● YF-VAX SUMMARY
http://www.druglib.com/druginfo/yf-vax/
YF-VAXR, Yellow Fever Vaccine, for subcutaneous
use, is prepared by culturing the 17D-204
strain of yellow fever virus in living avian
leukosis virus-free (ALV-free) chicken embryos.
The vaccine contains sorbitol and gelatin
as a stabilizer, is lyophilized, and is hermetically
sealed under nitrogen. No preservative is
added. The vaccine must be reconstituted
immediately before use with the sterile diluent
provided (Sodium Chloride Injection USP -
contains no preservative). YF-VAXR is formulated
to contain not less than 4.74 log10 plaque
forming units (PFU) per 0.5 mL dose. The
vaccine appears slightly opalescent and light
orange in color after reconstitution.
● YF-VAXR is recommended for active immunization
of persons 9 months of age and older in the
following categories:
● PERSONS LIVING IN OR TRAVELING TO ENDEMIC
AREAS
While the actual risk for contracting yellow
fever during travel is probably low, variability
of itineraries and behaviors and the seasonal
incidence of disease make it difficult to
predict the actual risk for a given individual
traveling to a known endemic or epidemic
area. Persons greater than or equal to 9
months of age traveling to or living in areas
of South America and Africa where yellow
fever infection is officially reported at
the time of travel should be vaccinated.
Vaccination is also recommended for travel
outside the urban areas of countries that
do not officially report the disease but
that lie in a yellow fever endemic zone.
● INTERNATIONAL TRAVEL
Yellow fever vaccination may be required
for international travel. Some countries
in Africa require evidence of vaccination
from all entering travelers and some countries
may waive the requirements for travelers
staying less than 2 weeks that are coming
from areas where there is no current evidence
of significant risk for contracting yellow
fever. Some countries require an individual,
even if only in transit, to have a valid
International Certificate of Vaccination
if the individual has been in countries either
known or thought to harbor yellow fever virus.
The certificate becomes valid 10 days after
vaccination with YF-VAXR. 2,21
In no instance should infants less than 9
months of age receive yellow fever vaccine,
because of the risk of encephalitis (see
CONTRAINDICATIONS and ADVERSE REACTIONS sections).
● LABORATORY PERSONNEL
Those laboratory personnel who might be exposed
to virulent yellow fever virus or to concentrated
preparations of the yellow fever vaccine
strain by direct or indirect contact or by
aerosols should be vaccinated. 2
As with any vaccine, vaccination with YF-VAXR
may not protect 100% of susceptible individuals
(see CLINICAL PHARMACOLOGY section).
For simultaneous administration of other
vaccines see PRECAUTIONS section, Drug Interactions
subsection.
● DESCRIPTION
YF-VAXR, Yellow Fever Vaccine, for subcutaneous
use, is prepared by culturing the 17D-204
strain of yellow fever virus in living avian
leukosis virus-free (ALV-free) chicken embryos.
The vaccine contains sorbitol and gelatin
as a stabilizer, is lyophilized, and is hermetically
sealed under nitrogen. No preservative is
added. The vaccine must be reconstituted
immediately before use with the sterile diluent
provided (Sodium Chloride Injection USP -
contains no preservative). YF-VAXR is formulated
to contain not less than 4.74 log10 plaque
forming units (PFU) per 0.5 mL dose. The
vaccine appears slightly opalescent and light
orange in color after reconstitution.
● CLINICAL PHARMACOLOGY
Yellow fever is an acute viral illness caused
by a mosquito-borne flavivirus. The clinical
spectrum of yellow fever is highly variable,
from subclinical infection to overwhelming
pansystemic disease. Yellow fever has an
abrupt onset after an incubation period of
3 to 6 days, and usually includes fever,
prostration, headache, photophobia, lumbosacral
pain, extremity pain (especially the knee
joints), epigastric pain, anorexia, and vomiting.
The illness may progress to liver and renal
failure, and hemorrhagic symptoms and signs
caused by thrombocytopenia and abnormal clotting
and coagulation may occur. The case-fatality
rate of yellow fever varies widely in different
studies and may be different for Africa compared
to South America, but is typically 20% or
higher. Jaundice or other gross evidence
of severe liver disease is associated with
higher mortality rates. 1
Two live, attenuated yellow fever vaccines,
strains 17D-204 and 17DD, were derived in
parallel in the 1930s. Historical data suggest
that these "17D vaccines" have
identical safety and immunogenicity profiles.
