simplificado y modelizado para lograr ciertos objetivos clínicos, pero que en los últimos años se hace perentorio un reajuste a las nuevas visiones y datos, obtenidos en desde la neurociencia y la farmacología. En este artículo desarrollamos algunos conceptos centrales que deben reconsiderarse en la actividad clínica y en la comprensión de fenómenos de la dinámica cerebral del paciente anestesiado y su recuperación.


Subject(s)
Humans , Brain/drug effects , Nonlinear Dynamics , Anesthetics, General/pharmacology , Anesthesia, General/methods , Brain/physiology , Anesthetics, General/pharmacokinetics , Models, Biological
3.
Sheng Li Xue Bao ; (6): 521-528, 2023.
Article in Chinese | WPRIM | ID: wpr-1007767

ABSTRACT

The aim of the present study was to explore the specific pattern of brain deactivation elicited by painful stimuli, in contrast with that elicited by tactile stimuli. Functional magnetic resonance imaging (fMRI) data were collected from 62 healthy subjects under painful and tactile stimuli with varying intensities. The brain deactivations under different conditions were identified using the general linear model. Two-way analysis of variance (ANOVA) was performed to test whether there was a significant interaction between perceived stimulus intensity (factor 1: high intensity, low intensity) and stimulus modality (factor 2: pain, touch) on the brain deactivations. The results showed that there were significant interactions between stimulus intensity and stimulus modality on the deactivations of left medial superior frontal gyrus, left middle occipital gyrus, left superior frontal gyrus and right middle occipital gyrus (P < 0.05, Cluster-level FWE). The deactivations induced by painful stimuli with low perceived intensity (β = -3.38 ± 0.52) were significantly stronger than those induced by painful stimuli with high perceived intensity (β = -1.22 ± 0.54) (P < 0.001), whereas the differences between the deactivations induced by tactile stimuli with different perceived intensities were not statistically significant. In addition, there were no significant differences between the deactivations elicited by painful and tactile stimuli with the same stimulus intensities. These results suggest that there is a specific relationship between the deactivations induced by painful stimuli in multiple brain regions (such as the left medial superior frontal gyrus) and the stimulus intensity, providing evidence for a deeper understanding of the brain mechanisms underlying pain perception.


Subject(s)
Humans , Touch/physiology , Physical Stimulation/methods , Pain , Brain/physiology , Magnetic Resonance Imaging/methods , Brain Mapping
4.
Neuroscience Bulletin ; (6): 368-378, 2023.
Article in English | WPRIM | ID: wpr-971552

ABSTRACT

Chronic pain relief remains an unmet medical need. Current research points to a substantial contribution of glia-neuron interaction in its pathogenesis. Particularly, microglia play a crucial role in the development of chronic pain. To better understand the microglial contribution to chronic pain, specific regional and temporal manipulations of microglia are necessary. Recently, two new approaches have emerged that meet these demands. Chemogenetic tools allow the expression of designer receptors exclusively activated by designer drugs (DREADDs) specifically in microglia. Similarly, optogenetic tools allow for microglial manipulation via the activation of artificially expressed, light-sensitive proteins. Chemo- and optogenetic manipulations of microglia in vivo are powerful in interrogating microglial function in chronic pain. This review summarizes these emerging tools in studying the role of microglia in chronic pain and highlights their potential applications in microglia-related neurological disorders.


Subject(s)
Humans , Optogenetics , Brain/physiology , Microglia , Chronic Pain/therapy , Neurons/physiology
5.
Neuroscience Bulletin ; (6): 491-502, 2023.
Article in English | WPRIM | ID: wpr-971583

ABSTRACT

As prominent immune cells in the central nervous system, microglia constantly monitor the environment and provide neuronal protection, which are important functions for maintaining brain homeostasis. In the diseased brain, microglia are crucial mediators of neuroinflammation that regulates a broad spectrum of cellular responses. In this review, we summarize current knowledge on the multifunctional contributions of microglia to homeostasis and their involvement in neurodegeneration. We further provide a comprehensive overview of therapeutic interventions targeting microglia in neurodegenerative diseases. Notably, we propose microglial depletion and subsequent repopulation as promising replacement therapy. Although microglial replacement therapy is still in its infancy, it will likely be a trend in the development of treatments for neurodegenerative diseases due to its versatility and selectivity.


