Your search keyword '"Sympathetic Nervous System"' showing total 67,434 results

51. Activation AMPK in Hypothalamic Paraventricular Nucleus Improves Renovascular Hypertension Through ERK1/2-NF-κB Pathway.

Author

Fu, Li-Yan, Yang, Yu, Li, Rui-Juan, Issotina Zibrila, Abdoulaye, Tian, Hua, Jia, Xiu-Yue, Qiao, Jin-An, Wu, Jin-Min, Qi, Jie, Yu, Xiao-Jing, and Kang, Yu-Ming

Subjects

RENOVASCULAR hypertension, AMP-activated protein kinases, SYMPATHETIC nervous system, PROTEIN kinases, SYSTOLIC blood pressure

Abstract

Hypertension is a globally prevalent disease, but the pathogenesis remains largely unclear. AMP-activated protein kinase (AMPK) is a nutrition-sensitive signal of cellular energy metabolism, which has a certain influence on the development of hypertension. Previously, we found a down-regulation of the phosphorylated (p-) form of AMPK, and the up-regulation of the angiotensin II type 1 receptor (AT1-R) and that of p-ERK1/2 in the hypothalamic paraventricular nucleus (PVN) of hypertensive rats. However, the exact mechanism underlying the relationship between AMPK and AT1-R in the PVN during hypertension remains unclear. Thus, we hypothesized that AMPK modulates AT1-R through the ERK1/2-NF-κB pathway in the PVN, thereby inhibiting sympathetic nerve activity and improving hypertension. To examine this hypothesis, we employed a renovascular hypertensive animal model developed via two-kidney, one-clip (2K1C) and sham-operated (SHAM). Artificial cerebrospinal fluid (aCSF), used as vehicle, or 5-amino-1-β-d-ribofuranosyl-imidazole-4-carboxamide (AICAR, an AMPK activator, 60 μg/day) was microinjected bilaterally in the PVN of these rats for 4 weeks. In 2K1C rats, there an increase in systolic blood pressure (SBP) and circulating norepinephrine (NE). Also, the hypertensive rats had lowered expression of p-AMPK and p-AMPK/AMPK, elevated expression of p-ERK1/2, p-ERK1/2/ERK1/2 and AT1-R, increased NF-κB p65 activity in the PVN compared with the levels of these biomarkers in SHAM rats. Four weeks of bilateral PVN injection of AMPK activator AICAR, attenuated the NE level and SBP, increased the expression of p-AMPK and p-AMPK/AMPK, lessened the NF-κB p65 activity, decreased the expression of p-ERK1/2, p-ERK1/2/ERK1/2 and AT1-R in the PVN of 2K1C rats. Data from this study imply that the activation of AMPK within the PVN suppressed AT1-R expression through inhibiting the ERK1/2-NF-κB pathway, decreased the activity of the sympathetic nervous system, improved hypertension. [ABSTRACT FROM AUTHOR]

Published

2024

52. Risk factors and clinical outcomes of basilar artery occlusion presenting with paroxysmal sympathetic hyperactivity as the initial manifestation: a prospective study.

Author

Juntao Yin, Wan Wang, Yu Wang, Yichao Huo, Yanan Jia, Peng Zhao, Yingdong Xu, Xiaoqiang Li, Guofeng Li, Yongmei Kong, Yuqing Wei, and Lixin Guo

Subjects

RISK assessment, NIH Stroke Scale, BASILAR artery, RESEARCH funding, LOGISTIC regression analysis, BRAIN, SYMPATHETIC nervous system, ENDOVASCULAR surgery, TREATMENT effectiveness, HOSPITAL mortality, DESCRIPTIVE statistics, LONGITUDINAL method, ODDS ratio, ARTERIAL occlusions, AUTONOMIC nervous system diseases, COMPARATIVE studies, CONFIDENCE intervals, SYMPTOMS

Abstract

Background Paroxysmal sympathetic hyperactivity (PSH) has been linked to a worse clinical prognosis in patients with traumatic brain injury. We aimed to identify the risk factors and clinical features associated with basilar artery occlusion (BAO) presenting with PSH as the first clinical presentation. Methods This study recruited patients with acute BAO who received endovascular therapy (EVT) at two stroke centers in China. PSH Assessment Measure ≥8 was included in the PSH+ group, while those with a score below 8 were classified as the PSH-group. Clinical data and radiological findings were compared between the two groups. A binary logistic regression model was employed to identify independent risk factors for PSH. Results 101 participants were enrolled, of whom 19 (18.8%) presented with PSH as the initial manifestation of BAO. Worse prognosis (modified Rankin Scale score of 4-6) at day 90 occurred in 14 (73.7%) of the PSH+ patients and 42 (51.2%) of the PSH-patients (P=0.076). The 90-day mortality rate was higher in the PSH+ group with 12 (63.2%) participants, compared with 31 (37.8%) participants in the PSH-group (P=0.044). A significantly increased risk of PSH was found in patients with midbrain involvement (OR 6.53, 95% CI 1.56 to 27.30, P=0.01) and a high baseline National Institutes of Health Stroke Scale (NIHSS) score (OR 1.15, 95% CI 1.01 to 1.31, P=0.037). Conclusions Patients with BAO presenting with PSH as the initial clinical manifestation experience a higher risk of 90-day mortality, despite undergoing EVT. Midbrain infarction and baseline NIHSS score may be significant risk factors for PSH following BAO. [ABSTRACT FROM AUTHOR]

Published

2024

53. Blockade of sympathetic ganglia improves vascular dysfunction in septic shock.

Author

Favero, Ana Maria, Rosales, Thiele Osvaldt, Scheschowitsch, Karin, Gonçalves, Muryel Carvalho, Benedet, Patricia Oliveira, Sordi, Regina, Nardi, Geisson Marcos, and Assreuy, Jamil

Subjects

SEPTIC shock, SYMPATHETIC nervous system, AUTONOMIC nervous system, ADRENERGIC receptors, ADRENERGIC agonists

Abstract

Sepsis/septic shock activates the sympathetic nervous system (SNS) to deal with the infection stress. However, an imbalanced or maladaptive response due to excessive or uncontrolled activation characterizes autonomic dysfunction. Our hypothesis was that reducing this excessive activation of the autonomic nervous system would impact positively in sepsis. Using ganglionic blockers as a pharmacological approach, the main aim of the present report was to assess the role of ganglionic transmission in the vascular dysfunction associated with sepsis. Sepsis was induced in rats by cecal ligation and puncture (CLP). One hour after CLP surgery, rats were treated subcutaneously with hexamethonium (15 mg/kg; ganglionic blocker), pentolinium (5 mg/kg; a blocker with a higher selectivity for sympathetic ganglia compared to hexamethonium), or vehicle (PBS). Basal blood pressure and the response to adrenergic agonists were evaluated at 6 and 24 h after CLP surgery. Reactivity to vasoconstrictors, nitric oxide (NO) synthase 2 (NOS-2) expression, IL-1 and TNF plasma levels, and density of α1 adrenergic receptors were evaluated in the aorta 24 h after CLP. Septic shock resulted in hypotension and hyporesponsiveness to norepinephrine and phenylephrine, increased plasma cytokine levels and NOS-2 expression in the aorta, and decreased α1 receptor density in the same vessel. Pentolinium but not hexamethonium recovered responsiveness and α1 adrenergic receptor density in the aorta. Both blockers normalized the in vivo response to vasoconstrictors, and reduced plasma IL-1 and NOx levels and NOS-2 expression in the aorta. Blockade of ganglionic sympathetic transmission reduced the vascular dysfunction in experimental sepsis. This beneficial effect seems to be, at least in part, due to the preservation of α1 adrenergic receptor density and to reduced NOS-2 expression and may lead to adjuvant ways to treat human sepsis. [ABSTRACT FROM AUTHOR]

Published

2024

54. The Impact of Stimulation Parameters on Cardiovascular Outcomes in Chronic Stroke Patients Following Transcranial Direct Current Stimulation—A Pilot Controlled, Randomized, Double-Blind Crossover Trial.

Author

Corrêa, Fernanda Ishida, Uehara, Laura, de Andrade, Michele Lacerda, da Silva, Gustavo Oliveira, De Angelis, Katia, Viana, Ariane, Bertani, Catarina Novaes Souza, Corrêa, João Carlos Ferrari, and Fregni, Felipe

Subjects

TRANSCRANIAL direct current stimulation, AUTONOMIC nervous system, HEART beat, SYMPATHETIC nervous system, TEMPORAL lobe

Abstract

Background: Stroke survivors often experience autonomic nervous system (ANS) dysfunction. While Transcranial Direct Current Stimulation (tDCS) has been shown to modulate the ANS when applied to the left hemisphere, its effects on the right hemisphere remain unexplored. Objective: We aimed to compare the effects of tDCS applied to both the injured and the contralateral hemispheres on heart rate variability (HRV) and functional capacity in individuals post-stroke. Methods: Twenty individuals with cerebral hemisphere lesions (ten with right-hemisphere lesions and ten with left-hemisphere lesions) were randomized into four groups: anodal and sham tDCS on the left temporal cortex (T3) and anodal and sham tDCS on the right temporal cortex (T4). HRV was assessed before the intervention, after the six-minute walk test (6MWT), and following tDCS. HRV data were categorized into frequency ranges: low frequency (LF), high frequency (HF), and sympathovagal balance. The 6MWT (meters) was conducted both pre- and post-tDCS. Results: In individuals with right-hemisphere lesions, a higher global LF value was observed (right side: 71.4 ± 16.8 nu vs. left side: 65.7 ± 17.3 nu; p = 0.008), as well as lower values of the HF component (right side: 29.5 ± 18.9 nu vs. left side: 34.0 ± 17.4 nu; p = 0.047), consequently exhibiting higher global values of the low/high-frequency ratio (right side: 3.9 ± 2.8 vs. left side: 2.9 ± 2.4). Regarding the stimulation site, tDCS over T3 led to a lower overall value of the low/high-frequency ratio (left hemisphere: 3.0 ± 2.2 vs. right hemisphere: 3.7 ± 2.9; p = 0.040) regardless of the lesion location. A significant increase in the distance covered in the 6MWT was observed for individuals with lesions in both hemispheres after tDCS at T3. Conclusions: Participants with right-hemisphere lesions exhibited superior global sympathetic autonomic nervous system activity. When the tDCS was applied on the left hemisphere, it maintained lower sympathovagal balance values and improved functional capacity regardless of the hemisphere affected by the stroke. [ABSTRACT FROM AUTHOR]

Published

2024

55. Interleukin-2 improves insulin sensitivity through hypothalamic sympathetic activation in obese mice

Author

Subin Moon, Yejin Park, Sooyeon Jang, Saeha Kim, Dan-Gyeong Song, Dae-Chul Shin, and Chan Hee Lee

Subjects

Interleukin-2, Insulin resistance, Adipose tissue inflammation, Sympathetic nervous system, Hypothalamic microglia, Pro-opiomelanocortin (POMC) neurons, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background IL-2 regulates T cell differentiation: low-dose IL-2 induces immunoregulatory Treg differentiation, while high-dose IL-2 acts as a potent activator of cytotoxic T cells and NK cells. Therefore, high-dose IL-2 has been studied for use in cancer immunotherapy. We aimed to utilize low-dose IL-2 to treat inflammatory diseases such as obesity and insulin resistance, which involve low-grade chronic inflammation. Main body Systemic administration of low-dose IL-2 increased Treg cells and decreased inflammation in gonadal white adipose tissue (gWAT), leading to improved insulin sensitivity in high-fat diet-fed obese mice. Additionally, central administration of IL-2 significantly enhanced insulin sensitivity through the activation of the sympathetic nervous system. The sympathetic signaling induced by central IL-2 administration not only decreased interferon γ (IFNγ) + Th1 cells and the expression of pro-inflammatory cytokines, including Il-1β, Il-6, and Il-8, but also increased CD4 + CD25 + FoxP3 + Treg cells and Tgfβ expression in the gWAT of obese mice. These phenomena were accompanied by hypothalamic microgliosis and activation of pro-opiomelanocortin neurons. Furthermore, sympathetic denervation in gWAT reversed the enhanced insulin sensitivity and immune cell polarization induced by central IL-2 administration. Conclusion Overall, we demonstrated that IL-2 improves insulin sensitivity through two mechanisms: direct action on CD4 + T cells and via the neuro-immune axis triggered by hypothalamic microgliosis.

