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1.
Potential ocular and systemic COVID-19 prophylaxis approaches for healthcare professionals.
Shetty, R, Lalgudi, VG, Khamar, P, Gupta, K, Sethu, S, Nair, A, Honavar, SG, Ghosh, A, D'Souza, S
Indian journal of ophthalmology. 2020;(7):1349-1356
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Abstract
The COVID-19 pandemic has brought with it, innumerable challenges in healthcare, both through the direct burden of morbidity and mortality of the disease, and also by the curtailing of other essential albeit less emergency medical services to reduce the risk of community spread. Reports from around the world are showing mounting number of cases even in healthcare professionals spite of usage of adequate personal protective equipment. There are a number of factors which could account for this, be it the affinity of the virus to the respiratory and other mucosa or to patient risk factors for developing severe forms of the disease. In view of the growing need for resuming other medical services, it is essential to find newer ways to protect ourselves better, whether by systemic or topical mucosal prophylaxis with various medications or lifestyle changes promoting wellbeing and immunity. This article discusses additional prophylactic measures including drug repurposing or new indication paradigms to render protection. Certain medications such as chloroquine, trehalose, antihistaminics, and interferons used topically for various ocular conditions with reasonably good safety records are known to have anti-viral properties. Hence, can be harnessed in preventing SARS-CoV-2 attachment, entry, and/or replication in host cells. Similarly, use of hypertonic saline for nasal and oral mucosa and dietary changes are possible methods of improving our resistance. These additional prophylactic measures can be cautiously explored by healthcare professionals to protect themselves and their patients.
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Donning and doffing of personal protective equipment protocol and key points of nursing care for patients with COVID-19 in ICU.
Yuan, L, Chen, S, Xu, Y
Stroke and vascular neurology. 2020;(3):302-307
Abstract
Coronavirus pandemic is the most important public health event in the world currently. Patients with coronavirus disease 2019 (COVID-19) in a critical state are at risk of progressing rapidly into many serve complications; they require a high level of care from ICU nurses. How to avoid the virus to infect health care worker is also a critical issue. Based on the summarized experience of Chinese health workers, literature review and clinical practice, this article introduced donning and doffing of personal protective equipment (PPE) protocol and some keypoints of nursing critical care in patients with coronavirus disease 2019 (COVID-19): caring of patients requiring intubation and ventilation, venous thromboembolism (VTE) prevention, caring of patients on ECMO, caring for patients requiring enteral nutrition, psychological support and nursing management of COVID-19 ICU. This article introduced a useful protocol of donning and doffing personal protective equipment to protect health care workers, and provided key points for the ICU nurses how to take care of COVID-19 patients.
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Glyphosate's Synergistic Toxicity in Combination with Other Factors as a Cause of Chronic Kidney Disease of Unknown Origin.
Gunatilake, S, Seneff, S, Orlando, L
International journal of environmental research and public health. 2019;(15)
Abstract
Chronic kidney disease of unknown etiology (CKDu) is a global epidemic. Sri Lanka has experienced a doubling of the disease every 4 or 5 years since it was first identified in the North Central province in the mid-1990s. The disease primarily affects people in agricultural regions who are missing the commonly known risk factors for CKD. Sri Lanka is not alone: health workers have reported prevalence of CKDu in Mexico, Nicaragua, El Salvador, and the state of Andhra Pradesh in India. A global search for the cause of CKDu has not identified a single factor, but rather many factors that may contribute to the etiology of the disease. Some of these factors include heat stroke leading to dehydration, toxic metals such as cadmium and arsenic, fluoride, low selenium, toxigenic cyanobacteria, nutritionally deficient diet and mycotoxins from mold exposure. Furthermore, exposure to agrichemicals, particularly glyphosate and paraquat, are likely compounding factors, and may be the primary factors. Here, we argue that glyphosate in particular is working synergistically with most of the other factors to increase toxic effects. We propose, further, that glyphosate causes insidious harm through its action as an amino acid analogue of glycine, and that this interferes with natural protective mechanisms against other exposures. Glyphosate's synergistic health effects in combination with exposure to other pollutants, in particular paraquat, and physical labor in the ubiquitous high temperatures of lowland tropical regions, could result in renal damage consistent with CKDu in Sri Lanka.
