faculty of medicine principles of applied vaccination
TRANSCRIPT
Faculty of Medicine
Applied Vaccination By
Hatim Jaber MD MPH JBCM PhD
23 -12- 2018
1
Presentation outline
Time
Introduction to Immunology 12:00– 12:10
Vaccine-preventable diseases Classification of Vaccines
12:10– 12:20
Principles of Vaccination Routes of administration
12:20– 12:30
General Recommendations = Precautions and Contraindications
12:30– 12:50
2
3
World Immunization Week • Immunization averts 2 to 3
million deaths annually; however, an additional 1.5 million deaths could be avoided if global vaccination coverage improves.
• Today, an estimated 18.7 million infants – nearly 1 in 5 children – worldwide are still missing routine immunizations for preventable diseases, such as diphtheria, pertussis and tetanus.
24-30 April
4
5
World Immunization Week, 24-30 April 2017
6
7
8
Global Vaccine Action Plan Goals of the Decade of Vaccines (2011–2020)
9
10
Defense Mechanisms
1. External defense 2. Internal Defense 3. Immune Defense
11
What is immunity?
• Immunity is the body's ability to fight off harmful micro-organisms –PATHOGENS- that invade it.
• The immune system produces antibodies or cells that can deactivate pathogens.
12
Vaccination
• Vaccination is a method of giving antigen to stimulate the immune response through active immunization.
• A vaccine is an immuno-biological substance designed to produce specific protection against a given disease.
• A vaccine is “antigenic” but not “pathogenic”.
13
What’s the difference between Vaccination and Immunization
• Immunization is the process of protecting people against harmful infections before they come into contact with them. It does
this by using the body’s own natural defense system, the immune response.
•
• Vaccination just means having the injection. When you are vaccinated, your body produces an immune response, just as you would if you were exposed to the infection, but without having the symptoms, and this builds up your resistance to that infection.
14
15
Vaccine-preventable diseases
Vaccine-preventable diseases include:
• Cervical cancer
• Cholera • Diphtheria • Hep B • Influenza • Japanese
encephalitis • Measles • Mumps • Pertussis
Vaccine-preventable diseases include:
• Pneumonia • Polio • Rabies • Rotavirus • Rubella • Tetanus • Typhoid • Varicella • Yellow Fever
16
17
Hib=(Haemophilus influenzae type b)
18
Vaccine Preventable
Diseases (VPDs)
• World immunization coverage up from 10% in 1970s to 80% in 1990s, then to 77% in 2004
• Smallpox eradication achieved 1982
• Polio eradication 2005-2010 ????????????????
• Measles still kills >0.4 million per year, need for a two dose policy (MMR)
• Many new vaccines available and coming
• Costs effectiveness and priorities
• Coverage is good; Adapt and expand
•NON-Vaccine Preventable
Diseases????????
19
Eradication or Control of VPDs
• Diseases under discussion for eradication –
- measles, TB, and some tropical diseases e.g. malaria and dracunculiasis
• Eradication - no further cases of a disease occur anywhere in nature; continued control measures may be unnecessary e.g. smallpox, polio
• Reducing epidemic and endemic VPDs in selected areas or target groups, may achieve local elimination
• Local elimination is where domestic circulation of a virus is interrupted with cases occurring from importation only
20
Herd Immunity
• Herd immunity can be defined as the resistance of a population to the introduction and spread of an infectious agent, based on the immunity of a high proportion of individual members of the population, thereby lessening the likelihood of a person with a disease coming into contact with b susceptible.
• Example - If 90 % of the children are vaccinated for measles, the remaining 10 % of the children who are not vaccinated might not become infected with measles because most of the children (90 %) are vaccinated.
• That means transmission from infected person to other susceptible children will not be easier.