Published

2024

56. Assessing the Sympatholytic Effects of SGLT2 Inhibitors in Anuric Haemodialysis Patients Using Microneurography: Study Protocol for a Mechanistic Proof-of-Concept Trial

Author

Aaron Yee Shuen See, Evgenija Blazeska, Awf Abdulrahman Shaban, Mark Thomas, Sayeh Heidari Nejad, Antonella Soarez Dornelles, Anu Joyson, Sally Burrows, Markus Schlaich, and Srivathsan Thiruvengadam

Subjects

sodium-glucose transporter 2 inhibitors, dialysis, microneurography, sympathetic nervous system, Dermatology, RL1-803, Diseases of the circulatory (Cardiovascular) system, RC666-701, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Introduction: Sodium-glucose co-transporter 2 inhibitors (SGLT2is) have been shown to provide effective cardiorenal protection, reducing mortality in conditions such as heart failure and chronic kidney disease. While several mechanisms have been identified, recent research has shed light on the drug’s ability to attenuate sympathetic nervous system (SNS) activity. Controversy exists on whether this is due to the extra-renal effects of the drug, or simply due to its renoprotective effects. However, recent trials have highlighted the persistent efficacy of SGLT2i despite declining renal function. Therefore, investigating the ability of SGLT2i to attenuate the SNS independently of the kidney could lead to more insight into its mechanism of action. So far, there has been limited research done on investigating the extra-renal effects of SGLT2i in human subjects on dialysis where the glycosuric renal effects of SGLT2i are negligible. This current study therefore aims to investigate the effects of SGLT2i on the SNS in anuric haemodialysis patients. Methods: We developed a protocol for a mechanistic study to investigate the extra-renal effects of SGLT2i on the SNS. The study will be an investigator-led, open-label, prospective study involving 20 adult (aged ≥18 years) haemodialysis patients with a residual urine output of ≤250 mL/day. Participants will be administered empagliflozin 25 mg/day for 6 weeks. Baseline SNS activity will be measured before and after administration by microneurography to assess central SNS outflow. Secondary outcomes such as changes from baseline in SNS stressor response, heart rate variability, and endothelial function will also be examined. We hypothesize that the use of empagliflozin will result in reduced sympathetic drive in anuric haemodialysis patients. Discussion: This will be the first study evaluating the effects of SGLT2i on the SNS in haemodialysis subjects. This study aims to enhance our understanding of the potential role of SGLT2i-induced SNS reduction in the setting of markedly reduced renal function. The study has received ethics approval from the Royal Perth Hospital Human Research Ethics Committee (RGS0000003840) (Australian New Zealand Clinical Trials Registry [ANZCTR] ID: ACTRN12623001237673).

Published

2024

57. A multiscale predictive digital twin for neurocardiac modulation

Author

Yang, Pei‐Chi, Rose, Adam, DeMarco, Kevin R, Dawson, John RD, Han, Yanxiao, Jeng, Mao‐Tsuen, Harvey, Robert D, Santana, L Fernando, Ripplinger, Crystal M, Vorobyov, Igor, Lewis, Timothy J, and Clancy, Colleen E

Subjects

Medical Physiology, Biomedical and Clinical Sciences, Heart Disease, Neurosciences, Minority Health, Cardiovascular, Bioengineering, Networking and Information Technology R&D (NITRD), Humans, Heart, Autonomic Nervous System, Arrhythmias, Cardiac, Parasympathetic Nervous System, Sympathetic Nervous System, Heart Rate, Sinoatrial Node, arrhythmia, autonomic nervous system, cardiac electrophysiology, computational model, digital twins, parasympathetic, sympathetic nervous system, Biological Sciences, Medical and Health Sciences, Physiology, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

Cardiac function is tightly regulated by the autonomic nervous system (ANS). Activation of the sympathetic nervous system increases cardiac output by increasing heart rate and stroke volume, while parasympathetic nerve stimulation instantly slows heart rate. Importantly, imbalance in autonomic control of the heart has been implicated in the development of arrhythmias and heart failure. Understanding of the mechanisms and effects of autonomic stimulation is a major challenge because synapses in different regions of the heart result in multiple changes to heart function. For example, nerve synapses on the sinoatrial node (SAN) impact pacemaking, while synapses on contractile cells alter contraction and arrhythmia vulnerability. Here, we present a multiscale neurocardiac modelling and simulator tool that predicts the effect of efferent stimulation of the sympathetic and parasympathetic branches of the ANS on the cardiac SAN and ventricular myocardium. The model includes a layered representation of the ANS and reproduces firing properties measured experimentally. Model parameters are derived from experiments and atomistic simulations. The model is a first prototype of a digital twin that is applied to make predictions across all system scales, from subcellular signalling to pacemaker frequency to tissue level responses. We predict conditions under which autonomic imbalance induces proarrhythmia and can be modified to prevent or inhibit arrhythmia. In summary, the multiscale model constitutes a predictive digital twin framework to test and guide high-throughput prediction of novel neuromodulatory therapy. KEY POINTS: A multi-layered model representation of the autonomic nervous system that includes sympathetic and parasympathetic branches, each with sparse random intralayer connectivity, synaptic dynamics and conductance based integrate-and-fire neurons generates firing patterns in close agreement with experiment. A key feature of the neurocardiac computational model is the connection between the autonomic nervous system and both pacemaker and contractile cells, where modification to pacemaker frequency drives initiation of electrical signals in the contractile cells. We utilized atomic-scale molecular dynamics simulations to predict the association and dissociation rates of noradrenaline with the β-adrenergic receptor. Multiscale predictions demonstrate how autonomic imbalance may increase proclivity to arrhythmias or be used to terminate arrhythmias. The model serves as a first step towards a digital twin for predicting neuromodulation to prevent or reduce disease.

Published

2023

58. Vagal Nerve Stimulation Reduces Ventricular Arrhythmias and Mitigates Adverse Neural Cardiac Remodeling Post-Myocardial Infarction.

Author

Hadaya, Joseph, Dajani, Al-Hassan, Cha, Steven, Hanna, Peter, Challita, Ronald, Hoover, Donald, Ajijola, Olujimi, Shivkumar, Kalyanam, and Ardell, Jeffrey

Subjects

myocardial infarction, neurocardiology, sympathetic nervous system, vagal nerve stimulation, ventricular tachycardia/ventricular fibrillation

Abstract

This study sought to evaluate the impact of chronic vagal nerve stimulation (cVNS) on cardiac and extracardiac neural structure/function after myocardial infarction (MI). Groups were control, MI, and MI + cVNS; cVNS was started 2 days post-MI. Terminal experiments were performed 6 weeks post-MI. MI impaired left ventricular mechanical function, evoked anisotropic electrical conduction, increased susceptibility to ventricular tachycardia and fibrillation, and altered neuronal and glial phenotypes in the stellate and dorsal root ganglia, including glial activation. cVNS improved cardiac mechanical function and reduced ventricular tachycardia/ventricular fibrillation post-MI, partly by stabilizing activation/repolarization in the border zone. MI-associated extracardiac neural remodeling, particularly glial activation, was mitigated with cVNS.

Published

2023

59. I'm a Neuroscientist. Here's Why I Believe in the Power of Manifestation.

Author

Ries, Julia

Subjects

PARASYMPATHETIC nervous system, REWARD (Psychology), VETERINARIANS, SYMPATHETIC nervous system, NEURAL circuitry, SELF-talk

Published

2024

60. A Workaholic's Guide to Reclaiming Your Life.

Author

Clark, Malissa

Subjects

EMERGENCY room visits, BUSINESS schools, EXERCISE physiology, SYMPATHETIC nervous system, WORKING hours

Abstract

This article from Harvard Business Review explores the concept of workaholism and its negative impact on individuals and organizations. The author draws on personal experiences and interviews to highlight the challenges faced by workaholics. The article offers six strategies for achieving a healthier work-life balance, including redefining urgency, reinventing to-do lists, learning to say no and delegate, fixing the workaholic clock, controlling rumination, and embracing rest and recovery. The author emphasizes the importance of personal change in overcoming workaholism and provides practical guidance for workaholics to reclaim their lives and find a better work-life balance. [Extracted from the article]

Published

2024

61. JUST BREATHE: THE STRESS-BUSTING HACK THAT'S RIGHT UNDER YOUR NOSE.

Author

DOLGOFF, STEPHANIE

Subjects

*REWARD (Psychology), *BLACK children, *PARASYMPATHETIC nervous system, *SYMPATHETIC nervous system, *HEART beat, *BREATH holding, *MINDFULNESS

Abstract

Breathwork is a scientifically-backed method for relieving stress and anxiety. Slow-paced breathing has been found to lower cortisol levels, modulate the autonomic nervous system, and increase heart rate variability. By consciously controlling our breath, we can influence our emotions, thoughts, and behaviors. Breathwork can be practiced anywhere and at any time, and there are various techniques available to suit individual preferences. In addition to breathwork, other stress-reducing activities include going for a walk, spending time in nature, practicing gratitude, engaging in artistic activities, stretching, listening to music, and engaging in self-care activities such as petting animals or using lavender essential oil. [Extracted from the article]

Published

2024

62. Restore and Maintain Optimal Function with Visceral Manipulation.

Author

Wetzler, Gail

Subjects

PAIN measurement, MUSCULOSKELETAL system, HOMEOSTASIS, PHENOMENOLOGICAL biology, OXYGEN, ACUTE diseases, DIGESTIVE system diseases, BLOOD vessels, EDEMA, SEX distribution, MUSCULOSKELETAL system diseases, LYMPH, OSTEOPATHIC medicine, MANIPULATION therapy, VISCERAL pain, LIGAMENTS, BIOCHEMISTRY, SYMPATHETIC nervous system, TREATMENT effectiveness, AFFECTIVE disorders, NUMBNESS, PAIN management, NERVOUS system, FASCIAE (Anatomy), COMMUNICATION, PARASYMPATHETIC nervous system, MASSAGE therapy, HUMAN body, PARESTHESIA, MASSAGE therapists, MUSCLE contraction, SACROILIAC joint diseases, PATIENT positioning, MENTAL depression

Abstract

The article focuses on the principles and benefits of visceral manipulation in manual therapy. Topics include the impact of fascial strain on internal organs, the historical development and techniques of visceral manipulation by Dr. Jean-Pierre Barral, and the integration of various manual therapy disciplines such as neural manipulation and visceral vascular manipulation to enhance overall health and restore optimal function.

Published

2024

63. How breathwork can lead to better work.

Author

Goldsworthy, Susan and Meister, Alyson

Subjects

BREATHING exercises, PARASYMPATHETIC nervous system, SYMPATHETIC nervous system

Abstract

The article focuses on the benefits of incorporating breathwork into business practices. Topics include its role in managing high workplace stress, enhancing mental clarity and decision-making, boosting overall leadership effectiveness, and promoting emotional resilience. It explores how controlled breathing techniques can mitigate stress, improve focus, and contribute to better overall well-being for executives.

Published

2024

64. Eccentric-induced delayed-onset muscle soreness impairs cardiac autonomic activity in adolescent athletes: a pre-experimental study.

Author

Mabe-Castro, Matías, Mabe-Castro, Diego, Castillo-Aguilar, Matias, Vera Carrasco, Manuel, Valdés-Badilla, Pablo, Guzman-Muñoz, Eduardo, Cares Barrientos, Sergio, Niño Mendez, Oscar, and Núñez-Espinosa, Cristian

Subjects

SYMPATHETIC nervous system, STATE-Trait Anxiety Inventory, AUTONOMIC nervous system, HEART beat, MYALGIA

Abstract

Copyright of Retos: Nuevas Perspectivas de Educación Física, Deporte y Recreación is the property of Federacion Espanola de Asociaciones de Docentes de Educacion Fisica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

65. Role of the sympathetic nervous system in cancer-associated cachexia and tumor progression in tumor-bearing BALB/c mice

Author

Isaias Gutierrez-Leal, Diana Caballero-Hernández, Alonso A. Orozco-Flores, Ricardo Gomez-Flores, Deyanira Quistián-Martínez, Patricia Tamez-Guerra, Reyes Tamez-Guerra, and Cristina Rodríguez-Padilla

Subjects

Cancer cachexia, Lymphoma, Sympathetic nervous system, Adrenergic system, Inflammation, Sympathectomy, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurophysiology and neuropsychology, QP351-495

Abstract

Abstract Background Adipose and muscle tissue wasting outlines the cachectic process during tumor progression. The sympathetic nervous system (SNS) is known to promote tumor progression and research suggests that it might also contribute to cancer-associated cachexia (CAC) energetic expenditure through fat wasting. Methods We sympathectomized L5178Y-R tumor-bearing male BALB/c mice by intraperitoneally administering 6-hydroxydopamine to evaluate morphometric, inflammatory, and molecular indicators of CAC and tumor progression. Results Tumor burden was associated with cachexia indicators, including a 10.5% body mass index (BMI) decrease, 40.19% interscapular, 54% inguinal, and 37.17% visceral adipose tissue loss, a 12% food intake decrease, and significant (p = 0.038 and p = 0.0037) increases in the plasmatic inflammatory cytokines IL-6 and IFN-γ respectively. Sympathectomy of tumor-bearing mice was associated with attenuated BMI and visceral adipose tissue loss, decreased interscapular Ucp-1 gene expression to basal levels, and 2.6-fold reduction in Mmp-9 relative gene expression, as compared with the unsympathectomized mice control group. Conclusion The SNS contributes to CAC-associated morphometric and adipose tissue alterations and promotes tumor progression in a murine model.

