Protecting Workers from Occupational Exposure to Zika Virus
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Transcript Protecting Workers from Occupational Exposure to Zika Virus
Griffin Hospital Occupational Medicine Center
Barry S. Ostroff, MD, FACOEM
June 7, 2016
Case Presentation
GH is a 24 y.o. pregnant ED nurse who presents to your clinic for follow-up
following a needle stick exposure to blood
The source patient gave a history that he had returned the prior day from a
business trip to Brazil and several other South American countries
Source patient’s presenting symptoms:
3 day history of fever, rash, joint pain, myalgia, and headache
What concerns do you have regarding this potential Bloodborne Pathogen
Exposure?
BRIEF HISTORY OF ZIKA VIRUS
First case identified in the Zika Forest in Uganda in 1947
Originally endemic to Africa, Southeast Asia, and the Pacific Islands
In 2015, cases of Zika virus infection emerged in the Americas and the
Caribbean
ZIKA VIRUS ENDEMIC AREAS IN THE AMERICAS
EPIDEMIOLOGY
Primarily spread through the bites of infected mosquitoes
Mosquitoes become infected when they bite infected persons and then
spread the Zika virus to other persons they subsequently bite.
Aedes species mosquitoes (females) are a principal potential vector of
Zika virus in the U.S.
Aedes aegypti are typically concentrated in the southern U.S. as well as
parts of the Southwest.
Aedes albopictus are found in much of the southern and eastern part of the
U.S.
Aedes mosquitoes can also carry other arboviruses including Yellow
Fever, Dengue, Chikungunya, Japanese Encephalitis, and West Nile
Virus
TRANSMISSION
MODES OF TRANSMISSION TO HUMANS
Mosquito bites
Sexual contact
Blood and body fluids exposure
Aedes aegypti mosquitoes can become infected when they bite infected
persons and can then spread the Zika virus to other persons they
subsequently bite.
Aedes albopictus originated in Asia and has adapted to survive in a broader
temperature range and at cooler temperatures, which enables them to persist in
more temperate climates.
DISTRIBUTION OF POTENTIAL MOSQUITO VECTORS IN THE US
Estimated range of Aedes aegypti in
the United States, 2016*
Estimated range of Aedes albopictus in
the United States, 2016*
Zika Virus Infection in Humans
Approximately one out of five infected people develop symptoms
Incubation period 2-7 days
Symptoms are usually mild and can last 2–7 days
Infectious virus particles can be detected in the blood during the first
week of infection
Zika virus can be spread transplacentally from a pregnant woman to
her fetus potentially resulting in microcephaly, other brain
abnormalities, eye defects, hearing deficits, and impaired growth
SYMPTOMS
Symptoms are similar to those of dengue fever or chikungunya:
Fever
Rash
Joint pain
Conjunctival injection
Myalgia
Headache
Rarely neurological and autoimmune complications
DIAGNOSIS
Typical symptoms with history of travel to an endemic area or other means of
exposure by patient or sexual partner
Reverse transcriptase-polymerase chain reaction (RT-PCR) within first few
days is preferred test for Zika but a negative test does not rule out diagnosis
A recent study found RT-PCR testing in urine more sensitive than serum
Virus-specific IgM antibodies may be detectable >4 days after onset of illness
but strong cross reactivity between Zika virus and other flaviviruses such as
dengue and chikungunya occur
IgM antibodies typically persist for approximately 2-12 weeks
A negative Zika IgM result obtained 2-12 weeks after potential exposure
suggests that infection did not occur
TREATMENT
There is no specific medical treatment
Symptomatic Treatment:
Rest
Copious fluids
Acetaminophen (Tylenol®) to reduce fever and pain.
Do not take aspirin and other NSAIDS until dengue fever can be ruled out
Supportive treatment for complications
Zika in the U.S. (as of April 20, 2016)
Note: Zika virus disease and Zika virus congenital infection are nationally notifiable
conditions.
US States
Travel-associated cases reported: 503
Locally acquired vector-borne cases reported: 0
Total: 503
Pregnant: 48
Sexually transmitted: 10
Guillain-Barré syndrome: 1
US Territories
Travel-associated cases reported: 3
Locally acquired cases reported: 698
Total: 701
Pregnant: 65
Guillain-Barré syndrome: 5
http://www.cdc.gov/zika/geo/united-states.html
Zika in the U.S. (as of June 1, 2016)
Note: Zika virus disease and Zika virus congenital infection are nationally notifiable
conditions.
