The effects of mobile phone dependence on athletic performance and its mechanisms.

Mobile phone dependence (also known as internet dependence, MPD), defined as a problematic behavior characterized by excessive use or intermittent craving to use a mobile phone, results in various social, behavioral, and affective problems in daily life. In sports, MPD is directly related to the physical and mental health and sports performance of athletes. The individual and environmental factors, neurobiological mechanisms and theoretical models of MPD affecting athletic performance were analyzed by reviewing previous studies, aiming to construct effective training and development protocols to prevent and control the occurrence of MPD in athletes. At present, athletic performance can be affected by MPD through individual factors and environmental factors. The neurobiological mechanisms between the two are based on the brain reward system and microwave radiation from mobile phones, with athletic performance being restricted by alterations in the corresponding brain regions. Relevant theoretical models mainly include the social cognitive model of self-regulation and the integrative model of self-control, which explain the interrelationship between MPD and athletic performance from the perspectives of athletes' self-regulation and self-control, respectively. As an emerging phenomenon, the influence pathways and mechanisms by which MPD affects athletic performance need to be further investigated. A longitudinal perspective should be adopted to trace the dynamic impact relationship between the two, and developing relevant theoretical frameworks from an interdisciplinary research perspective should be valuable for providing theoretical support for coaches and sports administrators to formulate scientific training protocols and thus improve the mental health of athletes.

Functional connectivity mediating passive coping style and perceived stress in predicting anxiety.

BACKGROUND: Passive coping style (CS) and perceived stress play significant roles as influencing factors in the development of anxiety. However, the underlying neurobiological mechanism linking passive CS and perceived stress to anxiety susceptibility remains elusive. Thus, we aimed to investigate the relationships among passive CS, brain functional connectivity, perceived stress, and anxiety in young adults. METHODS: Data from the longitudinal Gene-Brain-Behavior Project(GBB) and Southwest University Longitudinal Imaging Multimodal Project(SLIM) were used. We confirmed the relationship among anxiety, passive CS and perceived stress. Then, we investigated the mediated functional connectivity between passive CS and perceived stress, and used these functional connections to predict present anxiety and follow-up anxiety one year later. RESULTS: Anxiety scores were significantly positively correlated with passive CS and perceived stress. At the brain network level, connections within the default mode network (DMN) and between the somatomotor network (SMN) and subcortical network (SUN) mediated the relationship between passive CS and perceived stress. Furthermore, present anxiety and follow-up anxiety one year later could be predicted by these mediated functional connections. Nodes with greater predictive contribution were mainly located in the left anterior cingulate gyrus (ACC), left inferior parietal gyrus (IPG), right superior frontal gyrus (SFG), and left middle frontal gyrus (MFG), mainly distributed on the DMN. CONCLUSION: These findings demonstrated that the mediated neurobiological mechanisms between passive CS and perceived stress could be used to predict present and future anxiety, which enhance understanding of the neurobiological basis of anxiety susceptibility in this passive CS and perceived stress and may have implications for early preventing and intervening mental disorders.

Three potential neurovascular pathways driving the benefits of mindfulness meditation for older adults.

Mindfulness meditation has been shown to be beneficial for a range of different health conditions, impacts brain function and structure relatively quickly, and has shown promise with aging samples. Functional magnetic resonance imaging metrics provide insight into neurovascular health which plays a key role in both normal and pathological aging processes. Experimental mindfulness meditation studies that included functional magnetic resonance metrics as an outcome measure may point to potential neurovascular mechanisms of action relevant for aging adults that have not yet been previously examined. We first review the resting-state magnetic resonance studies conducted in exclusively older adult age samples. Findings from older adult-only samples are then used to frame the findings of task magnetic resonance imaging studies conducted in both clinical and healthy adult samples. Based on the resting-state studies in older adults and the task magnetic resonance studies in adult samples, we propose three potential mechanisms by which mindfulness meditation may offer a neurovascular therapeutic benefit for older adults: (1) a direct neurovascular mechanism via increased resting-state cerebral blood flow; (2) an indirect anti-neuroinflammatory mechanism via increased functional connectivity within the default mode network, and (3) a top-down control mechanism that likely reflects both a direct and an indirect neurovascular pathway.