Despite a marked reduction in the world-wide
incidence of yellow fever in the last five
decades due to the extensive use of 17D vaccines
and mosquito eradication programs, at least
seven tropical South American countries (Bolivia,
Brazil, Colombia, Ecuador, French Guiana,
Peru, and Venezuela) and much of sub-Saharan
Africa2 currently experience yellow fever
epidemics. However, the actual areas of yellow
fever virus activity far exceed the infected
zones officially reported for epidemics.
Approximately 200,000 yellow fever cases
have been reported to occur world-wide each
year. Six fatalities from yellow fever were
reported between 1996 and July 2002, among
unimmunized American and European travelers
who visited rural areas within the yellow
fever endemic zone.3-8
Vaccination with 17D strain viruses is predicted
to elicit an immune response identical in
quality to that induced by wild-type infection.
This response is presumed to result from
initial infection of cells in the dermis
or other subcutaneous tissues near the injection
site, with subsequent replication and limited
spread of virus leading to the processing
and presentation of viral antigens to the
immune system, as would occur during infection
with wild-type yellow fever virus. The humoral
immune response to the viral structural proteins,
as opposed to a cell-mediated response, is
most important in the protective effect induced
by 17D vaccines. Yellow fever antibodies
with specificities that prevent or abort
infection of cells are detected as neutralizing
antibodies in assays that measure the ability
of serum to reduce plaque formation in tissue
culture cells. The titer of virus neutralizing
antibodies in sera of vaccinees is a surrogate
for efficacy. A log10 neutralization index
(LNI, measured by a plaque reduction assay)
of 0.7 or greater was shown to protect 90%
of monkeys from lethal intracerebral challenge.
9 This is the definition of seroconversion
adopted for clinical trials of yellow fever
vaccine. The standard has also been adopted
by the World Health Organization (WHO) for
efficacy of yellow fever vaccines in humans.
10
The neutralizing antibody response to 17D
vaccines has been evaluated in several uncontrolled
studies since the late 1930s. In 24 studies
conducted world-wide between 1962 and 1997
using 17D vaccines involving a total of 2,529
adults and 991 infants and children, the
seroconversion rate was greater than 91%
in all but two studies and never lower than
81%. There were no significant age-related
differences in immunogenicity.1
Five of these 24 studies were conducted in
the US between 1962 and 1993 and included
208 adults who received YF-VAXR. The seroconversion
rate was 81% in one study involving 32 subjects
and 97% to 100% in the other four studies.
11-15
In 2001, YF-VAXR was used as a control in
a double-blind, randomized comparison trial
with another 17D-204 vaccine, conducted at
nine centers in the US. YF-VAXR was administered
to 725 adults >/=18 years old with a mean
age of 38 years. Three hundred twelve of
these subjects who received YF-VAXR were
evaluated serologically, and 99.3% of them
seroconverted with a mean LNI of 2.21. The
LNI was slightly higher among males compared
to females and slightly lower among Hispanic
and African-American subjects compared to
others, but these differences were not significant
with respect to the protective effect of
the vaccine. There was no difference in mean
LNI for subjects <40 years old compared
to subjects >/=40 years old. Due to the
small number of subjects (1.7%) with prior
flavivirus immunity, it was not possible
to draw conclusions about the role of this
factor in the immune response.16
Results of one clinical trial involving 33
HIV-positive adults residing in the US indicate
that the seroconversion rate to 17D-204 vaccine
may be reduced in these patients. 17
In pregnancy or in immunosuppressed individuals
the seroconversion rate after administration
of yellow fever vaccine may be significantly
reduced. 18
Existing data suggest that the small percentage
of immunologically normal subjects who fail
to develop an immune response to an initial
vaccination may do so upon re-vaccination.
19
In two separate clinical trials of 17D-204
vaccines, 90% of subjects seroconverted within
10 days after vaccination,20 and 100% of
subjects seroconverted within 14 days. 11
Thus, International Health regulations stipulate
that the vaccination certificate for yellow
fever is valid 10 days after administration
of YF-VAXR. 21
● INDICATIONS AND USAGE
YF-VAXR is recommended for active immunization
of persons 9 months of age and older in the
following categories:
● PERSONS LIVING IN OR TRAVELING TO ENDEMIC
AREAS
While the actual risk for contracting yellow
fever during travel is probably low, variability
of itineraries and behaviors and the seasonal
incidence of disease make it difficult to
predict the actual risk for a given individual
traveling to a known endemic or epidemic
area. Persons greater than or equal to 9
months of age traveling to or living in areas
of South America and Africa where yellow
fever infection is officially reported at
the time of travel should be vaccinated.
Vaccination is also recommended for travel
outside the urban areas of countries that
do not officially report the disease but
that lie in a yellow fever endemic zone.