Published

2024

66. Neuroimmune modulation in liver pathophysiology

Author

Ju Zou, Jie Li, Xiaoxu Wang, Daolin Tang, and Ruochan Chen

Subjects

Liver disease, Autonomic nervous system, Sympathetic nervous system, Parasympathetic nervous system, Neuroimmune system, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract The liver, the largest organ in the human body, plays a multifaceted role in digestion, coagulation, synthesis, metabolism, detoxification, and immune defense. Changes in liver function often coincide with disruptions in both the central and peripheral nervous systems. The intricate interplay between the nervous and immune systems is vital for maintaining tissue balance and combating diseases. Signaling molecules and pathways, including cytokines, inflammatory mediators, neuropeptides, neurotransmitters, chemoreceptors, and neural pathways, facilitate this complex communication. They establish feedback loops among diverse immune cell populations and the central, peripheral, sympathetic, parasympathetic, and enteric nervous systems within the liver. In this concise review, we provide an overview of the structural and compositional aspects of the hepatic neural and immune systems. We further explore the molecular mechanisms and pathways that govern neuroimmune communication, highlighting their significance in liver pathology. Finally, we summarize the current clinical implications of therapeutic approaches targeting neuroimmune interactions and present prospects for future research in this area.

Published

2024

67. Pupil reflex as a marker of activity and prognosis in heart failure: a longitudinal and prospective study

Author

Margarita Zamorano, Juan Manuel Monteagudo, Eduardo González, Isabel Rayo, Sara Fernández, Miguel Castillo, Qiheng Zhou, Pedro de laVilla, and Jose Luis Zamorano

Subjects

Pupillometry, Sympathetic nervous system, Diagnostic procedure on eye, Heart failure, Clinical finding, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Abstract Aims Compensatory mechanisms in heart failure (HF) are triggered to maintain adequate cardiac output. Among them, hyperactivation of the sympathetic nervous system (SNS) is one of the main ones and carries a worse prognosis. The pupillary reflex depends on the SNS, and we can evaluate it through pupillometry. The aim of the study was to compare the differences in pupillary reflex between patients with acute HF and controls and to analyse whether these differences in pupillary reflex may offer a new and easy prognostic factor in such patients. Methods and results We prospectively and consecutively included 107 patients admitted with decompensated HF. Quantitative pupillometry was performed with the NeuroOptics pupillometry during the first 24 h after admission and prior to discharge. The results were compared with those of a group of 100 healthy volunteers who also underwent pupillometry. The maximum baseline pupil size (MBPS) and the minimum pupil diameter (MPD) were measured. Patients with decompensated HF have a higher MBPS (3.64 ± 0.81) and higher MPD (2.60 ± 0.58) than HF patients at discharge and in the control group (P‐value = 0.01 and 0.01, respectively). Also, HF patients presented an improvement in pupillometric values at discharge [MBPS (3.47 ± 0.79) and MPD (2.51 ± 0.58)] and showed no differences compared with the control group [MBPS (3.34 ± 0.82) and MPD (2.40 ± 0.53)] (P‐value = 0.19 and 0.14, respectively). In addition, MBPS provides a good independent predictor of in‐hospital and 1 month mortality in patients admitted with HF. Six patients (5.61%) died during hospital admission, and 11 patients (10.2%) died in the first month after discharge. Also, four patients (3.74%) were readmitted within 1 month of discharge. The receiver operating characteristic (ROC) curve for predicting in‐hospital mortality through MBPS was 0.823. No patient with an MBPS

Published

2024

68. Harlequin syndrome in a patient with probable hemicrania continua and exertional headache – is there a link? a case report

Author

Markus Miedl, Philipp Baumgartner, Leah Raffaela Disse, Konrad Peter Weber, Heiko Pohl, and Susanne Wegener

Subjects

Harlequin syndrome, Hemicrania continua, Trigeminal autonomic headache, Sympathetic nervous system, Exercise (exertional) headache, Horner’s syndrome, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background The harlequin syndrome is a rare disorder of the autonomic nervous system characterized by unilateral diminished flushing and sweating of the face following exposure to heat or physical activity. It results from sympathetic dysfunction and most commonly occurs idiopathically. A secondary development due to an underlying pathology (e.g., carotid artery dissection, tumors) must be excluded at first appearance. There is evidence that the cranial autonomic system is involved in the pathophysiology of trigeminal autonomic headaches like hemicrania continua. Therefore, an overlap in the pathophysiology of harlequin syndrome and trigeminal autonomic headache disorders seems plausible. However, the association of a harlequin syndrome with hemicrania continua was never reported. Case presentation This work describes the case of a 42‐year‐old female patient presenting to our headache unit. The patient reported persisting unilateral headache of the right side of dragging or squeezing character accompanied by trigeminal autonomic symptoms, including lacrimation, nasal congestion, conjunctival injection and Horner’s syndrome, and was responsive to treatment with 75mg/d indomethacin. Five months after the initial consultation, the patient noted that the upper right quadrant of her face was pale after jogging. A harlequin syndrome was diagnosed. Further, she developed a short-lasting, bilateral headache of pulsatile character during strenuous exercise consistent with exertional headache. Comprehensive diagnostic evaluations, encompassing cranial and cervical MRI scans, laboratory tests, and biopsies, culminated in the diagnosis of Sjögren’s syndrome. This finding suggests that the trigemino-autonomic dysfunction may either be idiopathic or a direct manifestation of Sjögren’s syndrome. Conclusions This report documents the case of a rare combination of a headache resembling probable hemicrania continua and the harlequin syndrome (and even exertional headache). It illustrates the underlying anatomy of the autonomic nervous system in a clinical context and emphasizes the hypothesis of a pathophysiological link between abnormal sympathetic activity and trigeminal autonomic headaches.

Published

2024

69. Therapeutically Fine-Tuning Autonomic Nervous System to Treat Sepsis: A New Perspective on the Immunomodulatory Effects of Acupuncture

Author

Zhang Z, Zhang D, Lin Q, and Cui X

Subjects

inflammation, peripheral nerve stimulation, sympathetic nervous system, sympathoadrenal axis, macrophage, bioelectronic medicine, Pathology, RB1-214, Therapeutics. Pharmacology, RM1-950

Abstract

Ziyi Zhang,1 Dingdan Zhang,1 Qing Lin,2 Xiang Cui1 1Department of Physiology, Institute of Acupuncture and Moxibustion, China Academy of Chinese Medical Sciences, Beijing, 100700, People’s Republic of China; 2Department of Anesthesiology and Critical Care Medicine, Johns Hopkins University, School of Medicine, Baltimore, MD, 21287, USACorrespondence: Qing Lin, Department of Anesthesiology & Critical Care Medicine, Johns Hopkins University, School of Medicine, Baltimore, MD, 21287, USA, Tel +1-4432072315, Email qlin2@jhmi.edu Xiang Cui, Department of Physiology, Institute of Acupuncture and Moxibustion, China Academy of Chinese Medical Sciences, Beijing, 100700, People’s Republic of China, Tel + 86-10-64089422, Email drcuixiang@163.comAbstract: Recent studies have highlighted the immunomodulatory effects of acupuncture on sepsis and proposed novel non-pharmacological or bioelectronic approaches to managing inflammatory illnesses. Establishing rules for selectively activating sympathetic or vagal nerve-mediated anti-inflammatory pathways using acupuncture has valuable clinical applications. Over the years, studies have revealed the segmental modulatory role of acupuncture in regulating visceral function by targeting the autonomic nervous system (ANS). In this review, we aim to summarize recent findings on acupuncture in treating sepsis, focusing on the underlying ANS mechanism, as well as the rules of acupoint specificity, intensity, frequency, and other parameters utilized in these studies. Mechanistically, the immunomodulatory properties of the sympathetic nervous system have been highlighted. Furthermore, we explore the immunotherapeutic benefits of acupuncture in treating sepsis. A better understanding of the immunoregulatory mechanism of sympathetic nervous system may offer novel approaches for the development of therapeutics to treat or prevent a variety of inflammatory diseases.Keywords: inflammation, peripheral nerve stimulation, sympathetic nervous system, sympathoadrenal axis, macrophage, bioelectronic medicine

Published

2024

70. Pupillometry as a Potential Objective Measurement of Pain Assessment in Healthy Volunteers

Author

Krafthöfer J, Fabig SC, Baron R, and Gierthmühlen J

Subjects

conditioned pain modulation, descending control, pupillary reaction, pain, sympathetic nervous system, Medicine (General), R5-920

Abstract

Janika Krafthöfer,1 Sophie-Charlotte Fabig,1 Ralf Baron,1 Janne Gierthmühlen1,2 1Division of Neurological Pain Research and Therapy, Department of Neurology, University Hospital Schleswig-Holstein, Campus Kiel, Kiel, Schleswig-Holstein, Germany; 2Department for Anesthesiology and Surgical Intensive Care Medicine, University Hospital Schleswig-Holstein, Campus Kiel, Kiel, Schleswig-Holstein, GermanyCorrespondence: Janika Krafthöfer, Division of Neurological Pain Research and Therapy, Department of Neurology, University Hospital Schleswig-Holstein, Campus Kiel, Arnold-Heller-Str. 3, Haus D, Kiel, 24105, Germany, Tel +49 431 500 23911, Fax +49 431 500 20914, Email janika.krafthoefer@web.deBackground: Pain leads to activation of the autonomic nervous system and thus, among other things, to pupillary reflex dilation (PRD). Previous studies have already confirmed a correlation between the perception of pain and the pupillary reaction, measured using pupillometry. However, the previous study populations were under the influence of medication for analgesia in perioperative setting or suffered from pain. This study examines the relationship between pupillary reaction and pain perception in healthy controls and addresses the question of whether endogenous pain inhibition, clinically tested by conditioned pain modulation (CPM), can be quantified using pupillometry.Methods: Forty-two healthy volunteers (21 females, 21 males, mean age 27.9 ± 5.8 years, range 20– 39 years) were included in this study. The PRD, as a measure of the pupillary reaction (variance from the base diameter in percent), was investigated during baseline, heat application and during CPM testing and results compared to the reported pain intensity on the numerical rating scale (NRS).Results: The volunteers showed higher variances under painful conditions compared to the measurement at rest corresponding to higher sympathetic activity during pain. Volunteers with a higher variance, ie a stronger pupillary reaction, gave higher pain ratings than subjects with a lower pupil variance. However, there was no correlation between the NRS and PRD. PRD and pain ratings during CPM were significantly lower compared to heat pain application alone. However, there was no correlation between the calculated CPM effect and the PRD.Conclusion: Pupillometry is capable of objectively reflecting the pain response, eg pain relief through CPM testing. However, the CPM effect calculated from the subjective pain ratings and the objective PRD measurements is not associated suggesting that both measure different aspects of pain perception. It must be discussed whether the CPM effect can be the correct measure for the functionality of the pain system.Keywords: conditioned pain modulation, descending control, pupillary reaction, pain, sympathetic nervous system

Published

2024

71. Subarachnoid haemorrhage‐induced reversible cardiac dysfunction: time course and potential mechanisms

Author

Yichao Xiao, Xin Lai, Zhuo Wang, Songyun Wang, Zhihong Wu, Qiming Liu, Mingxian Chen, and Shenghua Zhou

Subjects

Subarachnoid haemorrhage, Cardiac dysfunction, Sympathetic nervous system, Neuropeptide Y, Remodelling, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Abstract Aims Cardiac dysfunction is commonly observed in patients with subarachnoid haemorrhage (SAH). However, the specific timeline of cardiac remodelling and the underlying mechanisms responsible for this effect following SAH remain unknown. This study aims to explore the impact of SAH on cardiac dysfunction and its potential mechanisms over time. Methods and results In Protocol 1, we investigated cardiac function and potential mechanisms in a Sprague‐Dawley rat model of SAH at six time points (baseline and Days 1, 3, 7, 14, and 28) while exploring the underlying mechanisms. Our assessments included the haemodynamic profile, echocardiography, and the concentrations of plasma biomarkers at various time points post‐SAH. We determined neuropeptide Y (NPY) 1–5 receptor protein expression levels through western blotting. In Protocol 2, we administered an NPY1 receptor antagonist to evaluate the effects of cardiac dysfunction induced by SAH on Day 3. In Protocol 1, SAH gradually provoked cardiac systolic dysfunction during the acute phase, reaching its peak on Day 3 without concurrent alterations in wall thickness. However, no significant changes were observed from Days 14 to 28 compared with Day 0. The changes in cardiac dysfunction were consistent with myocardial injury, inflammatory biomarkers, and NPY levels. SAH resulted in a heightened heart rate and systolic blood pressure, correlating with elevated epinephrine and norepinephrine levels. In Protocol 2, the administration of the NPY1 receptor antagonist effectively ameliorated cardiac dysfunction. Conclusions SAH induces transient cardiac dysfunction in the acute phase, and the underlying mechanisms for this response involve the NPY–NPY1 receptor pathway, otherwise known as catecholamines.

