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1.
PLoS One ; 16(11): e0258700, 2021.
Article in English | MEDLINE | ID: mdl-34739484

ABSTRACT

Protecting healthcare professionals is crucial in maintaining a functioning healthcare system. The risk of infection and optimal preventive strategies for healthcare workers during the COVID-19 pandemic remain poorly understood. Here we report the results of a cohort study that included pre- and asymptomatic healthcare workers. A weekly testing regime has been performed in this cohort since the beginning of the COVID-19 pandemic to identify infected healthcare workers. Based on these observations we have developed a mathematical model of SARS-CoV-2 transmission that integrates the sources of infection from inside and outside the hospital. The data were used to study how regular testing and a desynchronisation protocol are effective in preventing transmission of COVID-19 infection at work, and compared both strategies in terms of workforce availability and cost-effectiveness. We showed that case incidence among healthcare workers is higher than would be explained solely by community infection. Furthermore, while testing and desynchronisation protocols are both effective in preventing nosocomial transmission, regular testing maintains work productivity with implementation costs.


Subject(s)
Asymptomatic Infections , COVID-19 Testing/methods , COVID-19/diagnosis , COVID-19/economics , Health Personnel , SARS-CoV-2 , Algorithms , Cost-Benefit Analysis , Cross Infection , Data Collection , Delivery of Health Care , Hospitals , Humans , Mass Screening/methods , Models, Theoretical , Occupational Exposure , Pandemics , Risk , Stochastic Processes , Switzerland/epidemiology
2.
Front Immunol ; 12: 679055, 2021.
Article in English | MEDLINE | ID: mdl-34322118

ABSTRACT

The peripheral nervous system consists of sensory circuits that respond to external and internal stimuli and effector circuits that adapt physiologic functions to environmental challenges. Identifying neurotransmitters and neuropeptides and the corresponding receptors on immune cells implies an essential role for the nervous system in regulating immune reactions. Vice versa, neurons express functional cytokine receptors to respond to inflammatory signals directly. Recent advances in single-cell and single-nuclei sequencing have provided an unprecedented depth in neuronal analysis and allowed to refine the classification of distinct neuronal subsets of the peripheral nervous system. Delineating the sensory and immunoregulatory capacity of different neuronal subsets could inform a better understanding of the response happening in tissues that coordinate physiologic functions, tissue homeostasis and immunity. Here, we summarize current subsets of peripheral neurons and discuss neuronal regulation of immune responses, focusing on neuro-immune interactions in the gastrointestinal tract. The nervous system as a central coordinator of immune reactions and tissue homeostasis may predispose for novel promising therapeutic approaches for a large variety of diseases including but not limited to chronic inflammation.


Subject(s)
Immunomodulation , Neuroimmunomodulation , Neurons/metabolism , Peripheral Nervous System/cytology , Peripheral Nervous System/immunology , Peripheral Nervous System/metabolism , Animals , Biomarkers , Disease Susceptibility , Gene Expression Regulation , Humans , Neurons/cytology , Signal Transduction
3.
Front Immunol ; 11: 308, 2020.
Article in English | MEDLINE | ID: mdl-32265899

ABSTRACT

The dense innervation of the gastro-intestinal tract with neuronal networks, which are in close proximity to immune cells, implies a pivotal role of neurons in modulating immune functions. Neurons have the ability to directly sense danger signals, adapt immune effector functions and integrate these signals to maintain tissue integrity and host defense strategies. The expression pattern of a large set of immune cells in the intestine characterized by receptors for neurotransmitters and neuropeptides suggest a tight neuronal hierarchical control of immune functions in order to systemically control immune reactions. Compelling evidence implies that targeting neuro-immune interactions is a promising strategy to dampen immune responses in autoimmune diseases such as inflammatory bowel diseases or rheumatoid arthritis. In fact, electric stimulation of vagal fibers has been shown to be an extremely effective treatment strategy against overwhelming immune reactions, even after exhausted conventional treatment strategies. Such findings argue that the nervous system is underestimated coordinator of immune reactions and underline the importance of neuro-immune crosstalk for body homeostasis. Herein, we review neuro-immune interactions with a special focus on disease pathogenesis throughout the gastro-intestinal tract.


Subject(s)
Homeostasis/immunology , Immunity/immunology , Neuroimmunomodulation/immunology , Animals , Arthritis, Rheumatoid/immunology , Arthritis, Rheumatoid/therapy , Autoimmune Diseases/immunology , Autoimmune Diseases/therapy , Autonomic Nervous System/physiology , Enteric Nervous System/physiology , Gastrointestinal Microbiome , Humans , Hypothalamo-Hypophyseal System/physiology , Ileus/immunology , Ileus/therapy , Immunity, Innate , Inflammatory Bowel Diseases/immunology , Lymphocytes/immunology , Neuroimmunomodulation/drug effects , Neurons/physiology , Neuropeptides/immunology , Neurosecretory Systems/physiology , Neurotransmitter Agents/agonists , Neurotransmitter Agents/physiology , Postoperative Complications/immunology , Postoperative Complications/therapy , Receptors, Neurotransmitter/immunology , Sepsis/immunology , Sepsis/therapy , Symbiosis , Vagus Nerve Stimulation
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