Subject(s)
Humans , Microglia/physiology , Central Nervous System , Neurodegenerative Diseases/therapy , Brain/physiology , Homeostasis
6.
Zhongguo zhenjiu ; (12): 1351-1357, 2023.
Article in English | WPRIM | ID: wpr-1007493

ABSTRACT

OBJECTIVES@#To analyze the effect of acupuncture at the acupoints for Yizhi Tiaoshen (benefiting the intelligence and regulating the spirit) on the functional connectivity between the hippocampus and the whole brain in the patients with Alzheimer's disease (AD), and reveal the brain function mechanism of acupuncture in treatment of AD using resting state functional magnetic resonance imaging (rs-fMRI).@*METHODS@#Sixty patients with mild to moderate AD were randomly divided into an acupuncture + medication group (30 cases, 3 cases dropped out) and a western medication group (30 cases, 2 cases dropped out). In the western medication group, the donepezil hydrochloride tablets were administered orally, 2.5 mg to 5 mg each time, once daily; and adjusted to be 10 mg each time after 4 weeks of medication. Besides the therapy as the western medication group, in the acupuncture + medication group, acupuncture was supplemented at the acupoints for Yizhi Tiaoshen, i.e. Baihui (GV 20), Sishencong (EX-HN 1), and bilateral Shenmen (HT 7), Neiguan (PC 6), Zusanli (ST 36), Sanyinjiao (SP 6) and Xuanzhong (GB 39). The needles were retained for 30 min in one treatment, once daily; and 6 treatments were required weekly. The duration of treatment was 6 weeks in each group. The general cognitive function was assessed by the mini-mental state examination (MMSE) and Alzheimer's disease assessment scale-cognitive part (ADAS-Cog) before and after treatment in the two groups. Using the rs-fMRI, the changes in the functional connectivity (FC) of the left hippocampus and the whole brain before and after treatment were analyzed in the patients of the two groups (11 cases in the acupuncture + medication group and 12 cases in the western medication group).@*RESULTS@#After treatment, compared with those before treatment, MMSE scores increased and ADAS-Cog scores decreased in the two groups (P<0.05); MMSE score was higher, while the ADAS-Cog score was lower in the acupuncture + medication group when compared with those in the western medication group (P≤0.05). After treatment, in the western medication group, FC of the left hippocampus was enhanced with the left fusiform gyrus, the inferior frontal gyrus of the left triangular region, the bilateral superior temporal gyrus and the right superior parietal gyrus (P<0.05), while FC was weakened with the left inferior temporal gyrus, the left middle frontal gyrus and the right dorsolateral superior frontal gyrus when compared with that before treatment (P<0.05). After treatment, in the acupuncture + medication group, FC of the left hippocampus was increased with the right gyrus rectus, the left inferior occipital gyrus, the right superior temporal gyrus and the left middle occipital gyrus (P<0.05), and it was declined with the left thalamus (P<0.05) when compared with those before treatment. After treatment, in the acupuncture + medication group, FC of the left hippocampus was strengthened with the bilateral inferior temporal gyrus, the bilateral middle temporal gyrus, the right gyrus rectus, the bilateral superior occipital gyrus, the left lenticular nucleus putamen, the left calcarine fissure and surrounding cortex, the inferior frontal gyrus of the left insulae operculum, the left medial superior frontal gyrus and the right posterior central gyrus (P<0.05) compared with that of the western medication group.@*CONCLUSIONS@#Acupuncture at the acupoints for Yizhi Tiaoshen improves the cognitive function of AD patients, and its main brain functional mechanism is related to intensifying the functional connectivity of the left hippocampus with the default network (inferior temporal gyrus, middle temporal gyrus and superior frontal gyrus, gyrus rectus), as well as with the sensory (posterior central gyrus) and visual (calcarine fissure and surrounding cortex and superior occipital gyrus) brain regions.


