polio endgame strategy and ipv introduction

Introduction
• In pre-vaccination era poliomyelitis was found in all
countries of the world.
• The extensive use of polio vaccines since 1954
eliminated disease in developed countries.
• In 1988 the world health assembly resolved to
eradicate poliomyelitis globally, reduced the number
of polio endemic countries from more than 125 to 3
in 2014.
• Four out of six region of WHO have been certified
polio-free: The Americas (1994), Western Pacific
(2000), Europe (2002) and SEAR (2014).
• 80% of world’s population now lives in polio-free
areas.

Global Polio Eradication
Initiative (GPEI)
• The Global Polio Eradication Initiative (GPEI),
launched in 1988 at the 41st World Health
Assembly.
• GPEI spearheaded by WHO in partnership with
UNICEF, CDC & Rotary International largest
public-private partnership for public health.
• GPEI designed a strategy for India called National
Polio Surveillance Project (NPSP), a joint project
of the WHO and GOI.

• It aims to interrupt transmission of wild poliovirus as
quickly as possible, achieve certification of global polio
eradication, contribute to health systems development,
and strengthen routine immunization and surveillance
for other communicable diseases.
• GPEI has developed evidence based strategies and
implemented timely interventions which resulted in
significant reduction in the number of polio-endemic
countries from more than 125 in 1988 to 3 in 2015.

• The strategy to eradicate polio is based on
preventing infection by immunizing every
child until transmission is blocked and the
virus dies out.
• During designated national immunization
days (NIDs), which are usually conducted over
three to four days, polio vaccination teams
consisting of trained community volunteers
walk from house to house to identify and
vaccinate every child under 5 years of age with
oral polio vaccine.

Global scenario
• Since the launch of GPEI in 1988 , the global
incidence of polio cases has decreased by over 99%
from an estimated 350,000 cases to 26 reported
cases in 2015.
• In 2015, only 3 countries (Afghanistan , Nigeria and
Pakistan)
• Failure to eradicate polio from these 3 countries
could result in as many as 200,000 new cases every
year within 10 yrs, all over the world.

Indian scenario
• In India, Vaccination against polio started in 1978 with
extended programme on immunization.
• Pulse Polio Immunization launched in 1995.
• In 2009, India had half the number of polio cases in the
world.
• By 2011, in less than two years’ time, India brought polio
infections to the zero level.
• India’s last reported polio case was a 2-year-old girl in the
Howrah district of West Bengal, on 13 January 2011.
• India removed from list of polio-endemic countries in
2012.
• South East Asia region was declared polio free on March
27th 2014.

Epidemiology of Poliomyelitis
• It is viral infection caused by
poliomyelitis virus, an enterovirus
belonging to the Picornavirdae virus
family.
• Has three serotypes ( type 1 , type2
, and type 3)
• Most of the children show minor
symptoms but as many as 1 in 200
children will be paralysed.
Agent

• The incubation period for paralytic
poliomyelitis is commonly 7-14 days (range 3-
35 days).
• Type 2 wild poliovirus has been eliminated in
the world – the last wild type 2 polio virus was
detected in India in 1999.
• Type 1 is the most pervasive strain of polio
virus and type 3 is at very low levels.

• The incubation period for paralytic
poliomyelitis is commonly 7-14 days (range 3-
35 days)
• RESERVOIR OF INFECTION : Man. For every
clinical cases, there may be 1000 subclinical
cases in children and 75 in adults .No chronic
carriers.
• INFECTIOUS MATERIAL : Faeces and
oropharyngeal secretions

Host
• AGE : children more susceptible than adults. The
most vulnerable age 6 M to 3 Yrs.
• Sex: Males infected 3 times than females.
• RISK FACTORS : fatigue, trauma, intramuscular
injections, operative procedures & administration
of immunizing agents Ex. alum containing DPT
• IMMUNITY :Infection from one serotype does not
protect completely against other serotypes. Type 2
virus-most effective antigen.

Environment
• Polio is more likely to occur during the rainy
season.
• Approximately 60 % cases recorded in India
were during June to September.
• Overcrowding, poor sanitation, distant
geographic locations, areas with high birth
rates , conflict areas.

Modes of transmission
• (a) FAECAL-ORAL ROUTE
• (b) DROPLET INFECTION

Clinical spectrum of polio
• Inapparent (subclinical) infection: no signs and
symptoms, 91-96% of infection
• Abortive polio or minor illness : mild and self
limiting illness due to viraemia 4-8% of infection
• Non-paralytic polio: presenting features are
stiffness and pain in neck and back. Disease last
for 2-10 days occurs in approx. 1 %
• Paralytic polio: <1 % occurrence . Invades CNS
and varying degree of paralysis.

