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Stethoscope hygiene: A call to action. Recommendations to update the CDC guidelines

Published online by Cambridge University Press:  19 May 2021

Sarathi Kalra*
Affiliation:
University of South Alabama, Mobile, Alabama
Alpesh Amin
Affiliation:
University of California–Irvine, Irvine, California
Nancy Albert
Affiliation:
Nursing Institute, Cleveland Clinic Health System, Cleveland, Ohio
Cindy Cadwell
Affiliation:
Cadwell Consulting, Tacoma, Washington
Cole Edmonson
Affiliation:
AMN Healthcare, San Diego, California
Robert Gaynes
Affiliation:
Emory University, Atlanta, Georgia
Mary Hand
Affiliation:
Retired-National Institutes of Health, Bethesda, Maryland
Mark Marinella
Affiliation:
Wright State University School of Medicine and Dayton Physicians Network, Dayton, Ohio
Colleen Morely
Affiliation:
West Suburban Medical Center, Oak Park, Illinois
Sandra Sieck
Affiliation:
Sieck Consulting, Mobile, Alabama
Rajiv S. Vasudevan
Affiliation:
University of California–San Diego, San Diego, California
*
Author for correspondence: Sarathi Kalra; Email [email protected]
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Abstract

Healthcare-acquired infections are a tremendous challenge to the US medical system. Stethoscopes touch many patients, but current guidance from the Centers for Disease Control and Prevention does not support disinfection between each patient. Stethoscopes are rarely disinfected between patients by healthcare providers. When cultured, even after disinfection, stethoscopes have high rates of pathogen contamination, identical to that of unwashed hands. The consequence of these practices may bode poorly in the coronavirus 2019 disease (COVID-19) pandemic. Alternatively, the CDC recommends the use of disposable stethoscopes. However, these instruments have poor acoustic properties, and misdiagnoses have been documented. They may also serve as pathogen vectors among staff sharing them. Disposable aseptic stethoscope diaphragm barriers can provide increased safety without sacrificing stethoscope function. We recommend that the CDC consider the research regarding stethoscope hygiene and effective solutions to contemporize this guidance and elevate stethoscope hygiene to that of the hands, by requiring stethoscope disinfection or change of disposable barrier between every patient encounter.

Type
Commentary
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
© The Author(s), 2021. Published by Cambridge University Press on behalf of The Society for Healthcare Epidemiology of America

The Centers for Disease Control and Prevention (CDC) reports that ˜72,000 hospital patients with healthcare-acquired infections (HAIs) died during their hospitalization in 2015. 1 HAI mortality thus represents the equivalent of a jet airliner crashing, with zero survivors, every day in the United States. Although great effort has been undertaken to combat this tragedy by hand hygiene, the stethoscope, which drapes around necks, is placed in pockets, and is touched by unwashed hands day in and out, has predominately been ignored. The lack of attention to stethoscope hygiene belies contemporary data. Current Centers for Disease Control and Prevention (CDC) guidelines Reference Rutala and Weber2 clearly state that “the stethoscope can be contaminated and spread disease.” Reference Guinto, Bottone, Raffalli, Montecalvo and Wormser3,Reference Queiroz, Melo, Santos Calado, Cavalcanti and Sobrinho4 Pathogens cultured from the medical practitioner’s fingers are duplicated on the stethoscope diaphragm, Reference Longtin, Schneider and Tschopp5Reference Tschopp, Schneider, Longtin, Renzi, Schrenzel and Pittet7 which functions as a third hand Reference Jenkins, Monash, Wu and Amin8 in the spread of disease. Furthermore, the ability of the stethoscope to transmit bacteria from the diaphragm to the patient has also been documented. Reference Marinella, Pierson and Chenoweth9Reference Vasudevan, Bin Thani, Aljawder, Maisel and Maisel12 Despite data reflecting the need to disinfect it before use, stethoscope hygiene is essentially ignored in contemporary clinical practice. Reference Boulée, Kalra, Haddock, Johnson and Peacock13Reference Holleck, Merchant, Lin and Gupta16

