reducing pathogen transmission in a hospital setting. handshake verses fistbump: a pilot study

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Reducing Pathogen Transmission in a Hospital Setting. Handshake verses Fistbump: A Pilot Study Paul A Ghareeb MD1, Thirimachos Bourlai Ph.D.2, Nnamdi Osia2, Walter Dutton MS1, W. Thomas McClellan MD FACS1 1: West Virginia University School of Medicine, Department of Surgery, Division of Plastic Surgery

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This is a pilot study which examines the use of the fistbump instead of a traditional handshake in the hospital setting. In the hospital we use automatic doors, automatic sinks, and alcohol based hand sanitizer. However the rise of antibiotic resistant bacteria continues to increase. We propose ceasing handshaking within the hospital and opting instead for the fun fistbump will reduce the transmission of bacteria.

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Page 1: Reducing Pathogen Transmission in a Hospital Setting. Handshake verses Fistbump: A Pilot Study

Reducing Pathogen Transmission in a Hospital Setting. Handshake verses Fistbump: A Pilot Study

Paul A Ghareeb MD1, Thirimachos Bourlai Ph.D.2, Nnamdi Osia2, Walter Dutton MS1, W. Thomas McClellan MD FACS1

1:  West Virginia University School of Medicine, Department of Surgery, Division of Plastic Surgery

2:  West Virginia University Benjamin M. Statler College of Engineering and Mineral Resources

Page 2: Reducing Pathogen Transmission in a Hospital Setting. Handshake verses Fistbump: A Pilot Study

Abstract

Handshaking is a known vector for bacterial transmission between individuals (1-2). Hand washing has become a major initiative throughout healthcare systems to reduce transmission rates, but as many as 80% of individuals retain some disease-causing bacteria after washing (3). The fist bump is an alternative to the handshake that has become mainstream in popularity. We hypothesize that implementing the fist bump in the healthcare setting may further reduce bacterial transmission between healthcare providers by reducing contact time and total surface area exposed when compared to the standard handshake.

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INTRODUCTION

The handshake is an important social gesture that has been depicted in ancient Greek funerary steles as far back as the 5th century BC (Fig 1). It is hypothesized that the initial purpose of the handshake was to propose peace by demonstrating that the hand holds no weapon. In modern times, the handshake is a common way of greeting, offering congratulations, or coming to an agreement. In the hospital environment, healthcare workers are commonly confronted with a handshake on a daily basis. Alternatives to the handshake during social interaction have been utilized throughout the years, but they have failed to become mainstream.

Figure 1:  “Handshake” - Priest and two soldiers, 500BC. Pergamon Museum Berlin

In the modern healthcare setting, intense efforts have been placed on quality improvement measures to reduce complications and improve outcomes. Nosocomial infections have been identified as a major preventable complication of inpatient care, and numerous policies and protocols have been initiated to reduce the rate of these infections. One of the most visible initiatives to reduce nosocomial infections has been the hand hygiene initiative within the US healthcare system. Hand to hand contact is a known vector for the transmission of infectious diseases, and efforts have been made to reduce this risk by encouraging frequent hand washing, as well as eliminating contact with contaminated surfaces such as door and sink handles (1,2,4,5,6). However, ensuring compliance with this initiative has proven to be challenging (7).  

One possible solution to help control the spread of infectious diseases in the healthcare setting would be to eliminate voluntary hand-to-hand contact. Although this would accomplish the goal of reducing transmission, it would neglect the social importance of the hand-to-hand contact that the handshake signifies. Therefore, the authors propose the fist bump as a safe and effective alternative to the traditional handshake in this setting.

The fist bump has gained recent notoriety as an alternative to the handshake after being displayed in the mainstream media; the most notable example being President Obama’s use of the gesture (Figure 2). The fist bump is a simple, intuitive method of social interaction. The authors hypothesize that the fist bump will reduce bacterial transmission between individuals by

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reducing contact surface area, reducing total contact time between individuals, and protecting fingertips from pathogen exposure.

 

Figure 2:  President Barack Obama and the first lady utilizing the fist bump at a political gathering, which was later dubbed “the fist bump heard around the world”.

