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Blood Circulation --- Respiration --- Lung Diseases --- Cardiovascular system --- Respiratory organs --- Appareil cardiovasculaire --- Appareil respiratoire --- Diseases --- Periodicals. --- Maladies --- Périodiques --- Blood Circulation. --- Respiration. --- Lung Diseases. --- Diseases. --- Respiratory diseases --- Cardiovascular diseases --- Disease, Pulmonary --- Diseases, Pulmonary --- Pulmonary Disease --- Pulmonary Diseases --- Disease, Lung --- Diseases, Lung --- Lung Disease --- Breathing --- Circulation, Blood --- Air passages (Anatomy) --- Respiratory system --- lung development --- circulatory medicine --- pulmonary medicine --- respiratory medicine --- Lung --- Cardiovascular System --- Pulsatile Flow --- Cardiopulmonary system --- Pathology of the circulatory system --- Pathology of the respiratory system --- Blood Flow --- Blood Flows --- Flow, Blood

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Most complex respiratory conditions invoke interactions between genetic and environmental factors, such as smoking, pollution, and diet. There is increasing evidence that diet and nutrition are important factors, not only in disease prevention, but also in their contribution to the chronicity and heterogeneity of lung disorders. Nutrients exert potent effects on metabolism through a variety of regulatory mechanisms, resulting in local and systemic changes in metabolite levels. In this issue of Nutrients, we would like to bring together papers dealing with the topic of “Respiratory Diseases and Nutrition”. We welcome manuscripts detailing human and animal studies focused on the roles of dietary and metabolic factors in the initiation and progression of respiratory diseases, including, but not limited to, chronic obstructive pulmonary disease (COPD) and asthma. In vitro studies aimed at elucidating the potential molecular mechanisms of diet–metabolic interactions are also invited. We welcome different types of manuscript submissions, including original research articles and up-to-date reviews and commentaries.

antioxidant --- chronic obstructive pulmonary disease --- dietary pattern --- inflammation --- lung function --- Mediterranean diet --- nutrition --- oxidative stress --- polyphenol --- polyunsaturated fatty acid --- black ginseng --- oral administration --- influenza A virus --- cytokines --- antiviral --- lung development --- undernutrition --- lung diseases --- ghrelin --- leptin --- GLP-1 --- retinoids --- cholecalciferol --- fetal growth restriction --- respiratory distress syndrome --- lung transplantation --- body mass index --- body composition --- lean body mass --- muscle mass --- sarcopenia --- creatinine-height index --- obesity --- pregnancy --- allergic airway disease --- offspring --- high fat diet --- omega-3 index --- asthma --- fatty acids --- nutritional biomarkers --- pulmonary hypertension --- microbiota --- vitamin C --- vitamin D --- iron --- diet --- bisphenol A --- estrogen --- xenoestrogens --- para-inflammation --- endocrine --- alarmins --- allergy --- microbiome --- nutrients --- prematurity --- bronchopulmonary dysplasia --- weight loss --- children

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Development provides an especially sensitive window whereby environmental contaminants can have significant and lasting effects on the morphology and function of many organs and systems. The importance of understanding developmental effects of environmental contaminants extends not only to developmental stages, but also to encompass the hypotheses of the developmental or fetal origins of adult disease. Such effects of environmental contaminants during development extend to health outcomes that can persist in adulthood, first become apparent in adulthood, or manifest in adulthood but only after a second hit/stressor. The diverse nature of possible environmental contaminants, ranging from persistent organic pollutants to emerging contaminants of concern, along with the diverse range of health implications, including autism, diabetes, cancer, infertility, and lower urinary tract function, make understanding developmental effects of environmental contaminants an ever growing and important field of study.This Special Issue aims to explore a variety of topics in line with the aims and scope of Toxics. Specifically, topics related to the developmental effects of environmental contaminants and/or their metabolites on the molecular, cellular, tissue, organ, organ system or organism, including mechanisms of toxicity, metabolism, risk assessment and management, as well as multiple stressor impacts in the context of aging or disease progression following developmental exposures.

Medicine --- Medical toxicology --- arsenic --- synaptic transmission --- long-term potentiation --- hippocampus --- development --- lower urinary tract --- bladder --- inflammation --- POPs --- developmental basis of adult disease --- multigenerational --- toxicants --- bronchopulmonary dysplasia --- therapeutics --- lung development --- selective serotonin reuptake inhibitor --- perinatal mortality --- neonatal morbidity --- fluoxetine --- sertraline --- endocrine-disrupting chemicals (EDC) --- Aroclor 1221 (A1221) --- PCBs --- vinclozolin --- social behavior --- sex differences --- transgenerational --- epigenetic --- endocrine-disrupting chemical (EDC) --- polychlorinated biphenyl (PCB) --- mating behavior --- paced mating --- ultrasonic vocalization (USV) --- estradiol --- triclosan --- triclocarbon --- detergents --- 4-nonylphenol --- Danio rerio --- zebrafish --- environmental toxicity --- aquatic environment --- ground water chemicals --- lower urinary tract dysfunction --- lower urinary tract symptoms --- BPH --- prostate --- axonal growth --- developmental neurotoxicity --- neuronal morphogenesis --- PBDE --- reactive oxygen species --- thyroid hormone --- pesticides --- prebiotic --- intestinal dysbiosis --- perigestational --- dysmetabolism --- risk factor --- behavior --- chemical screening --- literature comparison --- developmental toxicity --- negative control --- positive control --- rapid testing --- PFAS --- PFAS mixtures --- epigenetics --- microglia --- valproic acid --- primary motor cortex