Sex Differences in Autism Spectrum Disorder: Diagnostic, Neurobiological, and Behavioral Features.

Autism Spectrum Disorder (ASD) is a complex neurodevelopmental disorder with a worldwide prevalence of about 1%, characterized by impairments in social interaction, communication, repetitive patterns of behaviors, and can be associated with hyper- or hypo-reactivity of sensory stimulation and cognitive disability. ASD comorbid features include internalizing and externalizing symptoms such as anxiety, depression, hyperactivity, and attention problems. The precise etiology of ASD is still unknown and it is undoubted that the disorder is linked to some extent to both genetic and environmental factors. It is also well-documented and known that one of the most striking and consistent finding in ASD is the higher prevalence in males compared to females, with around 70% of ASD cases described being males. The present review looked into the most significant studies that attempted to investigate differences in ASD males and females thus trying to shade some light on the peculiar characteristics of this prevalence in terms of diagnosis, imaging, major autistic-like behavior and sex-dependent uniqueness. The study also discussed sex differences found in animal models of ASD, to provide a possible explanation of the neurological mechanisms underpinning the different presentation of autistic symptoms in males and females.

Light-emitting diode phototherapy: pain relief and underlying mechanisms.

Pain is a common symptom of an illness. For decades, pain treatments such as non-steroidal anti-inflammatory drugs, opioids, and surgical nerve blocking have been widely used, but each method has its limitations. Photobiomodulation is a recently developed method for pain management, with light-emitting diodes (LEDs) being a more recent development used in pain management because of their low cost, low side effects, and high safety. Here, we reviewed the phototherapeutic effects of LEDs on different pain conditions. We also discussed possible physicochemical and neurobiological mechanisms underlying LED therapy, especially its effects on inflammatory pain.

[Progress of researches on mechanisms of acupuncture therapy for cerebral hemorrhage].

Acupuncture therapy has been widely used in clinical treatment of consciousness, cognitive function, mental and motor disorders after intracerebral hemorrhage (ICH) in China, and has achieved good results. We, in the present paper, summarized development of studies on the underlying mechanism of acupuncture therapy for ICH in recent 20 years. Outcomes showed that acupuncture can relieve symptoms of ICH by 1) inhibiting inflammatory response, 2) alleviating brain edema, 3) inhibiting apoptosis, 4) activating autophagy, 5) inhibiting iron death, 6) alleviating oxidative stress, 7) promoting nerve regeneration, 8) improving brain circulation, 9) regulating neurotransmitter levels, and 10) promoting angiogenesis. In the future, we suggest that clinical trials for exploring the rule of dialectical acupoint selection in the treatment of ICH should be strengthened, and in-depth studies on the interrelation among the acupuncture targets are conducted to improve the theory of acupuncture effects.

Interoception Underlies Therapeutic Effects of Mindfulness Meditation for Posttraumatic Stress Disorder: A Randomized Clinical Trial.

BACKGROUND: Mindfulness-based interventions have proven efficacy in treating posttraumatic stress disorder (PTSD), but the neurobiological mechanism underlying the therapeutic effects is unknown. As mindfulness meditation cultivates attention to the present moment and bodily sensations, neural functions related to interoception (i.e., central processes of bodily signals) might be such a mechanism. METHODS: We conducted a clinical trial in which veterans with PTSD were randomly assigned to receive an 8-week mindfulness-based stress reduction (MBSR) intervention (n = 47) or an active control intervention (present-centered group therapy; n = 51). We assessed pre- and postintervention PTSD symptoms and electroencephalography measures of neural outcomes, including spontaneous brain activity, cognitive task-related brain responses, and interoceptive brain responses (heartbeat-evoked brain responses). We conducted statistical causal mediation analyses using treatment type as a predictor, pre- and postintervention measures of symptom severity as treatment response, and the neural outcomes as mediators. RESULTS: Compared with the control group, the MBSR group had greater improvements in PTSD symptoms and increases in spontaneous alpha power (8-13 Hz), task-related frontal theta power (4-7 Hz in 140-220 ms after stimulus), and frontal theta heartbeat-evoked brain responses (3-5 Hz and 265-336 ms after R peak). The mediation analysis using latent difference score modeling revealed that only changes in frontal theta heartbeat-evoked brain responses mediated the MBSR treatment effect. CONCLUSIONS: Mindfulness meditation improves brain functions of attentional control and resting brain states reflective of internally oriented relaxation. However, interoceptive neural functions enhanced by MBSR seem to be a primary cerebral mechanism that improves symptoms of PTSD.