METHODS    Surface Area Measurement

5 male and 5 female subjects were randomly selected from the WVU Department of Engineering. Surface area of each subject’s right hand and fist was determined using the following method (Figure 3). A semi-automated computer vision tool that computes the surface area (inches2) of human hands and fists was developed using both a visible and thermal camera to collect images of each. Each individual placed both their right hand palm down and fist which were then photographed. A penny was placed next to either a hand or a fist and used as a reference since its true geometric area is known. Blob detection was first utilized to localize the regions of interest (ROIs of a hand or a fist), and then the ROIs were segmented using image thresholding. The reference object (penny) was localized by computing the roundness metric RM = 4 * pi * area) / perimeter2, i.e. when RM is greater than a predetermined threshold the object is considered a circle. Then, for each image we computed the penny’s diameter, as well as the hand or fist width or height in pixels. Finally, by using the formula (1) below, the surface area x of a hand or a fist (inches) was determined.

x=penny ( inc h es )∗h∧¿ fist( pixels )

penny ( pixels )

Page 5: Reducing Pathogen Transmission in a Hospital Setting. Handshake verses Fistbump: A Pilot Study

Figure 3: Automated process of segmenting the palm and the coin (penny) surface areas. The latter was used as a reference object to determine the exact area (in pixels) of the palm region.

Contact Time Measurement

Video footage of 18 different subjects (9 different subject pairs) was collected in order to measure the contact time of two main gestures between each pair, i.e. (i) hand shake and (ii) fist shake. The video frame rate was set to 30 frames per second. Each gesture was manually annotated frame by frame in order to determine the interval for which there was a skin contact between each pair of subjects for either gesture. The total number of frames for which contact was present was counted, and the average contact time in seconds was computed.

Bacterial Transmission Measurement

Institutional Review Board approval was obtained prior to this investigation. Four 20x20 cm plates were prepared using Mueller-Hinton Agar. Two healthcare workers, one male and one female, were assembled at a regional hospital. They were instructed to wash their hands thoroughly with soap and warm water for one minute. After drying, they proceeded to travel from the first floor lobby to the fifth floor surgical wards. Each subject performed the same tasks, such as pushing the elevator button and using door handles. Once present on the surgical wards, the subjects shook hands with 20 healthcare workers who were blinded to the purpose of the study. The subjects then returned to the hospital lobby, and their right hand was plated palm-down and held for five seconds. To assess fist bump transmission the same procedure was performed, with the exception that each subject plated their right fist instead of palm. The plates were incubated at 37 C for 72 hours, and colony forming units (CFUs) were manually counted.

Statistical Analysis

The Student T Test was utilized for statistical analysis of differences in surface area. Colony counts and contact time are reported as the mean.

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RESULTS   

The surface area of the palmar surface of the hand was found to be significantly greater than the fist (30.206 in2 vs. 7.867 in2, p<0.00001). Furthermore, the total contact time of the handshake was determined to be 2.7x longer than the fist bump (0.75s vs. 0.28s).     Total colonization of the palmar surface of the hand was found to be 4x greater than the fist after incubation for 72 hours (187.5 CFUs vs. 42.5 CFUs) (Figure 4).

Figure 4: Representative plates illustrating bacterial growth of the handshake and fist bump. (Top left) right palmar surface of the hand after undergoing 20 handshakes, and (top right) the same photo after utilizing a negative filter to illustrate colony density. (Bottom left) Bacterial growth of the fist after undergoing 20 fist bumps, and (bottom right) the same photo utilizing a negative filter to illustrates total density.   

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DISCUSSION

Many attempts to understand the routes of transmission of infectious agents have been undertaken, and several have been identified. Hand to hand transmission of bacteria has been identified as an important variable in efforts to reduce the spread of nosocomial infections within the healthcare setting (1,5,6). Importantly, Methicillin-Resistant Staphylococcus aureus (MRSA) is most commonly spread through direct contact between patient and providers (8).  It has also been demonstrated that door handles carry up to 5x more bacteria than push-plate door openers (4); up to 20.9% of door handles contain Methicillin-Sensitive Staphylococcus aureus, while up to 8.7% harbor MRSA (9).

Methods to reduce this avenue of transmission have included strict hand-washing protocols, alcohol based hand sanitizer, as well as the implementation of auto-opening doors and touch-less sinks.  Hand washing education has become a major initiative throughout healthcare systems to reduce transmission rates, but as many as 80% of individuals retain some disease-causing bacteria after washing (3). Although hand-washing should be considered as an important tool to reduce bacterial transmission it is not ideal due to lack of compliance, inconvenience, and variability.

