Zostavax
Zostavax
Zostavax
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ZOSTAVAX is a live attenuated virus vaccine indicated for prevention of herpes zoster (shingles) in
individuals 50 years of age and older.
Limitations of Use of ZOSTAVAX:
ZOSTAVAX is not indicated for the treatment of zoster or postherpetic neuralgia (PHN).
ZOSTAVAX is not indicated for prevention of primary varicella infection (Chickenpox).
2.1
CONTRAINDICATIONS
4.1
Hypersensitivity
Do not administer ZOSTAVAX to individuals with a history of anaphylactic/anaphylactoid reaction to
gelatin, neomycin or any other component of the vaccine. Neomycin allergy manifested as contact
dermatitis is not a contraindication to receiving this vaccine. {1}
4.2 Immunosuppression
ZOSTAVAX is a live, attenuated varicella-zoster vaccine and administration may result in
disseminated disease in individuals who are immunosuppressed or immunodeficient. Do not administer
5.1
Hypersensitivity Reactions
Serious adverse reactions, including anaphylaxis, have occurred with ZOSTAVAX. Adequate
treatment provisions, including epinephrine injection (1:1,000), should be available for immediate use
should an anaphylactic/anaphylactoid reaction occur.
5.2 Transmission of Vaccine Virus
Transmission of vaccine virus may occur between vaccinees and susceptible contacts.
5.3 Concurrent Illness
Deferral should be considered in acute illness (for example, in the presence of fever) or in patients
with active untreated tuberculosis.
5.4 Limitations of Vaccine Effectiveness
Vaccination with ZOSTAVAX does not result in protection of all vaccine recipients.
The duration of protection beyond 4 years after vaccination with ZOSTAVAX is unknown. The need for
revaccination has not been defined.
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ADVERSE REACTIONS
The most frequent adverse reactions, reported in 1% of subjects vaccinated with ZOSTAVAX, were
headache and injection-site reactions.
6.1
Injection-Site
Adverse Reaction
Solicited*
Pain
Erythema
Swelling
ZOSTAVAX
(N = 11094)
%
Placebo
(N = 11116)
%
53.9
48.1
40.4
9.0
4.3
2.8
11.3
3.7
1.6
1.1
0.7
0.2
1.6
0.0
Unsolicited
Pruritis
Warmth
Hematoma
Induration
*Solicited on the Vaccination Report Card
Systemic adverse reactions and experiences reported during Days 1-42 at an incidence of 1% in
either vaccination group were headache (ZOSTAVAX 9.4%, placebo 8.2%) and pain in the extremity
(ZOSTAVAX 1.3%, placebo 0.8%), respectively.
The overall incidence of systemic adverse experiences reported during Days 1-42 was higher for
ZOSTAVAX (35.4%) than for placebo (33.5%).
Shingles Prevention Study (SPS) in Subjects 60 Years of Age and Older
In the SPS, the largest clinical trial of ZOSTAVAX, subjects received a single dose of either
ZOSTAVAX (n=19,270) or placebo (n=19,276). The racial distribution across both vaccination groups
was similar: White (95%); Black (2.0%); Hispanic (1.0%) and Other (1.0%) in both vaccination groups.
The gender distribution was 59% male and 41% female in both vaccination groups. The age distribution
of subjects enrolled, 59-99 years, was similar in both vaccination groups.
The Adverse Event Monitoring Substudy of the SPS, designed to provide detailed data on the safety
profile of the zoster vaccine (n=3,345 received ZOSTAVAX and n=3,271 received placebo) used
vaccination report cards (VRC) to record adverse events occurring from Days 0 to 42 postvaccination
(97% of subjects completed VRC in both vaccination groups). In addition, monthly surveillance for
hospitalization was conducted through the end of the study, 2 to 5 years postvaccination.
The remainder of subjects in the SPS (n=15,925 received ZOSTAVAX and n=16,005 received
placebo) were actively followed for safety outcomes through Day 42 postvaccination and passively
followed for safety after Day 42.
Serious Adverse Events Occurring 0-42 Days Postvaccination
In the overall SPS study population, serious adverse events occurred at a similar rate (1.4%) in
subjects vaccinated with ZOSTAVAX or placebo.