Subject(s)
Humans , Acupuncture Points , Alzheimer Disease/therapy , Magnetic Resonance Imaging , Brain/physiology , Acupuncture Therapy , Hippocampus/diagnostic imaging
7.
Neuroscience Bulletin ; (6): 1561-1576, 2023.
Article in English | WPRIM | ID: wpr-1010634

ABSTRACT

Genetic tools, which can be used for the morphology study of specific neurons, pathway-selective connectome mapping, neuronal activity monitoring, and manipulation with a spatiotemporal resolution, have been widely applied to the understanding of complex neural circuit formation, interactions, and functions in rodents. Recently, similar genetic approaches have been tried in non-human primates (NHPs) in neuroscience studies for dissecting the neural circuits involved in sophisticated behaviors and clinical brain disorders, although they are still very preliminary. In this review, we introduce the progress made in the development and application of genetic tools for brain studies on NHPs. We also discuss the advantages and limitations of each approach and provide a perspective for using genetic tools to study the neural circuits of NHPs.


Subject(s)
Animals , Primates/physiology , Brain/physiology , Connectome
8.
Neuroscience Bulletin ; (6): 1840-1858, 2023.
Article in English | WPRIM | ID: wpr-1010665

ABSTRACT

The mammalian brain is a highly complex network that consists of millions to billions of densely-interconnected neurons. Precise dissection of neural circuits at the mesoscopic level can provide important structural information for understanding the brain. Optical approaches can achieve submicron lateral resolution and achieve "optical sectioning" by a variety of means, which has the natural advantage of allowing the observation of neural circuits at the mesoscopic level. Automated whole-brain optical imaging methods based on tissue clearing or histological sectioning surpass the limitation of optical imaging depth in biological tissues and can provide delicate structural information in a large volume of tissues. Combined with various fluorescent labeling techniques, whole-brain optical imaging methods have shown great potential in the brain-wide quantitative profiling of cells, circuits, and blood vessels. In this review, we summarize the principles and implementations of various whole-brain optical imaging methods and provide some concepts regarding their future development.


Subject(s)
Animals , Brain/physiology , Brain Mapping/methods , Neurons/physiology , Optical Imaging/methods , Mammals
9.
Zhongguo Yi Liao Qi Xie Za Zhi ; (6): 304-308, 2023.
Article in Chinese | WPRIM | ID: wpr-982233

ABSTRACT

Implanted brain-computer interface (iBCI) is a system that establishes a direct communication channel between human brain and computer or an external devices by implanted neural electrode. Because of the good functional extensibility, iBCI devices as a platform technology have the potential to bring benefit to people with nervous system disease and progress rapidly from fundamental neuroscience discoveries to translational applications and market access. In this report, the industrialization process of implanted neural regulation medical devices is reviewed, and the translational pathway of iBCI in clinical application is proposed. However, the Food and Drug Administration (FDA) regulations and guidances for iBCI were expounded as a breakthrough medical device. Furthermore, several iBCI products in the process of applying for medical device registration certificate were briefly introduced and compared recently. Due to the complexity of iBCI in clinical application, the translational applications and industrialization of iBCI as a medical device need the closely cooperation between regulatory departments, companies, universities, institutes and hospitals in the future.