Published

2024

72. Role of the sympathetic nervous system in cancer-associated cachexia and tumor progression in tumor-bearing BALB/c mice.

Author

Gutierrez-Leal, Isaias, Caballero-Hernández, Diana, Orozco-Flores, Alonso A., Gomez-Flores, Ricardo, Quistián-Martínez, Deyanira, Tamez-Guerra, Patricia, Tamez-Guerra, Reyes, and Rodríguez-Padilla, Cristina

Subjects

*SYMPATHETIC nervous system, *BODY mass index, *ADIPOSE tissues, *CANCER invasiveness, *CACHEXIA

Abstract

Background: Adipose and muscle tissue wasting outlines the cachectic process during tumor progression. The sympathetic nervous system (SNS) is known to promote tumor progression and research suggests that it might also contribute to cancer-associated cachexia (CAC) energetic expenditure through fat wasting. Methods: We sympathectomized L5178Y-R tumor-bearing male BALB/c mice by intraperitoneally administering 6-hydroxydopamine to evaluate morphometric, inflammatory, and molecular indicators of CAC and tumor progression. Results: Tumor burden was associated with cachexia indicators, including a 10.5% body mass index (BMI) decrease, 40.19% interscapular, 54% inguinal, and 37.17% visceral adipose tissue loss, a 12% food intake decrease, and significant (p = 0.038 and p = 0.0037) increases in the plasmatic inflammatory cytokines IL-6 and IFN-γ respectively. Sympathectomy of tumor-bearing mice was associated with attenuated BMI and visceral adipose tissue loss, decreased interscapular Ucp-1 gene expression to basal levels, and 2.6-fold reduction in Mmp-9 relative gene expression, as compared with the unsympathectomized mice control group. Conclusion: The SNS contributes to CAC-associated morphometric and adipose tissue alterations and promotes tumor progression in a murine model. [ABSTRACT FROM AUTHOR]

Published

2024

73. Takotsubo Syndrome and Gender Differences: Exploring Pathophysiological Mechanisms and Clinical Differences for a Personalized Approach in Patient Management.

Author

Giubilato, Simona, Francese, Giuseppina Maura, Manes, Maria Teresa, Rossini, Roberta, Della Bona, Roberta, Gatto, Laura, Di Monaco, Antonio, Zilio, Filippo, Gasparetto, Nicola, Sorini Dini, Carlotta, Borrello, Francesco, Mannarini, Antonia, Scardovi, Angela Beatrice, Pavan, Daniela, Amico, Francesco, Geraci, Giovanna, Riccio, Carmine, Colivicchi, Furio, Grimaldi, Massimo, and Gulizia, Michele Massimo

Subjects

*TAKOTSUBO cardiomyopathy, *SYMPATHETIC nervous system, *ACUTE coronary syndrome, *CORONARY artery disease, *GENDER inequality

Abstract

Takotsubo syndrome (TTS), also known as the broken-heart syndrome, is a reversible condition typically observed in female patients presenting for acute coronary syndromes (ACS). Despite its increasing incidence, TTS often remains undiagnosed due to its overlap with ACS. The pathophysiology of TTS is complex and involves factors such as coronary vasospasm, microcirculatory dysfunction, increased catecholamine levels, and overactivity of the sympathetic nervous system. Diagnosing TTS requires a comprehensive approach, starting with clinical suspicion and progressing to both non-invasive and invasive multimodal tests guided by a specific diagnostic algorithm. Management of TTS should be personalized, considering potential complications, the presence or absence of coronary artery disease (CAD), diagnostic test results, and the patient's clinical course. The current data primarily derive from case series, retrospective analyses, prospective registries, and expert opinions. In recent years, there has been growing recognition of gender differences in the pathophysiology, presentation, and outcomes of TTS. This review provides an updated overview of gender disparities, highlighting the importance of tailored diagnostic and management strategies. [ABSTRACT FROM AUTHOR]

Published

2024

74. High-Risk Neuroblastoma Challenges and Opportunities for Antibody-Based Cellular Immunotherapy.

Author

Persaud, Natasha V., Park, Jeong A., and Cheung, Nai Kong V.

Subjects

*SYMPATHETIC nervous system, *BISPECIFIC antibodies, *CELL surface antigens, *NEURAL crest, *TUMOR antigens, *NEUROBLASTOMA

Abstract

Immunotherapy has emerged as an attractive option for patients with relapsed or refractory high-risk neuroblastoma (HRNB). Neuroblastoma (NB), a sympathetic nervous system cancer arising from an embryonic neural crest cell, is heterogeneous clinically, with outcomes ranging from an isolated abdominal mass that spontaneously regresses to a widely metastatic disease with cure rates of about 50% despite intensive multimodal treatment. Risk group stratification and stage-adapted therapy to achieve cure with minimal toxicities have accomplished major milestones. Targeted immunotherapeutic approaches including monoclonal antibodies, vaccines, adoptive cellular therapies, their combinations, and their integration into standard of care are attractive therapeutic options, although curative challenges and toxicity concerns remain. In this review, we provide an overview of immune approaches to NB and the tumor microenvironment (TME) within the clinical translational framework. We propose a novel T cell-based therapeutic approach that leverages the unique properties of tumor surface antigens such as ganglioside GD2, incorporating specific monoclonal antibodies and recent advancements in adoptive cell therapy. [ABSTRACT FROM AUTHOR]

Published

2024

75. Norepinephrine mediates heart block during severe hypoglycemia in male rats.

Author

Nuibe, Emily H., Chambers, Matthew E., and Reno‐Bernstein, Candace M.

Subjects

*NORADRENALINE, *HYPOGLYCEMIA, *TYPE 1 diabetes, *MYOCARDIAL infarction, *HEART block, *SYMPATHETIC nervous system, *ARRHYTHMIA

Abstract

Hypoglycemia is common in people with type 1 diabetes. Sometimes, severe hypoglycemia can be fatal. The underlying mechanisms by which severe hypoglycemia can lead to death are unclear. The sympathetic nervous system is thought to be proarrhythmic. We hypothesized that norepinephrine is the main mediator of severe hypoglycemia‐induced fatal cardiac arrhythmias. To test this hypothesis, adult, non‐diabetic Sprague–Dawley rats were subjected to hyperinsulinemic‐severe hypoglycemic clamps (3 h, 10–15 mg/dL) during two different experiments: (1) intracerebroventricular (ICV) norepinephrine (n = 26) or artificial cerebrospinal fluid (aCSF) (n = 20) infusion or (2) blockade of norepinephrine release by intraperitoneal reserpine (n = 20) or control (n = 29). In experiment 1, brain norepinephrine infusion during severe hypoglycemia led to a 2.5‐fold increase in third‐degree heart block and a 24% incidence of ST elevation compared to no ST elevation in aCSF controls. In experiment 2, reserpine successfully reduced plasma and cardiac norepinephrine levels. During severe hypoglycemia, reserpine completely prevented second and third‐degree heart block and T wave increases, a marker of myocardial infarction, compared to controls. In conclusion, norepinephrine increases while reserpine, used to reduce norepinephrine nerve terminal release, reduces heart block and markers of myocardial infarction during severe hypoglycemia. [ABSTRACT FROM AUTHOR]

Published

2024

76. Central α2‐adrenergic mechanisms regulate human sympathetic neuronal discharge strategies.

Author

Klassen, Stephen A., Limberg, Jacqueline K., Harvey, Ronée E., Wiggins, Chad C., Iannarelli, Nathaniel J., Senefeld, Jonathon W., Nicholson, Wayne T., Curry, Timothy B., Joyner, Michael J., Shoemaker, J. Kevin, and Baker, Sarah E.

Subjects

*ADRENERGIC mechanisms, *SYMPATHETIC nervous system, *SPLANCHNIC nerves, *DEXMEDETOMIDINE, *HEART beat

Abstract

The present study investigated the impact of central α2‐adrenergic mechanisms on sympathetic action potential (AP) discharge, recruitment and latency strategies. We used the microneurographic technique to record muscle sympathetic nerve activity and a continuous wavelet transform to investigate postganglionic sympathetic AP firing during a baseline condition and an infusion of a α2‐adrenergic receptor agonist, dexmedetomidine (10 min loading infusion of 0.225 µg kg−1; maintenance infusion of 0.1–0.5 µg kg h−1) in eight healthy individuals (28 ± 7 years, five females). Dexmedetomidine reduced mean pressure (92 ± 7 to 80 ± 8 mmHg, P < 0.001) but did not alter heart rate (61 ± 13 to 60 ± 14 bpm; P = 0.748). Dexmedetomidine reduced sympathetic AP discharge (126 ± 73 to 27 ± 24 AP 100 beats−1, P = 0.003) most strongly for medium‐sized APs (normalized cluster 2: 21 ± 10 to 5 ± 5 AP 100 beats−1; P < 0.001). Dexmedetomidine progressively de‐recruited sympathetic APs beginning with the largest AP clusters (12 ± 3 to 7 ± 2 clusters, P = 0.002). Despite de‐recruiting large AP clusters with shorter latencies, dexmedetomidine reduced AP latency across remaining clusters (1.18 ± 0.12 to 1.13 ± 0.13 s, P = 0.002). A subset of six participants performed a Valsalva manoeuvre (20 s, 40 mmHg) during baseline and the dexmedetomidine infusion. Compared to baseline, AP discharge (Δ 361 ± 292 to Δ 113 ± 155 AP 100 beats−1, P = 0.011) and AP cluster recruitment elicited by the Valsalva manoeuvre were lower during dexmedetomidine (Δ 2 ± 1 to Δ 0 ± 2 AP clusters, P = 0.041). The reduction in sympathetic AP latency elicited by the Valsalva manoeuvre was not affected by dexmedetomidine (Δ –0.09 ± 0.07 to Δ –0.07 ± 0.14 s, P = 0.606). Dexmedetomidine reduced baroreflex gain, most strongly for medium‐sized APs (normalized cluster 2: –6.0 ± 5 to –1.6 ± 2 % mmHg−1; P = 0.008). These data suggest that α2‐adrenergic mechanisms within the central nervous system modulate sympathetic postganglionic neuronal discharge, recruitment and latency strategies in humans. Key points: Sympathetic postganglionic neuronal subpopulations innervating the human circulation exhibit complex patterns of discharge, recruitment and latency. However, the central neural mechanisms governing sympathetic postganglionic discharge remain unclear.This microneurographic study investigated the impact of a dexmedetomidine infusion (α2‐adrenergic receptor agonist) on muscle sympathetic postganglionic action potential (AP) discharge, recruitment and latency patterns.Dexmedetomidine infusion inhibited the recruitment of large and fast conducting sympathetic APs and attenuated the discharge of medium sized sympathetic APs that fired during resting conditions and the Valsalva manoeuvre.Dexmedetomidine infusion elicited shorter sympathetic AP latencies during resting conditions but did not affect the reductions in latency that occurred during the Valsalva manoeuvre.These data suggest that α2‐adrenergic mechanisms within the central nervous system modulate sympathetic postganglionic neuronal discharge, recruitment and latency strategies in humans. [ABSTRACT FROM AUTHOR]

Published

2024

77. Respiratory modulation of sympathetic transduction to blood pressure in health and type 2 diabetes.

Author

Plunkett, Michael J., Holwerda, Seth, Young, Benjamin E., Fadel, Paul J., and Fisher, James P.