In the AE Monitoring Substudy, the rate of SAEs was increased in the group of subjects who received
ZOSTAVAX as compared to the group of subjects who received placebo (Table 2).
Table 2: Number of Subjects with 1 Serious Adverse Events (0-42 Days Postvaccination) in
the Shingles Prevention Study
Cohort
Overall Study Cohort
(60 years of age and older)
60-69 years old
ZOSTAVAX
n/N
%
Placebo
n/N
%
Relative Risk
(95% CI)
255/18671
254/18717
1.01
1.4%
1.4%
(0.85, 1.20)
113/10100
101/10095
1.12
80 years old
80 years old
1.1%
1.0%
(0.86, 1.46)
115/7351
132/7333
0.87
1.6%
1.8%
(0.68, 1.11)
27/1220
21/1289
1.36
2.2%
1.6%
(0.78, 2.37)
64/3326
41/3249
1.53
1.9%
1.3%
(1.04, 2.25)
22/1726
18/1709
1.21
1.3%
1.1%
(0.66, 2.23)
31/1383
19/1367
1.61
2.2%
1.4%
(0.92, 2.82)
11/217
4/173
2.19
5.1%
2.3%
(0.75, 6.45)
Among reported serious adverse events in the SPS (Days 0 to 42 postvaccination), serious
cardiovascular events occurred more frequently in subjects who received ZOSTAVAX (20 [0.6%]) than in
subjects who received placebo (12 [0.4%]) in the AE Monitoring Substudy. The frequencies of serious
cardiovascular events were similar in subjects who received ZOSTAVAX (81 [0.4%]) and in subjects who
received placebo (72 [0.4%]) in the entire study cohort (Days 0 to 42 postvaccination).
Serious Adverse Events Occurring Over the Entire Course of the Study
Rates of hospitalization were similar among subjects who received ZOSTAVAX and subjects who
received placebo in the AE Monitoring Substudy, throughout the entire study.
Fifty-one individuals (1.5%) receiving ZOSTAVAX were reported to have congestive heart failure
(CHF) or pulmonary edema compared to 39 individuals (1.2%) receiving placebo in the AE Monitoring
Substudy; 58 individuals (0.3%) receiving ZOSTAVAX were reported to have congestive heart failure
(CHF) or pulmonary edema compared to 45 (0.2%) individuals receiving placebo in the overall study.
In the SPS, all subjects were monitored for vaccine-related SAEs. Investigator-determined, vaccinerelated serious adverse experiences were reported for 2 subjects vaccinated with ZOSTAVAX (asthma
exacerbation and polymyalgia rheumatica) and 3 subjects who received placebo (Goodpastures
syndrome, anaphylactic reaction, and polymyalgia rheumatica).
Deaths
The incidence of death was similar in the groups receiving ZOSTAVAX or placebo during the Days 042 postvaccination period; 14 deaths occurred in the group of subjects who received ZOSTAVAX and 16
deaths occurred in the group of subjects who received placebo. The most common reported cause of
death was cardiovascular disease (10 in the group of subjects who received ZOSTAVAX, 8 in the group
of subjects who received placebo). The overall incidence of death occurring at any time during the study
was similar between vaccination groups: 793 deaths (4.1%) occurred in subjects who received
ZOSTAVAX and 795 deaths (4.1%) in subjects who received placebo.
Most Common Adverse Reactions and Experiences in the AE Monitoring Substudy of the SPS
Injection-site adverse reactions reported at an incidence 1% are shown in Table 3. Most of these
adverse reactions were reported as mild in intensity. The overall incidence of vaccine-related injectionsite adverse reactions was significantly greater for subjects vaccinated with ZOSTAVAX versus subjects
who received placebo (48% for ZOSTAVAX and 17% for placebo).