● INTERNATIONAL TRAVEL
Yellow fever vaccination may be required
for international travel. Some countries
in Africa require evidence of vaccination
from all entering travelers and some countries
may waive the requirements for travelers
staying less than 2 weeks that are coming
from areas where there is no current evidence
of significant risk for contracting yellow
fever. Some countries require an individual,
even if only in transit, to have a valid
International Certificate of Vaccination
if the individual has been in countries either
known or thought to harbor yellow fever virus.
The certificate becomes valid 10 days after
vaccination with YF-VAXR. 2,21
In no instance should infants less than 9
months of age receive yellow fever vaccine,
because of the risk of encephalitis (see
CONTRAINDICATIONS and ADVERSE REACTIONS sections).
● LABORATORY PERSONNEL
Those laboratory personnel who might be exposed
to virulent yellow fever virus or to concentrated
preparations of the yellow fever vaccine
strain by direct or indirect contact or by
aerosols should be vaccinated. 2
As with any vaccine, vaccination with YF-VAXR
may not protect 100% of susceptible individuals
(see CLINICAL PHARMACOLOGY section).
For simultaneous administration of other
vaccines see PRECAUTIONS section, Drug Interactions
subsection.
● DOSAGE AND ADMINISTRATION
Primary vaccination: For all eligible persons,
a single subcutaneous injection of 0.5 mL
of reconstituted vaccine (formulated to contain
not less than 4.74 log10 PFU) should be administered.
Immunity develops by the 10th day after primary
vaccination.11,23,44
Booster Doses: Re-immunization with 17D vaccine
is recommended every 10 years for those at
continuing risk of exposure and is required
by International Health Regulations. 22 Revaccination
boosts antibody titer, although evidence
from several studies suggests that yellow
fever vaccine immunity persists for at least
30 to 35 years and probably for life,45 and
epidemiologic data suggest that a single
infection with wild-type yellow fever virus
provides lifelong immunity against illness
due to subsequent exposure.
● SIMULTANEOUS ADMINISTRATION OF OTHER
VACCINES
Determination of whether to administer yellow
fever vaccine and other immunobiologics simultaneously
should be made on the basis of convenience
to the traveler in completing the desired
vaccinations before travel and on information
regarding possible interference. Limited
data are available related to administration
of YF-VAXR with other vaccines. (See PRECAUTIONS
section, Drug Interactions subsection.) In
those specific instances where vaccines may
be given concurrently, injections should
be administered at separate sites. Where
there are no data to support administration
of YF-VAXR concurrently with other vaccines,
4 weeks should elapse between sequential
vaccinations. 2
● VACCINE PREPARATION:
Reconstitute the vaccine using only the diluent
supplied (0.6 mL vial of Sodium Chloride
Injection USP for single dose vial of vaccine
and 3 mL vial of Sodium Chloride Injection
USP for 5 dose vial of vaccine). Draw the
volume of the diluent, shown on the diluent
label, into a suitable size syringe and slowly
inject into the vial containing the vaccine.
Allow the reconstituted vaccine to sit for
one to two minutes and then carefully swirl
mixture until a uniform suspension is achieved.
Avoid vigorous shaking as this tends to cause
foaming of the suspension. Do not dilute
reconstituted vaccine.
The vaccine should appear slightly opalescent
and light orange in color after reconstitution.
If the product contains extraneous particulate
matter or is discolored, do not administer
the vaccine.
SWIRL VACCINE WELL before withdrawing each
dose. Administer the single immunizing dose
of 0.5 mL subcutaneously using a 5/8- to
3/4-inch long needle22 within 60 minutes
of reconstituting the vial.
Properly dispose of all reconstituted vaccine
and containers that remain unused after one
hour (eg, sterilized or disposed in red hazardous
waste containers). 2
● DESENSITIZATION22
If immunization is imperative and the individual
has a history of severe egg sensitivity and
has a positive skin test to the vaccine,
this desensitization procedure may be used
to administer the vaccine.
The following successive doses should be
administered subcutaneously at 15- to 20-minute
intervals:
1.0.05 mL of 1:10 dilution
2.0.05 mL of full strength
3.0.10 mL of full strength
4.0.15 mL of full strength
5.0.20 mL of full strength
Desensitization should only be performed
under the direct supervision of a physician
experienced in the management of anaphylaxis
with necessary emergency equipment immediately
available.
● HOW SUPPLIED
Vial, 1 Dose (5 per package) with 0.6 mL
vial of diluent (5 per package) for administration
with needle and syringe. Product No. 49281-915-01
Vial, 5-Dose, with 3 mL vial of diluent,
for administration with needle and syringe.
Product No. 49281-915-05
YF-VAXAR (Yellow Fever Vaccine) in the US
is supplied only to designated Yellow Fever
Vaccination Centers authorized to issue valid
certificates of Yellow Fever Vaccination.