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Neurotoxic effects of mercury exposure in dental personnel.
Bjørklund, G, Hilt, B, Dadar, M, Lindh, U, Aaseth, J
Basic & clinical pharmacology & toxicology. 2019;(5):568-574
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Abstract
Numerous studies have reported neurobehavioural effects in dental personnel occupationally exposed to chronic low levels of mercury (Hg). Hg exposure from dental work may also induce various chronic conditions such as elevation of amyloid protein expression, deterioration of microtubules and increase or inhibition of transmitter release at motor nerve terminal endings. Therefore, clinical studies of Hg toxicity in dentistry may provide new knowledge about disturbed metal homeostasis in neurodegenerative diseases such as Alzheimer's disease, multiple sclerosis and mood disorders. The purpose of this MiniReview is to evaluate the evidence of possible relevance between Hg exposure in dentistry and idiopathic disturbances in motor functions, cognitive skills and affective reactions, as well as dose-response relationships.
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Low-dose computed tomography screening for lung cancer in people with workplace exposure to asbestos.
Maisonneuve, P, Rampinelli, C, Bertolotti, R, Misotti, A, Lococo, F, Casiraghi, M, Spaggiari, L, Bellomi, M, Novellis, P, Solinas, M, et al
Lung cancer (Amsterdam, Netherlands). 2019;:23-30
Abstract
OBJECTIVES Smoking is the main risk factor for lung cancer, but environmental and occupational exposure to carcinogens also increase lung cancer risk. We assessed whether extending low-dose computed tomography (LDCT) screening to persons with occupational exposure to asbestos may be an effective way reducing lung cancer mortality. MATERIALS AND METHODS We conducted a nested case-control study within the COSMOS screening program, assessing past asbestos exposure with a questionnaire. LDCT scans of asbestos-exposed participants were reviewed to assess the presence of pulmonary, interstitial and pleural alterations in comparison to matched unexposed controls. We also performed an exhaustive review, with meta-analysis, of the literature on LDCT screening in asbestos-exposed persons. RESULTS Exposure to asbestos, initially self-reported by 9.8% of COSMOS participants, was confirmed in 216 of 544 assessable cases, corresponding to 2.6% of the screened population. LDCT of asbestos-exposed persons had significantly more pleural plaques, diaphragmatic pleural thickening and pleural calcifications, but similar frequency of parenchymal and interstitial alterations to unexposed persons. From 16 papers, including this study, overall lung cancer detection rates at baseline were 0.81% (95% CI 0.50-1.19) in asbestos-exposed persons, 0.94% (95% CI 0.47-1.53) in asbestos-exposed smokers (12 studies), and 0.11% (95% CI 0.00-0.43) in asbestos-exposed non-smokers (9 studies). CONCLUSION Persons occupationally exposed to asbestos should be monitored to gather more information about risks. Although LDCT screening is effective in the early detection lung cancer in asbestos-exposed smokers, our data suggest that screening of asbestos-exposed persons with no additional risk factors for cancer does is not viable due to the low detection rate.
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Spacecraft Maximum Allowable Concentrations for Manganese Compounds in Mars Dust.