The CDC defines the stethoscope as a noncritical surface Reference Rutala and Weber2 and states that weekly disinfection with alcohol is acceptable unless it is visibly soiled. Although this would never be acceptable for the hands, the tool with identical pathogens and that is rubbed on the skin of a majority of patients is subject to vastly different disinfection recommendations than hands. The differences in the recommendations between the hands and the stethoscope should be addressed, especially now that the possibility of stethoscope-related coronavirus disease 2019 (COVID-19) transmission must be considered. Reference Vasudevan, Bin Thani, Aljawder, Maisel and Maisel12,Reference Pasquarella, Colucci and Bizzarro17 How many stethoscope transmissions may have occurred in the COVID-19 era?

The evidence suggests that isopropyl alcohol is partially effective in stethoscope disinfection. Reference Parmar, Valvi and Sira18 Recent studies show that disinfected stethoscopes can maintain significant rates of pathogen colonization. Reference Parmar, Valvi and Sira18Reference Knecht, McGinniss and Shankar24 And after decades of alcohol disinfectant use, some pathogenic resistance to its sterilization effects have become apparent. Reference Pidot, Gao and Buultjens25,Reference Wilcox and Fawley26 Ultimately, although some pathogens are unaffected by alcohol (eg, Clostridioides difficile spores), Reference Jabbar, Leischner and Kasper27 the critical intervention to prevent their spread is the actual disinfection of the stethoscope. Unfortunately, no observational study, of the many that have been performed, has ever documented a reasonable rate of disinfection practice. Reference Jenkins, Monash, Wu and Amin8,Reference Boulée, Kalra, Haddock, Johnson and Peacock13Reference Alali, Shrestha, Kansakar, Parekh, Dadkhah and Peacock15,Reference Jones, Hoerle and Riekse28 Clearly, current CDC recommendations are inconsistent with the overwhelming number of publications demonstrating that self-disinfection by medical providers is ineffectual, Reference Alali, Shrestha, Kansakar, Parekh, Dadkhah and Peacock15,Reference Zachary, Bayne, Morrison, Ford, Silver and Hooper20,Reference Nunez, Moreno, Green and Villar29 inconsistent, Reference Smith30,Reference Muniz, Sethi, Zaghi, Ziniel and Sandora31 and almost never practiced. Reference Boulée, Kalra, Haddock, Johnson and Peacock13,Reference Vasudevan14,Reference Saunders, Hryhorskyj and Skinner32 In fact, when medical practitioners are asked, their self-reported stethoscope disinfecting rates commonly exceed 50%; however, when cultured, the growth rate from stethoscopes reported to have been disinfected >50% of the time is similar to that of observational stethoscope disinfection studies with disinfection rates in the single digits. Reference Jenkins, Monash, Wu and Amin8,Reference Boulée, Kalra, Haddock, Johnson and Peacock13Reference Alali, Shrestha, Kansakar, Parekh, Dadkhah and Peacock15,Reference Jones, Hoerle and Riekse28 Clearly, self-reported hygiene rates are not a reliable metric.

Medical professionals generally understand the vector potential of the stethoscope. Although calls for regular stethoscope hygiene are not unusual, Reference Lecat, Cropp, McCord and Haller33 why are these disinfection practices universally ignored? It is the simple math of time. If a medical practitioner seeing 30 patients per day is expected to engage in a before-and-after stethoscope disinfection of 60 seconds, this equates to an hour per day dedicated to stethoscope disinfection. At this time cost, medical practitioner stethoscope hygiene between patients is not a viable strategy for promoting stethoscope hygiene. A more acceptable strategy could be disinfecting the stethoscope while introducing themselves or while having a discussion with the patient.