Location of the nearest Yellow Fever Vaccination
Centers may be obtained from the Centers
for Disease Control and Prevention, Atlanta,
GA 30333, state or local health departments.
● STORAGE
SHIPPING CONDITIONS AND TEMPERATURES
YF-VAXAR is shipped frozen in a container
with solid carbon dioxide; do not use unless
the shipping case contains some dry ice upon
arrival.
Upon receipt, lyophilized vaccine must be
maintained continuously at 0A° - 5A°C (32A°
- 41A°F). DO NOT REFREEZE.
YF-VAXAR does not contain a preservative;
therefore, all reconstituted vaccine and
containers which remain unused after one
hour must be properly disposed (eg, sterilized
or disposed in red hazardous waste containers).
2
The following stability information for YF-VAXAR
is provided for those countries or areas
of the world where an adequate cold chain
is a problem and inadvertent exposure to
abnormal temperatures has occurred.
Temperature
A°C Test Number of
Lots Tested Computed
Half-Life
(Days)
35A° - 37A°C Mouse Assay 3 14.0
35A° - 37A°C Vero Cell Assay 3 13.9
45A° - 47A°C Mouse Assay 3 3.3
45A° - 47A°C Vero Cell Assay 3 4.5
YF-VAXAR is formulated to satisfy the current
US potency requirements of not less than
4.74 log10 PFU per 0.5 mL dose and meets
the minimum requirements of WHO. 10
● WARNINGS
Anaphylaxis may occur following the use of
YF-VAXR, even in individuals with no prior
history of hypersensitivity to the vaccine
components.
EPINEPHRINE INJECTION (1:1000) SHOULD ALWAYS
BE IMMEDIATELY AVAILABLE IN CASE OF AN UNEXPECTED
ANAPHYLACTIC OR OTHER SERIOUS ALLERGIC REACTION.
Yellow fever vaccines must be considered
as a possible, but rare, cause of vaccine-associated
viscerotropic disease2(previously described
as multiple organ system failure),2,24 that
is similar to fulminant yellow fever caused
by wild type yellow fever virus. Available
evidence suggests that the occurrence of
this syndrome may depend upon the presence
of undefined host factors, rather than intrinsic
virulence of the yellow fever strain 17D
vaccine viruses isolated from subjects with
vaccine-associated viscerotropic disease.24-27(See
ADVERSE REACTIONS section).
Vaccine-associated neurotropic disease2(previously
described as post-vaccinal encephalitis1)
is a known rare adverse event associated
with yellow fever vaccination. Age less than
9 months and immunosuppression are known
risk factors for this adverse event. (See
CONTRAINDICATIONS and ADVERSE REACTIONS sections).
● PRECAUTIONS
● GENERAL
Prior to an injection of any vaccine, all
known precautions should be taken to prevent
adverse events. The patient's previous immunization
history, current health status, and medical
history should be reviewed for previous hypersensitivity
reactions and other adverse events related
to this vaccine or similar vaccines and for
possible sensitivity to dry natural latex
rubber. The stopper of the vial contains
dry natural latex rubber that may cause allergic
reactions. In some instances where symptoms
appear soon after a vaccine is administered,
differentiation between allergic reaction
to the vaccine and reaction to an environmental
allergen may not be possible. 22
EPINEPHRINE INJECTION (1:1000) SHOULD ALWAYS
BE IMMEDIATELY AVAILABLE IN CASE OF AN UNEXPECTED
ANAPHYLACTIC OR OTHER SERIOUS ALLERGIC REACTION.
A separate, sterile syringe and needle should
be used for each patient to prevent transmission
of hepatitis or other infectious agents from
person to person. Needles should not be recapped
and should be properly disposed (eg, sterilized
or disposed in red hazardous waste containers).
● HYPERSENSITIVITY REACTIONS
YF-VAXR should not be administered to an
individual with a history of hypersensitivity
to egg or chicken protein (see CONTRAINDICATIONS
section). However, if a subject is suspect
as being an egg-sensitive individual, the
following test can be performed before the
vaccine is administered: 22
Scratch, prick, or puncture test: Place a
drop of a 1:10 dilution of the vaccine in
physiologic saline on a superficial scratch,
prick, or puncture on the volar surface of
the forearm. Positive (histamine) and negative
(physiologic saline) controls should also
be used. The test is read after 15 to 20
minutes. A positive test is a wheal 3 mm
larger than that of the saline control, usually
with surrounding erythema. The histamine
control must be positive for valid interpretation.
If the result of this test is negative, an
intradermal (ID) test should be performed.