Romoser, AA, Ryder, VE, McCoy, JT
Aerospace medicine and human performance. 2019;(8):709-719
Abstract
INTRODUCTION Exposure to excess manganese (Mn) can cause multiple toxicological outcomes in humans, most notably neurotoxicity. Ample epidemiological evidence suggests that chronic, low-level exposure causes subclinical cognitive effects. Because NASA astronauts will be exposed to Mars regolith, Spacecraft Maximum Allowable Concentrations (SMACs) were developed following an extensive literature review.METHODS Multiple databases were searched for information relevant to derivation of Mn SMAC values. An additional search for Mars dust data was performed. Risk assessment approaches were applied, including adjustments for space-relevant susceptibility to Mn effects, to develop limits for 1-h to 1000-d exposures. Rover data informed the assessment and enabled calculation of allowable total dust exposure based on Mn content.RESULTS Over 400 relevant sources were identified. Applicability of exposure characteristics and data collection methods influenced key study choice. SMACs ranging from 3 mg · m-3 (1 h) - 0.0079 mg · m-3 (1000 d) were set to protect primarily against neurocognitive and respiratory effects. Considering 0.38 wt% total Mn presence in the dust, maximum recommended total dust exposure should not exceed 790 mg · m-3 (1 h) - 2 mg · m-3 (1000 d).DISCUSSION This literature review allowed for identification of relevant studies to inform SMAC development. Manganese is one of several components to consider when developing an appropriate total dust limit for Martian dust; other dust elements may alter Mn bioavailability. Mission-specific activities may require alteration of assumptions regarding Mn dust concentration and exposure duration. However, based on expected toxicity of particulate matter itself, the acute SMACs are protective, even with transient exposure during activities that could produce higher concentrations.Romoser AA, Ryder VE, McCoy JT. Spacecraft maximum allowable concentrations for manganese compounds in Mars dust. Aerosp Med Hum Perform. 2019; 90(8):709-719.
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Acute Respiratory Failure from Cement Exposure: A Case Report and Review of the Literature.
Ali, S, Wightman, R, Hack, J
Rhode Island medical journal (2013). 2019;(1):55-57
Abstract
Cement is widely used in construction. Acute exposures with immediate sequelae have been infrequently described. This case report describes a man who developed multifocal pneumonitis with acute respiratory distress syndrome (ARDs) and respiratory failure one day after cement dust exposure. Chromium, cobalt, and nickel components in cement may cause pulmonary tissue irritation. Sand and gravel in cement may cause direct abrasive injury. Inhalation may cause direct thermal injury through an exothermic reaction. The silicon dioxide component has been shown to cause pulmonary injury through cytokine-mediated inflammation. Cement batches for smaller-scale construction jobs are often mixed onsite increasing exposure risk. Implementation of personal protective equipment has been shown to reduce respiratory symptoms among cement workers, underscoring the need for occupational health standards and further research. [Full article available at http://rimed.org/rimedicaljournal-2019-02.asp].
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Urinary concentrations of permethrin metabolites in US Army personnel in comparison with the US adult population, occupationally exposed cohorts, and other general populations.
Maule, AL, Scarpaci, MM, Proctor, SP
International journal of hygiene and environmental health. 2019;(3):355-363
Abstract
Permethrin is used to treat clothing as a personal protective measure against insect bites in military and recreational settings, and along with other pyrethroid insecticides, is sprayed in agricultural and residential sites for pest control. The widespread use of permethrin and other pyrethroid insecticides creates a potential for human exposure in occupational and non-occupational populations. This study aims to compare urinary biomarkers of pyrethroid exposure in two US military cohorts to the general US adult population from the 2009-2010 Nutritional Health and Nutrition Examination Survey (NHANES). Additional comparisons are made to previously published biomonitoring data from occupational and population cohort studies. Urine samples from two US military cohorts were analyzed for 3 permethrin metabolites: 3-phenoxybenzoic acid (3-PBA), and cis- and trans-3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropane-1-carboxylic acid (DCCA). Biomarker concentrations were adjusted for creatinine. Geometric means were calculated and then compared to creatinine-adjusted concentrations of 3-PBA and trans-DCCA in US adults (aged 20-59) using data collected as part of the 2009-2010 NHANES. Sex- and race-standardized geometric means were calculated separately for each of the US military groups using the demographic distributions from NHANES 2009-2010. Data from other military, occupational, and non-occupational population studies were extracted from the literature for further comparison. The two US military cohorts' geometric mean values, non-standardized and standardized, were markedly higher than what was observed in the general US adult population. Biomarkers of permethrin exposure were detected at a high frequency in military personnel wearing treated uniforms (90-100%). Detection rates of these biomarkers were similarly high in other studies of occupational exposure (67-100%) to pyrethroid insecticides. Adjusting for creatinine, the concentrations observed in the military groups were generally higher than levels seen in the general US adult population (NHANES, 2009-2010), other occupational groups (e.g., farmworkers, flight attendants, and pest control workers), and population cohorts from other countries.
