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Seamless Suits: Reducing Personnel Contamination Through Improved Personal Protective Equipment Design

Published online by Cambridge University Press:  12 April 2016

Myreen E. Tomas
Affiliation:
Geriatric Research Education and Clinical Center, Cleveland Veterans Affairs Medical Center, 10701 East Boulevard, Cleveland, Ohio
Jennifer L. Cadnum
Affiliation:
Division of Infectious Diseases, Department of Medicine, Case Western Reserve University School of Medicine, Cleveland, Ohio
Thriveen S.C. Mana
Affiliation:
Division of Infectious Diseases, Department of Medicine, Case Western Reserve University School of Medicine, Cleveland, Ohio
Annette L. Jencson
Affiliation:
Research Service, Cleveland VA Medical Center, Cleveland, Ohio.
Curtis J. Donskey*
Affiliation:
Geriatric Research Education and Clinical Center, Cleveland Veterans Affairs Medical Center, 10701 East Boulevard, Cleveland, Ohio Division of Infectious Diseases, Department of Medicine, Case Western Reserve University School of Medicine, Cleveland, Ohio
*
Address correspondence to Curtis J. Donskey, MD, Geriatric Research, Education, and Clinical Center, Cleveland Veterans Affairs Medical Center, 10701 East Boulevard, Cleveland, Ohio 44106 ([email protected]).
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Abstract

Type
Letters to the Editor
Copyright
© 2016 by The Society for Healthcare Epidemiology of America. All rights reserved 

To the Editor Healthcare personnel frequently use incorrect technique when putting on and removing isolation gowns and gloves.Reference Tomas, Kundrapu and Thota 1 Reference Zamora, Murdoch, Simchison and Day 3 Such lapses in technique increase the risk for contamination of the skin and clothing of personnel during personal protective equipment (PPE) removal.Reference Tomas, Kundrapu and Thota 1 , Reference Zamora, Murdoch, Simchison and Day 3 Contamination of the hands and wrists may be particularly common due to exposed skin at the wrist or incorrect technique during glove removal.Reference Tomas, Kundrapu and Thota 1 , Reference Zamora, Murdoch, Simchison and Day 3 , Reference Lai, Guo, Or and Li 4 In surgical settings, the gown–glove interface has also been described as the weakest point in the gown and glove barrier system.Reference Meyer and Beck 5 , Reference Fraser, Young, Valentine, Probst and Spangehl 6 In studies simulating removal of contaminated gloves, education to improve technique reduced but did not eliminate hand and wrist contamination.Reference Tomas, Kundrapu and Thota 1 , Reference Lai, Guo, Or and Li 4 Thus, improvements in PPE design to reduce the risk for contamination are needed.

We hypothesized that gowns and gloves designed to provide continuous coverage of the wrist and hand would reduce contamination during PPE removal. To test this hypothesis, we developed a seamless PPE prototype in which adhesive material on the outer sleeve of the gown at the wrist attaches to the inner cuff of the gloves, providing continuous coverage of the wrist and hand. This design prevents exposure of skin and requires that gloves be peeled off as the gown is removed. Here, we report the results of a pilot study to determine whether the seamless PPE design reduces hand and wrist self-contamination in comparison to standard gowns and gloves.

The Cleveland VA Medical Center’s Institutional Review Board approved the study protocol. The prototype seamless PPE consisted of polyethylene contact isolation gowns (Safety Plus Polyethylene Gown, TIDI Products, Neenah, WI) and nitrile gloves (Denville Scientific, South Plainfield, NJ). Permanent contact bond adhesive (DAP Weldwood Contact Cement, DAP Products, Baltimore, MD) was applied circumferentially to the outer gown at the level of the wrist. Gloves were pressed to the gowns for 15 minutes and allowed to air dry for 24 hours.