Alternatives to washing have been suggested. The most popular suggestion, and the one recommended by the CDC, Reference Whittington, Whitlow and Hewson22 is the disposable stethoscope. With this strategy, a patient receives an inexpensive stethoscope that every subsequent medical provider shares. This option is a tremendously undesirable solution for 2 reasons. First, medical providers are generally not interested in sharing what is likely a contaminated device among a group of practioners. Is there a more effective way of innoculating all your staff Reference Marinella34 than sharing the same undisinfected equipment? Second, disposable stethoscopes are lack quality and functionality. In a study of >200 auscultations, 10.9% of cardiac murmurs were simply misdiagnosed by physicians using the disposable stethoscope. In comparison, when high-quality stethoscopes with aseptic barriers were used, there was a 0% misdiagnosis rate. Reference Kalra35,Reference Kalra, Shewale and Peacock36

Finally, the CDC recommends that if dedicated disposable devices are not available, the stethoscope should be disinfected after use on a patient who is on contact precautions before using this equipment on another patient. Reference Rutala and Weber2 This implicit strategy of “the medical pratitioner should wash it” relies upon interventions, such as education, that have been uniquivocally proven to fail. Reference Holleck, Merchant, Lin and Gupta16 Self-administered stethoscope hygiene has inherent human compliance challenges and logistical drawbacks that undermine its success to the point that it simply does not work.

Another common approach to preventing the spread of disease between patients is for the medical practitioner to wash their hands and then place a disposable glove over the stethoscope diaphragm. Although this solution is likely acoustically superior to the disposable stethoscope, handling the stethoscope diaphragm effectively shares contaminants between it and the medical pratcitioner’s just-washed hands.

Clearly, hand washing saves lives. In fact, the World Health Organization advocates that effective hand hygiene is the single most important practice to prevent and control HAIs. Reference Hughes37,Reference Pittet, Allegranzi and Sax38 Because pathogens on the hands are identical to the pathogens on the stethoscope, it follows that if removing pathogens from the hands by washing is an effective infection control intervention, then preventing the same bugs from being spread by the stethoscope could have similar beneficial effects.

Recently, disposable barriers to prevent the spread of pathogens have been evaluated and recommended Reference Smith30 because they allow high-fidelity acoustic performance. Reference Kalra35,Reference Kalra, Shewale and Peacock36 Disposable barriers that can be applied via a touch-free dispsenser (thus preventing contamination with hand pathogens) have been documented to prevent the transmission of many HAI pathogens, including methicillin resistant Staphylococcus aureus, C. difficile, and vancomycin-resistant Enterococcus. Reference Vasudevan, Shin and Chopyk39Reference Peacock, Kalra and Vasudevan41 Such barriers are acoustically invisible to the sound transmission of the stethoscope. Although data demonstrating that compliance with stethoscope barriers would be superior to that of standard cleaning/disinfection is unavailable, some have even recommended that barriers be impregnated with antibiotics or copper to inhibit bacterial growth. Reference Schmidt, Tuuri and Dharsee42 However, these latter solutions are probably inferior to the simple barrier becaudse they are likely to ultimately result in higher rates of bacterial resistance.

Ultimately, the “triple aim” Reference Jenkins, Monash, Wu and Amin8 of patient care includes quality, experience, and costs. Fewer HAIs would clearly contribute to higher quality, improved patient experience, and markedly lower costs. Use of an aseptic membrane as a barrier between the patient and a contaminated stethoscope diaphragm would contribute to all aspects of this triple aim. The logic of resistance to adopting disposable aseptic stethoscope diaphragm barriers as a standard of care is unclear given our current healthcare environment.