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Health risk in transport workers. Part II. Dietary compounds as modulators of occupational exposure to chemicals.
Kozłowska, L, Gromadzińska, J, Wąsowicz, W
International journal of occupational medicine and environmental health. 2019;(4):441-464
Abstract
Professional drivers are exposed to a number of factors that have a negative influence on their health status. These include vibrations, noise, the lack of fresh air in the car cabin, shift work (frequently at night), monotony resulting from permanent repetition of certain actions, static loads due to immobilization in a sitting position, stress resulting from the need to ensure safety in heavy traffic, as well as air pollution (dust, volatile organic substances, nitrogen and sulfur oxides, polycyclic aromatic hydrocarbons, heavy metals, dioxins, furans and others). Factors associated with the specificity of the profession of a driver, including exposure to chemical substances, result in an increased risk of the development of many diseases, i.e., obesity, diabetes, heart disease, hypertension, extensive genitourinary pathology experienced by taxi drivers, lung cancer and other forms of cancer. In the case of drivers, especially those covering long distances, there are also actual difficulties related to ensuring a proper diet. Although attempts at interventional research that would change the principles of nutrition, as well as ensure physical activity and weight reduction, have been made, their results have not been satisfactory. The paper focuses on the discussion on the role of a diet and dietary phytochemicals in the prevention of adverse health effects of such chemicals as a mix of chemicals in the polluted air, benzo(a)pyrene, benzene and metals (lead, cadmium, chromium, nickel), which are the main sources of exposure in the case of transport workers. Int J Occup Med Environ Health. 2019;32(4):441-64.
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Progression of intervention-focused research for Gulf War illness.
Chester, JE, Rowneki, M, Van Doren, W, Helmer, DA
Military Medical Research. 2019;(1):31
Abstract
The Persian Gulf War of 1990 to 1991 involved the deployment of nearly 700,000 American troops to the Middle East. Deployment-related exposures to toxic substances such as pesticides, nerve agents, pyridostigmine bromide (PB), smoke from burning oil wells, and petrochemicals may have contributed to medical illness in as many as 250,000 of those American troops. The cluster of chronic symptoms, now referred to as Gulf War Illness (GWI), has been studied by many researchers over the past two decades. Although over $500 million has been spent on GWI research, to date, no cures or condition-specific treatments have been discovered, and the exact pathophysiology remains elusive.Using the 2007 National Institute of Health (NIH) Roadmap for Medical Research model as a reference framework, we reviewed studies of interventions involving GWI patients to assess the progress of treatment-related GWI research. All GWI clinical trial studies reviewed involved investigations of existing interventions that have shown efficacy in other diseases with analogous symptoms. After reviewing the published and ongoing registered clinical trials for cognitive-behavioral therapy, exercise therapy, acupuncture, coenzyme Q10, mifepristone, and carnosine in GWI patients, we identified only four treatments (cognitive-behavioral therapy, exercise therapy, CoQ10, and mifepristone) that have progressed beyond a phase II trial.We conclude that progress in the scientific study of therapies for GWI has not followed the NIH Roadmap for Medical Research model. Establishment of a standard case definition, prioritized GWI research funding for the characterization of the pathophysiology of the condition, and rapid replication and adaptation of early phase, single site clinical trials could substantially advance research progress and treatment discovery for this condition.