[Research progress and problems of neurobiological mechanisms of acupuncture underlying improvement of irritable bowel syndrome].

In recent years, many studies have confirmed the positive effect of acupuncture and moxibustion in the treatment of irritable bowel syndrome (IBS), and a lot of researches have been made to explore its neurobiological mechanisms. The neurobiological mechanisms include two aspects 1) remission of visceral hypersensitivity via peripheral and central pathways (spinal cord and brain), and 2) improvement of intestinal motility via vagus nerve and enteric nervous system (ENS)- interstitial cells of Cajal (ICC)-smooth muscle cells (ENS-ICC-SMC) network, and 5-HT, vasoactive intestinal peptide (VIP), neuropeptide Y, etc.. At the same time, we also discussed the existing problems in the research of the underlying neurobiological mechanisms of acupuncture and moxibustion for IBS. The existing problems in this field mainly include 1) fragmentization or lack of integrity in researches, and 2) limitation of the reductionism method. For this reason, we should draw lessons from the research methods of systematic science to study the neurobiological mechanisms of acupuncture and moxibustion in the treatment of IBS, including the detailed links of peripheral and central nervous transmission of acupoint stimulation signals, and the interactive action modes (two-way benign regulation, multi-target regulation, saturation regulation, etc.).

Neurobiological Mechanisms for Semantic Feature Extraction and Conceptual Flexibility.

Signs and symbols relate to concepts and can be used to speak about objects, actions, and their features. Theories of semantic grounding address the question how the latter two, concepts and real-world entities, come into play and interlink in symbol learning. Here, a neurobiological model is used to spell out concrete mechanisms of symbol grounding, which implicate the "association" of information about sign and referents and, at the same time, the extraction of semantic features and the formation of abstract representations best described as conjoined and disjoined feature sets that may or may not have a real-life equivalent. The mechanistic semantic circuits carrying these feature sets are not static conceptual entries, but exhibit rich activation dynamics related to memory, prediction, and contextual modulation. Four key issues in specifying these activation dynamics will be highlighted: (a) the inner structure of semantic circuits, (b) mechanisms of semantic priming, (c) task specificity in semantic activation, and (d) context-dependent semantic circuit activation in the processing of referential, existential, and universal statements. These linguistic-semantic examples show that specific mechanisms are required to account for context-dependent semantic function or conceptual "flexibility." Static context-independent concepts as such are insufficient to account for these different semantic functions. Whereas abstract amodal models of concepts did so far not spell out concrete mechanisms for context-dependent semantic function, neuronal assembly mechanisms offer a workable perspective.

Effects of Acupuncture on Cancer-Related Cognitive Impairment in Chinese Gynecological Cancer Patients: A Pilot Cohort Study.

