1. HIV Post Exposure Prophylaxis for Occupational Exposure and
HIV Pre Exposure Prophylaxis
3. Guideline Summary Updated US Public Health Service Guidelines for the Management of Occupational �Exposures to HIV and Recommendations �for Postexposure Prophylaxis �
Published October 2005
AETC NRC Slide Set
4. December 2007 AETC National Resource Center, www.aidsetc.org Websites to Access the Guidelines http://www.aidsetc.org
http://aidsinfo.nih.gov
5. December 2007 AETC National Resource Center, www.aidsetc.org Occupational Risk Exposures in Health Care Personnel Percutaneous injury (needlestick, cut) ��OR
Contact of mucous membrane or nonintact skin
WITH:
Blood
Tissue
Other body fluids that are potentially infectious�(cerebrospinal, synovial, pleural, pericardial, peritoneal, or amniotic fluids; semen or vaginal secretions)
An exposure that might place HCP at risk for HIV infection
is defined as a percutaneous injury (e.g., a needlestick or
cut with a sharp object) or contact of mucous membrane or
nonintact skin (e.g., exposed skin that is chapped, abraded,
or afflicted with dermatitis) with blood, tissue, or other body
fluids that are potentially infectious. In addition to blood and
visibly bloody body fluids, semen and vaginal secretions also
are considered potentially infectious. Although semen and
vaginal secretions have been implicated in the sexual transmission
of HIV, they have not been implicated in occupational
transmission from patients to HCP. The following fluids
also are considered potentially infectious: cerebrospinal fluid,
synovial fluid, pleural fluid, peritoneal fluid, pericardial fluid,
and amniotic fluid. The risk for transmission of HIV infection
from these fluids is unknown; the potential risk to HCP
from occupational exposures has not been assessed by epidemiologic
studies in health-care settings. Feces, nasal secretions,
saliva, sputum, sweat, tears, urine, and vomitus are not considered
potentially infectious unless they are visibly bloody;
the risk for transmission of HIV infection from these fluids
and materials is low (7).
Any direct contact (i.e., contact without barrier protection)
to concentrated virus in a research laboratory or production
facility requires clinical evaluation. For human bites, clinical
evaluation must include the possibility that both the person
bitten and the person who inflicted the bite were exposed to
bloodborne pathogens. Transmission of HIV infection by this
route has been reported rarely, but not after an occupational
exposure (8–12).
An exposure that might place HCP at risk for HIV infection
is defined as a percutaneous injury (e.g., a needlestick or
cut with a sharp object) or contact of mucous membrane or
nonintact skin (e.g., exposed skin that is chapped, abraded,
or afflicted with dermatitis) with blood, tissue, or other body
fluids that are potentially infectious. In addition to blood and
visibly bloody body fluids, semen and vaginal secretions also
are considered potentially infectious. Although semen and
vaginal secretions have been implicated in the sexual transmission
of HIV, they have not been implicated in occupational
transmission from patients to HCP. The following fluids
also are considered potentially infectious: cerebrospinal fluid,
synovial fluid, pleural fluid, peritoneal fluid, pericardial fluid,
and amniotic fluid. The risk for transmission of HIV infection
from these fluids is unknown; the potential risk to HCP
from occupational exposures has not been assessed by epidemiologic
studies in health-care settings. Feces, nasal secretions,
saliva, sputum, sweat, tears, urine, and vomitus are not considered
potentially infectious unless they are visibly bloody;
the risk for transmission of HIV infection from these fluids
and materials is low (7).
Any direct contact (i.e., contact without barrier protection)
to concentrated virus in a research laboratory or production
facility requires clinical evaluation. For human bites, clinical
evaluation must include the possibility that both the person
bitten and the person who inflicted the bite were exposed to
bloodborne pathogens. Transmission of HIV infection by this
route has been reported rarely, but not after an occupational
exposure (8–12).