Placebo
(N = 3271)
%
Adverse Reaction
Solicited
Erythema
35.6
6.9
Pain/Tenderness
34.3
8.3
Swelling
26.1
4.5
Unsolicited
Hematoma
1.6
1.4
Pruritis
6.9
1.0
Warmth
1.6
0.3
*Patients instructed to report adverse experiences on a Vaccination Report Card
Headache was the only systemic adverse reaction reported on the vaccine report card between Days
0-42 by 1% of subjects in the AE Monitoring Substudy in either vaccination group (ZOSTAVAX 1.4%,
placebo 0.8%).
The numbers of subjects with elevated temperature (38.3C [101.0F]) within 42 days
postvaccination were similar in the ZOSTAVAX and the placebo vaccination groups [27 (0.8%) vs. 27
(0.9%), respectively].
The following adverse experiences in the AE Monitoring Substudy of the SPS (Days 0 to 42
postvaccination) were reported at an incidence 1% and greater in subjects who received ZOSTAVAX
than in subjects who received placebo, respectively: respiratory infection (65 [1.9%] vs. 55 [1.7%]), fever
(59 [1.8%] vs. 53 [1.6%]), flu syndrome (57 [1.7%] vs. 52 [1.6%]), diarrhea (51 [1.5%] vs. 41 [1.3%]),
rhinitis (46 [1.4%] vs. 36 [1.1%]), skin disorder (35 [1.1%] vs. 31 [1.0%]), respiratory disorder (35 [1.1%]
vs. 27 [0.8%]), asthenia (32 [1.0%] vs. 14 [0.4%]).
6.2
DRUG INTERACTIONS
7.1
8.1
Pregnancy
Pregnancy Category: Contraindication [see Contraindications (4.3)].
ZOSTAVAX should not be administered to pregnant females since wild-type varicella can sometimes
cause congenital varicella infection. Pregnancy should be avoided for three months following vaccination
with ZOSTAVAX [see Contraindications (4.3) and Patient Counseling Information (17)].
Pregnancy Registry
From 1995 to 2013, Merck Sharp & Dohme Corp., a subsidiary of Merck & Co., Inc., maintained a
Pregnancy Registry to monitor fetal outcomes following inadvertent administration of VARIVAX during
pregnancy or within three months prior to conception. In 2006, reports of exposure to two other varicella
(Oka/Merck)-containing vaccines, ProQuad (Measles, Mumps, Rubella and Varicella Virus Vaccine
Live) and ZOSTAVAX, were added to the Registry. The Pregnancy Registry has been discontinued. As of
March 2011, 811 women with pregnancy outcome information available for analysis were prospectively
enrolled following vaccination with VARIVAX, within three months prior to conception or any time during
pregnancy. Of these women, 170 were seronegative at the time of exposure and 627 women had an
unknown serostatus. The remaining women were seropositive. Nine exposures to either ProQuad or
ZOSTAVAX have been reported that met criteria for inclusion into the Registry.
None of the 820 women who received a varicella-containing vaccine delivered infants with
abnormalities consistent with congenital varicella syndrome.
All exposures to VARIVAX, ProQuad, or ZOSTAVAX during pregnancy or within three months prior to
conception should be reported as suspected adverse reactions by contacting Merck Sharp & Dohme
Corp., a subsidiary of Merck & Co., Inc., at 1-877-888-4231 or VAERS at 1-800-822-7967 or
www.vaers.hhs.gov.
8.3 Nursing Mothers
ZOSTAVAX is not indicated in women who are nursing. It is not known whether VZV is secreted in
human milk. Therefore, because some viruses are secreted in human milk, caution should be exercised if
ZOSTAVAX is administered to a nursing woman.
8.4
Pediatric Use
ZOSTAVAX is not indicated for prevention of primary varicella infection (Chickenpox) and should not
be used in children and adolescents.
8.5 Geriatric Use
The median age of subjects enrolled in the largest (N=38,546) clinical study of ZOSTAVAX was
69 years (range 59-99 years). Of the 19,270 subjects who received ZOSTAVAX, 10,378 were
60-69 years of age, 7,629 were 70-79 years of age, and 1,263 were 80 years of age or older.
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DESCRIPTION
CLINICAL PHARMACOLOGY
NONCLINICAL TOXICOLOGY
CLINICAL STUDIES
In two large clinical trials (ZEST and SPS), ZOSTAVAX significantly reduced the risk of developing
zoster when compared with placebo (see Table 4 and Table 5).