• Can lead to disappearance of diseases (smallpox) – Vaccination no longer necessary
21
22
Types of Acquired Immunity
23
Immunoglobulin and antiserum
Human normal
immunoglobulin
Human specific
immunoglobulin
Non human Ig
(antisera,
antitoxins)
Hepatitis A
Measles
Rabies
Tetanus
Mumps
Hepatitis B
Varicella
Diphtheria
Diphtheria
Tetanus
Gas gangrene
Botulism
Rabies
24
Types of vaccines
1. Live vaccines
2. Attenuated live vaccines
3. Inactivated (killed vaccines)
4. Toxoids
5. Polysaccharide and polypeptide (cellular fraction) vaccines
6. Surface antigen (recombinant) vaccines.
25
Types of vaccines Live
vaccines
Live
Attenuated
vaccines
Killed
Inactivate
d vaccines
Toxoids Cellular fraction
vaccines
Recombin
ant
vaccines
•Small pox
variola
vaccine
•BCG
•Typhoid oral
•Plague
•Oral polio
•Yellow fever
•Measles
•Mumps
•Rubella
•Intranasal
Influenza
•Typhus
•Typhoid
•Cholera
•Pertussis
•Plague
•Rabies
•Salk polio
•Intra-
muscular
influenza
•Japanise
encephalit
is
•Diphther
ia
•Tetanus
•Meningococcal
polysaccharide
vaccine
•Pneumococcal
polysaccharide
vaccine
•Hepatitis B
polypeptide
vaccine
•Hepatitis
B vaccine
26
27
1. Properties of an ideal vaccine
1. Give life-long immunity
2. Broadly protective against all variants of organism
3. Prevent disease transmission
4. Rapidly induce immunity
5. Effective in all subjects (the old & very young)
28
2. Properties of an ideal vaccine
6. Transmit maternal protection to the fetus
7. Require few immunizations to induce protection
8. Not need to be administered by injection (oral, intranasal, transcutaneous)
9. Stable, cheap & safe
Routes of administration
• Deep subcutaneous or intramuscular route (most vaccines)
• Oral route (sabine vaccine, oral BCG vaccine)
• Intradermal route (BCG vaccine)
• Scarification (small pox vaccine)
• Intranasal route (live attenuated influenza vaccine)
29
Vaccine administration
Intranasal route (live attenuated influenza vaccine)
30
Injection site
Intramuscular Injections Site
Preterms & neonates Anterolateral thigh (junction of middle & lower third) Infants
Toddlers & older children Deltoid or Anterolateral thigh
Adolescents & adults Deltoid
Subcutaneous Injections Site
Infants thigh
>12 months Outer triceps
Intradermal Injections Site
All age Left deltoid 31
32
Vaccination schedule preschool -Jordan
Vaccine Age
BCG 1st contact
DaPT1+HepB1+Hib1+IPV1 2 months
DaPT2+HepB2+Hib2+IPV2+
OPV
3 months
DaPT3+HepB3+Hib3+OPV 4 months
Measles + OPV 9 months
MMR1 12 months
DPTbooster1 +OPV booster1
+MMR2
18 months
33
IAP recommendations for immunization in adolescents
Vaccines Schedule
MMR 2 doses at 4-8 weeks interval
Hepatitis B 3 doses at 0,1 & 6 months
Hepatitis A 2 doses at 0 & 6 months
Typhoid 1 dose every 3 years
Varicella 2 doses at 4-8 weeks interval
Influenza 1 dose every year
JE vaccine Catch-up up to 15 years
Tdap 1 dose followed by Td booster every 10 years
34
Vaccination for travelers the most frequent vaccine-preventable diseases
and the dose schedules
35
Scheme of immunization
• Primary vaccination
– One dose vaccines (BCG, variola, measles, mumps, rubella, yellow fever)
– Multiple dose vaccines (polio, DPT, hepatitis B)
• Booster vaccination
To maintain immunity level after it declines after some time has elapsed (DT, MMR).
36
Changes in immunoglobulin levels with age
37
38
Why multiple doses necessary?
• Single does may not provide sufficient immunity (e.g. HIB)
• Immunity wanes over time; “booster” dose is needed (DTaP)
• Single dose does not produce immunity for everyone (e.g. measles)
• Vaccine components change over time (e.g. influenza)
39
Periods of maintained immunity due to vaccines
• Short period (months): cholera vaccine
• Two years: TAB vaccine
• Three to five years: DPT vaccine
• Five or more years: BCG vaccine
• Ten years: yellow fever vaccine
• Solid immunity: measles, mumps, and
rubella vaccines.
40
Levels of effectiveness
• Absolutely protective(100%): yellow fever vaccine
• Almost absolutely protective (99%): Variola, measles, mumps, rubella vaccines, and diphtheria and tetanus toxoids.
