Background and Objective: Premature ventricular complex (PVC) burden exhibits one of three circadian types, classified as fast-type, slow-type, and independent-type PVC. It is unknown whether PVC circadian types have different heart rate variability (HRV) parameter values. Therefore, this study aimed to evaluate differences in HRV circadian rhythm among fast-, slow-, and independent-type PVC. Methods: This cross-sectional observational study consecutively recruited 65 idiopathic PVC subjects (23 fast-, 20 slow-, and 22 independent-type) as well as five control subjects. Each subject underwent a 24-hour Holter to examine PVC burden and HRV. HRV analysis included components that primarily reflect global, parasympathetic, and sympathetic activities. Repeated measures analysis of variance was used to compare differences in HRV circadian rhythm by PVC type. Results. The average PVC burden was 15.7%, 8.4%, and 13.6% in fast-, slow-, and independent-type idiopathic PVC subjects, respectively. Global, parasympathetic nervous system, and sympathetic nervous system HRV parameters were significantly lower in independenttype PVC versus fast- and slow-type PVC throughout the day and night. Furthermore, we unexpectedly found that tendency towards sympathetic activity dominance during nighttime was only in independent-type PVC. Conclusion The HRV parameters are reduced in patients with independent-type PVC compared to fast- and slowtype PVC. Future research is warranted to determine possible differences in the prognosis between the three PVC types.
Ventricular Premature Complexes ; Circadian Rhythm ; Autonomic Nervous System

Parkinson's disease (PD) is a common neurodegenerative disease characterized by motor symptoms, including bradykinesia, resting tremor, and progressive rigidity. More recently, non-motor symptoms of PD, such as pain, depression and anxiety, and autonomic dysfunction, have attracted increasing attention from scientists and clinicians. As one of non-motor symptoms, pain has high prevalence and early onset feature. Because the mechanism of PD-related pathological pain is unclear, the clinical therapy for treating PD-related pathological pain is very limited, with a focus on relieving the symptoms. This paper reviewed the clinical features, pathogenesis, and therapeutic strategies of PD-related pathological pain and discussed the mechanism of the chronicity of PD-related pathological pain, hoping to provide useful data for the study of drugs and clinical intervention for PD-related pathological pain.
Humans ; Parkinson Disease/therapy* ; Neurodegenerative Diseases ; Autonomic Nervous System Diseases/complications* ; Anxiety ; Pain/etiology*

From the perspective of autonomic nervous system, this paper analyzes the mechanism, current western medicine treatment methods and acupuncture-moxibustion treatment mechanism of gastroesophageal reflux disease (GERD). It is believed that the main cause of GERD is that the gastric acid goes to the wrong place due to gastrointestinal motility disorder, which belongs to "acid dislocation". At present, western medical treatment cannot effectively target the pathogenesis of the disease, and its effect is limited. Acupuncture-moxibustion could regulate the neuroendocrine immune network to regulate the function of autonomic nerve, restore the power of digestive tract to treat GERD, which is worthy of further research.
Humans ; Moxibustion ; Acupuncture Therapy ; Gastroesophageal Reflux/therapy* ; Gastrointestinal Diseases ; Autonomic Nervous System ; Gastrointestinal Motility

Autonomic Pathways ; Humans ; Parasympathetic Nervous System ; Stomach Neoplasms ; Sympathetic Nervous System

