Impact of wearing a surgical mask on respiratory function in view of a widespread use during COVID-19 outbreak. A case-series study Respiratory Protective Devices fitness for use
Main Article Content
Keywords
Respiratory protective devices, Personal protective equipment, Occupational health, Surgical mask, COVID-19
Abstract
Background: Because of the COVID-19 outbreak, the widespread use of Respiratory Protective Devices (RPD) is recommended to prevent the spread of infection. This recommendation involves not only healthcare workers but other category of workers and the general population as well, in public places, especially where social distancing is difficult to maintain. The use of facemasks should not cause physical impairment to individuals, especially for people suffering from lung and heart diseases. Objectives: To evaluate the impact of RPDs on the respiratory function in healthy and asthmatic subjects, in order to identify the fitness for use mainly, but not only for, occupational purposes during COVID-19 outbreak. Methods: Ten individuals were included, three of which affected by asthma and three current smokers. A Respiratory Functional Test (RFT) was performed at three times: at the beginning of the work shift 1) without wearing and 2) wearing surgical masks, and 3) after 4 hours of usual working activities wearing the masks. Arterial Blood Gas (ABG) samples were also tested before the first test and the third test. Results: Observed RFTs and ABG parameters did not suffer significant variations, but for Maximal Voluntary Ventilation (P=0.002). Data on asthmatic subjects and smokers were comparable to healthy subjects. Discussion: Our results suggest that wearing a surgical mask does not produce significant respiratory impairment in healthy subjects nor in subjects with asthma. Four hours of continuing mask-wearing do not cause a reduction in breathing parameters. Fitness for use in subjects with more severe conditions has to be evaluated individually. Our adapted technique for RFTs could be adopted for the individual RPDs fitness evaluation.
References
2. American Thoracic Society: Respiratory protection guidelines. Am J Respir Crit Care Med 1996; 154: 1153-1165
3. Beder A, Büyükkoçak U, Sabuncuoğlu H, et al: Preliminary Report on Surgical Mask Induced Deoxygenation During Major Surgery. Neurocirugia, 2008; 19: 121-126
4. Bentley RA, Griffin OG, Love RG, et al: Acceptable levels for breathing resistance of respiratory apparatus. Arch Environ Health 1973; 27: 273-280
5. Craig FN, Blevins WV, Cummings EG: Exhausting work limited by external resistance and inhalation of carbon dioxide. J Appl Physiol 1970; 29: 847-851
6. Deno NS, Kamon E, Kiser DM: Physiological response to resistance breathing during short and prolonged exercise. Am Ind Hyg Assoc J 1981; 42: 616-623
7. FDA Food and Drug Administration. (2020). Personal Protective Equipment for Infection Control. Available on line at: https://www.fda.gov/medical-devices/general-hospital-devices-and-supplies/personal-protective-equipment-infection-control (last accessed 06-05-2020)
8. Global Initiative for Asthma. (2020). Global Strategy for Asthma management and prevention. Available on line at: https://ginasthma.org/wp-content/uploads/2020/04/GINA-2020-full-report_-final-_wms.pdf (last accessed 06-05-2020)
9. Graham BL, Steenbruggen I, Miller MR, et al: Standardization of spirometry 2019 update. An official American thoracic society and European respiratory society technical statement. Am J Respir Crit Care Med 2019; 200 (8): e70-e88
10. Gruper W, Novotny A, Steinbrugger B, Zach M: Modification of pediatric lung function measurement by antibacterial filters. Pneumologie 1992; 46 (11): 573-575
11. Harber P, Bansal S, Santiago S, et al: Multidomain subjective response to respirator use during simulated work. J Occup Environ Med 2009; 51 (1): 38-45
12. Hodous TK, Boyles C, Hankinson JL: Effects of industrial respirator wear during exercise in subjects with restrictive lung disease. Am Ind Hyg Assoc J 1986; 46: 176-180
13. Hodous TK: Screening prospective workers for the ability to use respirators. J Occup Med 1986; 28: 1074-1080
14. Hodous TK, Petsonk L, Boyles C, et al: Effects of added resistance to breathing during exercise in obstructive lung disease. Am Rev Respir Dis 1983; 128: 943-948
15. Love RG, Muir CF, Sweetland KF, et al: Acceptable levels for the breathing resistance of respiratory apparatus: results for men over the age of 45. Br J Ind Med 1977; 34: 126-129
16. Lucero PF, Nicholson KL, Haislip GD, Morris MJ: Increased airway hyperreactivity with the M40 protective mask in exercise-induced bronchospasm. J Asthma 2006;43 (10): 759-763
17. Morgan WP: Psychological problems associated with the wearing of industrial respirators: a review. Am Ind Hyg Assoc J 1983; 44: 671-677
18. Lee MK, Yoon HK, Kim SW, et al: Nonspecific Bronchoprovocation Test. Tuberc Respir Dis 2017; 80 (4): 344–350
19. Person E, Lemercier C, Royer A, Reychler G: Effect of a surgical mask on six minute walking distance. Rev Mal Respir 2018; 35 (3): 264-268
20. Raven PB, Bradley O, Rohm-Young D, et al: Physiological response to pressure-demand respirator wear. Am Ind Hyg Assoc J 1982; 43: 773-781
21. Raven PB: Medical evaluation for respirator use. J Occup Med 1984; 26: 495-502
22. Roberge RJ, Kim JH, Benson SM: Absence of consequential changes in physiological, thermal and subjective responses from wearing a surgical mask. Respir Physiol Neurobiol 2012; 181 (1): 29-35
23. Roberge RJ, Coca A, Williams WJ, et al: Physiological impact of the N95 filtering facepiece respirator on healthcare workers. Respir Care 2010; 55 (5): 569-577
24. Roberge RJ, Coca A, Williams WJ, et al: Surgical mask placement over N95 filtering facepiece respirators: physiological effects on healthcare workers. Respirology 2010; 15 (3): 516-521
25. Szeinuk J1, Beckett WS, Clark N, Hailoo WL: Medical evaluation for respirator use. Am J Ind Med 2000; 37 (1): 142-157
26. Wilson NM, Norton A, Young FP, Collins DW: Airborne transmission of severe acute respiratory syndrome coronavirus-2 to healthcare workers: a narrative review. Anaesthesia 2020; [Epub ahead of print] doi: 10.1111/anae.15093
27. Wilson JR, Raven PB, MorganWP, et al: Effects of pressure-demand respirator wear on physiological and perceptual variables during progressive exercise to maximal levels. Am Ind Hyg Assoc J 1989; 50: 85-94
28. Wilson JR, Raven PB, Zinkgraf SA, et al: Alterations in physiological and perceptual variables during exhaustive endurance work while wearing a pressure-demand respirator. Am Ind Hyg Assoc J 1989; 50: 139-146
Article Sidebar
Article Details
How to Cite
This is an Open Access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by-nc/4.0) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Reproductions with commercial intent will require written permission and payment of royalties.
This work is licensed under a CC BY-NC-SA 4.0 Creative Commons Attribution-NonCommercial ShareAlike 4.0 International License.
How to Cite