• Highly protective (80-95%): polio, BCG, Hepatitis B, and pertussis vaccines.
• Moderately protective (40-60%) cholera vaccine, and influenza killed vaccine.
41
The Cold Chain
• The "cold chain" is a system of storage and transport of vaccines at low temperature from the manufacturer to the actual vaccination site.
• The cold chain system is necessary because vaccine failure may occur due to failure to store and transport under strict temperature controls.
42
Principles of vaccination
43
Principles of Vaccination
1. The primary goal in vaccination is to provide protective immunity by inducing a memory response to an infectious microorganism using a non-toxic antigen preparation. It is important to produce immunity of the appropriate kind: antibody / or cellular immunity.
2. Antibodies produced as a result of immunization are effective primarily against extracellular organisms and their products e.g., toxins. Passively administered antibodies have the same effect as induced antibodies.
3. Cell-mediated immunity (T cells, macrophages) induced by vaccination is important particularly in preventing intracellular bacterial and viral infections and fungal infections.
44
Principles of Vaccination
• 4.The ultimate goal of any immunization program is the eradication of the disease.
• 5.This requires that the infection is limited only to humans, with no animal or environmental reservoir, and the absence of any subclinical or carrier state in humans.
• 6.Achieving elimination requires a high level of herd immunity to prevent person to person spread.
• 7.This requires considerable infrastructure support to ensure that all at-risk populations are targeted for immunization.
• 8.This has been achieved for small pox, although we are close to the elimination of polio.
45
HAZARDS OF IMMUNIZATION
• No immune response is entirely free from the risk of adverse reactions or remote squeal. The adverse reactions that may occur may be grouped under the following heads:
1. Reactions inherent to inoculation
2. Reactions due to faulty techniques
3. Reactions due to hypersensitivity
4. Neurological involvement
5. Provocative reactions
6. Others 46
Adverse events after vaccination are grouped into five categories, depending on whether they are due to:
1) • the vaccine product: an adverse event caused or precipitated by a vaccine due to one or more of its inherent properties. Example: extensive limb swelling after administration of DTP vaccine
2) • quality: an adverse event caused or precipitated by a vaccine with one or more defects, including the administration device provided by the manufacturer. Example: paralytic poliomyelitis due to failure by a manufacturer to completely inactivate a lot of poliovirus vaccine
3) • vaccination error: an adverse event due to inappropriate handling, prescription or administration of a vaccine. Example: transmission of infection from a contaminated multidose vial
4) • anxiety: an adverse events arising from anxiety about the procedure. Example: vasovagal syncope in an adolescent during or after vaccination
5) • a coincidental event: an adverse event caused by an event other than the vaccine, vaccination error or anxiety. Example: a fever occurring at the time of vaccination (temporal association) that is in fact due to a viral infection
47
Main minor and severe reactions associated with vaccination
48
Different type of adverse events following immunization
Vaccine reaction Event caused/precipitated by the inherent properties of the vaccine (active component, adjuvant, preservative, stabilizer) when given correctly
Program errors Event caused by an error in vaccine preparation, handling or administration
Coincidental Event that happens after immunization but is not caused by the vaccine
Injection reaction
Event arising from anxiety about, or pain from, the injection itself rather than the vaccine
Unknown The cause of the event cannot be determined
49
Common minor vaccine reactions
Vaccine Local reaction (pain, redness, swelling)
Fever Irritability, malaise & non specific reactions
BCG common
Hib 5-15% 2-10%
Hep-B Adults-15% Children-5%
1-6%
Measles/MMR
10% 5-15% 50% (rash)
OPV <1% <1%
TT/DT/Td
10% 10% 25%
DPwT 50% 50% 60%
50
Rare serious vaccine reactions
Vaccine Reaction
BCG Suppurative adenitis, BCG osteitis, Disseminated BCGitis
Hep-B Anaphylaxis
Measles/MMR Febrile seizures, thrombocytopenia, anaphylaxis
OPV VAPP
TT Brachial neuritis, anaphylaxis, sterile abscess
DTP Persistent inconsolable screaming, seizures, HHE, anaphylaxis, shock
JE Serious allergic reactions, neurological events
YF Allergic reactions/anaphylaxis
51
Differential diagnosis of fainting and anaphylaxis
52
Reactions due to anxiety about vaccination
• Fainting is relatively common, mainly among older children and adults. This vasovagal reaction may lead to loss of postural tone and consciousness
• • Hyperventilation due to anxiety about vaccination can cause light-headedness, dizziness and tingling around the mouth and in the hands.