Types of Polio vaccine
1) OPV :
• 1961 by Albert Sabin, Live attenuated vaccine.
• Provide both humoral and Mucosal intestinal (Gut)
immunity .
• Mucosal intestinal immunity prevent infection with wild
polio virus.
• Intestinal immunity is the main reason why mass
campaigns with OPV can rapidly stop person to person
transmission of wild polio virus.

Risks associated with use of OPV
Vaccine associated paralytic polio (VAPP )
• VAPP is caused by a strain of poliovirus that has genetically
changed in the intestine from the original attenuated vaccine
strain contained in OPV.
• It is associated with a single dose of OPV administered in a
child or can occur in a close unvaccinated or non –immune
contact of the vaccine recipient who is excreting the mutated
virus.
• The risk of VAPP varies by dose and by setting.
• There are no outbreaks associated with VAPP.
• Estimated 250-500 VAPP cases occur globally every year (25-
30 cases per year in India)

Vaccine derived poliovirus (VDPV) :
A VDPV is a very rare strain of poliovirus, genetically changed
from the original strain contained in OPV. Mostly by type 3 strain
followed by type 2 and 1
Types of VDPV :
1) cVDPV (Circulating vaccine derived polio virus ) : A cVDPV is
associated with sustained person to person transmission and is
circulating in the community under conditions of low population
immunity.

2) iVDPV (Immununo deficiency –related vaccine –derived polio
virus) reported in immunodeficient patients who have prolonged
infections after exposure to OPV.
3) aVDPV (ambiguous vaccine derived polio virus) currently have
unclassified source (i.e., a single isolate from a healthy or non-
immunodeficient person; environmental isolates without an
associated AFP case).
Among these 3 types, cVDPV causes sustained circulation. Due to
the risks of this OPV must be phased out to secure a lasting polio-
free world.

2) IPV :
• Developed in 1955 by Dr Jonas Salk.
• Consists of inactivated polio strains of all three
types.
• Excellent humoral immunity no gut immunity.
• In some Indian studies shows that IPV given to
OPV Primed children boosts the mucosal
intestinal immunity.
• No risk of VAPP or VDPV.

Polio Eradication & Endgame
Strategic Plan 2013-2018

• On 26 May 2012, the World Health Assembly
declared the completion of poliovirus eradication
to be a “programmatic emergency for global
public health” and called for the development of
comprehensive polio endgame strategy.
• In response to this directive, the GPEI developed
Polio Eradication & Endgame Strategic Plan
(PEESP) 2013-2018.

Objectives
• The four main objectives of the Plan :
1) Poliovirus detection and interruption: Stop all WPV transmission by the
end of 2014 and new cVDPV outbreaks within 120 days of confirmation of
the first case
2) Immunization systems strengthening and OPV withdrawal: Hasten the
interruption of all poliovirus transmission and help strengthen
immunization systems
3) Containment and certification : this objective encompasses the
certification of the eradication and containment of all wild poliovirus in all
WHO regions by end of 2018.
4) Legacy planning: Ensure that a polio-free world is permanent and that
the investment in polio eradication provides public health dividends for
years to come

Polio Endgame Strategy
• Step 1 :Introduction of IPV into routine immunization
by October 2015 :
by end of 2015, introduce at least 1 dose of IPV in RI at
least 6 months before the switch from tOPV to bOPV (1
and 3 strain)
• Step 2: tOPV-bOPV switch by April 2016 :
from 2016, switch from tOPV to bOPV (does not contain
type 2 Sabin virus) in RI and polio campaigns.
• Step 3: withdrawal of routine OPV use :
plan for the eventual withdrawal of all OPV in routine use
by 2019-2020.

Three distinct steps of polio endgame
strategy
Introduce
atleast one
dose of IPV
in RI
Switch tOPV
to bOPV
Withdraw
bOPV &
routine OPV
use
Before
end 2015
2016
2019-2020
On going strengthening of routine immunization

Rationale for the introduction of IPV into RI
• The primary purpose of introducing IPV into RI is to
boost population immunity against type2 poliovirus
during and after the planned global withdrawal of
OPV2 and switch from tOPV to bOPV.
• To boost both humoral and mucosal immunity
against poliovirus types 1 and 3, which may also
hasten the eradication of these WPVs.
• To reduce VAPP risks.

Global switch
Withdrawal of type 2 component of tOPV :
Switch from tOPV – bOPV
• Primary objecties of switch are:
- Successfully recall tOPV and introduce bOPV
in April 2016
- Minimize tOPV wastage after switch
- Ensure all children are vaccinated ( avoid
tOPV stock-outs before and bOPV stock-outs
after the switch)
- Validate that the country is free tOPV.

