Hostname: page-component-cd9895bd7-mkpzs Total loading time: 0 Render date: 2024-12-28T19:14:27.259Z Has data issue: false hasContentIssue false

The Puzzle of Volume, Coverage, and Application Time in Hand Disinfection

Published online by Cambridge University Press:  29 May 2017

Günter Kampf*
Affiliation:
University Medicine Greifswald, Institute for Hygiene and Environmental Medicine, Greifswald, Germany.
*
Address correspondence to Günter Kampf, MD, University Medicine Greifswald, Institute for Hygiene and Environmental Medicine, Walter-Rathenau-Straße 49 A, 17475 Greifswald, Germany (guenter.kampf@uni-greifswald.de).
Rights & Permissions [Opens in a new window]

Abstract

Type
Letters to the Editor
Copyright
© 2017 by The Society for Healthcare Epidemiology of America. All rights reserved 

To the Editor—Pires et alReference Pires, Soule, Bellissimo-Rodrigues, Gayet-Ageron and Pittet 1 provide some interesting data and suggest that using 3 mL hand rub and rubbing the volume into both hands for either 15 or 30 seconds yields a similar bacterial reduction on healthcare worker (HCW) hands. Although they did not look at the coverage of both hands after 15 or 30 seconds (eg, with a fluorescent dye), the data nevertheless suggest that once the hand rub is fairly distributed to both hands within 15 seconds, further rubbing does not add to the overall efficacy of 60% isopropanol.

The general application of 3 mL, however, deserves further consideration. Based on data from France, the use of 3 mL is regarded by 99.8% of HCW as sufficient for complete hand coverage.Reference Girard, Aupee, Erb, Bettinger and Jouve 2 At the same time, all studies indicate that on regular hands the application of 3 mL keeps hands moist for more than 30 seconds,Reference Macinga, Shumaker and Werner 3 , Reference Kampf, Marschall, Eggerstedt and Ostermeyer 4 sometimes even for 60 seconds.Reference Girard, Aupee, Erb, Bettinger and Jouve 2 The other side of this correlation is that an HCW will require a volume between 1.7 and 2.1 mL depending on the type of hand rubReference Macinga, Shumaker and Werner 3 if hands are to remain moist for 30 seconds. If the setting used by Pires et al with 3 mL per application for a 15-second duration were transferred into clinical practice, hands would still be moist after 15 seconds and would need to dry during the next 15–45 seconds before further patient care activities. What would an HCW be able to do during the drying time? Also, having alcohol-moist hands can result in burns because static electricity may cause ignition of the vapor from the hand rub, although this is extremely uncommon.

The goal certainly remains to make hand hygiene easier for augmented compliance especially in hospital units with many indications per healthcare worker and per shift.Reference Azim, Juergens and McLaws 5 But how can this goal be achieved? If hands are rubbed until dry and shorter application times are desired, smaller volumes per application will be needed on average size hands, (eg, 1.5 or 2 mL). A volume of 1.5 mL is considered sufficient for hand coverage by 95.8% of HCWs, and a volume of 2 mL is considered sufficient by 98.5%.Reference Girard, Aupee, Erb, Bettinger and Jouve 2 A volume of ~2 mL would also be acceptable to users.Reference Wilkinson, Ormandy, Bradley, Fraise and Hines 6 Average-sized hands are dry after ~30 seconds. But based on efficacy data obtained with European Standard EN 1500, these volumes usually fail the EN 1500 efficacy requirement with mean log10 reductions between 3.05 and 4.03.Reference Macinga, Shumaker and Werner 3 , Reference Kampf, Marschall, Eggerstedt and Ostermeyer 4

Healthcare workers will certainly welcome shorter but equally effective hand disinfection. Recommending a smaller volume, however, should be assured from various viewpoints. This new volume should ensure coverage of both hands; this technique should be easy to perform and be effective on small and large hands. Coverage of hands can quite easily be measured with a fluorescent dye. At the same time, the simplicity of the rub-in technique can be evaluated. These measurements could provide the basis for testing the efficacy of such a change (eg, according to EN 1500).

It may be time to review some parameters of current efficacy testing standards. Hand size currently has no place in EN 1500. Why not have 3 subgroups of subjects with small, medium, and large hands, respectively? A proposal for hand-size classification has been made already.Reference Bellissimo-Rodrigues, Soule, Gayet-Ageron, Martin and Pittet 7 Each participant would initially have to determine how much volume is necessary to keep both hands wet (eg, for 20 or 30 seconds), resulting in a specific test volume per subject and application time. This volume would later be used for efficacy testing against the reference procedure. A second parameter for review may be the type of contamination in EN 1500. Having half of the hands in an Escherichia coli broth is associated with a high organic load on both hands. If the broth contained a black dye, hands would probably be classified as “visibly soiled” and should be washed instead of treated with a hand rub. 8 A different type of contamination with a high inoculum but a substantially lower amount of organic load may better resemble clinical practiceReference Macinga, Beausoleil and Campbell 9 ; it may even show that 2 mL of a hand rub is very effective.

ACKNOWLEDGMENTS

Financial support: No financial support was received in relation to this article.

Potential conflict of interest: The author has worked in the past for Bode Chemie GmbH, Hamburg, Germany.

References

REFERENCES

1. Pires, D, Soule, H, Bellissimo-Rodrigues, F, Gayet-Ageron, A, Pittet, D. Hand hygiene with alcohol-based hand rub: how long is long enough? Infect Control Hosp Epidemiol 2017:16.Google Scholar
2. Girard, R, Aupee, M, Erb, M, Bettinger, A, Jouve, A. Hand rub dose needed for a single disinfection varies according to product: a bias in benchmarking using indirect hand hygiene indicator. J Epidemiol Global Health 2012;2:193198.CrossRefGoogle ScholarPubMed
3. Macinga, DR, Shumaker, DJ, Werner, HP, et al. The relative influences of product volume, delivery format and alcohol concentration on dry-time and efficacy of alcohol-based hand rubs. BMC Infect Dis 2014;14:511.Google Scholar
4. Kampf, G, Marschall, S, Eggerstedt, S, Ostermeyer, C. Efficacy of ethanol-based hand foams using clinically relevant amounts: a cross-over controlled study among healthy volunteers. BMC Infect Dis 2010;10:78.Google Scholar
5. Azim, S, Juergens, C, McLaws, ML. An average hand hygiene day for nurses and physicians: The burden is not equal. Am J Infect Control 2016;44:777781.Google Scholar
6. Wilkinson, MAC, Ormandy, K, Bradley, CR, Fraise, AP, Hines, J. Dose considerations for alcohol-based hand rubs. J Hosp Infect 2017;95:175182.Google Scholar
7. Bellissimo-Rodrigues, F, Soule, H, Gayet-Ageron, A, Martin, Y, Pittet, D. Should alcohol-based handrub use be customized to healthcare workers’ hand size? Infect Control Hosp Epidemiol 2016;37:219221.CrossRefGoogle ScholarPubMed
8. World Health Organization. WHO Guidelines on Hand Hygiene in Health Care. First Global Patient Safety Challenge Clean Care is Safer Care. Geneva: WHO; 2009.Google Scholar
9. Macinga, DR, Beausoleil, CM, Campbell, E, et al. Quest for a realistic in vivo test method for antimicrobial hand-rub agents: introduction of a low-volume hand contamination procedure. Appl Environ Microbiol 2011;77:85888594.Google Scholar