14.1 ZOSTAVAX Efficacy and Safety Trial (ZEST) in Subjects 50 to 59 Years of Age
Efficacy of ZOSTAVAX was evaluated in the ZOSTAVAX Efficacy and Safety Trial (ZEST), a placebocontrolled, double-blind clinical trial in which 22,439 subjects 50 to 59 years of age were randomized to
receive a single dose of either ZOSTAVAX (n=11,211) or placebo (n=11,228). Subjects were followed for
the development of zoster for a median of 1.3 years (range 0 to 2 years). Confirmed zoster cases were
determined by Polymerase Chain Reaction (PCR) [86%] or, in the absence of virus detection, by a
Clinical Evaluation Committee [14%]. The primary efficacy analysis included all subjects randomized in
the study (intent-to-treat [ITT] analysis).
Compared with placebo, ZOSTAVAX significantly reduced the risk of developing zoster by 69.8%
(95% CI [54.1, 80.6%]) in subjects 50 to 59 years of age (Table 4).
Table 4: Efficacy of ZOSTAVAX on HZ Incidence Compared with Placebo in the ZOSTAVAX
Efficacy and Safety Trial*
ZOSTAVAX
Age group
(yrs.)
50-59
Placebo
# subjects
# HZ
cases
Incidence
rate of HZ
per 1000
person-yrs.
# subjects
# HZ
cases
Incidence
rate of HZ
per 1000
person-yrs.
Vaccine Efficacy
(95% CI)
11211
30
1.994
11228
99
6.596
*The analysis was performed on the intent-to-treat (ITT) population that included all subjects randomized in the ZEST study.
Immune responses to vaccination were evaluated in a random 10% subcohort (n=1,136 for
ZOSTAVAX and n=1,133 for placebo) of the subjects enrolled in the ZEST study. VZV antibody levels
(Geometric Mean Titers, GMT), as measured by glycoprotein enzyme-linked immunosorbent assay
(gpELISA) 6 weeks postvaccination, were increased 2.3-fold [95% CI (2.2, 2.4)] in the group of subjects
who received ZOSTAVAX compared to subjects who received placebo; the specific antibody level that
correlates with protection from zoster has not been established.
14.2 Shingles Prevention Study (SPS) in Subjects 60 Years of Age and Older
Efficacy of ZOSTAVAX was evaluated in the Shingles Prevention Study (SPS), a placebo-controlled,
double-blind clinical trial in which 38,546 subjects 60 years of age or older were randomized to receive a
single dose of either ZOSTAVAX (n=19,270) or placebo (n=19,276). Subjects were followed for the
development of zoster for a median of 3.1 years (range 31 days to 4.90 years). The study excluded
people who were immunocompromised or using corticosteroids on a regular basis, anyone with a
previous history of HZ, and those with conditions that might interfere with study evaluations, including
people with cognitive impairment, severe hearing loss, those who were non-ambulatory, and those whose
survival was not considered to be at least 5 years. Randomization was stratified by age, 60-69 and
70 years of age. Suspected zoster cases were confirmed by Polymerase Chain Reaction (PCR) [93%],
viral culture [1%], or in the absence of virus detection, as determined by a Clinical Evaluation Committee
[6%]. Individuals in both vaccination groups who developed zoster were given famciclovir, and, as
necessary, pain medications. The primary efficacy analysis included all subjects randomized in the study
who were followed for at least 30 days postvaccination and did not develop an evaluable case of HZ
within the first 30 days postvaccination (Modified Intent-To-Treat [MITT] analysis).
ZOSTAVAX significantly reduced the risk of developing zoster when compared with placebo (Table 5).
In the SPS, vaccine efficacy for the prevention of HZ was highest for those subjects 60-69 years of age
and declined with increasing age.
Table 5: Efficacy of ZOSTAVAX on HZ Incidence Compared with Placebo in the Shingles
Prevention Study*
ZOSTAVAX
Age group
(yrs.)