Alcohol based hand sanitisers have been introduced in an attempt to supplement or replace hand washing. However these sanitizers are not the panacea we had hoped they would become. Of particular note, is the rise of spore forming nosocomial infections such as Clostridium Difficile, which are resistant to alcohol based hand sanitizers and on the rise throughout the United States (2). Sanitiser deficiencies highlight the need for a more effective solution such as a universal behavioral change regarding social contact within the hospital.         The handshake represents an important social gesture and is frequently performed in healthcare settings. While efforts have been made to reduce hand contact with potentially contaminated surfaces such as sinks and door handles, the handshake has been mostly preserved in this environment. This is most likely due to habit, social norms, the lack of a well accepted alternative. Even still, several popular media outlets have reported on the fact that handshakes are being banned within certain groups, such as olympic teams and school athletic teams due to the risk of pathogen transmission.         Variables that lead to hand to hand transmission of pathogens include what you contact, where on your hand the contact occurs, and how long you contact the contaminated surface. We have demonstrated that the fist bump reduces both contact time and total surface area contacted by nearly 4x when compared to the handshake. Additionally the fist bump exposes the less used dorsal surface of the hand to a potential pathogen while protecting the fingertips and palm from exposure. We believe the combination of these factors can explain the greater than 4x reduction in colonization when utilizing the fist bump. We surmise that the fist bump is an effective alternative to the handshake in the hospital setting that may lead to decreased transmission of bacteria and improved health and safety of patients and healthcare workers alike.         This study was designed as a pilot to explore the potential harmful effects of the handshake within the healthcare system, and as such it has several limiting factors. The study is limited by our small sample size and as such we were unable to ascertain statistical significance; larger studies are needed to assess the level of significance between the handshake and fist bump in this regard. An assessment of virulence of the different strains that were observed would be useful to further delineate harmful bacterial transmission. Only 2D analysis of the fist and palm was

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performed for the study. Future studies may be useful to evaluate the 3D contact points between the surfaces of the fist bump, as we believe the total contact area between two fists is much smaller than the total surface area involved. Viral transmission is thought to be commonly transferred by skin contact, but was not assessed in this study. Furthermore, it is unknown at this time if this observed decrease in bacterial transmission will lead to a decrease in hospital acquired infections. Observing nosocomial infection rates before and after replacing the handshake with the fist bump would be a useful way to determine if replacing the handshake can reduce nosocomial infections.

ACKNOWLEDGMENTS

We would like to give special thanks to the Microbiology Department of Monongalia General Hospital, as well as Neeru Narang and the Multispectral Imagery Lab (WVU) for their contributions in this work.

References:

1.  Oniya MO, Obajuluwa SE, Alade ET, Oyewole OA. Evaluation of microorganisms transmissible through handshake. African Journal of Biotechnology. June 2006. 5(11): 1118-1121.2.  Boyce JM, Pittet D. Guideline for Hand Hygiene in Health-Care Settings:  recommendations of the Healthcare Infection Control Practices Advisory Committee and the HICPAC/SHEA/APIC/IDSA Hand Hygiene Task Force. Infect Cont and Hosp Epidemiology. Dec 2002. 23(S12):  S3-S40.3.  Tambekar DH, Shirsat SD, Suradkar SB, Rajankar PN, Banginwar YS. Prevention of transmission of infectious disease:  studies on hand hygiene in health-care among students. Continental J. Biomedical Sciences. 2007. 1: 6-10.4.  Wojgani H, Kehsa C, Cloutman-Green E, Gray C, Gant V, Klein N. Hospital Door Handle Design and Their Contamination with Bacteria: A Real Life Observational Study. Are We Pulling against Closed Doors? PLoS One. Epub Oct 15 2012. 7(10):e40171.5.  Aiello AE, Coulborn RM, Perez V, Larson EL. Effect of hand hygiene on infectious disease risk in the community setting:  a meta-analysis. Am J Public Health. 2008 Aug;98(8):1372-81.6.  Duckro AN, Blom DW, Lyle EA, Weinstein RA, Hayden MK. Transfer of vancomycin-resistant enterococci via health care worker hands. Arch Intern Med. 2005 165:302-7.7.  Pittet D, Mourouga P, Perneger TV. Compliance with handwashing in a teaching hospital. Ann Intern Med. 1999. 130;126-130.8.  Pittet D, Hugonnet S, Harbarth S, Mourouga P, Sauvan V, Touvenau S, Perneger TV. Effectiveness of a hospital-wide programme to improve compliance with hand hygiene. Lancet 2000. Oct 14;356(9238):1307-12.9.  Oie S, Hosokawa I, Kamiya A. Contamination of room door handles by methicillin-sensitive/methicillin -resistant Staphylococcus aureus. J Hosp Infect. June 2002. 51(2):  140-3