6. December 2007 AETC National Resource Center, www.aidsetc.org NOT Considered Infectious for HIV, unless Visibly Bloody Feces
Nasal Secretions
Saliva
Sputum Sweat
Tears
Urine
Vomitus
7. December 2007 AETC National Resource Center, www.aidsetc.org Risk of HIV Infection following Occupational Exposure to HIV-Infected Blood Approximately 0.3% following percutaneous exposure
Approximately 0.09% following mucous membrane exposure The risks for occupational transmission of HIV have been
described; risks vary with the type and severity of exposure
(2,3,7). In prospective studies of HCP, the average risk for
HIV transmission after a percutaneous exposure to HIVinfected
blood has been estimated to be approximately 0.3%
(95% confidence interval [CI] = 0.2%–0.5%) (7) and after
a mucous membrane exposure, approximately 0.09%
(CI = 0.006%–0.5%) (3). Although episodes of HIV transmission
after nonintact skin exposure have been documented,
the average risk for transmission by this route has not been
precisely quantified but is estimated to be less than the risk
for mucous membrane exposures. The risk for transmission
after exposure to fluids or tissues other than HIV-infected
blood also has not been quantified but is probably considerably
lower than for blood exposures.
The risks for occupational transmission of HIV have been
described; risks vary with the type and severity of exposure
(2,3,7). In prospective studies of HCP, the average risk for
HIV transmission after a percutaneous exposure to HIVinfected
blood has been estimated to be approximately 0.3%
(95% confidence interval [CI] = 0.2%–0.5%) (7) and after
a mucous membrane exposure, approximately 0.09%
(CI = 0.006%–0.5%) (3). Although episodes of HIV transmission
after nonintact skin exposure have been documented,
the average risk for transmission by this route has not been
precisely quantified but is estimated to be less than the risk
for mucous membrane exposures. The risk for transmission
after exposure to fluids or tissues other than HIV-infected
blood also has not been quantified but is probably considerably
lower than for blood exposures.
8. December 2007 AETC National Resource Center, www.aidsetc.org Factors Associated with Increased Risk Visible contamination of device (such as needle) with patient’s blood
Needle having been placed directly into vein or artery
Hollow-bore (vs solid) needle
Deep injury
Source patient with terminal illness
High viral load�(not established in occupational exposure) Epidemiologic and laboratory studies suggest that multiple
factors might affect the risk for HIV transmission after an
occupational exposure (3). In a retrospective case-control study
of HCP who had percutaneous exposure to HIV, increased
risk for HIV infection was associated with exposure to a larger
quantity of blood from the source person as indicated by 1) a
device (e.g., a needle) visibly contaminated with the patient’s
blood, 2) a procedure that involved a needle being placed
directly in a vein or artery, or 3) a deep injury. The risk also
was increased for exposure to blood from source persons with
terminal illness, possibly reflecting either the higher titer of
HIV in blood late in the course of acquired immunodeficiency
syndrome (AIDS) or other factors (e.g., the presence of syncytia-
inducing strains of HIV). A laboratory study that demonstrated
that more blood is transferred by deeper injuries
and hollow-bore needles lends further support for the observed
variation in risk related to blood quantity (3).
The use of source-person viral load as a surrogate measure
of viral titer for assessing transmission risk has not yet been
established. Plasma viral load (e.g., HIV RNA) reflects only
the level of cell-free virus in the peripheral blood; latently
infected cells might transmit infection in the absence of viremia.
Although a lower viral load (e.g., <1,500 RNA copies/
mL) or one that is below the limits of detection probably
indicates a lower titer exposure, it does not rule out the possibility
of transmission.
Epidemiologic and laboratory studies suggest that multiple
factors might affect the risk for HIV transmission after an
occupational exposure (3). In a retrospective case-control study
of HCP who had percutaneous exposure to HIV, increased
risk for HIV infection was associated with exposure to a larger
quantity of blood from the source person as indicated by 1) a
device (e.g., a needle) visibly contaminated with the patient’s
blood, 2) a procedure that involved a needle being placed
directly in a vein or artery, or 3) a deep injury. The risk also
was increased for exposure to blood from source persons with
terminal illness, possibly reflecting either the higher titer of
HIV in blood late in the course of acquired immunodeficiency
syndrome (AIDS) or other factors (e.g., the presence of syncytia-
inducing strains of HIV). A laboratory study that demonstrated
that more blood is transferred by deeper injuries
and hollow-bore needles lends further support for the observed
variation in risk related to blood quantity (3).
The use of source-person viral load as a surrogate measure
of viral titer for assessing transmission risk has not yet been
established. Plasma viral load (e.g., HIV RNA) reflects only
the level of cell-free virus in the peripheral blood; latently
infected cells might transmit infection in the absence of viremia.
Although a lower viral load (e.g., <1,500 RNA copies/
mL) or one that is below the limits of detection probably
indicates a lower titer exposure, it does not rule out the possibility
of transmission.