US States
Travel-associated cases reported: 618
Locally acquired vector-borne cases reported: 0
Total: 618
Sexually transmitted: 11
Guillain-Barré syndrome: 1
US Territories
Travel-associated cases reported: 4
Locally acquired cases reported: 1,010
Total: 1,014
Guillain-Barré syndrome: 8
http://www.cdc.gov/zika/geo/united-states.html
If Zika Virus Becomes Endemic in US…
Employers should train workers about their risks of exposure to Zika virus
and how to protect themselves
Exposure through mosquito bites
Exposure through direct contact with infectious blood and other body fluids
Employers should provide education about Zika virus infection
Modes of transmission
Links to birth defects
Workers who are pregnant or may become pregnant
Male workers whose sexual partners may become pregnant
Prevention of potential exposure is key since a vaccine is not available
Outdoor Workers
Use insect repellants
Protective clothing
Cover exposed skin
Hats with mosquito netting to protect face and neck
Clothing with mosquito netting to protect body and hands
Socks that cover ankles and lower legs
Eliminate sources of standing water where mosquitos breed
Consider reassignment of employees
Employee currently is or planning to become pregnant
Male with sexual partner who is or may become pregnant
Hats and Clothing with Mosquito Netting
Use of Insect Repellants
EPA registered active ingredients
Exposed skin application
DEET
Picaridin
Oil of lemon eucalyptus (OLE) or para-menthane-diol (PMD)
For clothing and gear only
Permethrin – Acts as an Insecticide
Protection Times
Higher concentrations, greater protection times
4.75% DEET – 1 hour
23.8% DEET – 5 hours
DEET Concentrations above 50% - no additional benefit
Use of Insect Repellants (continued)
Do not apply to irritated or broken skin
Do not apply under clothing
When returning indoors and before eating, wash with soap and
water
Use of Sunscreen and Insect Repellants
Approximately 1/3 decrease in SPF when DEET containing products used
with Sunscreens
Combination Sunscreen and Insect Repellant products not recommended
Apply Sunscreen first, then Insect Repellant
May need to reapply Sunscreen more frequently
International Business Travelers
Avoid travel to Zika infected areas
Check CDC Website for most up to date information:
http://wwwnc.cdc.gov/travel/page/zika-travel-information
Critical for women of childbearing age who are pregnant or planning on
becoming pregnant as well as their spouses and sexual partners
If travel to infected areas unavoidable
Strict adherence to mosquito bite preventive measures
Wear light colored long-sleeved shirts and long pants
Use EPA approved insect repellents
Treat clothes with permethrin
Work and sleep in well-screened buildings
If sleeping in poorly screened accommodations or outdoors, use Permethrintreated bed nets
International Business Travelers
Upon return from Zika infected areas even if asymptomatic:
Practice strict adherence to mosquito bite preventive measures for 3
weeks
Males
Prevent potential sexually spread infection through condom use or
abstinence
If diagnosed with Zika or has had symptoms, for at least 6 months
Male partner with no symptoms, for at least 8 weeks after the male returns
Healthcare and Clinical Laboratory Workers
Strict adherence to good infection control and biosafety practices
Universal Precautions for potential BBP exposures
Use of appropriate PPE including gloves, gowns, masks, shields, eye and
mucous membrane protection
Hand Hygiene before and after contact with patients, potentially infectious
materials, and before putting on and removing PPE
Laboratories handling Zika Virus must comply with BSL-2 guidelines and
BSL-3 precautions for some procedures
Engineering controls
Appropriate evaluation and follow-up of potential employee exposures
Case Presentation
GH is a 24 y.o. pregnant ED nurse who presents to your clinic for
follow-up following a needle stick exposure
The source patient gave a history that he returned the prior day from a
business trip to Brazil and several other South American countries
Source patient’s presenting symptoms:
3 day history of fever, rash, joint pain, myalgia, and headache
What are your concerns regarding this potential Bloodborne Pathogen
Exposure?
Case Presentation (Continued)
The source patient’s HIV, Hepatitis B, and Hepatitis C testing was
negative
Source’s blood was positive for virus specific IgM
Source’s Zika virus RT-PCR was positive in both blood and urine
What is your recommendation regarding an appropriate follow-up
protocol for the employee?
Unanswered Questions
Would a therapeutic abortion be a compensable procedure?
Is microcephaly or other developmental brain abnormality found in the
offspring compensable?
Assuming Zika virus becomes endemic in the US, is a temporary
reassignment to an indoor position of an outdoor female worker currently
planning pregnancy or a male with a sexual partner who is or may become
pregnant a reasonable accommodation?
What if temporary reassignment to an indoor position not possible?
Who is financially responsible for the potential consequences of
workplace exposure?
Thank you!