Subjects

*TYPE 2 diabetes, *BLOOD pressure, *GENETIC transduction, *HYPERTENSION, *SYMPATHETIC nervous system

Abstract

Type 2 diabetes (T2D) is often accompanied by hypertension, exaggerated blood pressure (BP) responses to sympatho‐excitatory stressors, and raised cardiovascular disease risk. Appropriate respiratory–sympathetic coupling and sympathetic transduction to BP are important for short‐ and longer‐term BP control. We tested the hypotheses that respiratory modulation of muscle sympathetic nerve activity (MSNA) and its transduction to BP would be impaired in T2D and associated with higher BP and respiratory‐coupled BP variability. Resting MSNA, respiration and beat‐to‐beat BP were recorded in 20 T2D (49.1 ± 7.4 years; mean ± SD) and 13 healthy control (46.3 ± 9.4 years) participants. MSNA and the transduction of sympathetic bursts (signal‐averaging) to mean arterial pressure (MAP) were compared at low and high lung volume phases. The peak MAP response following a sympathetic burst was lower during the high lung volume than low lung volume phase in controls (P = 0.005), whereas it was unchanged with phase in T2D participants (P = 0.522). Respiratory modulation of MSNA was impaired in T2D participants, who had an attenuated reduction in burst incidence from low to the high lung volume phase, versus controls (27.8 ± 38.4% vs. 49.4 ± 24.6%, respectively; P = 0.043). The T2D participants were grouped into unimpaired respiratory modulators (burst incidence modulation median or above) or impaired respiratory modulators (below median). Impaired modulators had higher systolic BP (133 ± 14 vs. 121 ± 11 mmHg, P = 0.046), greater Traube–Hering wave amplitudes (6.3 ± 2.4 vs. 4.6 ± 1.1 mmHg; P = 0.028) and higher BP variability (MAP average real variability, 2.0 ± 0.7 vs. 1.4 ± 0.3, P = 0.033). Respiratory modulation of MSNA and sympathetic transduction to BP are altered in T2D patients and may contribute to their increased hypertension and cardiovascular risk. Key points: Respiratory–sympathetic coupling and sympathetic transduction to blood pressure (BP) contribute to short‐ and longer‐term BP control. Our understanding of these processes in health and type 2 diabetes (T2D), a condition with high prevalence of hypertension and cardiovascular risk, is incomplete.We found that respiration and sympathetic transduction to BP are coupled in healthy individuals. The mean arterial pressure response to a sympathetic burst was reduced during the high lung volume compared to the low lung volume phase. This coupling was absent in T2D.Respiratory modulation of muscle sympathetic nerve activity (MSNA) is impaired in T2D, with a blunted reduction of MSNA observed during the high lung volume phase.T2D patients with impaired respiratory MSNA modulation had augmented systolic BP, respiratory‐related BP excursions (Traube–Hering waves) and BP variability.Abnormal respiratory modulation of MSNA and sympathetic transduction to BP in T2D may contribute to altered blood pressure control and cardiovascular risk in this population. [ABSTRACT FROM AUTHOR]

Published

2024

78. Sympathetic innervation of interscapular brown adipose tissue is not a predominant mediator of oxytocin-elicited reductions of body weight and adiposity in male diet-induced obese mice.

Author

Edwards, Melise M., Nguyen, Ha K., Dodson, Andrew D., Herbertson, Adam J., Wolden-Hanson, Tami, Wietecha, Tomasz A., Honeycutt, Mackenzie K., Slattery, Jared D., O'Brien, Kevin D., Graham, James L., Havel, Peter J., Mundinger, Thomas O., Sikkema, Carl L., Peskind, Elaine R., Ryu, Vitaly, Taborsky Jr., Gerald J., and Blevins, James E.

Subjects

WEIGHT loss, BROWN adipose tissue, ADIPOSE tissues, WHITE adipose tissue, SYMPATHETIC nervous system

Abstract

Previous studies indicate that CNS administration of oxytocin (OT) reduces body weight in high fat diet-induced obese (DIO) rodents by reducing food intake and increasing energy expenditure (EE). We recently demonstrated that hindbrain (fourth ventricular [4V]) administration of OT elicits weight loss and elevates interscapular brown adipose tissue temperature (TIBAT, a surrogate measure of increased EE) in DIO mice. What remains unclear is whether OT-elicited weight loss requires increased sympathetic nervous system (SNS) outflow to IBAT. We hypothesized that OT-induced stimulation of SNS outflow to IBAT contributes to its ability to activate BAT and elicit weight loss in DIO mice. To test this hypothesis, we determined the effect of disrupting SNS activation of IBAT on the ability of 4V OT administration to increase TIBAT and elicit weight loss in DIO mice. We first determined whether bilateral surgical SNS denervation to IBAT was successful as noted by ≥ 60% reduction in IBAT norepinephrine (NE) content in DIO mice. NE content was selectively reduced in IBAT at 1-, 6- and 7-weeks post-denervation by 95.9 ± 2.0, 77.4 ± 12.7 and 93.6 ± 4.6% (P<0.05), respectively and was unchanged in inguinal white adipose tissue, pancreas or liver. We subsequently measured the effects of acute 4V OT (1, 5 µg ≈ 0.99, 4.96 nmol) on TIBAT in DIO mice following sham or bilateral surgical SNS denervation to IBAT. We found that the high dose of 4V OT (5 µg ≈ 4.96 nmol) elevated TIBAT similarly in sham mice as in denervated mice. We subsequently measured the effects of chronic 4V OT (16 nmol/day over 29 days) or vehicle infusions on body weight, adiposity and food intake in DIO mice following sham or bilateral surgical denervation of IBAT. Chronic 4V OT reduced body weight by 5.7 ± 2.23% and 6.6 ± 1.4% in sham and denervated mice (P<0.05), respectively, and this effect was similar between groups (P=NS). OT produced corresponding reductions in whole body fat mass (P<0.05). Together, these findings support the hypothesis that sympathetic innervation of IBAT is not necessary for OT-elicited increases in BAT thermogenesis and reductions of body weight and adiposity in male DIO mice. [ABSTRACT FROM AUTHOR]

Published

2024

79. Possible Extracellular Signals to Ameliorate Sarcopenia in Response to Medium-Chain Triglycerides (8:0 and 10:0) in Frail Older Adults.

Author

Ezaki, Osamu

Abstract

In frail older adults (mean age 85 years old), a 3-month supplementation with a low dose (6 g/day) of medium-chain triglycerides (MCTs; C8:0 and C10:0) given at a meal increased muscle mass and function, relative to supplementation with long-chain triglycerides (LCTs), but it decreased fat mass. The reduction in fat mass was partly due to increased postprandial energy expenditure by stimulation of the sympathetic nervous system (SNS). However, the extracellular signals to ameliorate sarcopenia are unclear. The following three potential extracellular signals to increase muscle mass and function after MCT supplementation are discussed: (1) Activating SNS—the hypothesis for this is based on evidence that a beta2-adrenergic receptor agonist acutely (1–24 h) markedly upregulates isoforms of peroxisomal proliferator-activated receptor gamma coactivator-1alpha (PGC-1alpha) mRNAs, promotes mitochondrial biogenesis, and chronically (~1 month) induces muscle hypertrophy. (2) An increased concentration of plasma acyl-ghrelin stimulates growth hormone secretion. (3) A nitrogen-sparing effect of ketone bodies, which fuel skeletal muscle, may promote muscle protein synthesis and prevent muscle protein breakdown. This review will help guide clinical trials of using MCTs to treat primary (age-related) sarcopenia. [ABSTRACT FROM AUTHOR]

Published

2024

80. Motor innervation directs the correct development of the mouse sympathetic nervous system.

Author

Erickson, Alek G., Motta, Alessia, Kastriti, Maria Eleni, Edwards, Steven, Coulpier, Fanny, Théoulle, Emy, Murtazina, Aliia, Poverennaya, Irina, Wies, Daniel, Ganofsky, Jeremy, Canu, Giovanni, Lallemend, Francois, Topilko, Piotr, Hadjab, Saida, Fried, Kaj, Ruhrberg, Christiana, Schwarz, Quenten, Castellani, Valerie, Bonanomi, Dario, and Adameyko, Igor

Subjects

PERIPHERAL nervous system, NEURAL crest, SENSORY ganglia, SYMPATHETIC nervous system, DORSAL root ganglia

Abstract

The sympathetic nervous system controls bodily functions including vascular tone, cardiac rhythm, and the "fight-or-flight response". Sympathetic chain ganglia develop in parallel with preganglionic motor nerves extending from the neural tube, raising the question of whether axon targeting contributes to sympathetic chain formation. Using nerve-selective genetic ablations and lineage tracing in mouse, we reveal that motor nerve-associated Schwann cell precursors (SCPs) contribute sympathetic neurons and satellite glia after the initial seeding of sympathetic ganglia by neural crest. Motor nerve ablation causes mispositioning of SCP-derived sympathoblasts as well as sympathetic chain hypoplasia and fragmentation. Sympathetic neurons in motor-ablated embryos project precociously and abnormally towards dorsal root ganglia, eventually resulting in fusion of sympathetic and sensory ganglia. Cell interaction analysis identifies semaphorins as potential motor nerve-derived signaling molecules regulating sympathoblast positioning and outgrowth. Overall, central innervation functions both as infrastructure and regulatory niche to ensure the integrity of peripheral ganglia morphogenesis. How tissues interact to help each other grow is a major question for biologists. Here, the authors show that motor innervation controls positioning of sympathetic progenitor cells to ensure correct shaping of ganglia in the peripheral nervous system. [ABSTRACT FROM AUTHOR]

Published

2024

81. Abiotic stressors in poultry production: A comprehensive review.

Author

Ncho, Chris Major, Berdos, Janine I., Gupta, Vaishali, Rahman, Attaur, Mekonnen, Kefala Taye, and Bakhsh, Allah

Subjects

*NUTRITION, *SYMPATHETIC nervous system, *BIRD behavior, *VIBRATION (Mechanics), *PROPORTIONAL representation

Abstract

In modern animal husbandry, stress can be viewed as an automatic response triggered by exposure to adverse environmental conditions. This response can range from mild discomfort to severe consequences, including mortality. The poultry industry, which significantly contributes to human nutrition, is not exempt from this issue. Although genetic selection has been employed for several decades to enhance production output, it has also resulted in poor stress resilience. Stress is manifested through a series of physiological reactions, such as the identification of the stressful stimulus, activation of the sympathetic nervous system and the adrenal medulla, and subsequent hormonal cascades. While brief periods of stress can be tolerated, prolonged exposure can have more severe consequences. For instance, extreme fluctuations in environmental temperature can lead to the accumulation of reactive oxygen species, impairment of reproductive performance, and reduced immunity. In addition, excessive noise in poultry slaughterhouses has been linked to altered bird behaviour and decreased production efficiency. Mechanical vibrations have also been shown to negatively impact the meat quality of broilers during transport as well as the egg quality and hatchability in hatcheries. Lastly, egg production is heavily influenced by light intensity and regimens, and inadequate light management can result in deficiencies, including visual anomalies, skeletal deformities, and circulatory problems. Although there is a growing body of evidence demonstrating the impact of environmental stressors on poultry physiology, there is a disproportionate representation of stressors in research. Recent studies have been focused on chronic heat stress, reflecting the current interest of the scientific community in climate change. Therefore, this review aims to highlight the major abiotic stressors in poultry production and elucidate their underlying mechanisms, addressing the need for a more comprehensive understanding of stress in diverse environmental contexts. [ABSTRACT FROM AUTHOR]

Published

2024

82. Pupil light reflex in young elite athletes: autonomic nervous system activity and viscoelastic properties.

Author

Giovannangeli, Cyril J. P., Borrani, Fabio, Broussouloux, Olivier, Maurelli, Olivier, Schmitt, Laurent, and Candau, Robin B.

