Laboratory worker knowledge, attitudes and practices towards smallpox vaccine

Noelle Benzekri¹^,2^,5, Erinn Goldman¹^,2, Felicia Lewis³, Carolyn C. Johnson³, Stanley M. Reynolds⁴, Mary G. Reynolds¹ and Inger K. Damon¹

¹ Poxvirus and Rabies Branch, Centers for Disease Control and Prevention, Atlanta, GA 30333, USA
² Office of Workforce and Career Development, Epidemic Intelligence Service, Centers for Disease Control and Prevention, Atlanta, GA 30333, USA
³ The Division of Disease Control, Philadelphia Department of Health, Philadelphia, PA 19146, USA
⁴ Bureau of Laboratories, Pennsylvania Department of Health, Lionville, PA 19341, USA
⁵ Present address: David Geffen School of Medicine at UCLA, Department of Medicine, Los Angeles, CA 90095-9820, USA

Correspondence to: Mary G. Reynolds, Poxvirus and Rabies Branch, Centers for Disease Control and Prevention, 1600 Clifton Road North East, Mail-stop G-43, Atlanta, GA 30333, USA. Tel: +1 404 639 2867; Fax: +1 404 639 1060; e-mail: nzr6{at}cdc.gov

Abstract

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Background Recent cases of laboratory-acquired vaccinia virus(VV) infection highlight the need for laboratory safety.

Aims To determine laboratory worker adherence to the AdvisoryCommittee for Immunization Practices smallpox vaccination recommendations,assess potential barriers to vaccination and determine the influenceof training on laboratory worker attitudes.

Methods Ninety-two laboratory workers in Pennsylvania were contactedand asked to complete an online survey about VV usage; 45 responded.

Results Eighty-seven per cent had received a smallpox vaccinationin their lifetime; 73% received vaccination in the past 10 years.More workers had been given training regarding the potentialrisks, versus the potential benefits of vaccination, and mostperceived that adverse outcomes were more likely to occur followingvaccination versus accidental infection.

Conclusions The results of this study suggest that the mainbarrier to vaccination may be fear associated with possiblevaccine adverse effects and a willingness to risk accidentalinfection rather than be vaccinated. More information and trainingabout the potential benefits of vaccination, as well as thepotential adverse outcomes associated with accidental infection,is therefore warranted.

Keywords Knowledge attitudes and practices; smallpox vaccine; vaccinia virus; WR-vaccinia

Introduction

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As the fields of molecular biology and vaccine development haveexpanded, the use of vaccinia virus (VV) as a molecular toolhas become increasingly common [1]. However, despite its utility,VV is a potentially hazardous pathogen and laboratory workersshould have the necessary tools and information to protect themselvesagainst accidental infection.

In recognition of this, the Advisory Committee on ImmunizationPractices (ACIP) has recommended vaccination with smallpox vaccine(ACAM2000, Acambis) for the prevention of VV infection amonglaboratory workers [2] in the USA. In addition, biosafety guidelinesrecommend the use of personal protective equipment (PPE) [3].

Recent cases of laboratory-acquired VV infection highlight theneed for a greater understanding of the knowledge, attitudesand practices of laboratory workers handling VV [4]. The purposeof this study was therefore to determine adherence to ACIP recommendations,assess potential barriers to vaccination and determine the influenceof training on laboratory worker attitudes.

Methods

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This investigation was conducted as part of a public healthresponse following an accidental VV infection in a Pennsylvanialaboratory worker. (This activity was deemed non-research inaccordance with agency interpretation of the US Code of FederalRegulations, Title 45, Part 46, which sets forth regulationsfor the protection of human subjects.)

Laboratories in Pennsylvania in which VV was handled were identifiedby the Centers for Disease Control and Prevention and the PennsylvaniaDepartment of Health. In March of 2005, letters were sent tothe occupational health and safety directors of each identifiedinstitution (n = 16), requesting the email addresses of employeeswho, in the past 5 years, had worked in laboratories that utilizeVV. Five of 16 institutions contacted during the investigationdeclined to participate, citing that VV was not currently beingutilized in their laboratories. Ninety-two eligible workerswere identified, contacted and asked to complete an online surveyto evaluate their knowledge, attitudes and practices regardingsmallpox vaccination. Investigators were blinded to names andemail addresses of prospective subjects to protect anonymity.Contact information was stored separately from responses. Noinformation was retained for those who declined to participate.The survey contained 42 structured questions with a series ofresponse options provided. Data were managed and summarizedusing SPSS.

Results

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Forty-five (49%) workers responded to the survey (Table 1).Eighty-seven per cent of respondents had received a smallpoxvaccination in their lifetime; 73% received vaccination in thepast 10 years. Sixty per cent of respondents worked with non-highlyattenuated strains of VV. Of these, seven had not received vaccinationin the past 10 years. The non-vaccinated respondents (n = 5)were all affiliated with universities. No information was recordedfor eligible laboratory workers who declined participation.

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Table 1. Characteristics of all respondents, vaccinated respondents and non-vaccinated respondents

Although 89% of respondents reported being aware of contraindicationsto smallpox vaccine, 21% of those who had been vaccinated hadcontraindications, including skin conditions and immune compromise(Table 2).

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Table 2. Awareness of contraindications and presence of contraindications among all respondents, vaccinated respondents and non-vaccinated respondents

Nearly, all who responded (96%) had received training on therisks of working with live VV and the risks of smallpox vaccine.Respondents who had not been vaccinated in the past 10 yearsreceived less training than those who had been vaccinated inthe past 10 years.