BACKGROUND: Among women in China, gynecological cancers are the second most common cancers after breast cancer. Cancer-related cognitive impairment (CRCI) has emerged as a significant problem affecting gynecological cancer survivors. While acupuncture has been used in different aspects of cancer care, the possible positive effects of acupuncture on cognitive impairment have received little attention. This study hypothesized that patients would demonstrate lower neurocognitive performance and lower structural connectivity compared to healthy controls. This pilot study also hypothesized that acupuncture may potentially be effective in treating CRCI of cancer patients by increasing brain structural connectivity and integrity. METHODS: This prospective cohort study consisted of 3 stages: the first stage included a group of gynecological cancer patients and a group of age-matched healthy controls. This baseline stage used a core set of neurocognitive tests to screen patients with cognitive impairment and used a multimodal approach of brain magnetic resonance imaging (MRI) to explore the possible neurobiological mechanism of cognitive impairment in cancer patients, comparing the results with a group of noncancer controls. The second stage involved assigning CRCI patients into the acupuncture intervention group, while patients without CRCI were assigned into the cancer control group. The third stage was a postintervention assessment of neurocognitive function by the same set of neurocognitive tests at baseline. To explore the possible neurobiological basis of acupuncture for treating CRCI, this study also used a multimodal MRI approach to assess changes in brain structural connectivity, and neurochemical properties in patients at pre- and postacupuncture intervention. RESULTS: This study found that the prevalence of cognitive impairment in Chinese gynecological cancer patients at diagnosis was 26.67%. When investigating the microstructural white matter in the brain, diffusion tensor imaging data in this study indicated that premorbid cognitive functioning (before clinical manifestations become evident) has already existed, as the global and local connectome properties in the entire patient group were lower than in the healthy control group. Using magnetic resonance spectroscopy, this study indicated there was a significant reduction of relative concentration of NAA ( N-acetyl aspartate) in the left hippocampus, comparing these results with healthy controls. Regarding the effects of acupuncture on reducing CRCI, patients in the acupuncture group reported better neurocognitive test performance after matching for age, menopausal status, cancer stage, and chemotherapy regimen dosage. On a microstructural level, acupuncture's ability to reduce CRCI may be attributed to a reduction in demyelination and an enhancement of the neuronal viability of white matter in the hippocampus. CONCLUSION: This pilot study indicates that acupuncture is a promising intervention in treating CRCI in gynecological cancer patients undergoing chemotherapy; however, it requires evaluation in larger randomized controlled studies to definitively assess its benefit. By using a multimodal imaging approach, this pilot study also provides novel insights into the neurobiological basis of cognitive impairment on the human brain that has been induced by cancer and/or its treatment.

The formation and erasure of drug addiction memories / 复旦学报（医学版）

Psychoactive substance abuse has been a public health and social problem in the world.The essence of psychoactive substance addiction is a pathological memory (addiction memory) based on alterations in gene expression and synapticplasticity.Here we summarize recent findings in the neurobiological mechanisms of psychoactive substance addiction.

Neurobiological Mechanism of Memory

Memory is one of the most important mental mechanisms which is crucial for us to adapt to environmental surroundings and to maintain our identity. The neurobiological mechanisms for memory are based upon the synaptic plasticity that involve both functional and structural changes at the synapses in the neural circuits participating in learning and memory. Memory is not a single process but has two forms of short-term and long-term memory that are two independent but overlapping processes that blend into one another. The short-term memory depends upon the functional change of synaptic strength but the long-term memory requires anatomic changes of synapses in the neural circuit. Memory storage seems to use elements of a common genetic switch, involving cyclic adenosine monophospate (cAMP)-dependent protein kinase, mitogen activated protein kinase, and cAMP response element-binding protein, to convert short-term memory into long-term memory.

Perception of Therapeutic Qi, a Nonmechanical, Nonpsychological Factor in Acupuncture That Originates from the Therapist.

So far, most research attempts to explain the mechanism of the action of acupuncture have focused mostly on mechanically-triggered active factors and have produced inconclusive findings. In this study, we investigate whether acupuncture might also involve nonmechanical, nonpsychological active factors originating in the therapist. In 30 individuals, an acupuncture needle was inserted in the acupoint PC6 using a special device without touching the needle. A second device was used to fix the needle rigidly in place, excluding any mechanical transmission of movement from the handle to the needle's tip. Each participant was exposed in random order to a control and a stimulation phase. During the stimulation phase, the free needle's end was held by the therapist to allow the transmission of Qi; during the control phase, it was left untouched. Participants' subjective sensations during the stimulation phase and the control phase were recorded using a questionnaire. Twenty-two of 28 (79%; p = 0.003) test participants believed that they had received stimulation when it had actually been performed, and 26 (93%; p < 0.001) sensed differences between the two experimental phases. Thus, participants were able to sense the transmission of therapeutic Qi in the absence of mechanical or psychological factors.