Subject(s)
Humans , Brain-Computer Interfaces , Brain/physiology , Electrodes, Implanted
10.
Zhongguo Yi Liao Qi Xie Za Zhi ; (6): 391-395, 2023.
Article in Chinese | WPRIM | ID: wpr-982251

ABSTRACT

Mild hypothermia, as a common means of intraoperative nerve protection, has been used in clinical practice. Compared with the traditional methods such as freezing helmet and nasopharyngeal cooling, hypothermic blood perfusion is considered to be a promising treatment for mild hypothermia, but it lacks experimental and theoretical verification of its cooling effect. In this study, the commercial finite element simulation software COMSOL combined the Pennes equation with the cerebrovascular network model to construct a new simplified human brain model, which was further used to simulate the cooling process of cerebral hypothermic blood perfusion. When the hypothermic blood perfusion was 33 ℃, the human brain could enter the mild hypothermic state within 4 minutes. By comparing with helmet cooling, the feasibility and efficiency of the blood perfusion scheme were verified. By comparing with the calculation results based on Pennes equation, the rationality of the model constructed in this study were verified. This model can non-intrusively predict the changes of brain temperature during surgery, and provide a reference for the setting of treatment parameters such as blood temperature, so as to provide personalized realization of safer and more effective mild hypothermia neuro protection.


Subject(s)
Humans , Hypothermia, Induced/methods , Hypothermia , Hemoperfusion , Brain/physiology , Body Temperature
11.
J. biomed. eng ; Sheng wu yi xue gong cheng xue za zhi;(6): 1005-1011, 2023.
Article in Chinese | WPRIM | ID: wpr-1008927

ABSTRACT

Transcranial electric stimulation (TES) is a non-invasive, economical, and well-tolerated neuromodulation technique. However, traditional TES is a whole-brain stimulation with a small current, which cannot satisfy the need for effectively focused stimulation of deep brain areas in clinical treatment. With the deepening of the clinical application of TES, researchers have constantly investigated new methods for deeper, more intense, and more focused stimulation, especially multi-electrode stimulation represented by high-precision TES and temporal interference stimulation. This paper reviews the stimulation optimization schemes of TES in recent years and further analyzes the characteristics and limitations of existing stimulation methods, aiming to provide a reference for related clinical applications and guide the following research on TES. In addition, this paper proposes the viewpoint of the development direction of TES, especially the direction of optimizing TES for deep brain stimulation, aiming to provide new ideas for subsequent research and application.


Subject(s)
Transcranial Direct Current Stimulation/methods , Deep Brain Stimulation , Brain/physiology , Head , Electric Stimulation/methods
12.
J. biomed. eng ; Sheng wu yi xue gong cheng xue za zhi;(6): 1235-1241, 2023.
Article in Chinese | WPRIM | ID: wpr-1008955

ABSTRACT

Rapid serial visual presentation (RSVP) is a type of psychological visual stimulation experimental paradigm that requires participants to identify target stimuli presented continuously in a stream of stimuli composed of numbers, letters, words, images, and so on at the same spatial location, allowing them to discern a large amount of information in a short period of time. The RSVP-based brain-computer interface (BCI) can not only be widely used in scenarios such as assistive interaction and information reading, but also has the advantages of stability and high efficiency, which has become one of the common techniques for human-machine intelligence fusion. In recent years, brain-controlled spellers, image recognition and mind games are the most popular fields of RSVP-BCI research. Therefore, aiming to provide reference and new ideas for RSVP-BCI related research, this paper reviewed the paradigm design and system performance optimization of RSVP-BCI in these three fields. It also looks ahead to its potential applications in cutting-edge fields such as entertainment, clinical medicine, and special military operations.