9. December 2007 AETC National Resource Center, www.aidsetc.org Toxicity of PEP Regimens PEP should be given for a full 4 weeks
Side effects of ARV drugs are common, and a major reason for not completing PEP regimens
Therefore, to the extent possible, regimens that are tolerable for�short-term use should be selected
Because side effects are frequent and particularly because they are cited as a major reason for not
completing PEP regimens as prescribed, the selection of regimens
should be heavily influenced toward those that are tolerable
for short-term use.Because side effects are frequent and particularly because they are cited as a major reason for not
completing PEP regimens as prescribed, the selection of regimens
should be heavily influenced toward those that are tolerable
for short-term use.
10. December 2007 AETC National Resource Center, www.aidsetc.org Resistance to ARVs Resistant virus may be present in a treatment-experienced source patient
Resistance testing at time of exposure is not practical, because results will not be available to influence choice of initial PEP regimen
No data suggest that modifying regimen when resistance test results become available (typically 1-2 weeks) will improve PEP efficacy
Expert consultation is recommended Known or suspected resistance of the source virus to
antiretroviral agents, particularly those that might be included
in a PEP regimen, is a concern for persons making decisions
about PEP (36). Drug resistance to all available antiretroviral
agents has been reported, and cross-resistance within drug
classes is frequent (37). Although occupational transmission
of drug-resistant HIV strains has been reported despite PEP
with combination drug regimens (36,38–40), the effect of
exposure to a resistant virus on transmission and transmissibility
is not well understood.
Since publication of the previous
Known or suspected resistance of the source virus to
antiretroviral agents, particularly those that might be included
in a PEP regimen, is a concern for persons making decisions
about PEP (36). Drug resistance to all available antiretroviral
agents has been reported, and cross-resistance within drug
classes is frequent (37). Although occupational transmission
of drug-resistant HIV strains has been reported despite PEP
with combination drug regimens (36,38–40), the effect of
exposure to a resistant virus on transmission and transmissibility
is not well understood.
Since publication of the previous
11. December 2007 AETC National Resource Center, www.aidsetc.org Initiating PEP PEP should be started as soon as possible, preferably within hours, rather than days, following exposure
When uncertain as to which drugs to choose, start the basic regimen rather than delay
PEP should be administered for 4 weeks, if tolerated
12. December 2007 AETC National Resource Center, www.aidsetc.org Initiating PEP (2) Reevaluate exposed HCP within 72 hours of exposure, especially as additional information about the exposure or source patient becomes available
If the source is found to be HIV negative, PEP should be discontinued
Rapid HIV testing of the source patient can facilitate decisions regarding PEP when the source patient’s HIV status is unknown
13. December 2007 AETC National Resource Center, www.aidsetc.org Selecting the PEP Regimen Selection of number (2 or =3) of drugs is based on assessment of risk for HIV infection
Selection of which agents to use is based largely on potential toxicity of PEP drugs and on likelihood of efficacy (especially in the case of resistant virus)
Few data on efficacy of individual ARV agents in PEP Determining which agents and how many to use or when
to alter a PEP regimen is primarily empiric (34). Guidelines
for treating HIV infection, a condition typically involving a
high total body burden of HIV, recommend use of three or
more drugs (13,14); however, the applicability of these recommendations
to PEP is unknown. Among HIV-infected
patients, combination regimens with three or more
antiretroviral agents have proved superior to monotherapy and
dual-therapy regimens in reducing HIV viral load, reducing
incidence of opportunistic infections and death, and delaying
onset of drug resistance (13,14). In theory, a combination of
drugs with activity at different stages in the viral replication
cycle (e.g., nucleoside analogues with a PI) might offer an
additive preventive effect in PEP, particularly for occupational
exposures that pose an increased risk for transmission or for
transmission of a resistant virus. Although use of a three- (or
more) drug regimen might be justified for exposures that pose
an increased risk for transmission, whether the potential added
toxicity of a third or fourth drug is justified for lower-risk
exposures is uncertain, especially in the absence of data supporting
increased efficacy of more drugs in the context of
occupational PEP. Offering a two-drug regimen is a viable
option, primarily because the benefit of completing a full
course of this regimen exceeds the benefit of adding the third
agent and risking noncompletion (35). In addition, the total
body burden of HIV is substantially lower among exposed
HCP than among persons with established HIV infection.