Rationale for introducing single dose of IPV
at 14 weeks
• IPV administration is recommended at 14 weeks
of age because it provide the optimal balance
between vaccine efficacy and early protection.
• If one dose of IPV is used, it should be given from
14 weeks of age because this is the age point
when maternal antibodies have diminished and
immunogenicity is significantly higher.

Administering IPV earlier than 14 weeks of age is
not recommended because:
• Evidence suggest that a dose
of IPV given at DPT1 contact
protects only 32-39% of
infants aged 6-8 weeks
against poliovirus type2.
• In contrast, If the dose is
given at DPT3 contact when
the infant is 16 wks old (4
months), it protects about
63% of infants. 0
10
20
30
40
50
60
70
6-8
weeks
16
weeks
Immune response of
one dose of IPV against
type 2 poliovirus
63%
32%

Risks associated with introducing IPV later
than 14 wks include:
• Administering IPV at later immunization visits
is not recommended as it leaves children
unprotected for a longer period of time.
• Children entering the routine immunization
programme late should be given IPV at the
first immunization contact after 14 weeks of
age.

Key Facts about IPV:
• Type: Inactivated (killed) poliovirus vaccine
(IPV) with types 1, 2 and 3 antigens.
• Formulation: IPV may contain formaldehyde
as well as traces of streptomycin, neomycin or
polymyxin also in some contain 2-
phenoxyethanol (0.5%) as preservative. IPV
formulation do not contain thiomersal.

• Composition : each dose contains (active
ingredients, produced in VERO cells)
- Type 1 Mahoney (inactivated)-40 D antigen unit
- Type 2 MEF-1 (inactivated)-8 D antigen unit
- Type 3 Saukett (inactivated)-32 D antigen unit
• Presentation and dosage form: IPV is liquid
vaccine, will be available in 5 dose or 10 dose
vials.
• The colour of VVM on IPV vial changes faster than
the other Vaccines.

• Storage temperature:
- IPV is freeze - sensitive vaccine.
- Stored at temp +2 and +8 degree Centigrate in basket of
an ILR.
- Do not freeze IPV.
- Maximum of 1 month is recommended for storage of IPV
in a health facility.
- The ‘Shake test’ is not applicable to IPV vaccine (no
aluminium adjuvant). So discard the vial if there is any
doubt of vaccine getting frozen.
• Contraindications: should not be given in children with
known allergy to streptomycin, neomycin or polymyxin B,
or with a history of an allergic reaction following previous
injection of IPV.

• Age group : 14 weeks (3 ½ months) to maximum
upto 1 year of age.
• Dosage and route : i/m in anterolateral aspect of
mid-thigh ( Right thigh)
• Immunogenecity efficacy and effectiveness:
- Immunogenecity of IPV schedules depends on the
age at administration, in addition to number of
doses, due to interference by maternal antibodies.
-IPV can reduce the quantity and duration of virus
shedding in stool samples, which may contribute to
a reduction in transmission.

Sequence of vaccination at 14
weeks
OPV IPV PENTA
VALENT

IPV vaccine will be introduced in the UIP in
a phased manner:
• In phase 1 : 17 states + 4 union territories in
Nov 2015.
ArunachalPradesh, Assam, Bihar, Chandigarh,
Delhi, Gujarat, Haryana, M.P, Manipur,
Meghalaya, Mizoram, Nagaland, Punjab,
Rajasthan, Sikkim, Tripura And U.P.
- Andaman & Nicobar Islands, Dadar & Nagar
Haveli, Daman & Diu and Lakshadweep.

• In phase II- 9 states in January 2016
- States include Chhattisgarh, Goa , Himachal
Pradesh, J&K, Jharkhand Maharashtra, Odisha,
Uttrakhand and West Bengal.
• In phase III- 6 states / UT in march 2016.
AndhraPradesh, Karnataka, Kerala, Pondicherry,
Tamil Nadu & Telangana.

AFP surveillance
Nationwide AFP (acute flaccid paralysis) surveillance is the
gold standard for detecting cases of poliomyelitis.
Surveillance identifies new cases and detects importation of
wild poliovirus.
The four steps of surveillance are:
1. Finding and reporting children with acute flaccid
paralysis (AFP)
2. Transporting stool samples for analysis
3. Isolating and identifying poliovirus in the laboratory
4. Mapping the virus to determine the origin of the virus
strain.