Subject(s)
Humans , Brain-Computer Interfaces , Electroencephalography/methods , Brain/physiology , Artificial Intelligence , Photic Stimulation/methods
13.
J. biomed. eng ; Sheng wu yi xue gong cheng xue za zhi;(6): 198-206, 2022.
Article in Chinese | WPRIM | ID: wpr-928215

ABSTRACT

Brain-computer interaction (BCI) is a transformative human-computer interaction, which aims to bypass the peripheral nerve and muscle system and directly convert the perception, imagery or thinking activities of cranial nerves into actions for further improving the quality of human life. Magnetoencephalogram (MEG) measures the magnetic field generated by the electrical activity of neurons. It has the unique advantages of non-contact measurement, high temporal and spatial resolution, and convenient preparation. It is a new BCI driving signal. MEG-BCI research has important brain science significance and potential application value. So far, few documents have elaborated the key technical issues involved in MEG-BCI. Therefore, this paper focuses on the key technologies of MEG-BCI, and details the signal acquisition technology involved in the practical MEG-BCI system, the design of the MEG-BCI experimental paradigm, the MEG signal analysis and decoding key technology, MEG-BCI neurofeedback technology and its intelligent method. Finally, this paper also discusses the existing problems and future development trends of MEG-BCI. It is hoped that this paper will provide more useful ideas for MEG-BCI innovation research.


Subject(s)
Humans , Brain/physiology , Brain-Computer Interfaces , Electroencephalography , Imagery, Psychotherapy , Magnetoencephalography , Technology
14.
J. biomed. eng ; Sheng wu yi xue gong cheng xue za zhi;(6): 237-247, 2022.
Article in Chinese | WPRIM | ID: wpr-928219

ABSTRACT

Brain functional network changes over time along with the process of brain development, disease, and aging. However, most of the available measurements for evaluation of the difference (or similarity) between the individual brain functional networks are for charactering static networks, which do not work with the dynamic characteristics of the brain networks that typically involve a long-span and large-scale evolution over the time. The current study proposes an index for measuring the similarity of dynamic brain networks, named as dynamic network similarity (DNS). It measures the similarity by combining the "evolutional" and "structural" properties of the dynamic network. Four sets of simulated dynamic networks with different evolutional and structural properties (varying amplitude of changes, trend of changes, distribution of connectivity strength, range of connectivity strength) were generated to validate the performance of DNS. In addition, real world imaging datasets, acquired from 13 stroke patients who were treated by transcranial direct current stimulation (tDCS), were used to further validate the proposed method and compared with the traditional similarity measurements that were developed for static network similarity. The results showed that DNS was significantly correlated with the varying amplitude of changes, trend of changes, distribution of connectivity strength and range of connectivity strength of the dynamic networks. DNS was able to appropriately measure the significant similarity of the dynamics of network changes over the time for the patients before and after the tDCS treatments. However, the traditional methods failed, which showed significantly differences between the data before and after the tDCS treatments. The experiment results demonstrate that DNS may robustly measure the similarity of evolutional and structural properties of dynamic networks. The new method appears to be superior to the traditional methods in that the new one is capable of assessing the temporal similarity of dynamic functional imaging data.


Subject(s)
Humans , Aging/physiology , Brain/physiology , Brain Mapping , Magnetic Resonance Imaging/methods , Nerve Net/physiology , Transcranial Direct Current Stimulation/methods
15.
J. biomed. eng ; Sheng wu yi xue gong cheng xue za zhi;(6): 405-415, 2022.
Article in Chinese | WPRIM | ID: wpr-928238

ABSTRACT

Brain-computer interface (BCI) is a revolutionary human-computer interaction technology, which includes both BCI that can output instructions directly from the brain to external devices or machines without relying on the peripheral nerve and muscle system, and BCI that bypasses the peripheral nerve and muscle system and inputs electrical, magnetic, acoustic and optical stimuli or neural feedback directly to the brain from external devices or machines. With the development of BCI technology, it has potential application not only in medical field, but also in non-medical fields, such as education, military, finance, entertainment, smart home and so on. At present, there is little literature on the relevant application of BCI technology, the current situation of BCI industrialization at home and abroad and its commercial value. Therefore, this paper expounds and discusses the above contents, which are expected to provide valuable information for the public and organizations, BCI researchers, BCI industry translators and salespeople, and improve the cognitive level of BCI technology, further promote the application and industrial transformation of BCI technology and enhance the commercial value of BCI, so as to serve mankind better.


