Environmental Health: Air, Food, Water, and Surroundings

Pertinent Information to my Client’s Case 

Environmental health consists of the quality of air, food, water and the surroundings with which a person comes in contact. According to the provided information, the client has a chronic respiratory illness that occurs several times a year. Use of tobacco and seasonal changes are ruled out as the triggers of the condition. The most common causes of respiratory diseases are occupational exposure, use of tobacco, indoor and outdoor pollutants, unhealthy diet, obesity and allergens ( Gleeson et al., 2017 ). The relevant information that can help my client’s case is that she works in an ancient building, which risks her exposure to asbestos. The patient further states that they seem to share the same illness, which makes it more necessary for environmental exposure to be narrowed down to the workplace. 

Risk Assessment 

The risk can be assessed through analysis of a patient’s residence, Present work environment and activities to determine the likely exposure. Environmental assessment is necessary since every different location can have a unique impact on the condition ( Loubet et al., 2017 ). In the case of our patient, the assessment should be majorly performed at her workplace. Reviewing web data during the assessment can also enable a platform for the comparison of the identified signs with the possible infections that they represent. 

An Exposure Pathway for the Client 

Inhalation would be the exposure pathway for the client, who started having the respiratory health problem, about two years in her new job. Given that she is an executive assistant, the patient spends more time in the office than other employees, which contributes to her getting affected by the problem more than the others. The old building can be having a lot of dust in the air vents, asbestos traces and lead in paints. The inhalation pathway is considered the fastest in the spread of disease-causing factors ( Bønnelykke et al., 2018 ). It also the most difficult to control since most filtering breathing air is hugely challenging. 

References 

Bønnelykke, K., Coleman, A. T., Evans, M. D., Thorsen, J., Waage, J., Vissing, N. H., ... & Fischer, T. K. (2018). Cadherin-related family member 3 genetics and rhinovirus C respiratory illnesses.  American journal of respiratory and critical care medicine ,  197 (5), 589-594. 

Gleeson, M., Pyne, D. B., Elkington, L. J., Hall, S. T., Attia, J. R., Oldmeadow, C., ... & Callister, R. (2017). Developing a multi-component immune model for evaluating the risk of respiratory illness in athletes.  Exercise immunology review ,  23 . 

Loubet, P., Lenzi, N., Valette, M., Foulongne, V., Krivine, A., Houhou, N., ... & Galtier, F. (2017). Clinical characteristics and outcome of respiratory syncytial virus infection among adults hospitalized with influenza-like illness in France.  Clinical Microbiology and Infection ,  23 (4), 253-259.