Intradermal test: Inject a dose of 0.02 mL
of a 1:100 dilution of the vaccine in physiologic
saline. Positive and negative control skin
tests should be performed concurrently. A
wheal 5 mm or larger than the negative control
with surrounding erythema is considered a
positive reaction.
If vaccination is considered essential, despite
a positive skin test, then desensitization
can be considered (see DOSAGE AND ADMINISTRATION
section, Desensitization subsection).
● INFORMATION FOR PATIENTS
Prior to administration of YF-VAXR, potential
vaccinees or their parents or guardians should
be asked about their recent health status.
All potential vaccinees or their parents
or guardians should be fully informed of
the benefits and risks of immunization and
potential for adverse events that have been
temporally associated with YF-VAXR administration.
Vaccinees or their parents or guardians should
be instructed to report all serious adverse
events that occur up to 30 days post-vaccination
to their health-care provider.
All travelers should seek information regarding
vaccination requirements by consulting local
health departments, the Centers for Disease
Control and Prevention (CDC), and WHO. Travel
agencies, international airlines, and/or
shipping lines may also have up-to-date information.
Such requirements may be strictly enforced,
particularly for persons traveling from Africa
or South America to Asia. Travelers should
consult the latest published version of Health
Information for International Travel to determine
requirements and regulations for vaccination.23
An International Certificate of Vaccination
should be completed, signed, and validated
with the center's stamp where the vaccine
is administered and provided to all vaccinees.
The immunization record should contain the
date, lot number and manufacturer of the
vaccine administered. 28-30 Subjects should
be told that US vaccination certificates
are valid for a period of 10 years commencing
10 days after initial vaccination or revaccination.
● DRUG INTERACTIONS
Data are limited in regard to the interaction
of YF-VAXR with other vaccines.
Measles (Schwartz strain) vaccine, diphtheria
and tetanus toxoids and pertussis vaccine
adsorbed (DTP), 31 Hepatitis A and Hepatitis
B vaccines, 2,12,32,33 meningococcal vaccine,
MenomuneR - A/C/Y/W-135, and typhoid vaccine,
Typhim ViR, 2,12,32 have been administered
with yellow fever vaccine at separate injection
sites.
No data exist on possible interference between
yellow fever and rabies or Japanese encephalitis
vaccines. 2
In a prospective study, persons given 5 cc
of commercially available immune globulin
did not experience alterations in immunologic
responses to the yellow fever vaccine.2,34
The anti-malarial drug chloroquine has been
administered with yellow fever vaccine.2,35
● PATIENTS ON CORTICOSTEROID THERAPY
Oral Prednisone or other systemic corticosteroid
therapy may have an immunosuppressive effect
on recipients of yellow fever vaccine that
potentially decreases immunogenicity and
increases the risk of adverse events (see
CONTRAINDICATIONS section). Intra-articular,
bursal, or tendon injections with Prednisone
or other corticosteroids should not constitute
an increased hazard to recipients of yellow
fever vaccine.
● PATIENTS WITH ASYMPTOMATIC HIV INFECTION
Subjects with asymptomatic HIV infection
who have had recent laboratory verification
of adequate immune system function and who
cannot avoid potential exposure to yellow
fever virus should be offered the choice
of vaccination. Vaccinees should be monitored
for possible adverse effects. The seroconversion
rate to 17D vaccines is likely to be reduced
in these patients. 17 Therefore, documentation
of a protective antibody response is recommended
before travel. (See CLINICAL PHARMACOLOGY
section.) For discussion of this subject
and for documentation of the immune response
to vaccine where it is deemed essential,
the CDC may be contacted (970) 221-6400.
● CARCINOGENESIS, MUTAGENESIS, IMPAIRMENT
OF FERTILITY
● YF-VAXR has not been evaluated for its
carcinogenic or mutagenic potential or its
effect on fertility.
PREGNANCY
REPRODUCTIVE STUDIES -- PREGNANCY CATEGORY
C
Animal reproduction studies have not been
conducted with YF-VAXR. It is also not known
whether YF-VAXR can cause fetal harm when
administered to a pregnant woman or can affect
reproductive capacity. Because of the lack
of large-scale controlled studies to verify
its safety in pregnancy, YF-VAXR should be
given to a pregnant woman only if clearly
needed. The seroconversion rate to 17D vaccines
is markedly reduced in pregnant women. (See
CLINICAL PHARMACOLOGY section.)18 For discussion
of this subject and for documentation of
a protective immune response to vaccine where
it is deemed essential, the CDC may be contacted
at (970) 221-6400.
● NURSING MOTHERS
It is not known whether this vaccine is excreted
in human milk. There have been no reports
of adverse events or transmission of 17D
vaccine virus from nursing mother to infant.