For these reasons, the recommendations in this report provide
guidance for two- and three- (or more) drug PEP regimens
on the basis of the level of risk for HIV transmission
represented by the exposure (Tables 1 and 2; Appendix).
Determining which agents and how many to use or when
to alter a PEP regimen is primarily empiric (34). Guidelines
for treating HIV infection, a condition typically involving a
high total body burden of HIV, recommend use of three or
more drugs (13,14); however, the applicability of these recommendations
to PEP is unknown. Among HIV-infected
patients, combination regimens with three or more
antiretroviral agents have proved superior to monotherapy and
dual-therapy regimens in reducing HIV viral load, reducing
incidence of opportunistic infections and death, and delaying
onset of drug resistance (13,14). In theory, a combination of
drugs with activity at different stages in the viral replication
cycle (e.g., nucleoside analogues with a PI) might offer an
additive preventive effect in PEP, particularly for occupational
exposures that pose an increased risk for transmission or for
transmission of a resistant virus. Although use of a three- (or
more) drug regimen might be justified for exposures that pose
an increased risk for transmission, whether the potential added
toxicity of a third or fourth drug is justified for lower-risk
exposures is uncertain, especially in the absence of data supporting
increased efficacy of more drugs in the context of
occupational PEP. Offering a two-drug regimen is a viable
option, primarily because the benefit of completing a full
course of this regimen exceeds the benefit of adding the third
agent and risking noncompletion (35). In addition, the total
body burden of HIV is substantially lower among exposed
HCP than among persons with established HIV infection.
For these reasons, the recommendations in this report provide
guidance for two- and three- (or more) drug PEP regimens
on the basis of the level of risk for HIV transmission
represented by the exposure (Tables 1 and 2; Appendix).
14. December 2007 AETC National Resource Center, www.aidsetc.org How Many Drugs to Use? Assess risk for HIV infection:
Type of exposure
Less severe: solid needle or superficial injury
More severe: large-bore hollow needle, deep puncture, visible blood on device, needle used in patient’s artery or vein
Infection status of source
Class 1: asymptomatic HIV infection or known low viral load (<1,500 copies/mL)
Class 2: symptomatic HIV, AIDS, acute seroconversion, or known high viral load
The selection of a drug regimen for HIV PEP must balance
the risk for infection against the potential toxicities of the
agent(s) used. Because PEP is potentially toxic, its use is not
justified for exposures that pose a negligible risk for transmission
(Tables 1 and 2). The initial HIV PEP regimens recommended
in these guidelines should be viewed as suggestions
that can be changed if additional information is obtained
concerning the source of the occupational exposure (e.g.,
possible treatment history or antiretroviral drug resistance) or
if expert consultation is provided. Given the complexity of
choosing and administering HIV PEP, whenever possible,
consultation with an infectious diseases consultant or another
physician who has experience with antiretroviral agents is recommended,
but it should not delay timely initiation of PEP.
Consideration should be given to the comparative risk represented
by the exposure and information regarding the exposure
source, including history of and response to antiretroviral
therapy based on clinical response, CD4+ T-cell counts, viral
load measurements, and current disease stage. When the source
person’s virus is known or suspected to be resistant to one or
more of the drugs considered for the PEP regimen, the
selection of drugs to which the source person’s virus is
unlikely to be resistant is recommended; expert consultation
is advised. If this information is not immediately available,
initiation of PEP, if indicated, should not be delayed; changes
in the regimen can be made after PEP has started, as appropriate.
For HCP who initiate PEP, re-evaluation of the
exposed person should occur within 72 hours postexposure,
especially if additional information about the exposure or
source person becomes available.
The selection of a drug regimen for HIV PEP must balance
the risk for infection against the potential toxicities of the
agent(s) used. Because PEP is potentially toxic, its use is not
justified for exposures that pose a negligible risk for transmission
(Tables 1 and 2). The initial HIV PEP regimens recommended
in these guidelines should be viewed as suggestions
that can be changed if additional information is obtained
concerning the source of the occupational exposure (e.g.,
possible treatment history or antiretroviral drug resistance) or
if expert consultation is provided. Given the complexity of
choosing and administering HIV PEP, whenever possible,
consultation with an infectious diseases consultant or another
physician who has experience with antiretroviral agents is recommended,
but it should not delay timely initiation of PEP.