The principle of total mesorectal excision (TME) standardizes the resection range and surgical dissection plane in radical rectal cancer surgery, reduces the local recurrence rate and improves the long-term survival. TME is the "gold standard" in radical rectal cancer surgery. However, with the progress of laparoscopic surgical instruments and techniques in recent years, further understanding of pelvic membrane anatomy and autonomic nervous system has been gained, which makes the surgical plane of TME more accurate and the autonomic nervous system better preserved. According to anatomical discovery and histological confirmation, there is a fascia between the mesorectal fascia and pelvic parietal fascia, called pre-hypogastric nerve sheath, in which autonomic nervous system courses, including the superior hypogastric plexus, left and right hypogastric nerves, pelvic plexus and the neurovascular bundles, from the abdominal to the pelvic cavity behind the mesorectal fascia. It fuses with the end of the mesorectum at the superior border of musculi puborectalis, and goes around the mesorectum to join with Denonvillier fascia. On the basis of anatomical studies and empirical anatomical observations, we put forward the concept of network preservation of the autonomic nervous system: the main trunk as well as the nerve branches of the pelvic autonomic nervous system and accompanying blood vessels should be preserved to ensure the integrity of the nerve reflex arc. The concept allows the radical resection of rectal cancer to follow the principle of TME, and meanwhile, protect patient's urination function and sexual function to the greatest extent, improving the quality of life of patients after surgery.
Autonomic Nervous System ; Humans ; Neoplasm Recurrence, Local ; Pelvis ; Quality of Life ; Rectal Neoplasms/surgery* ; Rectum

Many studies have shown that asthma and obesity are linked and affect each other. Although obesity is an important risk factor for asthma, it is controversial whether asthma is a risk factor for obesity vice versa. Recent United States and European cohort studies have published papers reporting that pediatric asthma is a risk factor for obesity in school-aged children or adolescents. Previous studies have shown inconsistent results, suggesting that the 2 diseases are highly complex and that the relationships between them are strong. In order to understand the relationships between the 2 diseases, it is necessary to approach them from a new point of view such as energy metabolism relevance or autonomic nervous system control.
Adolescent ; Asthma ; Autonomic Nervous System ; Child ; Cohort Studies ; Energy Metabolism ; Humans ; Obesity ; Risk Factors ; United States

The core concept for pathophysiology in panic disorder (PD) is the fear network model (FNM). The alterations in FNM might be linked with disturbances in the autonomic nervous system (ANS), which is a common phenomenon in PD. The traditional FNM included the frontal and limbic regions, which were dysregulated in the feedback mechanism for cognitive control of frontal lobe over the primitive response of limbic system. The exaggerated responses of limbic system are also associated with dysregulation in the neurotransmitter system. The neuroimaging studies also corresponded to FNM concept. However, more extended areas of FNM have been discovered in recent imaging studies, such as sensory regions of occipital, parietal cortex and temporal cortex and insula. The insula might integrate the filtered sensory information via thalamus from the visuospatial and other sensory modalities related to occipital, parietal and temporal lobes. In this review article, the traditional and advanced FNM would be discussed. I would also focus on the current evidences of insula, temporal, parietal and occipital lobes in the pathophysiology. In addition, the white matter and functional connectome studies would be reviewed to support the concept of advanced FNM. An emerging dysregulation model of fronto-limbic-insula and temporooccipito-parietal areas might be revealed according to the combined results of recent neuroimaging studies. The future delineation of advanced FNM model can be beneficial from more extensive and advanced studies focusing on the additional sensory regions of occipital, parietal and temporal cortex to confirm the role of advanced FNM in the pathophysiology of PD.
Autonomic Nervous System ; Connectome ; Frontal Lobe ; Limbic System ; Neuroimaging ; Neurotransmitter Agents ; Occipital Lobe ; Panic Disorder ; Panic ; Parietal Lobe ; Rabeprazole ; Temporal Lobe ; Thalamus ; White Matter