However, vaccination of nursing mothers should
be avoided when possible, because of the
theoretical risk of the transmission of 17D
virus to the breast-fed infant. When travel
of nursing mothers to high-risk yellow fever
endemic areas cannot be avoided or postponed,
such individuals may be immunized.
● PEDIATRIC USE
Vaccination of infants less than 9 months
of age IS CONTRAINDICATED because of the
risk of encephalitis. (See CONTRAINDICATIONS
and ADVERSE REACTIONS sections.)
● GERIATRIC USE
Vaccination of subjects greater than 65 years
of age should be limited to individuals who
are traveling to or reside in known yellow
fever endemic or epidemic areas, because
of the increased risk for systemic adverse
events in this age group. When vaccination
is deemed necessary, the health status of
such individuals should be evaluated prior
to vaccination. Additionally, if vaccinated,
elderly subjects should be carefully monitored
for adverse events for 10 days post-vaccination
(see ADVERSE REACTIONS section).36,37
● ADVERSE REACTIONS
Adverse reactions to 17D yellow fever vaccine
include mild headaches, myalgia, low-grade
fevers, or other minor symptoms for 5 to
10 days. Local reactions including edema,
hypersensitivity, pain or mass at the injection
site have also been reported following yellow
fever vaccine administration. Immediate hypersensitivity
reactions, characterized by rash, urticaria,
and/or asthma, are uncommon and occur principally
among persons with histories of egg allergy.1,2,36
No placebo-controlled trials to assess the
safety of yellow fever 17D vaccines have
been performed. However, between 1953 and
1994, reactogenicity of 17D-204 vaccine was
monitored in 10 uncontrolled clinical trials.
The trials included a total of 3,933 adults
and 264 infants greater than 4 months old
residing in Europe or in yellow fever endemic
areas. Self-limited and mild local reactions
consisting of erythema and pain at the injection
site and systemic reactions consisting of
headache and/or fever occurred in a minority
of subjects (typically less than 5%) 5 to
7 days after immunization. In one study involving
115 infants age 4 to 24 months the incidence
of fever was as high as 21%. Also in this
study, reactogenicity of the vaccine was
markedly reduced among a subset of subjects
who had serological evidence of previous
exposure to yellow fever virus. Only two
of the ten studies provided diary cards for
daily reporting; this method resulted in
a slightly higher incidence of local and
systemic complaints. 1
In 2001, YF-VAXAR was used as a control in
a double-blind, randomized comparative trial
with another 17D-204 vaccine, conducted at
nine centers in the US. YF-VAXAR was administered
to 725 adults >/=18 years old with a mean
age of 38 years. Safety data were collected
by diary card for days 1 through 10 after
vaccination and by interview on days 5, 11,
and 31. Among subjects who received YF-VAXAR,
there were no serious adverse events, and
71.9% experienced non-serious adverse events
judged to have been related to vaccination.
Most of these were injection site reactions
of mild to moderate severity. Four such local
reactions were considered severe. Rash occurred
in 3.2% and urticaria in two subjects. Systemic
reactions (headache, myalgia, malaise, and
asthenia) were usually mild and occurred
in 10% to 30% of subjects during the first
few days after vaccination. The incidence
of non-serious adverse reactions, including
headache, malaise, injection site edema,
and pain, was significantly lower in subjects
>60 years compared to younger subjects.
Adverse events were less frequent in the
1.7% of vaccinated subjects who had pre-existing
immunity to yellow fever virus, compared
to those who had not been previously exposed.
16
A CDC analysis of data submitted to the Vaccine
Adverse Events Reporting System (VAERS) between
1990 and 1998 suggests that patients aged
65 or older are at increased risk for systemic
adverse events temporally associated with
vaccination, compared to the 25- to 44-year-old
age group (see PRECAUTIONS section, Geriatric
Use subsection). The rate of systemic adverse
events occurring post-vaccination in patients
age 65 to 74 was 2.5 times higher than the
rate occurring in patients age 25 to 44,
based on incidence rates of 6.21 and 2.49
per 100,000 doses of vaccine in the two groups,
respectively. 37
● NEUROTROPIC DISEASE
Vaccine-associated neurotropic disease,2(previously
described as post-vaccinal encephalitis1)
is a known rare serious adverse event associated
with 17D vaccination. Age less than 9 months
and immunosuppression are known risk factors.
Twenty-one cases of vaccine-associated neurotropic
disease associated with all licensed 17D
vaccines have been reported between 1952
and the present, 18 in children or adolescents.