Consideration should be given to the comparative risk represented
by the exposure and information regarding the exposure
source, including history of and response to antiretroviral
therapy based on clinical response, CD4+ T-cell counts, viral
load measurements, and current disease stage. When the source
person’s virus is known or suspected to be resistant to one or
more of the drugs considered for the PEP regimen, the
selection of drugs to which the source person’s virus is
unlikely to be resistant is recommended; expert consultation
is advised. If this information is not immediately available,
initiation of PEP, if indicated, should not be delayed; changes
in the regimen can be made after PEP has started, as appropriate.
For HCP who initiate PEP, re-evaluation of the
exposed person should occur within 72 hours postexposure,
especially if additional information about the exposure or
source person becomes available.
15. December 2007 AETC National Resource Center, www.aidsetc.org PEP for Percutaneous Injuries
16. December 2007 AETC National Resource Center, www.aidsetc.org PEP for Percutaneous Injuries (2)
17. December 2007 AETC National Resource Center, www.aidsetc.org Which Drugs to Use? Consultation with an expert is recommended
Regimens should be chosen to minimize potential drug toxicities and maximize the likelihood of adherence
If the source patient’s virus is known or suspected to be resistant to ARVs, the PEP regimen should consist of drugs to which the source’s virus is unlikely to be resistant
18. December 2007 AETC National Resource Center, www.aidsetc.org Which Drugs to Use? (3) Basic 2-drug regimens:
Preferred:
ZDV + 3TC or FTC
TDF + 3TC or FTC
Alternative:
d4T + 3TC or FTC
ddI + 3TC or FTC
PHS continues to recommend stratification of HIV PEP
regimens based on the severity of exposure and other considerations
(e.g., concern for antiretroviral drug resistance in the
exposure source). The majority of HIV exposures will warrant
a two-drug regimen, using two NRTIs or one NRTI and
one NtRTI (Tables 1 and 2; Appendix). Combinations that
can be considered for PEP include ZDV and 3TC or
emtricitabine (FTC); d4T and 3TC or FTC; and tenofovir
(TDF) and 3TC or FTC. In the previous PHS guidelines, a
combination of d4T and ddI was considered one of the firstchoice
PEP regimens; however, this regimen is no longer recommended
because of concerns about toxicity (especially
neuropathy and pancreatitis) and the availability of more
tolerable alternative regimens (3).PHS continues to recommend stratification of HIV PEP
regimens based on the severity of exposure and other considerations
(e.g., concern for antiretroviral drug resistance in the
exposure source). The majority of HIV exposures will warrant
a two-drug regimen, using two NRTIs or one NRTI and
one NtRTI (Tables 1 and 2; Appendix). Combinations that
can be considered for PEP include ZDV and 3TC or
emtricitabine (FTC); d4T and 3TC or FTC; and tenofovir
(TDF) and 3TC or FTC. In the previous PHS guidelines, a
combination of d4T and ddI was considered one of the firstchoice
PEP regimens; however, this regimen is no longer recommended
because of concerns about toxicity (especially
neuropathy and pancreatitis) and the availability of more
tolerable alternative regimens (3).
19. December 2007 AETC National Resource Center, www.aidsetc.org Which Drugs to Use? (4) Expanded =3-drug PEP regimens:
Preferred:
LPV/RTV (Kaletra) + basic 2-drug regimen
Alternative:
ATV* ± RTV
FPV ± RTV
IDV** ± RTV
SQV + RTV
NFV***
EFV***
The addition of a third (or even a fourth) drug should be
considered for exposures that pose an increased risk for transmission
or that involve a source in whom antiretroviral drug
resistance is likely. The addition of a third drug for PEP after
a high-risk exposure is based on demonstrated effectiveness in
reducing viral burden in HIV-infected persons. However, no
definitive data exist that demonstrate increased efficacy of
three- compared with two-drug HIV PEP regimens. Previously,
IDV, nelfinavir (NFV), EFV, or abacavir (ABC) were
recommended as first-choice agents for inclusion in an
expanded PEP regimen (3).
PHS now recommends that expanded PEP regimens be PIbased.
The PI preferred for use in expanded PEP regimens is
lopinavir/ritonavir (LPV/RTV). Other PIs acceptable for use
in expanded PEP regimens include atazanavir, fosamprenavir,
RTV-boosted IDV, RTV-boosted SQV, or NFV (Appendix).
Although side effects are common with NNRTIs, EFV may
be considered for expanded PEP regimens, especially when
resistance to PIs in the source person’s virus is known or suspected.
Caution is advised when EFV is used in women of
childbearing age because of the risk of teratogenicity.