Finding and reporting children with acute
flaccid paralysis (AFP) surveillance:
• The first links in the surveillance chain are staff in all
health facilities- from district health centres to large
hospitals.
• They must promptly report every case of AFP in any
child under 15 years of age.
• The number of AFP cases reported each year is used as
an indicators of a country’s ability to detect polio-even
in countries where disease no longer occurs.
• A country’s surveillance system needs to be sensitive
enough to detect at least one case of AFP for every
100,000 children under 15- even in absence of polio.

Transporting stool samples for analysis
• Polio may be difficult to differentiate from Guillain-barre
syndrome, transverse myelitis or traumatic neuritis.
• All AFP cases should be reported and tested for wild
poliovirus within 48 hrs of onset.
• Faecal specimen are analyzed for the presence of polio.
• Because shedding of the virus is variable, two specimens
taken 24-48 hrs apart are required.
• Stool specimens have to be sealed in containers and stored
immediately inside a refrigerator or packed between frozen
ice packs at 4-8 degree centigrade in a cold box.
• Specimen should arrive at the lab within 72 hrs of
collection.

Isolating poliovirus
• If poliovirus is isolated the next step is to
distinguish between wild and vaccine related.
• If wild polio virus is isolated then identify
which of the two surviving types of wild virus
is involved.

Mapping the virus
• Once wild poliovirus has been identified further tests
are carried out to determine where the strain may
have originated.
• By determining the genetic makeup of virus wild virus
can be compared to others and classified into genetic
families which cluster in defined geographic areas.
• When polio has been pinpointed to a precise
geographical area, it is possible to identify the source
of importation of poliovirus- both long range and cross
border.

Environmental surveillance
• Environmental surveillance involves testing sewage or
other environmental samples for the presence of
poliovirus.
• Environmental surveillance often confirms wild
poliovirus infections in the absence of cases of paralysis.
• Systematic environmental sampling provides important
supplementary surveillance data.
• Ad-hoc environmental surveillance elsewhere
(especially in polio-free regions) provides insights into
the international spread of poliovirus.

EPIDEMIOLOGICAL INVESTIGATIONS
• Occurrence of single case of polio is considered
epidemic .
• There is a need for prompt and immediate
epidemiological investigation
• Active search for other cases is necessary
• Sample of faeces from all cases or suspected
cases should be collected and forwarded to
laboratory for virus isolation

• In addition where possible, Paired sera should be
collected 1st sample at the clinical suspicion of
paralytic polio & at period of convalescence.
• Within an epidemic area OPV administered for all
persons over 6 weeks of age who have been not
completely immunised or their immune status is
not known .
• WHO should be notified as soon as possible of
the occurrence of paralytic polio.

STRATERGIES OF POLIO ERADICATION IN INDIA
• Conduct pulse polio immunisation days every year until
poliomyelitis is eradicated .
• Sustain high levels of routine immunisation coverage .
• Monitor OPV coverage at district level & below.
• Improve surveillance capable of detecting all cases of AFP
due to polio & non-polio aetiology.
• Ensure rapid case investigation & collection of stool
samples for virus isolation.
• Arrange follow up of all cases of AFP at 60 days to check for
residual paralysis .
• Conduct outbreak control for cases confirmed or suspected
to be poliomyelitis to stop transmission

LINE LISTING OF CASES
Started in year 1989 to look for
1.Check for duplication
2.Year of onset of illness ( to screen children with residual
paralysis who developed poliomyelitis prior to year of
reporting ).
3.Identification of high risk pockets
4. And documentation of high risk age groups .
Line listing of cases made it possible to take
appropriate follow –up action in areas from where
cases have been reported , also provides useful
epidemiological data for programme purpose .

MOPPING UP
• This activity is last in polio eradication
• Mopping up involves door to door
immunisation in high risk districts , where wild
poliovirus is known or suspected to be still
circulating .

Pulse polio immunisation
• In India NIDs have become the largest public
health campaign ever conducted in a single
country.
• GOI conducted the first round of PPI
consisting of 2 immunization days 6 wks apart
on 9th dec 1995 and 20th jan 1996.
• Targeted all children upto 3 yrs later on WHO
increases age upto 5 yrs.

• The term PULSE has been added to describe this sudden,
simultaneous , mass administration of OPV on a single day
to all children 0-5 yrs of age, regardless to previous
immunization.
• PPI occurs in two rounds about 4-6 wks apart during low
transmission season of polio , i.e. Between nov to feb.
• These doses are extra dose which supplements and do not
replace the doses received during immunization services.
• There is no minimum interval between PPI and scheduled
OPV doses

polio endgame strategy and ipv introduction

polio endgame strategy and ipv introduction

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polio endgame strategy and ipv introduction