We are currently amid a COVID-19 pandemic, with the potential to amplify deficiencies in infection control. Our HAI prevention strategies need to reflect contemporary interventions that are universally easy to use. Since 2008, >20 publications have asserted the need to elevate the priority of stethoscope hygiene. During this period, innovation has brought highly effective aseptic barriers to market that have the potential to block pathogen transmission, improve provider compliance, and save clinician’s time. We recommend that the CDC consider the research that has evolved in the area of stethoscope hygiene and effective solutions and contemporize its guidance to elevate stethoscope hygiene to that of hands. Stethoscope disinfection or the use of disposable barriers should be required between every patient encounter.

Acknowledgments

Financial support

No financial support was provided relevant to this article.

Conflicts of interest

Sarathi Kalra reports a Clinical Trials research grant from Aseptiscope (the makers of a stethoscope cover). Alpesh Amin reports receiving funds from Clinical Trials PI/Co-I – NIH/NIAID, NeuroRx Pharma, Pulmotect, Blade Therapeutics, Novartis, Takeda, Humanigen, Eli-Lliy, PTC Therpeutics, OctaPharma, Fulcrum Therapeutics, and Alexion as well as consultant fees and/or speaker fees from BMS, Pfizer, BI, Portola, Sunovion, Mylan, Alexion, Astra Zeneca, Novartis, Nabriva, Paratek, Bayer, Tetraphase, Achogen, LaJolla, Millenium, HeartRite, Sprightly. Alpesh Amin also reports consultant fees and stock options from Aseptiscope. Cindy Cadwell reports consulting fees from Aseptiscope. Sandra Sieck is an owner of Sieck Healthcare and reports consulting fees from AseptiScope, Dacor Corp, Osler Diagnostics, and Abbott Laboratories. All other authors report no conflicts of interest relevant to this article.