Drugs that may be considered as alternatives to the expanded
regimens, with warnings about side effects and other adverse
events, are EFV or PIs as noted in the Appendix in combination
with ddl and either 3TC or FTC. The fusion inhibitor
enfuvirtide (T20) has theoretic benefits for use in PEP
because its activity occurs before viral-host cell integration;
however, it is not recommended for routine HIV PEP
because of the mode of administration (subcutaneous injection
twice daily). Furthermore, use of T20 has the potential for
production of anti-T20 antibodies that cross react with HIV
gp41. This could result in a false-positive, enzyme immunoassay
(EIA) HIV antibody test among HIV-uninfected patients.
A confirmatory Western blot test would be expected to be
negative in such cases. T20 should only be used with expert
consultation.
From the Morbidity and Mortality Weekly Report (MMWR) <http://www.cdc.gov/mmwr/index.html> �December 14, 2007 / 56(49);1291-1292 :
… on September 10, 2007, Pfizer, Inc. issued a letter* warning health-care providers about the use of Viracept® (nelfinavir) (Pfizer, Inc., New York, New York), another protease inhibitor, because the Viracept manufactured in Europe contained high levels of ethyl methane mesylate (EMS). EMS is a byproduct of the manufacturing process and a known animal carcinogen, mutagen, and teratogen. The level at which EMS might become carcinogenic or teratogenic in humans is not known. The warning in the letter applies to pregnant women and states that information about the ability of EMS to cross the placenta or to enter breast milk is currently unknown. A review of data from the Antiretroviral Pregnancy Registry, which collects data on approximately 6,000 HIV-infected pregnant women, indicated that, during January 1989--January 2007, no statistically significant difference was observed in the prevalence of birth defects among the infants of women who used Viracept compared with those whose mothers used other antiretroviral therapies (3). Nonetheless, the Food and Drug Administration (FDA) recommends that pregnant women limit their exposure to EMS during pregnancy. Until further notice, pregnant women who need to begin antiretroviral therapy or HIV PEP should not be offered regimens containing Viracept. As a precautionary measure, pregnant women currently receiving Viracept should be switched to an alternative antiretroviral therapy while Pfizer and FDA work to implement a long-term EMS specification for Viracept. Specific recommendations for use of antiretroviral agents in pregnant HIV-1--infected patients are indicated in the U.S. Department of Health and Human Services guidelines (4) and can be consulted to determine an alternative treatment option.
Because nearly 80% of U.S. health-care personnel are female (5) and many of these women are of child-bearing age, this updated information about Viracept might be relevant to the choice of drugs included in an HIV PEP regimen taken by female health-care personnel. Additional information and guidance regarding management of specific exposures are available from the National Clinicians' Post-Exposure Prophylaxis Hotline by telephone (888-448-4911) or online (http://www.ucsf.edu/hivcntr).
The addition of a third (or even a fourth) drug should be
considered for exposures that pose an increased risk for transmission
or that involve a source in whom antiretroviral drug
resistance is likely. The addition of a third drug for PEP after
a high-risk exposure is based on demonstrated effectiveness in
reducing viral burden in HIV-infected persons. However, no
definitive data exist that demonstrate increased efficacy of
three- compared with two-drug HIV PEP regimens. Previously,
IDV, nelfinavir (NFV), EFV, or abacavir (ABC) were
recommended as first-choice agents for inclusion in an
expanded PEP regimen (3).
PHS now recommends that expanded PEP regimens be PIbased.
The PI preferred for use in expanded PEP regimens is
lopinavir/ritonavir (LPV/RTV). Other PIs acceptable for use
in expanded PEP regimens include atazanavir, fosamprenavir,
RTV-boosted IDV, RTV-boosted SQV, or NFV (Appendix).
Although side effects are common with NNRTIs, EFV may
be considered for expanded PEP regimens, especially when
resistance to PIs in the source person’s virus is known or suspected.
Caution is advised when EFV is used in women of
childbearing age because of the risk of teratogenicity.
Drugs that may be considered as alternatives to the expanded
regimens, with warnings about side effects and other adverse
events, are EFV or PIs as noted in the Appendix in combination
with ddl and either 3TC or FTC. The fusion inhibitor
enfuvirtide (T20) has theoretic benefits for use in PEP
because its activity occurs before viral-host cell integration;
however, it is not recommended for routine HIV PEP
because of the mode of administration (subcutaneous injection
twice daily). Furthermore, use of T20 has the potential for
production of anti-T20 antibodies that cross react with HIV
gp41. This could result in a false-positive, enzyme immunoassay
(EIA) HIV antibody test among HIV-uninfected patients.