Overall
60-69
70-79
Placebo
# subjects
# HZ
cases
Incidence rate
of HZ per 1000
person-yrs.
# subjects
# HZ
cases
19254
10370
7621
315
122
156
5.4
3.9
6.7
19247
10356
7559
642
334
261
Incidence rate
of HZ per
1000 personyrs.
11.1
10.8
11.4
Vaccine Efficacy
(95% CI)
80
1263
37
9.9
1332
47
12.2
18% (-29%, 48%)
* The analysis was performed on the Modified Intent-To-Treat (MITT) population that included all subjects randomized in the study
who were followed for at least 30 days postvaccination and did not develop an evaluable case of HZ within the first 30 days
postvaccination.
Forty-five subjects were excluded from the MITT analysis (16 in the group of subjects who received
ZOSTAVAX and 29 in the group of subjects who received placebo), including 24 subjects with evaluable
HZ cases that occurred in the first 30 days postvaccination (6 evaluable HZ cases in the group of
subjects who received ZOSTAVAX and 18 evaluable HZ cases in the group of subjects who received
placebo).
Suspected HZ cases were followed prospectively for the development of HZ-related complications.
Table 6 compares the rates of PHN defined as HZ-associated pain (rated as 3 or greater on a 10-point
scale by the study subject and occurring or persisting at least 90 days) following the onset of rash in
evaluable cases of HZ.
Table 6: Postherpetic Neuralgia (PHN)* in the Shingles Prevention Study
Placebo
ZOSTAVAX
Age
group
(yrs.)
#
subjects
# HZ
cases
# PHN
cases
Incidence
rate of
PHN per
1,000
personyrs.
% HZ
cases
with
PHN
#
subjects
# HZ
cases
# PHN
cases
Incidence
rate of
PHN per
1,000
personyrs.
% HZ
cases
with
PHN
Overall
19254
315
27
0.5
8.6%
19247
642
80
1.4
12.5%
Vaccine efficacy
against PHN in
subjects who
develop HZ
postvaccination
(95% CI)
39%
(7%, 59%)
60-69
10370
122
8
0.3
6.6%
10356
334
23
0.7
6.9%
5%
(-107%, 56%)
70-79
7621
156
12
0.5
7.7%
7559
261
45
2.0
17.2%
55%
(18%, 76%)
80
1263
37
7
1.9
18.9%
1332
47
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3.1
25.5%
26%
(-69%, 68%)
* PHN was defined as HZ-associated pain rated as 3 (on a 0-10 scale), persisting or appearing more than 90 days after onset of
HZ rash using Zoster Brief Pain Inventory (ZBPI). {3}
The table is based on the Modified Intent-To-Treat (MITT) population that included all subjects randomized in the study who
were followed for at least 30 days postvaccination and did not develop an evaluable case of HZ within the first 30 days
postvaccination.
Age-adjusted estimate based on the age strata (60-69 and 70 years of age) at randomization.
The median duration of clinically significant pain (defined as 3 on a 0-10 point scale) among HZ
cases in the group of subjects who received ZOSTAVAX as compared to the group of subjects who
received placebo was 20 days vs. 22 days based on the confirmed HZ cases.
Overall, the benefit of ZOSTAVAX in the prevention of PHN can be primarily attributed to the effect of
the vaccine on the prevention of herpes zoster. Vaccination with ZOSTAVAX in the SPS reduced the
incidence of PHN in individuals 70 years of age and older who developed zoster postvaccination. Other
prespecified zoster-related complications were reported less frequently in subjects who received
ZOSTAVAX compared to subjects who received placebo. Among HZ cases, zoster-related complications
were reported at similar rates in both vaccination groups (Table 7).