Subject(s)
Humans , Brain/physiology , Brain-Computer Interfaces , Electroencephalography , Technology , User-Computer Interface
16.
J. biomed. eng ; Sheng wu yi xue gong cheng xue za zhi;(6): 612-619, 2022.
Article in Chinese | WPRIM | ID: wpr-939629

ABSTRACT

In recent years, exploring the physiological and pathological mechanisms of brain functional integration from the neural network level has become one of the focuses of neuroscience research. Due to the non-stationary and nonlinear characteristics of neural signals, its linear characteristics are not sufficient to fully explain the potential neurophysiological activity mechanism in the implementation of complex brain functions. In order to overcome the limitation that the linear algorithm cannot effectively analyze the nonlinear characteristics of signals, researchers proposed the transfer entropy (TE) algorithm. In recent years, with the introduction of the concept of brain functional network, TE has been continuously optimized as a powerful tool for nonlinear time series multivariate analysis. This paper first introduces the principle of TE algorithm and the research progress of related improved algorithms, discusses and compares their respective characteristics, and then summarizes the application of TE algorithm in the field of electrophysiological signal analysis. Finally, combined with the research progress in recent years, the existing problems of TE are discussed, and the future development direction is prospected.


Subject(s)
Algorithms , Brain/physiology , Entropy , Neural Networks, Computer , Nonlinear Dynamics
17.
Zhongguo zhenjiu ; (12): 363-368, 2022.
Article in Chinese | WPRIM | ID: wpr-927389

ABSTRACT

OBJECTIVE@#To explore the modulation of transcutaneous auricular vagus nerve stimulation (taVNS) on default mode network (DMN) in patients with primary insomnia (PI).@*METHODS@#A total of 22 PI patients (one patient dropped off and two patients were excluded) were included and treated with taVNS. The bilateral auricular points of Xin (CO15) and Shen (CO10) were selected and treated with disperse-dense wave at frequency of 4 Hz/20 Hz, the intensity was based on the patient's tolerance. taVNS was given once in the morning and once in the evening for 30 minutes each time. The treatment lasted for at least 5 days a week for 4 weeks. At the same time, 16 healthy subjects matched with gender and age were recruited. The Pittsburgh sleep quality index (PSQI) score was evaluated before and after treatment in PI patients. The resting-state functional magnetic resonance imaging (rs-fMRI) data of PI patients before and after treatment and healthy subjects at baseline period were collected to observe the effect of taVNS on the functional connection (FC) between posterior cingulate cortex (PCC) and whole brain.@*RESULTS@#After treatment, the total score of PSQI in PI patients was lower than that before treatment (P<0.01). Compared with healthy subjects, the FC of the left PCC was increased either with the left orbital superior frontal gyrus or with left middle frontal gyrus (P<0.001), and the FC between right PCC and left middle frontal gyrus was increased in PI patients before treatment (P<0.001). Compared before treatment, the FC between left PCC and left middle frontal gyrus was decreased (P<0.05), and the FC of the right PCC was decreased either with the right medial prefrontal cortex or with the left middle frontal gyrus in PI patients after treatment (P<0.001, P<0.01).@*CONCLUSION@#taVNS can modulate the FC between anterior and posterior DMN, and between DMN and cognitive control network of PI patients, which may be one of the brain effect mechanisms of taVNS in the treatment of PI patients.