Subjects

PARASYMPATHETIC nervous system, SYMPATHETIC nervous system, HEART beat, AUTONOMIC nervous system, SUPINE position

Abstract

Introduction: The pupil light reflex (photomotor reflex) has a duration of 3.5 s and is a highly reproducible measurement. Conventionally, the autonomic nervous system (ANS) activity evaluated by this reflex does not consider the viscoelasticity of the iris muscles. This study aims to detect differences in reflex autonomic activity in a supine position with parameters derived from the Kelvin-Voigt viscoelastic model in two distinct groups of elite athletes. Method: Groups formed using a dendrogram analysis based on basal autonomic activity assessed with heart rate variability. Heart rate variability was measured, and the photomotor reflex was modeled. Results: The model showed a high degree of adjustment to the photomotor reflex (r2 = 0.99 ± 0.01). The impulse 3, an indicator of reflex sympathetic activity, revealed a significantly higher activity (1= 0.05) in the [sympa/para]+ group compared to the [sympa/para] group. This result was further supported by a greater relative total redilation amplitude (1 = 0.05) and a shorter duration of 75% redilation (= 0.01). Finally, the relative total redilation amplitude exhibited a significant correlation with the linear stiffness constant (= 0.001) and the maximum redilation speed with restoring force (1 = 0.001). Discussion: These results indicate that (i) the photomotor reflex can detect an alteration of the reflex autonomic activity specific to each of the two branches of the ANS (ii) the viscoelastic properties of the iris muscles play a significant role in the energy storage-restitution mechanisms during the photomotor reflex. This approach could allow athletes to benefit from reduced time spent in the analysis of ANS activity, potentially making it an almost daily and automated process. [ABSTRACT FROM AUTHOR]

Published

2024

83. A neuronal circuit driven by GLP-1 in the olfactory bulb regulates insulin secretion.

Author

Montaner, Mireia, Denom, Jessica, Simon, Vincent, Jiang, Wanqing, Holt, Marie K., Brierley, Daniel I., Rouch, Claude, Foppen, Ewout, Kassis, Nadim, Jarriault, David, Khan, Dawood, Eygret, Louise, Mifsud, Francois, Hodson, David J., Broichhagen, Johannes, Van Oudenhove, Lukas, Fioramonti, Xavier, Gault, Victor, Cota, Daniela, and Reimann, Frank

Subjects

GLUCAGON-like peptide 1, NEURAL circuitry, SYMPATHETIC nervous system, OLFACTORY bulb, INSULIN regulation, INSULIN, PANCREATIC beta cells

Abstract

Glucagon-like peptide 1 (GLP-1) stimulates insulin secretion and holds significant pharmacological potential. Nevertheless, the regulation of energy homeostasis by centrally-produced GLP-1 remains partially understood. Preproglucagon cells, known to release GLP-1, are found in the olfactory bulb (OB). We show that activating GLP-1 receptors (GLP-1R) in the OB stimulates insulin secretion in response to oral glucose in lean and diet-induced obese male mice. This is associated with reduced noradrenaline content in the pancreas and blocked by an α2-adrenergic receptor agonist, implicating functional involvement of the sympathetic nervous system (SNS). Inhibiting GABAA receptors in the paraventricular nucleus of the hypothalamus (PVN), the control centre of the SNS, abolishes the enhancing effect on insulin secretion induced by OB GLP-1R. Therefore, OB GLP-1-dependent regulation of insulin secretion relies on a relay within the PVN. This study provides evidence that OB GLP-1 signalling engages a top-down neural mechanism to control insulin secretion via the SNS. The regulation of energy homeostasis by centrally-produced GLP-1 is not yet fully understood. Here, authors show that GLP-1 neuronal circuitry in the olfactory bulb reduces food intake and enhances insulin secretion in obese mice. The increase in insulin secretion is mediated by a GABA-dependent relay in the paraventricular hypothalamus and decreased sympathetic nerve activity. [ABSTRACT FROM AUTHOR]

Published

2024

84. Light-responsive adipose-hypothalamus axis controls metabolic regulation.

Author

Tsuji, Tadataka, Tolstikov, Vladimir, Zhang, Yang, Huang, Tian Lian, Camara, Henrique, Halpin, Meghan, Narain, Niven R., Yau, King-Wai, Lynes, Matthew D., Kiebish, Michael A., and Tseng, Yu-Hua

Subjects

BROWN adipose tissue, WHITE adipose tissue, CRYPTOCHROMES, SYMPATHETIC nervous system, BLUE light, HYPOTHALAMUS

Abstract

Light is fundamental for biological life, with most mammals possessing light-sensing photoreceptors in various organs. Opsin3 is highly expressed in adipose tissue which has extensive communication with other organs, particularly with the brain through the sympathetic nervous system (SNS). Our study reveals a new light-triggered crosstalk between adipose tissue and the hypothalamus. Direct blue-light exposure to subcutaneous white fat improves high-fat diet-induced metabolic abnormalities in an Opsin3-dependent manner. Metabolomic analysis shows that blue light increases circulating levels of histidine, which activates histaminergic neurons in the hypothalamus and stimulates brown adipose tissue (BAT) via SNS. Blocking central actions of histidine and denervating peripheral BAT blunts the effects of blue light. Human white adipocytes respond to direct blue light stimulation in a cell-autonomous manner, highlighting the translational relevance of this pathway. Together, these data demonstrate a light-responsive metabolic circuit involving adipose-hypothalamus communication, offering a potential strategy to alleviate obesity-induced metabolic abnormalities. Light is essential for biological life. Here, the authors show blue light activates the photoreceptor Opsin3 in white fat, triggering a light-responsive metabolic circuit involving adipose-hypothalamus communication, which could potentially alleviate obesity-induced metabolic abnormalities. [ABSTRACT FROM AUTHOR]

Published

2024

85. Evaluation of Autonomic Dysfunction in Pediatric Migraine Patients.

Author

Aykol, Duygu, Demir, Nurhak, Polat, Ayşe İpek, Öztura, İbrahim, Yiş, Uluç, and Hız, Ayşe Semra

Subjects

*PARASYMPATHETIC nervous system, *AUTONOMIC nervous system, *SYMPATHETIC nervous system, *BLINKING (Physiology), *ORTHOSTATIC hypotension

Abstract

Objective: Headache during childhood is a common condition. Although recent studies have shown that the autonomic nervous system (ANS) in adult migraine patients is affected, there are few studies evaluating this relationship in children. Adult migraine patients demonstrate no abnormal ANS function in either the sympathetic or parasympathetic nervous system but there can be sympathetic/parasympathetic hypofunction/hyperfunction. The aim of this study is to investigate autonomic dysfunction in pediatric migraine patients. Method: The study evaluated tests for autonomic functions such as the orthostatic test, 30: 15 ratio, cold-pressor test, heart-rate responses to deep and normal breathing, valsalva ratio (VR), blink reflex (BR), and sympatheticskin-response with thirty pediatric migraine patients in interictal period. Patients in control group were selected from children that had not any other disease or headhache. Results: Consistent with sympathetic hypofunction, there was more frequent orthostatic hypotension in migraine group (p=0.019) and negative correlation between average disease duration, migraine attack duration and orthostatic tests results. Consistent with parasympathetic hyperfunction, the migraine group had higher VRs (p=0.035). There was a negative correlation between analgesic use rate and normal respiratory-RRinterval variability and between attack rate and deep and normal-R-R interval (R-wave peak to R-wave peak in electrocardiograms) variability. There was a positive correlation between average disease duration and BR R2 and R2’ latency in migraine group (p=0.028 and p=0.027). Conclusion: Our study revealed that ANS functions are affected in pediatric migraine and balance between sympathetic and parasympathetic nervous system is distrupted.Our study demonstrates decreased sympathetic responsiveness during the interictal period. Our results suggest hypofunction in the parasympathetic nervous system of migraine patients as attack rate and pain density elevate. [ABSTRACT FROM AUTHOR]

Published

2024

86. Effects of Subarachnoid Block vs General Anaesthesia on Intraoperative Blood Glucose Levels in Non Diabetic Patients undergoing Elective Surgeries: A Prospective Interventional Study.

Author

GANAR, BHARATI N., NANDINI, M. G., PUNEETH KUMAR, S., and VIJYETA, RAGHVI

Subjects

*SYMPATHETIC nervous system, *CLINICAL trials, *PITUITARY gland, *FISHER exact test, *BLOOD sugar

Abstract

Introduction: The inhibition of the pituitary gland, an increase in the production of catabolic hormones, and the stimulation of the sympathetic nervous system culminate in surgical stress. These factors result in elevated hepatic glycogenesis and gluconeogenesis, decreased skeletal muscle glucose uptake and glycogen synthesis, and hyperglycaemia. Aim: To examine the effects of Subarachnoid Block (SAB) and General Anaesthesia (GA) on perioperative Capillary Blood Glucose (CBG) levels in individuals undergoing surgery lasting 1-3 hours. Materials and Methods: This prospective interventional study included 100 non diabetic patients undergoing surgery of 1-3 hours duration with 50 patients in each group (GA and SAB). CBG was checked 30 minutes before the administration of anaesthesia, 30 and 60 minutes after the induction of anaesthesia, and 30 minutes after shifting to the Post Anaesthesia Care Unit (PACU) in both the GA and SAB groups. Differences in participant characteristics, such as age and CBG levels in the two groups (SAB and GA), were examined using the two-tailed Independent samples t-test and the Chi-square/ Fisher's exact test. Results: The mean CBG levels measured 30 minutes before anaesthesia in the GA group were 105.50±21.13 mg/dL, while in the SAB group they were 99.67±19.04 mg/dL, with a p-value of 0.330. However, CBG levels measured 30 minutes after anaesthesia in the GA group were 125.69±22.95 mg/dL, compared to 104.67±20.94 mg/dL in the SAB group, with a p-value of 0.001. At 60 minutes after anaesthesia, CBG levels in the GA group were 152.41±28.97 mg/dL, while in the SAB group they were 99.65±22.69 mg/dL, with a p-value of 0.003. Finally, 30 minutes after shifting to PACU, CBG levels in the GA group were 147.49±27.20 mg/dL, compared to 92.86±24.35 mg/dL in the SAB group, with a p-value of 0.002. Conclusion: CBG levels significantly increased in individuals receiving GA for surgery. This indicates that the hormonal stress response is greater during GA compared to SAB. [ABSTRACT FROM AUTHOR]

Published

2024

87. Yin-Yang control of energy balance by lipids in the hypothalamus: The endocannabinoids vs bile acids case.

Author

Lee, Thomas H., Cota, Daniela, and Quarta, Carmelo

Subjects

*HYPOTHALAMUS, *BILE acids, *REGULATION of body weight, *LIPIDS, *SYMPATHETIC nervous system, *WEIGHT gain, *CANNABINOIDS, *CANNABINOID receptors

Abstract

Obesity is a chronic and debilitating disorder that originates from alterations in energy-sensing brain circuits controlling body weight gain and food intake. The dysregulated syntheses and actions of lipid mediators in the hypothalamus induce weight gain and overfeeding, but the molecular and cellular underpinnings of these alterations remain elusive. In response to changes in the nutritional status, different lipid sensing pathways in the hypothalamus direct body energy needs in a Yin-Yang model. Endocannabinoids orchestrate the crosstalk between hypothalamic circuits and the sympathetic nervous system to promote food intake and energy accumulation during fasting, whereas bile acids act on the same top-down axis to reduce energy intake and possibly storage after the meal. In obesity, the bioavailability and downstream cellular actions of endocannabinoids and bile acids are altered in hypothalamic neurons involved in body weight and metabolic control. Thus, the onset and progression of this disease might result from an imbalance in hypothalamic sensing of multiple lipid signals, which are possibly integrated by common molecular nodes. In this viewpoint, we discuss a possible model that explains how bile acids and endocannabinoids may exert their effects on energy balance regulation via interconnected mechanisms at the level of the hypothalamic neuronal circuits. Therefore, we propose a new conceptual framework for understanding and treating central mechanisms of maladaptive lipid action in obesity. • Endocannabinoids and bile acids act as Yin-Yang regulators of the body energy needs. • Master lipid sensors in the brain could integrate the actions of multiple lipid signals. • Obesity might originate from dysregulation of master lipid sensors in the brain. [ABSTRACT FROM AUTHOR]

Published

2024

88. Actigraphy-based sleep and muscle sympathetic nerve activity in humans.

Author

Bigalke, Jeremy A., Greenlund, Ian M., Bigalke, Jennifer R., and Carter, Jason R.