Healthcare personnel were randomized to perform simulations of contaminated glove removal using either standard or prototype seamless PPE. To simulate contamination, bacteriophage MS2 15597-B1 (American Type Culture Collection, VA) a nonpathogenic, nonenveloped RNA virus and fluorescent lotion were used as previously described.Reference Tomas, Kundrapu and Thota 1 Gloved hands were inoculated with 0.5 mL phosphate-buffered saline (PBS) containing 1010 plaque-forming units of MS2 and 0.5 mL fluorescent lotion and the solutions were rubbed over the gloved hands until dry. Participants removed their gloves and gowns in their usual manner and hand and wrist skin contamination with the fluorescent lotion was assessed using a black light (Ultra Light UV1 by Grizzly Gear, SCS Direct, Trumball, CT). Participants then wiped both hands and wrists with a sterile, pre-moistened 4×4 gauze pad that was placed into a sterile container containing 10 mL PBS and mixed in a vortex mixer for 1 minute to elute the bacteriophage. Aliquots of each elutant were serially diluted and cultured to quantify virus particles.Reference Tomas, Kundrapu and Thota 1 The frequency of contamination between standard and seamless PPE was compared using the Fischer’s exact test. Data were analyzed using R version 3.1.1.

A total of 30 simulations were performed. Contamination of skin with bacteriophage and fluorescent lotion was significantly lower with use of seamless PPE versus standard PPE (Figure 1). The mean plaque-forming units of MS2 cultured from hands was significantly lower with use of seamless PPE versus standard PPE (2.4 logs vs 4.3 logs, P=.0002). Tearing of the glove or gown was not observed in either PPE design.

FIGURE 1 Hand and wrist skin contamination during removal of gloves contaminated with bacteriophage MS2 and fluorescent lotion.

Our results demonstrate that a prototype PPE design that ensures wrist coverage and requires the wearer to remove gloves and gown simultaneously can reduce self-contamination of the hands and wrists. Other PPE designs have also been proposed to reduce contamination at the gown–glove interface. For example, Meyer and BeckReference Meyer and Beck 5 adapted the gown sleeve to the circumference of the wearer’s forearm by creating darts or flaps that are folded over each other and sealed; after donning, the glove cuff is sealed to the gown underneath. Another method to prevent wrist skin exposure and facilitate doffing employs fingerless cloth gloves attached to the gown sleeve under the gloves.Reference Plut and Ormond 7 When the user removes their gloves, the hand wear restrains the gown and reduces exposure to the outer contaminated surface of the glove.

Our study has some limitations. The number of assessments was small. We did not include training of personnel in the protocol. Thus, it is not known whether the modified PPE would provide a benefit in reducing contamination for personnel who have received training. Finally, the prototype design is more difficult to don than standard PPE because the gloves are attached to the gown. However, our ultimate goal is to modify the design to allow gloves and gowns to be donned separately followed by adherence of the glove and gown material after donning.

ACKNOWLEDGMENTS

Financial support: This work was supported by the Department of Veterans Affairs.

Potential conflicts of interest: C.J.D. has received research grants from Clorox, Merck, AvidBiotics and GOJO, and he has served on scientific advisory boards for 3M and Seres Health. All other authors report no conflicts of interest relevant to this article.

References

REFERENCES

1. Tomas, ME, Kundrapu, S, Thota, P, et al. Contamination of the skin and clothing of healthcare personnel during removal of personal protective equipment. JAMA Intern Med 2015;175:19041910.CrossRefGoogle ScholarPubMed
2. Zellmer, C, van Hoof, S, Safdar, N. Variation in health care worker removal of personal protective equipment. Am J Infect Control 2015;43:750751.CrossRefGoogle ScholarPubMed
3. Zamora, JE, Murdoch, J, Simchison, B, Day, AG. Contamination: a comparison of 2 personal protective systems. CMAJ 2006;175:249254.CrossRefGoogle ScholarPubMed
4. Lai, JY, Guo, YP, Or, PP, Li, Y. Comparison of hand contamination rates and environmental contamination levels between two different glove removal methods and distances. Am J Infect Control 2011;39:104111.CrossRefGoogle ScholarPubMed
5. Meyer, KK, Beck, WC. Gown-glove interface: a possible solution to the danger zone. Infect Control Hosp Epidemiol 1995;16:488490.CrossRefGoogle Scholar
6. Fraser, JF, Young, SW, Valentine, KA, Probst, NE, Spangehl, MJ. The gown-glove interface is a source of contamination: a comparative study. Clin Orthop Relat Res 2015;473:22912297.CrossRefGoogle ScholarPubMed
7. Plut, WJ, Ormond, TH. Handware that improves protective apparel doffing. US Patent 7246382 2007:120.Google Scholar
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FIGURE 1 Hand and wrist skin contamination during removal of gloves contaminated with bacteriophage MS2 and fluorescent lotion.