Fifteen of these cases occurred prior to
1960, thirteen of which occurred in infants
4 months of age or younger, and two of which
occurred in infants six and seven months
old. Six cases were reported between 1960
and 1996, world-wide. Three occurred in children,
including a one-month-old infant, a three-year-old,
and a thirteen-year-old. The three-year-old
died of encephalitis, and a genetic variant
of the vaccine virus was isolated from the
brain in this case.38 This is the only verified
fatality due to yellow fever vaccine-associated
neurotropic disease. The three remaining
cases of vaccine-associated neurotropic disease
since 1960 occurred in adults. 1
The incidence of vaccine-associated neurotropic
disease in infants less than 4 months old
is estimated to be between 0.5 and 4 per
1000, based on two historical reports where
denominators are available. 39,40 No data
are available for calculation of an age-specific
incidence rate in the 4- to 9-month-age group.
A study in Senegal41 described two fatal
cases of encephalitis possibly associated
with 17D-204 vaccination among 67,325 children
between the ages of 6 months and 2 years,
for an incidence rate of 3 per 100,000. One
study conducted in Kenya in 1993 detected
four cases of encephalitis temporally associated
with vaccination, one in a 2-year-old child
and three in adults, for an incidence of
5.3 cases per million vaccinees of all ages.
1
● VISCEROTROPIC DISEASE
Between 1996 and 1998, four patients, ages
63, 67, 76, and 79, became severely ill 2
to 5 days after vaccination with YF-VAXAR.
Three of these 4 subjects died. The clinical
presentations were characterized by a non-specific
febrile syndrome with fatigue, myalgia, and
headache, rapidly progressing to a severe
illness including respiratory failure, elevated
hepatocellular enzymes, lymphocytopenia and
thrombocytopenia, hyperbilirubinemia, and
renal failure requiring hemodialysis.24 None
of these subjects had vaccine-associated
neurotropic disease. This severe adverse
event is known as "vaccine-associated
viscerotropic disease"2(previously described
as multiple organ system failure24). No cause
and effect relationship has been established
between vaccination and these subsequent
illnesses. In two cases where vaccine virus
was recovered from serum, limited nucleotide
sequence analysis of the viral genome suggested
that the isolates had not undergone a mutation
associated with an increase in virulence.
The incidence rate for these serious adverse
events was estimated at 1 per 400,000 doses
of YF-VAXAR, based on the total number of
doses administered in the US civilian population
during the surveillance period.
Vaccine-associated viscerotropic disease
temporally associated with yellow fever vaccination
has also been reported in Australia and Brazil.
One Australian citizen became ill after receiving
an immunization with the 17D-204 strain of
yellow fever vaccine in his home country,
26 and two Brazilian citizens (age 5 and
22 years) became ill three to four days after
receiving 17DD vaccine in Brazil. 27 In the
Brazilian and Australian cases, histopathologic
changes in the liver included midzonal necrosis,
microvesicular fatty change, and Councilman
bodies, which are characteristic of wild-type
yellow fever. Vaccine-type yellow fever virus
was isolated from blood and autopsy material
(ie, brain, liver, kidney, spleen, lung,
skeletal muscle, or skin) of each of these
three persons, all of whom died 8 to 11 days
after vaccination. In Brazil, an estimated
23 million vaccine doses were administered
during the 15-month period during which the
two cases of multiple organ system failure
were reported. 27
In view of the data cited above, both the
17D-204 and 17DD yellow fever vaccines may
be considered as a possible, but rare, cause
of vaccine-associated viscerotropic disease2
that is similar to fulminant yellow fever
caused by wild-type yellow fever virus. All
available evidence from complete nucleotide
sequence analysis and testing in experimental
animals of vaccine-type yellow fever viruses
isolated from the Brazilian subjects suggests
that the occurrences are due to undefined
host factors, rather than to intrinsic virulence
of the 17DD vaccine viruses. 25
Because of a lack of tissue specimens from
most of the US cases of vaccine-associated
viscerotropic disease and the qualitative
differences between the US cases and those
identified in Brazil and Australia, no definitive
support for a causal relationship exists
between receipt of YF-VAXAR and vaccine-associated
viscerotropic disease. However, the temporal
association with recent receipt of yellow
fever vaccine and the similarity of the clinical
presentations among all four US cases suggest
that the vaccine may play a role in pathogenesis
of the cases. Physicians should therefore
be cautious to administer yellow fever vaccine
only to those persons truly at risk of exposure
to wild-type yellow fever virus infection.2
● PREGNANCY
Safety of YF-VAXAR was evaluated in a study
involving 101 Nigerian women, the majority
of whom (88%) were in the third trimester
of pregnancy. In this study, it appeared