Subjects

*SLEEP duration, *SYMPATHETIC nervous system, *BLOOD pressure measurement, *BODY mass index, *PARAMETERS (Statistics)

Abstract

Short and insufficient sleep are prevalent and associated with cardiovascular disease, with the sympathetic nervous system as a suspected mediator. The purpose of the present study was to investigate the association between objective, actigraphy-based total sleep time (TST), sleep efficiency (SE), and cardiovascular and sympathetic regulation in healthy adults. We hypothesized that short TST and low SE would be associated with elevated resting blood pressure, heart rate (HR), and muscle sympathetic nerve activity (MSNA). Participants included 94 individuals [46 males, 48 females, age: 30 ± 15 yr, body mass index (BMI): 26 ± 4 kg/m2]. All participants underwent at least 7 days of at-home, wristwatch actigraphy monitoring (avg: 10 ± 3 days). Seated blood pressures were assessed using brachial blood pressure measurements, followed by a 10-minute supine autonomic testing session consisting of continuous HR (electrocardiogram), beat-by-beat blood pressure (finger plethysmograph), and MSNA (microneurography) monitoring. Partial correlations were used to determine the relationship between sleep and cardiovascular parameters while accounting for the influence of age, sex, and BMI. TST was not associated with MAP (R = −0.105, P = 0.321), HR (R = 0.093, P = 0.383), or MSNA burst frequency (BF; R = −0.168, P = 0.112) and burst incidence (BI; R = −0.162, P = 0.124). Similarly, SE was not associated with MAP (R = −0.088, P = 0.408), HR (R = −0.118, P = 0.263), MSNA BF (R = 0.038, P = 0.723), or MSNA BI (R = 0.079, P = 0.459). In contrast to recent preliminary findings, our results do not support a significant association between actigraphy-based sleep duration or efficiency and measures of resting blood pressure, heart rate, and MSNA. NEW & NOTEWORTHY: The present study investigated the independent association between actigraphy-based sleep duration, efficiency, and measures of blood pressure, heart rate, and muscle sympathetic nerve activity (MSNA) in adult males and females. Contrary to our hypothesis, the findings do not support an independent association between habitual sleep and cardiovascular or sympathetic neural activity. However, these findings do not preclude a potential association between these parameters in populations with sleep disorders and/or cardiovascular disease. [ABSTRACT FROM AUTHOR]

Published

2024

89. Beta-Blockers as an Immunologic and Autonomic Manipulator in Critically Ill Patients: A Review of the Recent Literature.

Author

Eraky, Akram M., Yerramalla, Yashwanth, Khan, Adnan, Mokhtar, Yasser, Alamrosy, Mostafa, Farag, Amr, Wright, Alisha, Grounds, Matthew, and Gregorich, Nicole M.

Subjects

*PARASYMPATHETIC nervous system, *SYMPATHETIC nervous system, *ADRENERGIC receptors, *THUNDERSTORMS, *ELECTRIC shock

Abstract

The autonomic nervous system plays a key role in maintaining body hemostasis through both the sympathetic and parasympathetic nervous systems. Sympathetic overstimulation as a reflex to multiple pathologies, such as septic shock, brain injury, cardiogenic shock, and cardiac arrest, could be harmful and lead to autonomic and immunologic dysfunction. The continuous stimulation of the beta receptors on immune cells has an inhibitory effect on these cells and may lead to immunologic dysfunction through enhancing the production of anti-inflammatory cytokines, such as interleukin-10 (IL-10), and inhibiting the production of pro-inflammatory factors, such as interleukin-1B IL-1B and tissue necrotizing factor-alpha (TNF-alpha). Sympathetic overstimulation-induced autonomic dysfunction may also happen due to adrenergic receptor insensitivity or downregulation. Administering anti-adrenergic medication, such as beta-blockers, is a promising treatment to compensate against the undesired effects of adrenergic surge. Despite many misconceptions about beta-blockers, beta-blockers have shown a promising effect in decreasing mortality in patients with critical illness. In this review, we summarize the recently published articles that have discussed using beta-blockers as a promising treatment to decrease mortality in critically ill patients, such as patients with septic shock, traumatic brain injury, cardiogenic shock, acute decompensated heart failure, and electrical storm. We also discuss the potential pathophysiology of beta-blockers in various types of critical illness. More clinical trials are encouraged to evaluate the safety and effectiveness of beta-blockers in improving mortality among critically ill patients. [ABSTRACT FROM AUTHOR]

Published

2024

90. Neuroimmune modulation in liver pathophysiology.

Author

Zou, Ju, Li, Jie, Wang, Xiaoxu, Tang, Daolin, and Chen, Ruochan

Abstract

The liver, the largest organ in the human body, plays a multifaceted role in digestion, coagulation, synthesis, metabolism, detoxification, and immune defense. Changes in liver function often coincide with disruptions in both the central and peripheral nervous systems. The intricate interplay between the nervous and immune systems is vital for maintaining tissue balance and combating diseases. Signaling molecules and pathways, including cytokines, inflammatory mediators, neuropeptides, neurotransmitters, chemoreceptors, and neural pathways, facilitate this complex communication. They establish feedback loops among diverse immune cell populations and the central, peripheral, sympathetic, parasympathetic, and enteric nervous systems within the liver. In this concise review, we provide an overview of the structural and compositional aspects of the hepatic neural and immune systems. We further explore the molecular mechanisms and pathways that govern neuroimmune communication, highlighting their significance in liver pathology. Finally, we summarize the current clinical implications of therapeutic approaches targeting neuroimmune interactions and present prospects for future research in this area. [ABSTRACT FROM AUTHOR]

Published

2024

91. MYRIAD OF FACTORS INVOLVED IN BLOOD PRESSURE CONTROL. SALT INTAKE CONNECTS THEM ALL.

Author

KUCZERISZKA, M. and DOBROWOLSKI, L.

Subjects

BLOOD pressure, SYMPATHETIC nervous system, CYTOCHROME P-450, REACTIVE oxygen species, IMMUNE system

Abstract

Long-lasting elevated blood pressure (BP), i.e. hypertension, is a major contributor to morbidity and mortality worldwide. As a multifactorial and systemic disease that involves multiple systems, hypertension remains a challenging disease to study. Models of hypertension are a basic source of knowledge to drive and support the discovery of the specific genetic, cellular, and molecular mechanisms underlying essential hypertension, as well as to discover and introduce new possible treatments to lower BP. Animal models of hypertension deliver a huge amount of information but it is important to choose the proper one for our scientific hypothesis. In this review, we discuss the physiological, and biochemical background of rodent models of hypertension through a systems approach and a myriad of mechanisms and pathways involved in blood pressure control. We also pay attention to how target organs and systems including the kidneys, vasculature, the sympathetic nervous system (SNS), and immunological system, interfere with each other, and their activity is differentially controlled by sodium delivery, which still remains a pivotal troublemaker. [ABSTRACT FROM AUTHOR]

Published

2024

92. Novel endovascular transmural technique for pharmacological block of superior cervical ganglion prevents sympathetic-mediated cerebral vasospasm.

Author

Wi Jin Kim, Samarage, Hasitha Milan, Jafari, Matiar, Zarrin, David, Goel, Keshav, Xin Qi, Wang, Anthony C., Johnson, Jeremiah, and Colby, Geoffrey P.

Subjects

LOCAL anesthetics, SWINE, CEREBRAL vasospasm, RESEARCH funding, ENDOVASCULAR surgery, SYMPATHETIC nervous system, MINIMALLY invasive procedures, DRUG delivery systems, TREATMENT effectiveness, DIGITAL subtraction angiography, DESCRIPTIVE statistics, AUTONOMIC ganglia, DRUG efficacy, ANIMAL experimentation, COMPARATIVE studies, NERVE block, LIDOCAINE, EVALUATION, EQUIPMENT & supplies

Abstract

Background Sympathetic-mediated vasoconstriction from the superior cervical ganglion (SCG) is a significant contributor to cerebral vasospasm. Inhibition of the SCG has been shown to improve cerebral blood flow and reverse cerebral vasospasm in swine models. We evaluated the efficacy of a novel minimally invasive endovascular approach to target and pharmacologically inhibit the SCG, using a Micro-Infusion Device for transmural drug delivery. Methods Eight SCGs in four Yorkshire swine were surgically identified. After confirming appropriate sympathetic-mediated intracranial vasoconstriction response with SCG stimulation, an endovascular Micro- Infusion Device was used for transmural targeting of the SCG and delivery of 1.5--2 mL of 1% lidocaine-contrast mixture to the perivascular space. Digital subtraction angiography was obtained at: (1) baseline; (2) with SCG stimulation; and (3) after lidocaine delivery to the SCG using the Micro-Infusion Device with concurrent SCG stimulation. Vessel diameters were measured and compared. Results Endovascular transmural delivery of lidocaine to the SCG and carotid perivascular tissue using the Micro-Infusion Device successfully inhibited sympathetic-mediated vasoconstriction response. Measured vessel diameters after lidocaine delivery were comparable to baseline despite SCG stimulation. Conclusion A novel endovascular technique of transmural delivery of lidocaine to the SCG and carotid artery perivascular tissues successfully inhibits the sympathetic input to the cerebral vasculature and modulates sympathetic-mediated cerebral vasospasm. These results suggest promising steps towards translation to potential clinical use for patients suffering from cerebral vasospasm. [ABSTRACT FROM AUTHOR]

Published

2024

93. Short‐term heart rate variability: A potential approach to frailty assessment in older adults.

Author

Dewangan, Gevesh Chand, Singhal, Sunny, Chandran, Dinu S., Khan, Maroof Ahmad, Dey, Aparajit Ballav, and Chakrawarty, Avinash

Subjects

VAGUS nerve physiology, AUTONOMIC nervous system physiology, CROSS-sectional method, DATA analysis, FRAIL elderly, SCIENTIFIC observation, FISHER exact test, KRUSKAL-Wallis Test, TERTIARY care, DESCRIPTIVE statistics, SYMPATHETIC nervous system, CHI-squared test, HEART beat, CARDIOVASCULAR system physiology, PARASYMPATHETIC nervous system, STATISTICS, ONE-way analysis of variance, COMPARATIVE studies, DATA analysis software

Abstract

Objectives: This study aimed to evaluate cardiac autonomic modulation using short‐term heart rate variability (HRV) and compare it among frailty statuses in older Indian adults. Methods: A total of 210 subjects aged 60 years and above were recruited into three groups: frail (n = 70), pre‐frail (n = 70), and non‐frail (n = 70) from the outpatient department of Geriatric Medicine at a tertiary care hospital in India. Frailty status was assessed using the Rockwood frailty index (FI) criteria. HRV was derived from a 5‐min ECG recording of standard limb leads and assessed using time domain, frequency domain, and nonlinear analysis of cardiac interval variability. Results: The HRV parameters indicative of parasympathetic modulation such as SDNN, SDSD, rMSSD, NN50, pNN50, absolute HF power, and SD1 were significantly lower in frail subjects compared with both pre‐frail and non‐frail subjects (P < 0.05). Absolute LF power and SD2 were also lower in frail subjects compared with pre‐frail and non‐frail subjects (P < 0.05). Measures of sympatho‐vagal balance (LF/HF and SD1/SD2 ratios) did not show statistical significance. The FI demonstrated negative correlations with all HRV parameters. Conclusions: Frail individuals exhibit decreased sympathetic and parasympathetic modulation compared with pre‐frail and non‐frail individuals, although maintaining a balanced sympatho‐vagal state. Furthermore, autonomic modulation declines progressively with increasing frailty. [ABSTRACT FROM AUTHOR]

Published

2024

94. Sympathetic baroreflex sensitivity is enhanced in postmenopausal women.

Author

McGinty, Shane J., Matthews, Evan L., Greaney, Jody L., Shoemaker, J. Kevin, and Wenner, Megan M.