References

Healthcare-associated infections data portal. Centers for Disease Control and Prevention website. https://www.cdc.gov/hai/data/portal/index.html. Accessed January 27, 2020.Google Scholar
Rutala, WA, Weber, DJ, and the Healthcare Infection Control Practices Advisory Committee (HICPAC). Guideline for disinfection and sterilization in healthcare facilities, 2008. Centers for Disease Control and Prevention website. https://www.cdc.gov/infectioncontrol/pdf/guidelines/disinfection-guidelines-H.pdf. Updated May 2019. Accessed March 22, 2021.Google Scholar
Guinto, CH, Bottone, EJ, Raffalli, JT, Montecalvo, MA, Wormser, GP. Evaluation of dedicated stethoscopes as a potential source of nosocomial pathogens. Am J Infect Control 2002;30:499502.CrossRefGoogle ScholarPubMed
Queiroz, JRA, Melo, IO, Santos Calado, GH, Cavalcanti, LRC, Sobrinho, CRW. Identification and resistance profile of bacteria isolated on stethoscopes by healthcare professionals: systematic review. Am J Infect Control 2021;49:229237.CrossRefGoogle Scholar
Longtin, Y, Schneider, A, Tschopp, C, et al. Contamination of stethoscopes and physicians’ hands after a physical examination. Mayo Clin Proc 2014;89:291299.CrossRefGoogle ScholarPubMed
Schneider, A, Tschopp, C, Longtin, Y, et al. Predictors of stethoscope contamination following a standardized physical exam. BMC Proc 2011;5:304.CrossRefGoogle Scholar
Tschopp, C, Schneider, A, Longtin, Y, Renzi, G, Schrenzel, J, Pittet, D. Predictors of heavy stethoscope contamination following a physical examination. Infect Control Hosp Epidemiol 2016;37:673679.CrossRefGoogle ScholarPubMed
Jenkins, IH, Monash, B, Wu, J, Amin, A. The third hand: low rates of stethoscope hygiene on general medical services. J Hosp Med 2015;10:457458.CrossRefGoogle ScholarPubMed
Marinella, M, Pierson, C, Chenoweth, C. The stethoscope: a potential source of nosocomial infection? Arch Intern Med 1997;157:786790.CrossRefGoogle ScholarPubMed
Thakur, M, Alhmidi, H, Cadnum, JL, et al. Use of viral DNA surrogate markers to study routes of transmission of healthcare-associated pathogens. Infect Control Hosp Epidemiol 2021;42:274279.CrossRefGoogle ScholarPubMed
Alhmidi, H, Li, DF, Cadnum, JL, et al. Use of simulations to evaluate the effectiveness of barrier precautions to prevent patient-to-patient transfer of healthcare-associated pathogens. Infect Control Hosp Epidemiol 2020. doi: 10.1017/ice.2020.1215.CrossRefGoogle Scholar
Vasudevan, RS, Bin Thani, K, Aljawder, D, Maisel, S, Maisel, AS. The stethoscope: a potential vector for COVID-19? Eur Heart J 2020;41:33933395.CrossRefGoogle ScholarPubMed
Boulée, D, Kalra, S, Haddock, A, Johnson, TD, Peacock, WF. Contemporary stethoscope cleaning practices: what we haven’t learned in 150 years. Am J Infect Control 2019;47:238242.CrossRefGoogle ScholarPubMed
Vasudevan, RS. Observation of stethoscope sanitation practices in an ED setting. Am J Infect Control 2019;47:234237.CrossRefGoogle Scholar
Alali, SA, Shrestha, E, Kansakar, AR, Parekh, A, Dadkhah, S, Peacock, WF. Community hospital stethoscope cleaning practices and contamination rates. Am J Infect Control 2020;48:13651369.CrossRefGoogle ScholarPubMed
Holleck, JL, Merchant, N, Lin, S, Gupta, S. Can education influence stethoscope hygiene? Am J Infect Control 2017;45:811812.CrossRefGoogle ScholarPubMed
Pasquarella, C, Colucci, ME, Bizzarro, A, et al. Detection of SARS-CoV-2 on hospital surfaces. Acta Biomed 2020; 91 suppl 9:7678.Google Scholar
Parmar, RC, Valvi, CC, Sira, P, et al. A prospective, randomised, double-blind study of comparative efficacy of immediate versus daily cleaning of stethoscope using 66% ethyl alcohol. Indian J Med Sci 2004;58:423430.Google Scholar
Russell, A, Secrest, J, Schreeder, C. Stethoscopes as a source of hospital-acquired methicillin-resistant Staphylococcus aureus . J Perianesth Nurs 2012;27:8287.CrossRefGoogle ScholarPubMed
Zachary, KC, Bayne, PS, Morrison, VJ, Ford, DS, Silver, LC, Hooper, DC. Contamination of gowns, gloves, and stethoscopes with vancomycin-resistant enterococci. Infect Control Hosp Epidemiol 2001;22:560564.CrossRefGoogle ScholarPubMed