Respondents perceived that specific adverse outcomes were morelikely to occur following vaccination versus accidental infection,namely, ‘swelling of glands’ (91 versus 51%), ‘feelingbad enough to miss work’ (53 versus 29%) and ‘accidentalinfection of a contact’ (26 versus 13%). Respondents weremore concerned about vaccine side-effects than accidental infection,although 31% of respondents knew someone who was infected byVV due to a laboratory accident.

Among those who were ever vaccinated, 59% reported their primaryreason for receiving vaccination as ‘required by institution’.Seventy-six per cent reported that ‘concern for personalsafety’ was the strongest influence on their adherenceto safe laboratory practices. Ninety-five per cent of respondentsthought that people who work with VV should be required to followsafety guidelines and wear PPE. When asked why workers do notwear PPE, 55% respondents reported ‘don't think it's necessary’,48% reported ‘limits visibility or dexterity’, 36%reported ‘lack of availability’ and 14% reported‘implies lack of laboratory skill’.

Forty-eight per cent of respondents agreed that laboratory workerswho handle VV should be required to receive smallpox vaccination.Most (81%) agreed that people who have contraindications forsmallpox vaccination should be discouraged from working withlive VV.

Discussion

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Although most laboratory workers in this study received vaccination,more than a quarter of those who handled non-highly attenuatedstrains had not been vaccinated in the past 10 years.

Despite the fact that a majority of respondents reported anawareness of contraindications to vaccine, and agreed that workerswith contraindications should be discouraged from working withVV, >20% of vaccinated workers themselves had contraindications.Moreover, most of the workers with contraindications manipulatednon-highly attenuated strains (Table 2).

Over 90% of respondents received training on the risks of workingwith VV and how to protect oneself from accidental infection.Despite the amount of training received, however, respondentsremained unclear about the biosafety levels associated withVV work and outcomes of accidental infection. All the most seniorworkers (identified as laboratory directors, staff scientistsor postdoctoral workers) received vaccination, highlightingthe special considerations posed for student and temporary workerswho may perceive that they will derive less benefit from vaccinationdue to the transient nature of their VV research activities.

A comparison of accidental VV infection among vaccinated versusnon-vaccinated cases revealed that those who had never beenvaccinated had more serious outcomes, including hospitalization[4–10]. Such examples may help to better inform laboratoryworkers about the benefits of vaccination.

This study is limited by a weak response rate and by the clusteringof participants according to institution. Additionally, notall participants responded to all questions. Despite these limitations,the findings can help to guide future safety recommendationsfor laboratory workers who handle VV.

In order to formulate effective policy, it is critical to obtaininsight into the prevailing beliefs and practices of the populationto which such policy is targeted. The results of this studyreveal a lack of adherence to current recommendations of theACIP, a need for greater training of laboratory workers whohandle VV and that institutional policies are important in ensuringthe safety of laboratory workers through vaccination.

Key points

The results of this study reveal a lack of adherenceto current smallpox vaccination recommendations and suggesta need for greater training of laboratory workers who handlevaccinia virus.

Among laboratory workers who manipulate vacciniavirus, the main barrier to receiving smallpox vaccination maybe fear associated with possible vaccine adverse effects anda willingness to risk accidental infection rather than be vaccinated.

Theresults of this study suggest that institutional policies canplay a major role in ensuring the safety of laboratory workersthrough vaccination.

Funding

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US Centers for Disease Control and Prevention. Funding to paythe Open Access publication charges for this article was providedby the US Centers for Disease Control and Prevention.

Conflicts of interest

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None declared.

References

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References

Moss B. Genetically engineered poxviruses for recombinant gene expression, vaccination, and safety. Proc Natl Acad Sci USA (1996) 93:11341–11348.[Abstract/Free Full Text]
Centers for Disease Control and Prevention. Vaccinia (smallpox) vaccine: recommendations of the Advisory Committee on Immunization Practices (ACIP), 2001. MMWR Recomm Rep. (2001) 50:1–25.[Medline]
Richmond JY, McKinney RW, eds. Biosafety in Microbiological and Biomedical Laboratories (1999) 4th edn. Washington: US Department of Health and Human Services.
Centers for Disease Control and Prevention (CDC). Laboratory-acquired vaccinia exposures and infections—United States, 2005–2007. MMWR Morb Mortal Wkly Rep (2008) 57:401–404.[Medline]
Jones L, Ristow S, Yilma T, Moss B. Accidental human vaccination with vaccinia virus expressing nucleoprotein gene. Nature (1986) 319:543.[Web of Science][Medline]
Openshaw PJ, Alwan WH, Cherrie AH, Record FM. Accidental infection of laboratory worker with recombinant vaccinia virus. Lancet (1991) 338:459.[Web of Science][Medline]
Mempel M, Isa G, Klugbauer N, et al. Laboratory acquired infection with recombinant vaccinia virus containing an immunomodulating construct. J Invest Dermatol (2003) 120:356–358.[CrossRef][Web of Science][Medline]
Moussatche N, Tuyama M, Kato SE, et al. Accidental infection of laboratory worker with vaccinia virus. Emerg Infect Dis (2003) 9:724–726.[Web of Science][Medline]
Loeb M, Zando I, Orvidas M-C, Bialachowski A, Groves D, Mahoney J. Laboratory acquired vaccinia infection. Can Commun Dis Rep (2003) 29–115.
Lewis FMT, Chernak E, Goldman E, et al. Ocular vaccinia infection in laboratory worker, Philadelphia, 2004. Emerg Infect Dis (2006) 12:134–137.[Web of Science][Medline]

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Laboratory worker knowledge, attitudes and practices towards smallpox vaccine