Subject(s)
Humans , Brain/physiology , Default Mode Network , Magnetic Resonance Imaging/methods , Sleep Initiation and Maintenance Disorders/therapy , Vagus Nerve , Vagus Nerve Stimulation/methods
19.
Rev. bras. med. esporte ; Rev. bras. med. esporte;27(4): 425-429, Aug. 2021. tab, graf
Article in English | LILACS | ID: biblio-1288605

ABSTRACT

ABSTRACT Introduction: The rapid development of rs-fMRI in recent years can provide new scientific evidence of the plasticity of the child's brain. Objective: To reveal the effect of short-term moderate-intensity aerobic exercise on local consistency of brain function in children at rest, and to provide new evidence for elucidating the relationship between physical exercise and plasticity of children's brain. Methods: Using resting state functional magnetic resonance imaging (rs-fMRI) technology and local consistency (ReHo) analysis method to detect a 30-min short-term moderate-intensity aerobic exercise before and after children's brain function local consistency changes; using the Flanker task measurement Changes in children's executive function before and after exercise. Results: 1) A 30-min short-term moderate-intensity aerobic exercise made the children's bilateral posterior buckle back, left dorsolateral prefrontal lobe, left frontal medial gyrus, bilateral central posterior gyrus, left suboccipital gyrus, and tongue gyrus. 2) A 30-minute short-term moderate-intensity aerobic exercise improves children's executive function. 3) ReHo increases in bilateral posterior buckle gyrus, bilateral central parietal posterior gyrus, and left dorsal lateral prefrontal lobe are significantly associated with improved executive function. Conclusions: Short-term moderate-intensity aerobic exercise can improve brain plasticity and executive function by increasing local consistency of brain function in children at rest. Level of evidence II; Therapeutic studies - investigation of treatment results.


RESUMO Introdução: O rápido desenvolvimento dos rs-fMRI nos últimos anos pode fornecer novas evidências científicas da plasticidade do cérebro da criança. Objetivo: revelar o efeito do exercício aeróbio de intensidade moderada de curta duração na consistência local da função cerebral em crianças em repouso e fornecer novas evidências para elucidar a relação entre exercício físico e plasticidade cerebral em crianças. Métodos: Usando a tecnologia de imagem de ressonância magnética funcional em estado de repouso (rs-fMRI) e o método de análise de consistência local (ReHo) para detectar exercícios aeróbicos de intensidade moderada e de curta duração 30 minutos antes e depois de alterações de consistência local na função cerebral das crianças; usando a medição de Flanker das mudanças na função executiva das crianças antes e depois do exercício. Resultados: 1) Um curto exercício aeróbico de 30 min de intensidade moderada fez com que as crianças se curvassem para trás, lobo pré-frontal dorsolateral esquerdo, giro frontal medial esquerdo, giro central posterior bilateral, giro suboccipital esquerdo e giro da língua. 2) Um exercício aeróbico de curta duração, 30 minutos e intensidade moderada melhora a função executiva das crianças. 3) Aumentos em ReHo no giro da fivela posterior bilateral, no giro parietal posterior central bilateral e no lobo pré-frontal lateral dorsal esquerdo estão significativamente associados à função executiva melhorada. Conclusões: O exercício aeróbico de intensidade moderada de curto prazo pode melhorar a plasticidade cerebral e a função executiva, aumentando a consistência local da função cerebral em crianças em repouso. Nível de evidência II; Estudos terapêuticos - investigação dos resultados do tratamento.


RESUMEN Introducción: El rápido desarrollo de rs-fMRI en los últimos años puede proporcionar nueva evidencia científica de la plasticidad del cerebro del niño. Objetivo: Revelar el efecto del ejercicio aeróbico de intensidad moderada a corto plazo sobre la consistencia local de la función cerebral en niños en reposo y proporcionar nueva evidencia para dilucidar la relación entre el ejercicio físico y la plasticidad del cerebro de los niños. Métodos: uso de la tecnología de imágenes de resonancia magnética funcional (rs-fMRI) en estado de reposo y el método de análisis de consistencia local (ReHo) para detectar un ejercicio aeróbico de intensidad moderada a corto plazo de 30 minutos antes y después de los cambios de consistencia local de la función cerebral de los niños; utilizando la medición de Flanker de los cambios en la función ejecutiva de los niños antes y después del ejercicio. Resultados: 1) Un ejercicio aeróbico de intensidad moderada y corta duración de 30 min hizo que los niños se doblaran hacia atrás, lóbulo prefrontal dorsolateral izquierdo, circunvolución medial frontal izquierda, circunvolución posterior central bilateral, circunvolución suboccipital izquierda y circunvolución de la lengua. 2) Un ejercicio aeróbico de intensidad moderada a corto plazo de 30 minutos mejora la función ejecutiva de los niños. 3) Los aumentos de ReHo en la circunvolución de la hebilla posterior bilateral, la circunvolución posterior parietal central bilateral y el lóbulo prefrontal lateral dorsal izquierdo se asocian significativamente con una función ejecutiva mejorada. Conclusiones: El ejercicio aeróbico de intensidad moderada a corto plazo puede mejorar la plasticidad cerebral y la función ejecutiva al aumentar la consistencia local de la función cerebral en niños en reposo. Nivel de evidencia II; Estudios terapéuticos: investigación de los resultados del tratamiento.


