Immunization PPT - PDF

Summary

This presentation provides an overview of immunizations, including their goals, definitions, types, and specific examples like BCG and polio vaccines.

Full Transcript

Immunizations

Dr Bushra Al Jabri
Pediatric Endocrinologist
 Goals of Immunization

SHORT-TERM :Disease prevention in
individuals.

LONG-TERM: Eradication of disease from the
world.
Immunization-Definition (WHO)

Immunization is the process whereby a person
is made immune or resistant to an infectious
disease, typically by the administration of a
vaccine.
Vaccines stimulate the body’s own
immune system to protect the person
against subsequent infection or disease
Types of Immunization
 Active immunity
Protection that is produced by an individual’s
own immune system and is usually long-
lasting.
Can be acquired by natural disease or by
vaccination.
Vaccines generally provide immunity similar to
that provided by the natural infection, but without
the risk from the disease or its complications.
 Passive immunity
Passive immunity is protection provided from the
transfer of antibodies from immune individuals,

– Most common: Across the placenta & mother milk
– Less often: Blood transfusion & blood products
including immunoglobulin

This protection is temporary – commonly for
only a few weeks or months
 Herd Immunity
OR community immunity
The risk of infection among susceptible
individuals in a population is reduced by the
presence and proximity of immune individuals
"indirect protection" or a "herd effect"
In this way transmission falls or stops without
universal immunity.
The more children in a community that are fully
immunized, the more everyone is safe.

Immunization can protect the unprotected
 Immunity

Two Artificial Methods of Immunity

Active immunity by stimulating the adaptive immune
system using a vaccine.(Vaccination)

Passive immunity is induced by administering
antibodies ( Immunoglobulins)
 Immunity

Immunity

Active immunity Passive immunity

Following clinical infection natural Transfer of maternal
Antibodies Through placenta

Following subclinical infection Transfer of maternal
Antibodies Through milk
acquired
Following vaccination Following administration of
Immunoglobulin
 Rationale behind Vaccination
Hib – meningitis, throat swelling and suffocation, pneumonia, infection,
death
Diphtheria – throat infection with membrane, systemic as myocarditis,
CNS, paralysis, death (in 7% of cases)
Tetanus – muscle spasms, breathing problems, convulsions, death if
untreated
Whooping Cough – coughing fits, convulsions, coma, brain damage, death
Polio – Fever, vomiting, muscle stiffness, nerve damage, muscle paralysis,
death if lung muscles paralysed
Measles – High fever, cough, conjunctivitis, red rash, pneumonia,
inflammation of brain, brain damage, death
Mumps – fever, infection of salivary glands, deafness, infertility (males),
brain inflammation
Rubella – swollen glands, joint pain, rash, birth defects in unborn children –
including blindness, deafness, mental retardation.
 Live attenuated Vaccines
Modified living organisms that are weakened
Advantage
Potent, response close to the optimal naturally acquired
immune response
Disadvantage
May produce features of the disease as sub-clinical or mild
form of the infection
Cannot be given to immunosuppressed or pregnant patients
 Inactivated(Killed) Vaccines
It could contain:
Whole dead organisms (killed by chemicals or heat) but
remain antigenic e.g: IPV, Influenza V
OR
Parts of the organism( capsule, toxoid,..) e.g: Diphtheria,
pneumococcal, HPV, HBV
Advantages
Cannot cause clinical infection
Can be given to immunosuppressed and pregnant individuals
Disadvantages
Less immunogenic
 Examples
Live attenuated BCG

Inactivated/Killed Pertusis, typhoid & cholera
Tetanus, diphtheria
Bacterial
Capsular meningococcal
Acellular pertussis
Hib & pneumococcal conjugate vaccines

Live attenuated OPV, MMR, Rotavirus

Viral Inactivated IPV, hepatitis A
Hepatitis B
Subunit influenza vaccine
 Routes of Administrating Vaccines