A confirmatory Western blot test would be expected to be
negative in such cases. T20 should only be used with expert
consultation.
From the Morbidity and Mortality Weekly Report (MMWR) <http://www.cdc.gov/mmwr/index.html> December 14, 2007 / 56(49);1291-1292 :
… on September 10, 2007, Pfizer, Inc. issued a letter* warning health-care providers about the use of Viracept® (nelfinavir) (Pfizer, Inc., New York, New York), another protease inhibitor, because the Viracept manufactured in Europe contained high levels of ethyl methane mesylate (EMS). EMS is a byproduct of the manufacturing process and a known animal carcinogen, mutagen, and teratogen. The level at which EMS might become carcinogenic or teratogenic in humans is not known. The warning in the letter applies to pregnant women and states that information about the ability of EMS to cross the placenta or to enter breast milk is currently unknown. A review of data from the Antiretroviral Pregnancy Registry, which collects data on approximately 6,000 HIV-infected pregnant women, indicated that, during January 1989--January 2007, no statistically significant difference was observed in the prevalence of birth defects among the infants of women who used Viracept compared with those whose mothers used other antiretroviral therapies (3). Nonetheless, the Food and Drug Administration (FDA) recommends that pregnant women limit their exposure to EMS during pregnancy. Until further notice, pregnant women who need to begin antiretroviral therapy or HIV PEP should not be offered regimens containing Viracept. As a precautionary measure, pregnant women currently receiving Viracept should be switched to an alternative antiretroviral therapy while Pfizer and FDA work to implement a long-term EMS specification for Viracept. Specific recommendations for use of antiretroviral agents in pregnant HIV-1--infected patients are indicated in the U.S. Department of Health and Human Services guidelines (4) and can be consulted to determine an alternative treatment option.
Because nearly 80% of U.S. health-care personnel are female (5) and many of these women are of child-bearing age, this updated information about Viracept might be relevant to the choice of drugs included in an HIV PEP regimen taken by female health-care personnel. Additional information and guidance regarding management of specific exposures are available from the National Clinicians' Post-Exposure Prophylaxis Hotline by telephone (888-448-4911) or online (http://www.ucsf.edu/hivcntr).
20. December 2007 AETC National Resource Center, www.aidsetc.org Resources for Consultation Local experts identified for PEP�(eg, ID consultant, hospital epidemiologist)
National Clinicians’ Postexposure Prophylaxis Hotline (PEPline)
24-hour telephone consultation�service: 888-448-4911
21. December 2007 AETC National Resource Center, www.aidsetc.org Follow-Up of Exposed HCP All exposed HCP should receive the following, regardless of whether they receive PEP:
Follow-up counseling, postexposure testing, and medical evaluation
HIV-antibody testing (EIA) to monitor for seroconversion: at baseline, 6 weeks, 12 weeks, and 6 months after exposure; `
HIV testing if exposed HCP develops illness compatible with acute retroviral syndrome
HCP with occupational exposure to HIV should receive
follow-up counseling, postexposure testing, and medical evaluation
regardless of whether they receive PEP. HIV-antibody
testing by enzyme immunoassay should be used to monitor
HCP for seroconversion for >6 months after occupational HIV
exposure. After baseline testing at the time of exposure, follow-
up testing could be performed at 6 weeks, 12 weeks, and
6 months after exposure. Extended HIV follow-up (e.g., for
12 months) is recommended for HCP who become infected
with HCV after exposure to a source coinfected with HIV
and HCV. Whether extended follow-up is indicated in other
circumstances (e.g., exposure to a source co-infected with HIV
and HCV in the absence of HCV seroconversion or for exposed
persons with a medical history suggesting an impaired
ability to mount an antibody response to acute infection) is
unclear. Although rare instances of delayed HIV
seroconversion have been reported (56,57), the infrequency
of this occurrence does not warrant adding to exposed persons’
anxiety by routinely extending the duration of
postexposure follow-up. However, this should not preclude a
decision to extend follow-up in a particular situation based
on the clinical judgment of the exposed person’s health-care
provider. The routine use of direct virus assays (e.g., HIV p24
antigen EIA or tests for HIV ribonucleic acid) to detect infection
among exposed HCP usually is not recommended (58).
