View clinical trials related to Environmental Exposure.
Filter by:To investigate if low level ozone exposure will cause measurable inflammation in nasal cells.
The investigators recent study has found that ambient melamine exposure can cause the increase of biomarkers of renal tubular injury in melamine manufacturing workers. Thus, in this year, the investigators will examine whether the intervention by installing ventilation in the workplace and providing personal protective equipment and education can decrease ambient melamine exposure and further decrease urinary biomarkers of renal tubular injury such as N-acetyl β-D-glucosaminidase (NAG) and β2-microglobulin (β2-MG).
The aim of the study is to evaluate the effectiveness in removing chemical exposure on hand, the investigators compare removal efficiency of Di-(2-ethylhexyl)phthalate (DEHP) on hands by hand washing with soap and water vs. water only. In two three-day N-of-1 trials, residual DEHP was measured in a single female adult who washed exposed hands with soap-and-water or water-only. Subsequently, a crossover study was performed by randomly assigning another 28 subjects equally to wash with soap-and-water or with water-only, and then each one received the other treatment 24 hrs later.
A pilot study from the investigators group suggests that the prevalence of chronic obstructive pulmonary disease (COPD) among dairy farmers is higher than in the general population. Most characteristics of COPD in dairy farmers (smoking habits, dyspnoea, quality of life, lung function, bronchial exhaled nitric oxide, systemic inflammation, arterial stiffness and exercise capacity) are largely unknown. Although immunization against organic dusts is suspected, the pathophysiology of COPD in dairy farmers is also unknown. This study therefore aims at (i) comparing the prevalence of COPD in dairy farmers and in subjects without any occupational exposure (control arm) through a vast COPD detection program in the Franche-Comté region; (ii) comparing several characteristics (smoking habits, dyspnoea, quality of life, lung function, bronchial exhaled nitric oxide, systemic inflammation, arterial stiffness and exercise capacity) between dairy farmers with COPD and patients with COPD without any occupational exposure; (iv) identifying etiological factors of COPD in dairy farmers (comparison of exposure and specific immunoglobulin E between dairy farmers with COPD and dairy farmers with normal pulmonary function tests); and (v) constituting a cohort of COPD patients and control subjects for further longitudinal studies. Data from selected patients (either current or former smokers) with mild COPD and from matched controls will also be analyzed in an ancillary study which objectives are to compare exercise tolerance, ventilatory constraints on tidal volume expansion and dyspnoea between asymptomatic mild COPD subjects, symptomatic mild COPD and healthy controls.
Dermal transfer efficiency has been defined as the amount of material that moves from one surface to another following contact. The investigators propose to measure dermal transfer efficiency for the following pathways: (1) object to skin, (2) skin to skin, (3) skin to mouth, (4) clothing to skin, (5) gloves to skin, and (6) air to skin. First, the quantitative dermal transfer will be measured for the two selected test substances (lead, Tinopal) for each of these six pathways. The relative quantities of dermal transfer will also then be compared between the different transfer pathways (e.g., is skin to skin transfer greater or less than clothing to skin transfer?). And second, the pattern of transfer will be characterized semi-quantitatively (e.g., does dermal transfer occur consistently and evenly to the skin from different reservoirs?).
Fungal infections could play a role in chronic obstructive pulmonary disease (COPD) patient's exacerbations and in lung function impairment. In fact, Aspergillus fumigatus is often isolated from respiratory samples, but few data are available about its clinical significance. Aspergillus colonization could be associated to a higher risk of invasive pulmonary aspergillosis (IPA), which, in COPD patients, is characterized by a 2% incidence (probably underestimated) and a high mortality (72 to 95%). Similarly, detection of anti-Aspergillus antibodies is quite frequent in COPD patients but its significance and usefulness for aspergillosis diagnosis and follow-up have not been assessed. Furthermore, several studies suggest a frequent carriage of Pneumocystis jirovecii, reaching 37-55%, with a higher frequency in the most severe COPD stages and a possible role of colonisation in the occurrence and progression of COPD. As these colonization and sensitization phenomena could be related to domestic exposure to airborne or, for P. jirovecii, to human reservoirs, the investigators set-up a study in order to (i) Evaluate how domestic exposure to mould or to P. jirovecii could impact fungal colonization and sensitization frequency in COPD patients, (ii) Study the relationship between these fungal colonization/sensitization phenomena and lung function impairment in the course of COPD and (iii) Have a better understanding of mould and P. jirovecii circulation in the close environment of patients (between airborne, human reservoirs and patients). In fine, this study will provide data (i) On fungal contamination levels (species and conidia concentration) of COPD patient's homes in a French region, (ii) On the relationship between fungal exposure level and colonization/sensitization phenomena, (iii) On the role of fungal colonization/sensitization in lung function impairment, (iv) To design diagnostic, therapeutic, and preventive options for the management of COPD patients, taking into account fungal environmental exposure and colonization/sensitization impact on the evolution of the disease.
Dry eye and ocular surface disease account for a lot of morbidity and socio-economic burden in Asia and the rest of the world. This is a small pilot study to evaluate tear function under different conditions of humidity and temperature. This data will be useful for designing future trials in ocular surface and dry eye. The data will likely be used to propose a larger national funded project involving clinical trials. This study involves collaboration between engineers, ocular surface clinicians as well as specialists from the defence science organisation. When successfully completed, the project will increase the capability of Singapore Eye Research Institute and Singapore National Eye Centre to support future industry and academic research in the ocular surface.
The research plan proposes translational studies in relevant animal models and human subjects in order to identify host (genetic) susceptibility factors that confer vulnerability to the prototypal air pollutant, ozone. The results will have significant impact upon, and aid in, understanding mechanisms regulating pro-oxidant lung injury, production and secretion of airway mucins, and clearance of respiratory mucus, and adverse health effects, that occur during and following exposure to airborne respiratory irritants.
Exposure and health study of pesticide and allergen exposures to pregnant women and children. Intervention study is planned after assessment is completed.