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Evidence on Human Exposure to Pesticides and the Occurrence of Health Hazards in the Brazilian Population: A Systematic Review.
Panis, C, Kawassaki, ACB, Crestani, APJ, Pascotto, CR, Bortoloti, DS, Vicentini, GE, Lucio, LC, Ferreira, MO, Prates, RTC, Vieira, VK, et al
Frontiers in public health. 2021;9:787438
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Plain language summary
The use of pesticides to eradicate pests is a common agricultural practice. Between 2009 and 2019, Brazilians used more chemicals to eradicate weeds, fungi, and insects. Brazil is a heavy user of pesticides, but their toxic effects, including their health and environmental effects, have not been well studied. A total of 44 studies are included in this systematic review. There is a link between pesticide exposure and neurological damage, cancer, gastrointestinal issues, poisoning, hormonal irregularities, and malformations in children, according to the studies included in this review. The systematic review shows that pesticides are toxic to both rural and urban workers regardless of their age and gender. For a comprehensive assessment of pesticides' toxic effects on the environment and human health, more robust research is needed. Despite this, healthcare professionals can use the research findings to identify pesticide health impacts and make informed clinical decisions.
Abstract
Brazil is among the biggest pesticide consumers in the world, with its population severely exposed to tons of such substances, both because of environmental contamination and occupational use. The health consequences of pesticide exposure are well-documented, but still sparse regarding Brazilian population. This study systematically reviewed the Brazilian studies published that address the relationship between exposure to pesticides and health problems in the Brazilian population. Also, information about pesticide use in Brazil is provided. The included studies showed that exposure to pesticides has a relevant impact on the health of the Brazilian population, regardless of age and gender, and on workers in rural areas or not. Most poisoning events seem to result from the continuous use of pesticides, whether occupationally or environmentally, characterizing a public health problem. The major consequences reported in literature were damage to the central nervous system, cancer, deleterious effects on rural workers' health, intoxications, malformations, and endocrine changes. These findings point out the need to understand the impact of chronic exposure to pesticides on severely exposed people and highlight the importance of creating public policies to protect them and avoid disease occurrence.
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Possible long-term endocrine-metabolic complications in COVID-19: lesson from the SARS model.
MongioƬ, LM, Barbagallo, F, Condorelli, RA, Cannarella, R, Aversa, A, La Vignera, S, Calogero, AE
Endocrine. 2020;68(3):467-470
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Coronavirus disease 2019 (Covid-19) is caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Little is known about how it affects the endocrine system and it is likely that some patients who have recovered may suffer long-term consequences. The severe acute respiratory syndrome coronavirus (SARS-CoV) that caused the SARS outbreak in 2003 has many similarities. This editorial looks at the possible effects on the endocrine system of SARS-CoV-2 by looking at the long-term effects seen in SARS. In the case of SARS-CoV, it was thought that the virus could directly damage pancreatic cells leading to type 2 diabetes. It is hypothesized that Covid-19 patients could develop this condition by the same mechanism. Although no study on SARS reported the link between obesity and higher mortality rate, there is evidence that obese Covid-19 patients have worse clinical outcomes. There is no data yet for Covid-19, but adrenal insufficiency and impaired thyroid function were shown in some cases of SARS. To identify and treat any possible long-term effects of Covid-19, endocrinologists should monitor hormone levels and metabolic functions.
Abstract
The outbreak of coronavirus disease 2019 (COVID-19), caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), is centralizing the interest of the scientific world. In the next months, long-term consequences on the endocrine system may arise following COVID-19. In this article, we hypothesized the effects of SARS-CoV-2 taking into account what learned from the severe acute respiratory syndrome coronavirus (SARS-CoV) that caused SARS in 2003.
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Anxiety, Depression, and the Microbiome: A Role for Gut Peptides.
Lach, G, Schellekens, H, Dinan, TG, Cryan, JF
Neurotherapeutics : the journal of the American Society for Experimental NeuroTherapeutics. 2018;15(1):36-59
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Hormones released in the gut can have an impact in the brain through a bidirectional relationship, known as the gut-brain axis. The release of these hormones may be controlled by the gut microbiota, however exact mechanisms are not fully understood. Most hormones originating in the gut may have a role in obesity development, which is often associated with psychiatric disorders. Understanding the relationship between gut microbiota and depression through gut derived signalling molecules may be of benefit and was the focus of this review. Diversity and stability of the gut microbiota is important for health, which is disrupted during depression and anxiety. The gut microbiota serves to produce brain, hormone and immune signals that can travel to the brain, and can be affected by poor gut health. For those with depression, side effects of anti-depressants can be a disruption of the gut microbiota, however how this impacts symptoms is not fully understood. It was concluded that although there is strong research on the gut microbiota and depression it is still in its infancy. The role of gut microbiota on signalling with the brain and the rest of the body seems to be important for depression and anxiety. This study could be used by healthcare professionals to understand how the gut microbiota can play a role in depression.
Abstract
The complex bidirectional communication between the gut and the brain is finely orchestrated by different systems, including the endocrine, immune, autonomic, and enteric nervous systems. Moreover, increasing evidence supports the role of the microbiome and microbiota-derived molecules in regulating such interactions; however, the mechanisms underpinning such effects are only beginning to be resolved. Microbiota-gut peptide interactions are poised to be of great significance in the regulation of gut-brain signaling. Given the emerging role of the gut-brain axis in a variety of brain disorders, such as anxiety and depression, it is important to understand the contribution of bidirectional interactions between peptide hormones released from the gut and intestinal bacteria in the context of this axis. Indeed, the gastrointestinal tract is the largest endocrine organ in mammals, secreting dozens of different signaling molecules, including peptides. Gut peptides in the systemic circulation can bind cognate receptors on immune cells and vagus nerve terminals thereby enabling indirect gut-brain communication. Gut peptide concentrations are not only modulated by enteric microbiota signals, but also vary according to the composition of the intestinal microbiota. In this review, we will discuss the gut microbiota as a regulator of anxiety and depression, and explore the role of gut-derived peptides as signaling molecules in microbiome-gut-brain communication. Here, we summarize the potential interactions of the microbiota with gut hormones and endocrine peptides, including neuropeptide Y, peptide YY, pancreatic polypeptide, cholecystokinin, glucagon-like peptide, corticotropin-releasing factor, oxytocin, and ghrelin in microbiome-to-brain signaling. Together, gut peptides are important regulators of microbiota-gut-brain signaling in health and stress-related psychiatric illnesses.