Despite the ability of direct virus assays to detect HIV infection
a few days earlier than EIA, the infrequency of occupational
seroconversion and increased costs of these tests do not
warrant their routine use in this setting. In addition, the relatively
high rate of false-positive results of these tests in this
setting could lead to unnecessary anxiety or treatment (59,60).
Nevertheless, HIV testing should be performed on any
exposed person who has an illness compatible with an acute
retroviral syndrome, regardless of the interval since exposure.
A person in whom HIV infection is identified should be
referred for medical management to a specialist with expertise
in HIV treatment and counseling. Health-care providers caring
for persons with occupationally acquired HIV infection
can report these cases to CDC at telephone 800-893-0485 or
to their state health departments.
HCP with occupational exposure to HIV should receive
follow-up counseling, postexposure testing, and medical evaluation
regardless of whether they receive PEP. HIV-antibody
testing by enzyme immunoassay should be used to monitor
HCP for seroconversion for >6 months after occupational HIV
exposure. After baseline testing at the time of exposure, follow-
up testing could be performed at 6 weeks, 12 weeks, and
6 months after exposure. Extended HIV follow-up (e.g., for
12 months) is recommended for HCP who become infected
with HCV after exposure to a source coinfected with HIV
and HCV. Whether extended follow-up is indicated in other
circumstances (e.g., exposure to a source co-infected with HIV
and HCV in the absence of HCV seroconversion or for exposed
persons with a medical history suggesting an impaired
ability to mount an antibody response to acute infection) is
unclear. Although rare instances of delayed HIV
seroconversion have been reported (56,57), the infrequency
of this occurrence does not warrant adding to exposed persons’
anxiety by routinely extending the duration of
postexposure follow-up. However, this should not preclude a
decision to extend follow-up in a particular situation based
on the clinical judgment of the exposed person’s health-care
provider. The routine use of direct virus assays (e.g., HIV p24
antigen EIA or tests for HIV ribonucleic acid) to detect infection
among exposed HCP usually is not recommended (58).
Despite the ability of direct virus assays to detect HIV infection
a few days earlier than EIA, the infrequency of occupational
seroconversion and increased costs of these tests do not
warrant their routine use in this setting. In addition, the relatively
high rate of false-positive results of these tests in this
setting could lead to unnecessary anxiety or treatment (59,60).
Nevertheless, HIV testing should be performed on any
exposed person who has an illness compatible with an acute
retroviral syndrome, regardless of the interval since exposure.
A person in whom HIV infection is identified should be
referred for medical management to a specialist with expertise
in HIV treatment and counseling. Health-care providers caring
for persons with occupationally acquired HIV infection
can report these cases to CDC at telephone 800-893-0485 or
to their state health departments.
22. December 2007 AETC National Resource Center, www.aidsetc.org Follow-Up of Exposed HCP (3) Psychologic impact of occupational exposure to HIV may be substantial; psychologic counseling should be an essential component of the management and care of exposed HCP
23. Pre-Exposure Prophylaxis iPrEX study 2008-2010 enrolled 2,499 HIV negative MSM engaged in high-risk sexual behavior
Participants were randomized to take daily tenofovir/emtricitabine (Truvada) or placebo
Visits every 4 weeks with HIV testing, risk-reduction counseling, dispensing of pills and condoms
Average follow-up 1.2 years
Results: overall 44% reduction in new HIV infections in the PrEP arm; risk reduction strongly related to adherence (73% for those with adherence >90% vs. 21% for those with <90% adherence)
December 2007 AETC National Resource Center, www.aidsetc.org
24.
CASE STUDY
December 2007 AETC National Resource Center, www.aidsetc.org
26. Post-exposure Prophylaxis�Case 2: Initial Evaluation and Post-exposure Prophylaxis PEP is not indicated at this time because too much time has elapsed since the exposure.
PEP should be initiated if viral load testing on the source patient reveals a high viral load.
A two-drug PEP regimen should be initiated immediately.
A three-drug PEP regimen should be initiated immediately.
28. This presentation�must be evaluated using the HIV 101�evaluation which may be found at the �following WEBSITE �(use all lowercase letters)
�http://www.surveymonkey.com/s/9FMWRCShiv10112aug2011
�
EVALUATION DEADLINE�11:00 p.m. Friday, August 19, 2011 December 2007 AETC National Resource Center, www.aidsetc.org