– Oral : OPV, Rota Virus V
– Intradermal injections
Delivered into dermis
(top layer of skin)
BCG
– Subcutaneous
injections
area of insertion
does not need to be
rubbed or moved.
MMR & Varicella
– Intramuscular
injections
given in muscle
tissue. Others
&
Varicella
 BCG(Bacille Calmette Guerin)

The live attenuated strain of
Mycobacterium bovis known
as bacillus Calmette-Guérin
(BCG)
Not 100% protection from
tuberculosis.
BCG Prevents life-
threatening complications
such as meningitis and
miliary TB.
 Route of administration:
BCG is given as a single intra dermal injection
at the insertion of the deltoid into the lateral
aspect of the left upper arm.
local complication rate is smallest when that site
is used.
 Successful BCG vaccination

A small bleb is rised and a successful
vaccination leads to the development of a
small local swelling within 2 weeks.
Then progresses to a papule or shallow
ulcer which heals within 12 weeks to form
a small, flat scar.
 Polio Vaccine

They are divided into:
Live Attenuated Oral Polio Vaccine(OPV).
Inactivated Polio Vaccine (IPV)
Both vaccines contain type I,II and III strains.
Duration of Immunity: Lifelong if boosted.
 OPV proved to be superior in
administration, and also provided longer
lasting immunity than the IPV vaccine.
OPV on very rare occasions has been
associated with paralysis (vaccine-
associated paralytic poliomyelitis,
about 1 case per 750,000 vaccine
recipients).
 DTP( Diptheria,Tetanus,Pertussis)

3 doses given I/M (In Oman 2,4,6 months of age)
 MMR(Measles, Mumps, Rubella)

R.O.A: S/C
Two doses are recommended, at 12 and
18 months of age respectively.
?association with Autism reduced
confidence on it and increased refusal to
take  surge of measles (2019)
 Hepatitis B vaccine

*R.O.A: IM in 4 doses(0,2,4,6)
* Site: Deltoid muscle - Children and Adolescents
Anterolateral thigh – Neonates & Infant
* If the mother is HBeAg positive then the baby
should additionally receive Hep B IG at birth.
 Hemophilus Influenza Type B(Hib)

Given in combination with DTaP at 2,4 and 6
months.
R.O.A: IM
 Pneumococcal Vaccine

Conjugated –PCV 13(Prevenar)(used in Oman)

It is the most common type , effective againt 13
serotypes, protects against 90% of the disease
causing pneumococcal serotypes

R.O.A: IM
 Varicella Vaccine
Live attenuated virus against Chicken Pox
caused by Varicella Zoster virus.
One dose only at 12 months
R.O.A: S/C
Hepatitis A vaccine
Two doses of a
hepatitis A containing
vaccine are usually
needed to develop
long term protection
against hepatitis A
virus.
IM
aged 12 months and
older
 Rota vaccine
oral, live attenuated vaccine
WHO recommend that the first
dose of rotavirus vaccine be
administered as soon as possible
after 6 weeks of age
Apart from a low risk of
intussusception (up to 6 per 100
000 infants vaccinated) the
current rotavirus vaccines are
considered safe and well
tolerated.
 General Contraindications
Serious allergic reaction (e.g.,
anaphylaxis) after a previous vaccine dose

Moderate or severe current illnesses with
or without a fever (more than 38 C )
 Vaccination Program in Oman
Age at vaccination Schedule
At birth BCG
HBV
2 months Hexa-1(HBV,DTaP,Hib,IPV)
PCV13-1
Rota Vaccine-1
4 months Hexa-2(HBV,DTaP,Hib,IPV)
PCV13-2
OPV-1
Rota vaccine-2
6 months Penta-1(HBV, DTwP, Hib)
OPV-2
12 months Vitamine A 100.000 IU
MMR-1
Varicella
13 months PCV 13- Booster
Penta Booster
18 months MMR-2 + OPV Booster+HAV-1
Vitamin A 200.000 IU
24 months HAV-2
Influenza Seasonal(optional)
 School Immunization schedule
Oman
Grade 1: DT and OPV
Grade 6: Td
Grad 11: Td and OPV