Subjects

BAROREFLEXES, POSTMENOPAUSE, SYMPATHETIC nervous system, HEART beat, OLDER people

Abstract

The sympathetic nervous system is critical for regulating blood pressure (BP) via the arterial baroreflex and sympathetic transduction in the peripheral vasculature. These mechanisms interact, and both may be altered with aging and impacted by menopause. Although age-related decreases in sympathetic transduction have been demonstrated in women, it remains unclear whether sympathetic baroreflex sensitivity (BRS) is impaired in postmenopausal women (POST). We tested the hypothesis that sympathetic BRS would be enhanced in POST compared with premenopausal women (PRE). We examined beat-by-beat BP and muscle sympathetic nerve activity (MSNA) in 19 PRE (22 ± 2 yr, 22 ± 3 kg/m2) and 12 POST (57 ± 5 yr, 24 ± 2 kg/m2) during 10 min of rest. Spontaneous sympathetic BRS was quantified as the slope of a linear regression between MSNA burst incidence and diastolic BP. Sympathetic transduction to mean arterial pressure (MAP) for the 10 cardiac cycles following spontaneous MSNA bursts was assessed via signal averaging method. Resting MAP was similar (PRE: 82 ± 8 vs. POST: 85 ± 8 mmHg, P = 0.43), whereas resting MSNA was elevated in POST (PRE: 10 ± 6 vs. POST: 45 ± 16 bursts/100 heart beats, P < 0.0001). Spontaneous sympathetic BRS was enhanced in POST (PRE: −2.0 ± 1.2 vs. POST: −5.2 ± 1.9 bursts/beat/mmHg, P < 0.0005). Sympathetic transduction to MAP was attenuated in POST (time: P < 0.001, group: P < 0.001, interaction: P < 0.01). These data suggest that sympathetic BRS may be enhanced in POST. Consistent with recent hypotheses, enhanced sensitivity of the arterial baroreflex's neural arc may signify a compensatory response to reduced efficiency of the peripheral arterial baroreflex arc (i.e., sympathetic transduction) to preserve BP buffering capacity. NEW & NOTEWORTHY: Studies examining sympathetic baroreflex function with aging remain equivocal, with some studies showing an increase, decrease, or no change in sympathetic baroreflex sensitivity (BRS) in older adults compared with younger adults. With aging, women experience unique physiological changes due to menopause that influence autonomic function. For the first time, we show that postmenopausal women exhibit a greater sympathetic BRS compared with young premenopausal women. [ABSTRACT FROM AUTHOR]

Published

2024

95. The Association Between Heart Rate Variability and Sleep Quality - a Narrative Review.

Author

Kapica, Marcin, Kopacz, Wojciech, Głogowska, Karen, Wojtas, Mikołaj, Krzyżanowska, Maria, Nowak, Gabriela, Żmijewska, Aleksandra, Sztybór, Mateusz, Maleszewska, Monika, and Piątkiewicz, Julia

Subjects

SLEEP quality, HEART beat, SLEEP interruptions, SLEEP deprivation, AUTONOMIC nervous system, BEDTIME, SLEEP

Abstract

Introduction Heart rate variability (HRV) serves as a non-invasive marker to assess autonomic nervous system (ANS) modulation on cardiac rhythm. Its link with sleep quality, particularly in the context of insomnia, posits HRV as a potential indicator of autonomic state variations during sleep disturbances. The prevalence of insomnia, affecting up to 20% of the general population, emphasizes the need to understand its extensive impact. Material and Methods For this review - 41 relevant titles from 1985 to 2024 were selected Analysis of the Literature: Recent studies highlight a bidirectional relationship between insomnia and ANS function, with increased sympathetic activity indicated by physiological and subjective measures in individuals with insomnia. The role of medications like beta-blockers in disrupting ANS and leading to sleep deprivation further connects measurable and perceived aspects of sleep quality, impacting health negatively. Moreover, HRV's application has expanded beyond professional athletics to daily activity and sleep quality monitoring by the general population, emphasizing its potential in evaluating stress and training intensity. Conclusion: The complex interplay between HRV, insomnia, and health outcomes necessitates further research. However, integrating HRV measurements into clinical and everyday monitoring may offer a promising avenue for improving sleep disorder management and enhancing quality of life. [ABSTRACT FROM AUTHOR]

Published

2024

96. Pupil reflex as a marker of activity and prognosis in heart failure: a longitudinal and prospective study.

Author

Zamorano, Margarita, Monteagudo, Juan Manuel, González, Eduardo, Rayo, Isabel, Fernández, Sara, Castillo, Miguel, Zhou, Qiheng, de la Villa, Pedro, and Zamorano, Jose Luis

Subjects

PUPILLARY reflex, SYMPATHETIC nervous system, RECEIVER operating characteristic curves, CARDIAC output, PUPILLOMETRY

Abstract

Aims: Compensatory mechanisms in heart failure (HF) are triggered to maintain adequate cardiac output. Among them, hyperactivation of the sympathetic nervous system (SNS) is one of the main ones and carries a worse prognosis. The pupillary reflex depends on the SNS, and we can evaluate it through pupillometry. The aim of the study was to compare the differences in pupillary reflex between patients with acute HF and controls and to analyse whether these differences in pupillary reflex may offer a new and easy prognostic factor in such patients. Methods and results: We prospectively and consecutively included 107 patients admitted with decompensated HF. Quantitative pupillometry was performed with the NeuroOptics pupillometry during the first 24 h after admission and prior to discharge. The results were compared with those of a group of 100 healthy volunteers who also underwent pupillometry. The maximum baseline pupil size (MBPS) and the minimum pupil diameter (MPD) were measured. Patients with decompensated HF have a higher MBPS (3.64 ± 0.81) and higher MPD (2.60 ± 0.58) than HF patients at discharge and in the control group (P‐value = 0.01 and 0.01, respectively). Also, HF patients presented an improvement in pupillometric values at discharge [MBPS (3.47 ± 0.79) and MPD (2.51 ± 0.58)] and showed no differences compared with the control group [MBPS (3.34 ± 0.82) and MPD (2.40 ± 0.53)] (P‐value = 0.19 and 0.14, respectively). In addition, MBPS provides a good independent predictor of in‐hospital and 1 month mortality in patients admitted with HF. Six patients (5.61%) died during hospital admission, and 11 patients (10.2%) died in the first month after discharge. Also, four patients (3.74%) were readmitted within 1 month of discharge. The receiver operating characteristic (ROC) curve for predicting in‐hospital mortality through MBPS was 0.823. No patient with an MBPS < 3.7 mm died. The ROC curve for predicting combined mortality or readmission within the first month for MBPS was 0.698. Conclusions: Pupillometry may be a new, non‐invasive, and simple tool to determine the status of SNS, help in the prognostic stratification of acute HF patients, and improve therapeutic management. [ABSTRACT FROM AUTHOR]

Published

2024

97. Pain-induced effects on the pupillary light response under high and low illumination conditions.

Author

Kursawe, Michael, Ehrlichmann, Heike, Weber, Walter, Krabbe, Julia, and Kraus, Thomas

Subjects

PUPILLARY reflex, PARASYMPATHETIC nervous system, SYMPATHETIC nervous system, FOOT pain, LIGHT intensity, HEART beat, SEASONAL affective disorder

Abstract

Objective: The present study investigated the impact of two different light intensities on the pain-modulated pupillary light response (PLR). Additionally, it aimed to demonstrate parasympathetic and sympathetic influences on PLR parameters in response to pain, as predicted by functional models. Method: A total of 24 participants were included in a randomized, repeated-measures design. The PLR wasmeasured in response to both dark and bright light stimuli within two test cycles. Pain was induced using the cold pressor test (CPT), which involved immersing participants' feet in ice water. PLR measurements were taken during baseline and ice-water immersion within each test cycle. The assessed PLR parameters included initial diameter (INIT), latency (LAT), amplitude (AMP), and re-dilation time (ReDIL25). Along with these parameters, heart rate (HR) and pain ratings were also computed and analyzed. Main results: The CPT caused moderate pain in participants, and the resulting PLR parameters were found to be congruent with the expected parasympathetic and sympathetic nervous system activities. Although the luminance of the stimulus did influence PLR parameters, no interaction with pain exposure was found. Significance: The results showed that different aspects of pain experienced by an individual, as modulated through the sympathetic and parasympathetic nervous systems, are visible in their pupillary reactions to light. Notably, within the range used in the current study, light intensity did not significantly affect the pain-related PLR effects. [ABSTRACT FROM AUTHOR]

Published

2024

98. Behavioral therapy in migraine: Expanding the therapeutic arsenal.

Author

Mínguez‐Olaondo, Ane, Días, Patricia Alves, Munáin, Estibaliz López, Grozeva, Vesselina, Laspra‐Solís, Carmen, Villalba, Inés Martín, García‐Martín, Valvanuz, Vila‐Pueyo, Marta, Barandiarán, Myriam, Zabalza, Ramon J., and Bengoetxea, Ana

Subjects

*BEHAVIOR therapy, *MIGRAINE, *SYMPATHETIC nervous system, *PAIN tolerance, *MEDICATION abuse

Abstract

Background and purpose Methods Results Conclusions The US Headache Consortium developed evidence‐based guidelines for the treatment of migraine and found grade A evidence in support of behavior therapy (BT). Understanding the mechanisms of BT may improve the management of migraine and reduce its burden.We performed a narrative review to define the current evidence of BT and determine its usefulness in migraine management.The information was obtained from 116 publications, with 56 of them retrieved through direct searches in PubMed (2011–2020) and the remainder selected by the authors to complete the content. BT might reduce migraine impact by decreasing the sympathetic nervous system's response to stress and increasing pain tolerance. Acting in headache‐related surroundings can be improved, together with headache duration and self‐efficacy. Applications such as mobile health and electronic health applications can help to carry out healthier lifestyle patterns. Regarding medication overuse, BT seems to be a good choice, with similar results to pharmacological prophylaxis. Advantages of using BT are the lack of adverse effects and the unrestricted use in children, where BT is postulated to be even more effective than the standardized pharmacopeia.BT is an interesting tool that can be used as an add‐on therapy in migraine. Through BT, the autonomy and empowerment of migraine patients is enhanced. BT may not cure migraine, but it could help to reduce pain severity perception, disability, and migraine impact, adding an emotive and cognitive approach to the perceptive role of pharmacopeia. Thus, a better approach in migraine, implementing specific therapeutic management, can improve migraine control. [ABSTRACT FROM AUTHOR]

Published

2024

99. Electrodermal Activity (EDA) Morphologies and Prediction of Engagement with Simple Moving Average Crossover: A Mixed-Method Study.

Author

Nandipati, Kishore Kumar, Pal, Sonika, and Mitra, Ritayan

Subjects

*MOVING average process, *SYMPATHETIC nervous system, *COGNITIVE load, *GALVANIC skin response, *MORPHOLOGY, *VIDEOS

Abstract

Electrodermal Activity (EDA), which primarily indicates arousal through sympathetic nervous system activity, serves as a tool to measure constructs like engagement, cognitive load, performance, and stress. Despite its potential, empirical studies have often yielded mixed results and found it of limited use. To better understand EDA, we conducted a mixed-methods study in which quantitative EDA profiles and survey data were investigated using qualitative interviews. This study furnishes an EDA dataset measuring the engagement levels of seven participants who watched three videos for 4–10 min. The subsequent interviews revealed five EDA morphologies with varying short-term signatures and long-term trends. We used this dataset to demonstrate the moving average crossover, a novel metric for EDA analysis, in predicting engagement–disengagement dynamics in such data. Our contributions include the creation of the detailed dataset, comprising EDA profiles annotated with qualitative data, the identification of five distinct EDA morphologies, and the proposition of the moving average crossover as an indicator of the beginning of engagement or disengagement in an individual. [ABSTRACT FROM AUTHOR]

Published

2024

100. Harlequin syndrome in a patient with probable hemicrania continua and exertional headache – is there a link? a case report.

Author

Miedl, Markus, Baumgartner, Philipp, Disse, Leah Raffaela, Weber, Konrad Peter, Pohl, Heiko, and Wegener, Susanne

Subjects

*CLUSTER headache, *SJOGREN'S syndrome, *HORNER syndrome, *NEUROANATOMY, *CAROTID artery dissections, *AUTONOMIC nervous system

Abstract

Background: The harlequin syndrome is a rare disorder of the autonomic nervous system characterized by unilateral diminished flushing and sweating of the face following exposure to heat or physical activity. It results from sympathetic dysfunction and most commonly occurs idiopathically. A secondary development due to an underlying pathology (e.g., carotid artery dissection, tumors) must be excluded at first appearance. There is evidence that the cranial autonomic system is involved in the pathophysiology of trigeminal autonomic headaches like hemicrania continua. Therefore, an overlap in the pathophysiology of harlequin syndrome and trigeminal autonomic headache disorders seems plausible. However, the association of a harlequin syndrome with hemicrania continua was never reported. Case presentation: This work describes the case of a 42‐year‐old female patient presenting to our headache unit. The patient reported persisting unilateral headache of the right side of dragging or squeezing character accompanied by trigeminal autonomic symptoms, including lacrimation, nasal congestion, conjunctival injection and Horner's syndrome, and was responsive to treatment with 75mg/d indomethacin. Five months after the initial consultation, the patient noted that the upper right quadrant of her face was pale after jogging. A harlequin syndrome was diagnosed. Further, she developed a short-lasting, bilateral headache of pulsatile character during strenuous exercise consistent with exertional headache. Comprehensive diagnostic evaluations, encompassing cranial and cervical MRI scans, laboratory tests, and biopsies, culminated in the diagnosis of Sjögren's syndrome. This finding suggests that the trigemino-autonomic dysfunction may either be idiopathic or a direct manifestation of Sjögren's syndrome. Conclusions: This report documents the case of a rare combination of a headache resembling probable hemicrania continua and the harlequin syndrome (and even exertional headache). It illustrates the underlying anatomy of the autonomic nervous system in a clinical context and emphasizes the hypothesis of a pathophysiological link between abnormal sympathetic activity and trigeminal autonomic headaches. [ABSTRACT FROM AUTHOR]

Published

2024