The autonomic nervous system plays critical roles in maintaining homeostasis in humans, directly regulating inflammation by altering the activity of the immune system. The cholinergic anti-inflammatory pathway is a well-studied neuroimmune interaction involving the vagus nerve. CD4-positive T cells expressing β2 adrenergic receptors and macrophages expressing the alpha 7 subunit of the nicotinic acetylcholine receptor in the spleen receive neurotransmitters such as norepinephrine and acetylcholine and are key mediators of the cholinergic anti-inflammatory pathway. Recent studies have demonstrated that vagus nerve stimulation, ultrasound, and restraint stress elicit protective effects against renal ischemia-reperfusion injury. These protective effects are induced primarily via activation of the cholinergic anti-inflammatory pathway. In addition to these immunological roles, nervous systems are directly related to homeostasis of renal physiology. Whole-kidney three-dimensional visualization using the tissue clearing technique CUBIC (clear, unobstructed brain/body imaging cocktails and computational analysis) has illustrated that renal sympathetic nerves are primarily distributed around arteries in the kidneys and denervated after ischemia-reperfusion injury. In contrast, artificial renal sympathetic denervation has a protective effect against kidney disease progression in murine models. Further studies are needed to elucidate how neural networks are involved in progression of kidney disease.
Acetylcholine ; Arteries ; Autonomic Nervous System ; Cholinergic Neurons ; Homeostasis ; Humans ; Immune System ; Inflammation ; Kidney Diseases ; Kidney ; Macrophages ; Nervous System ; Neurotransmitter Agents ; Norepinephrine ; Optogenetics ; Physiology ; Receptors, Adrenergic ; Receptors, Nicotinic ; Reperfusion Injury ; Spleen ; Sympathectomy ; Sympathetic Nervous System ; T-Lymphocytes ; Ultrasonography ; Vagus Nerve ; Vagus Nerve Stimulation

Heart rate variability (HRV) reflects beat-to-beat variability in the heart rate due to the dynamic interplay of the sympathetic and parasympathetic nervous systems. HRV is considered an index of the functional status of the autonomic nervous system. A decrease in HRV is thus observed in individuals with autonomic dysfunction. Abnormal HRV has been reported in a range of mental disorders. In this review, we give an overview of HRV in patients with major depressive disorder (MDD), schizophrenia, and posttraumatic stress disorder (PTSD), one of whose core symptoms is cognitive dysfunction. The association between HRV and cognitive function is highlighted in this review. This review consists of three main sections. In the first section, we examine how HRV in patients with MDD, schizophrenia, and PTSD is characterized, and how it is different when compared to that in healthy controls. In the second section, beyond the heart itself, we discuss the intimate connection between the heart and the brain, focusing on how HRV interacts with quantitative electroencephalography (qEEG) in the context of physiological changes in the sleep cycle. Lastly, we finish the review with the examination of the association between HRV and cognitive function. The overall findings indicate that the reduction in HRV is one of main manifestations in MDD, schizophrenia, and PTSD, and also more generally HRV is closely linked to the change in qEEG and also to individual differences in cognitive performance.
Autonomic Nervous System ; Brain ; Cognition ; Depressive Disorder, Major ; Electroencephalography ; Heart Rate ; Heart ; Humans ; Individuality ; Mental Disorders ; Parasympathetic Nervous System ; Schizophrenia ; Stress Disorders, Post-Traumatic

Nociception monitoring devices using changes in autonomic nervous system activity have been developed in numerous ways. Although there have been few studies conducted on children, compared to the relatively higher number of studies on adults, most of the nociception monitors in children, as in adults, appear to be more useful than the standard clinical practice that uses hemodynamic parameters in the evaluation and treatment of intraoperative nociception (pain) during general anesthesia. Particularly, when monitoring the surgical pleth index (SPI) in anesthetized children, the application of a new target range of SPI values (≤ 40) to the SPI monitoring criteria seems to be necessary for providing a more proper intraoperative analgesia. The analgesia nociception index (ANI) shows promising results in anesthetized adults, and recently, positive results along with cardiorespiratory coherence have been reported in pediatric patients. Newborn infant parasympathetic evaluation (NIPE) could be useful for providing adequate analgesia in newborns, infants, and children under 2 years of age in anesthetized or awake states. In cases of skin conductance and pupillometry, further studies are needed. Understanding the pros, cons, and limitations of these nociception monitoring tools will provide more effective and safe intraoperative analgesia to pediatric patients undergoing general anesthesia, and it may also help to plan and conduct promising research on the use of perioperative nociception monitoring in pediatric patients in the future.
Adult ; Analgesia ; Anesthesia, General ; Autonomic Nervous System ; Child ; Hemodynamics ; Humans ; Infant ; Infant, Newborn ; Monitoring, Intraoperative ; Nociception ; Pain Measurement ; Skin