Subject(s)
Humans , Male , Female , Child , Brain/diagnostic imaging , Magnetic Resonance Imaging , Exercise/physiology , Time Factors , Brain/physiology , Models, Theoretical
20.
Salud bienestar colect ; 5(1): 90-104, ene.-abr. 2021.
Article in Spanish | LILACS | ID: biblio-1352374

ABSTRACT

La actividad de jugar es importante dentro del desarrollo humano, mientras se juega, se ponen en práctica distintas habilidades cognitivas en interacción con el funcionamiento de sistemas sensoriales y el sistema motor del cuerpo, lo cual se asocia a la construcción de aprendizajes. Jugar es una actividad que facilita comprender cómo es el mundo y cómo nos integramos en él. El presente artículo tiene como objetivo desarrollar una reflexión sobre la relación del juego con la plasticidad cerebral y el desarrollo de habilidades cognitivas. La hipótesis se centra en destacar el juego como una actividad que estimula la plasticidad cerebral y facilita el fortalecimiento de las habilidades cognitivas en todas las etapas del ciclo vital (no exclusivamente en la infancia). La guía de la cavilación consistió en una revisión del concepto de juego relacionado con conceptos de aprovechamiento de la plasticidad cerebral y estimulación de habilidades mentales. El propósito que ha orientado el artículo es convocar a la reflexión sobre la concepción y práctica del juego, con la intención de sumar a posicionar la actividad de jugar como una estrategia valiosa en los procesos de aprendizaje. El interés de los resultados se centra en dar sustento teórico a la acción de promover cada vez más la inclusión del juego en las intervenciones profesionales, en los procesos educativos y en las actividades de la vida cotidiana. La conclusión a la que se llega es que jugar resulta una excelente estrategia para facilitar la expresión de la plasticidad cerebral y las habilidades cognitivas.


The activity of playing is important within human development, while playing, different cognitive skills are put into practice in interaction with the functioning of sensory systems and the body's motor system, which is associated with the construction of learning. Playing is an activity thatmakes it easier to understand what the world is like and how we integrate ourselves into it. The present article aims to develop a reflection on the relationship between play and brain plasticity and the development of cognitive abilities. The hypothesis focuses on highlighting play as an activity that stimulates brain plasticity and facilitates the strengthening of cognitive abilities at all stages of the life cycle (not exclusively in childhood). The musing guide consisted of a review of the concept of play related to concepts of making use of brain plasticity and stimulating mental abilities. The purpose of the article is to call for reflection on the conception and practice of the game, with the intention of adding to position the activity of playing as a valuable strategy in the learning processes. The interest of the results is centered on giving theoretical support to the action of increasingly promoting the inclusion of the game in professional interventions, in educational processes and in activities of daily life. The conclusion reached is that playing is an excellent strategy to facilitate the expression of brain plasticity and cognitive abilities.


Subject(s)
Humans , Brain/physiology , Cognition , Neuronal Plasticity/physiology , Play and Playthings/psychology
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