• • Vomiting: Vomiting is a common anxiety symptom in young children. Breath-holding spells may occur, which can result in brief unconsciousness, during which breathing resumes.
• • Convulsions: An anxiety reaction to injection can, on rare cases, include convulsions. Convulsions usually occur in the context of a vasovagal reaction and syncope, soon after or with the loss of postural tone and consciousness that characterizes syncope. Such seizures are due to anoxia, are usually self-limited and benign and do not require antiepileptic drug therapy.
53
Vaccination Coverage • Vaccination coverage is the percent of at risk or
susceptible individuals, or population who have been fully immunized against particular diseases by vaccines or toxoids.
• To be significantly effective in prevention of disease on mass or community level at least a satisfactory proportion (75% or more) of the at risk population must be immunized.
54
No. persons immunized in specified age group
= ------------------------------------------------------------ X 100
No. persons in the age group during that year
55
WHO UNICEF estimates time series for Jordan
56
57
Vaccines Contraindications and Precautions
Who should NOT receive a vaccine? Contraindications to any routine active immunization procedure
• Severe allergy to any vaccine component • Severe reaction to same vaccine in past • Individuals with certain immunodeficiencies (live vaccines) • An acute febrile illness, malaise, cough, diarrhea, or other
symptoms requiring medical treatment.
• Children who have had convulsions, fits, cerebral damage or
irritation in the neonatal period or any neurological disorder which
appears to be active should not normally have DTP vaccine as a
routine. They should be referred for specialist advice.
• Active untreated tuberculosis.
58
Contraindications to the use of live attenuated vaccines
1. Immunocomproised infants and children.
2. Patients suffering from any malignant condition such as leukemia or Hodgkin’s disease.
3. Patients undergoing treatment with corticosteroid (other than topical steroids), alkalating agents, antimetabolites or those receiving radiotherapy.
4. Organ transplantations.
5. Pregnancy,
6. Sever protein energy malnutrition or kwashiorkor???????
59
There are very few contraindications to rotavirus vaccines.
1. a history of a severe allergic reaction (e.g. anaphylaxis) after a previous dose of either rotavirus vaccine or any component of the vaccine being given;
2. • severe combined immunodeficiency; the risk–benefit ratio for children with known or suspected altered immunocompetence should be assessed individually. Children and adults with congenital immunodeficiency, haematopoietic transplantation or solid organ transplantation sometimes experience severe or prolonged rotavirus gastroenteritis.
3. • a history of intussusception, which places children at greater risk than children who have never had it.
60
· Minor illnesses such as upper respiratory infections or diarrhoea, mild fever (< 38.5°C)
· Allergy, asthma · Prematurity, underweight newborn child · Malnutrition??????????????????????? Under nutrition,
failure to thrive . · Child being breastfed · Family history of convulsions · Treatment with antibiotics · Dermatoses, eczema or localized skin infection · Chronic diseases of the heart, lung, kidney and liver · Stable neurological conditions, such as cerebral palsy
and Down's syndrome · History of jaundice after birth
These are not contraindications to Routine
Immunization
61
Conditions which are NOT Contraindications
(cont.)
- An antibiotic course just completed.
-Congenital heart disease, chronic diseases of the chest, eg.
Cystic fibrosis (these are important indications for
immunization)
- Prematurely, or preterm delivery.
- Nappy rash.
- Breast feeding.
- Topical steroids. 62
Invalid Contraindications Minor Illness
• Low grade fever
• Upper respiratory infection
• Otitis media
• Mild diarrhea
• Only one small study has suggested decreased efficacy of measles vaccine in children with URI
• Findings not replicated by multiple prior and subsequent studies
• No evidence of increased adverse reactions
63
Summary
• Current recommended vaccinations are safe and effective
• No vaccines are 100% effective or 100% risk-free
• Current recommendations based on best available scientific data
• Schedule reviewed/updated annually
64
Summary and Conclusion
• Vaccination is cornerstone of PH
• Children and other groups
• Rapidly developing field
• First priority in public health after safe water and food
• National programs must be revised annually
65