Favero, MS, Bond, WW. Chemical disinfection of medical and surgical materials. In: Block, SS, ed. Disinfection, Sterilization, and Preservation. Philadelphia: Lippincott Williams & Wilkins; 2001:881917.Google Scholar
Whittington, AM, Whitlow, G, Hewson, D, et al. Bacterial contamination of stethoscopes on the intensive care unit. Anaesthesia 2009;64:620624.CrossRefGoogle ScholarPubMed
Alleyne, SA, Hussain, AM, Clokie, M, Jenkins, DR. Stethoscopes: potential vectors of Clostridium difficile . J Hosp Infect 2009;73:187189.CrossRefGoogle ScholarPubMed
Knecht, VR, McGinniss, JE, Shankar, HM, et al. Molecular analysis of bacterial contamination on stethoscopes in an intensive care unit. Infect Control Hosp Epidemiol 2019;40:171177.CrossRefGoogle Scholar
Pidot, SJ, Gao, W, Buultjens, AH, et al. Increasing tolerance of hospital Enterococcus faecium to handwash alcohols. Sci Transl Med 2018;10(452):eaar6115.CrossRefGoogle ScholarPubMed
Wilcox, MH, Fawley, WN. Hospital disinfectants and spore formation by Clostridium difficile . Lancet 2000;356:1324.CrossRefGoogle ScholarPubMed
Jabbar, U, Leischner, J, Kasper, D, et al. Effectiveness of alcohol-based hand rubs for removal of Clostridium difficile spores from hands. Infect Control Hosp Epidemiol 2010;31:565570.CrossRefGoogle ScholarPubMed
Jones, JS, Hoerle, D, Riekse, R. Stethoscopes: a potential vector of infection? Ann Emerg Med 1995;26:296299.CrossRefGoogle ScholarPubMed
Nunez, S, Moreno, A, Green, K, Villar, J. The stethoscope in the ED: a vector of infection? Epidemiol Infect 2000;124:233237.CrossRefGoogle ScholarPubMed
Smith, ML. Mathewson JJ, Ulert IA, Scerpell EG, Ericsson CD. Contaminated stethoscopes revisited. Arch Int Med 1996;156:8284.CrossRefGoogle Scholar
Muniz, J, Sethi, RKV, Zaghi, J, Ziniel, SI, Sandora, TJ. Predictors of stethoscope disinfection among pediatric healthcare providers Am J Infect Control 2012;40:922925.CrossRefGoogle Scholar
Saunders, C, Hryhorskyj, L, Skinner, J. Factors influencing stethoscope cleanliness among clinical medical students. J Hosp Infect 2013;84:242244.CrossRefGoogle ScholarPubMed
Lecat, P, Cropp, E, McCord, G, Haller, NA. Ethanol-based cleanser versus isopropyl alcohol to decontaminate stethoscopes. Am J Infect Control 2009;37:241243.CrossRefGoogle ScholarPubMed
Marinella, M. COVID-19 pandemic and the stethoscope: do not forget to sanitize. Heart Lung 2020;49:350.CrossRefGoogle Scholar
Kalra, S, Garri RF, Shewale JB. Aseptic disposable stethoscope barrier: acoustically invisible and superior to disposable stethoscopes. Mayo Clin Proc . 2021;96:263264.CrossRefGoogle Scholar
Kalra, S, Shewale, JB, Peacock, WF. Are stethoscopes and infection control enemies? Ann of EM. 2020; 76:257.Google Scholar
Collins AS. Preventing health care-associated infections, chapter 41. In: Hughes, RG, editor. Patient Safety and Quality: An Evidence-Based Handbook for Nurses. Rockville, MD: Agency for Healthcare Research and Quality; 2008.Google ScholarPubMed
Pittet, D, Allegranzi, B, Sax, H, et al. WHO Global Patient Safety Challenge, World Alliance for Patient Safety. Evidence-based model for hand transmission during patient care and the role of improved practices. Lancet Infect Dis 2006;6:641652.CrossRefGoogle ScholarPubMed
Vasudevan, R, Shin, JH, Chopyk, J, et al. Aseptic barriers allow a clean contact for contaminated stethoscope diaphragms. Mayo Clin Proc Innov Qual Outcomes 2020;4:2130.CrossRefGoogle Scholar
Vasudevan, R. Kalra, S. Torriani, FJ, Peacock, WF. Effectiveness of aseptic stethoscope barriers in allowing clean contact for Clostridioides difficile–contaminated stethoscopes. Abstract 907061 presented at: ID Week 2020; October 2020; conducted virtually.Google Scholar
Peacock, WF, Kalra, S, Vasudevan, R. Aseptic stethoscope barriers prevent C. difficile transmission in vitro. Mayo Clin Proc Innov Qual Outcomes 2021;5:103108.CrossRefGoogle Scholar
Schmidt, MG, Tuuri, RE, Dharsee, A, et al. Antimicrobial copper alloys decreased bacteria on stethoscope surfaces. Am J Infect Control 2017;45:642647.Google ScholarPubMed