Table 7: Specific complications* of zoster among HZ cases in the Shingles Prevention Study
Complication
ZOSTAVAX
(N = 19270)
10
Placebo
(N = 19276)
(n = 321)
% Among
Zoster Cases
(n = 659)
% Among
Zoster Cases
Allodynia
135
42.1
310
47.0
Bacterial Superinfection
3
0.9
7
1.1
Dissemination
5
1.6
11
1.7
Impaired Vision
2
0.6
9
1.4
Ophthalmic Zoster
35
10.9
69
10.5
Peripheral Nerve Palsies (motor)
5
1.6
12
1.8
Ptosis
2
0.6
9
1.4
Scarring
24
7.5
57
8.6
Sensory Loss
7
2.2
12
1.8
N=number of subjects randomized
n=number of zoster cases, including those cases occurring within 30 days postvaccination, with these data available
* Complications reported at a frequency of 1% in at least one vaccination group among subjects with zoster
Visceral complications reported by fewer than 1% of subjects with zoster included 3 cases of
pneumonitis and 1 case of hepatitis in the placebo group, and 1 case of meningoencephalitis in the
vaccine group.
Immune responses to vaccination were evaluated in a subset of subjects enrolled in the Shingles
Prevention Study (N=1,395). VZV antibody levels (Geometric Mean Titers, GMT), as measured by
glycoprotein enzyme-linked immunosorbent assay (gpELISA) 6 weeks postvaccination, were increased
1.7-fold (95% CI: [1.6 to 1.8]) in the group of subjects who received ZOSTAVAX compared to subjects
who received placebo; the specific antibody level that correlates with protection from zoster has not been
established.
14.3 Concomitant Use Studies
In a double-blind, controlled substudy, 374 adults in the US, 60 years of age and older (median age =
66 years), were randomized to receive trivalent inactivated influenza vaccine (TIV) and ZOSTAVAX
concurrently (N=188), or TIV alone followed 4 weeks later by ZOSTAVAX alone (N=186). The antibody
responses to both vaccines at 4 weeks postvaccination were similar in both groups.
In a double-blind, controlled clinical trial, 473 adults, 60 years of age or older, were randomized to
receive ZOSTAVAX and PNEUMOVAX 23 concomitantly (N=237), or PNEUMOVAX 23 alone followed 4
weeks later by ZOSTAVAX alone (N=236). At 4 weeks postvaccination, the VZV antibody levels following
concomitant use were significantly lower than the VZV antibody levels following nonconcomitant
administration (GMTs of 338 vs. 484 gpELISA units/mL, respectively; GMT ratio = 0.70 (95% CI: [0.61,
0.80]).
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REFERENCES
1.
Reitschel RL, Bernier R. Neomycin sensitivity and the MMR vaccine. JAMA 1981;245(6):571.
2.
Atkinson WL, Pickering LK, Schwartz B, Weniger BG, Iskander JK, Watson JC. General recommendations on
immunization: Recommendations of the Advisory Committee on Immunization Practices (ACIP) and the American
Academy of Family Physicians (AAFP). MMWR 2002;51(RR02):1-36.
3.
Coplan PM, Schmader K, Nikas A, Chan ISF, Choo P, Levin MJ, et al. Development of a measure of the burden of pain
due to herpes zoster and postherpetic neuralgia for prevention trials: Adaptation of the brief pain inventory. J Pain
2004;5(6):344-56.
No. 4963-00 ZOSTAVAX is supplied as follows: (1) a package of 1 single-dose vial of lyophilized
vaccine, NDC 0006-4963-00 (package A); and (2) a separate package of 10 vials of diluent (package B).
No. 4963-41 ZOSTAVAX is supplied as follows: (1) a package of 10 single-dose vials of lyophilized
vaccine, NDC 0006-4963-41 (package A); and (2) a separate package of 10 vials of diluent (package B).
Storage
To maintain potency, ZOSTAVAX must be stored frozen between -58F and +5F (-50C and -15C).
Use of dry ice may subject ZOSTAVAX to temperatures colder than -58F (-50C).
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Advise the patient to read the FDA-approved patient labeling (Patient Information).
Question the patient about reactions to previous vaccines.
Provide a copy of the patient information (PPI) located at the end of this insert and discuss any
questions or concerns.
Inform patient of the benefits and risks of ZOSTAVAX, including the potential risk of transmitting the
vaccine virus to susceptible individuals, such as immunosuppressed or immunodeficient individuals
or pregnant women who have not had chickenpox.
Instruct patient to report any adverse reactions or any symptoms of concern to their healthcare
professional.
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