Understanding of the sensorimotor-cognitive difficulties in attention deficit and hyperactivity disorders children / 中华实用儿科临床杂志

Attention deficit and hyperactivity disorders (ADHD),a neurodevelopmental disability with core symptoms of inattention,hyperactivity and impulsivity increases the risk of many cognitive problems.However,the brain structures and pathways involved in the interplays between the core symptoms,such as activity deficits,and cognitive impairments have remained unknown over the past decades.This article review the academic developments in recent years that elucidate the neural mechanisms involved in the sensorimotor-cognitive difficulties at systematic,circuitry,cellular,and molecular levels.The treatment potentials of physical activity enhancement were addressed,as a new alternative and supplementary therapeutic strategy for ADHD,based on our current understanding of the neurobiology of cognitive-sensorimotor interaction.

Neurobiological mechanisms of acupuncture for some common illnesses: a clinician's perspective.

This paper presents some previously proposed neurobiological mechanisms on how acupuncture may work in some clinical applications from a clinician's perspective. For the treatment of musculoskeletal conditions, the proposed mechanisms included microinjury, increased local blood flow, facilitated healing, and analgesia. Acupuncture may trigger a somatic autonomic reflex, thereby affecting the gastric and cardiovascular functions. Acupuncture may also change the levels of neurotransmitters such as serotonin and dopamine, thereby affecting the emotional state and craving. This mechanism may form the basis for the treatment of smoking cessation. By affecting other pain-modulating neurotransmitters such as met-enkephalin and substance P along the nociceptive pathway, acupuncture may relieve headache. Acupuncture may affect the hypothalamus pituitary axis and reduce the release of the luteinizing hormone in the treatment of polycystic ovary syndrome. In addition, two other approaches to the acupuncture mechanism, the fascia connective tissue network and the primo vascular system, are briefly reviewed. Finally, the idea of true versus sham acupuncture points, which are commonly used in clinical trials, is examined because the difference between true and sham points does not exist in the neurobiological model.

Neurobiological Mechanism of Nicotine Dependence / 대한정신약물학회지

Nicotine, the primary psychoactive components of tobacco smoke, produce diverse neurophysiological and behavioral effects through several brain regions and neurochemical pathways. It acts as an agonist to activate and desensitize nicotinic acetylcholine receptors. Nicotinic signaling leads to activation of reward centers in the CNS, including the mesoaccumbens dopamine system, which ultimately leads to behavioral reinforcement and addiction. Indeed, the actions of nicotine on many systems, including brainstem cholinergic, GABAergic, glutaminergic, noradrenergic, and serotonergic systems, may help to mediate nicotine effects related to addiction. And many years of smoking induces neuroadaptations in acetylcholine and dopamine systems. Moreover, the long-term synaptic changes results in learned behaviors and memory which are associated with smoking. We reviewed the nicotinic synaptic mechanisms in midbrain dopaminergic areas. In summary, nicotine as obtained from tobacco interacts with multiple nicotinic acetylcholine receptor subtypes on dopamine, GABA, glutaminergic neuron to produce not only the acute positive reinforcement but also the synaptic changes associated with learning and memory.

Understanding Stress by Neuroscience

Stress can be defined generally as reponses to stressors on the body or in a definition more focused on the central nervous system, it can be defined as alterations in neuro-psychological homeostatic processes. There is a psychological aspect to stress, related to issues such as memory, emotion, arousal, and also a biological aspect which included activation of specific brain and endocrine circuits. This article reviews a series of neurobiological mechanisms aimed at understanding what are pathways by which stress is perceived, processed, and transduced into a neuroendocrine response. Multiple brain structures are involved in the organization of responses to stressful stimuli. Among them the hypothalamus, septohippocampal structures, amygdala, cingulate and prefrontal cortices, hindbrain regions such as the brainstem catecholamine cell body group (A2/C2 cell groups in the nucleus of the tractus solitaris; A1/C1 cell groups in the ventrolateral medulla; A6 cell groups in the locus ceruleus), the parabrachial nucleus, cuneiform nucleus, and dorsal raphe nucleus are prominent structures. We reviewed with the focus on the classic stress circuits: the limbic- hypothalamic-pituitary- adrenal axis (LHPA) and locus ceruleus-norepinephrine (LC-NE) system. Our review indicates that the LHPA stress circuit and LC- NE system are the complex systems with multiple control mechanisms and that these mechanisms are altered in pathological states, such as chronic stress and depression. The holistic features described in this reviews can provide insight into the nature and location of brain circuits and neurotransmitter receptors involved in stress and the treatment of stress-related disorders.