that vaccinating pregnant women with the
17D-204 strain of yellow fever vaccine was
not associated with adverse events affecting
the mother or fetus. There were no adverse
events among 40 infants who were carefully
followed up for one year after birth, and
none of these infants tested positive for
IgM antibodies as a criterion for transplacental
infection. However, the percentage of pregnant
women who sero-converted was significantly
reduced compared to a non-pregnant control
group (38.6% vs. 81.5%). 18
Following a mass immunization campaign in
Trinidad, during which 100 to 200 pregnant
females were immunized, no adverse events
related to pregnancy were reported. In addition,
41 cord blood samples were obtained from
infants born to mothers immunized during
the first trimester. One of these infants
tested positive for IgM antibodies in cord
blood. The infant appeared normal at delivery
and no subsequent adverse sequelae of infection
were reported. However, this result suggests
that transplacental infection with 17D vaccine
viruses can occur. 42
A recent case-control study of spontaneous
abortion following vaccination of Brazilian
women found no significant difference in
the odds ratio among vaccinated women compared
to a similar unvaccinated group.43
● REPORTING OF ADVERSE EVENTS
The US Department of Health and Human Services
has established a Vaccine Adverse Event Reporting
System (VAERS) to accept all reports of suspected
adverse events after the administration of
any vaccine, including but not limited to
the reporting of events required by the National
Childhood Vaccine Injury Act of 1986. 28,29
Reporting by patients, parents or guardians
of all adverse events occurring after vaccine
administration is encouraged. Adverse events
following immunization with vaccine should
be reported by the health-care provider to
the US Department of Health and Human Services
(DHHS) Vaccine Adverse Event Reporting System.
The VAERS toll-free number for forms and
information is 1-800-822-7967. 29 Forms may
also be available for downloading at the
DHHS website www.hhs.gov.
Health-care providers also should report
these events to the Pharmacovigilance Department,
Aventis Pasteur Inc., Discovery Drive, Swiftwater,
PA 18370 or call 1-800-822-2463.
● DRUG INTERACTIONS
Data are limited in regard to the interaction
of YF-VAXAR with other vaccines.
Measles (Schwartz strain) vaccine, diphtheria
and tetanus toxoids and pertussis vaccine
adsorbed (DTP), 31 Hepatitis A and Hepatitis
B vaccines, 2,12,32,33 meningococcal vaccine,
MenomuneAR - A/C/Y/W-135, and typhoid vaccine,
Typhim ViAR, 2,12,32 have been administered
with yellow fever vaccine at separate injection
sites.
No data exist on possible interference between
yellow fever and rabies or Japanese encephalitis
vaccines. 2
In a prospective study, persons given 5 cc
of commercially available immune globulin
did not experience alterations in immunologic
responses to the yellow fever vaccine.2,34
The anti-malarial drug chloroquine has been
administered with yellow fever vaccine.2,35
● CONTRAINDICATIONS
● HYPERSENSITIVITY
Because the yellow fever virus used in the
production of this vaccine is propagated
in chicken embryos, YF-VAXR should not be
administered to anyone with a history of
acute hypersensitivity to eggs or egg products;
anaphylaxis may occur. Less severe or localized
manifestations of allergy to eggs or to feathers
are not contraindications to vaccine administration
and do not usually warrant vaccine skin testing
(see PRECAUTIONS section, Hypersensitivity
Reactions subsection). Generally, persons
who are able to eat eggs or egg products
may receive the vaccine.2,22
● INFANTS
Vaccination of infants less than 9 months
of age IS CONTRAINDICATED because of the
risk of encephalitis, and travel of such
persons to rural areas in yellow fever endemic
zones or to countries experiencing an epidemic
should be postponed or avoided, whenever
possible.
● IMMUNOSUPPRESSED PATIENTS
Exposure to yellow fever vaccine, which is
a live virus vaccine, poses a risk of encephalitis
or other serious adverse events to patients
with illnesses that commonly result in immunosuppression
(eg, acquired immunodeficiency syndrome or
other manifestations of human immunodeficiency
virus (HIV) infection, leukemia, lymphoma,
thymoma, generalized malignancy), or patients
whose immunologic responses are suppressed
by drug therapy (eg, corticosteroids, alkylating
drugs, or antimetabolites) or radiation.
Therefore, immunosuppressed subjects should
not be immunized, and travel to yellow fever
endemic areas should be postponed or avoided.
If travel to a yellow fever-infected zone
is unavoidable, immunosuppressed patients
should be advised of the risk, instructed
in methods for avoiding vector mosquitoes,
and supplied with vaccination waiver letters
by their physicians (see ADVERSE REACTIONS
section).
Family members of immunosuppressed persons,
who themselves have no contraindications,
may receive yellow fever vaccine.2,23
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● Product information
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