Polio 1

Community MedicineDr.Wijdan

Epidemiology of Poliomyelitis

Poliomyelitis
First described by Michael Underwood in 1789
First outbreak described in U.S. in 1843
21,000 paralytic cases reported in the U. S. in 1952
Global eradication in near future
Introduction
A viral infection most often recognized by acute onset of flaccid paralysis.
Infection with poliovirus results in a spectrum of clinical manifestations from
inapparent infection to non-specific febrile illness, aseptic meningitis,
paralytic disease, and death.
Poliomyelitis is a highly infectious disease caused by three serotypes of
poliovirus.
Two phases of acute poliomyelitis can be distinguished: a non-specific febrile
illness (minor illness) followed, in a small proportion of patients, by aseptic
meningitis and/or paralytic disease (major illness).
The ratio of cases of inapparent infection to paralytic disease ranges from
100:1 to 1000:1.


Outcomes of poliovirus infection
Epidemiological pattern
The epidemiological pattern of polio depends upon the degree of the
socioeconomic development and health care services of a country.
The pattern of the disease has been considerably modified by widespread
immunization.
According to the WHO; Three epidemiological patterns have now been delineated:
1. Countries with no immunization: the virus infects all children, and by age 5
years almost all children develop antibodies to at least one of the 3 types of
polio virus. In that pattern paralytic polio cases are frequent in infants.
2. Countries with partial immunization: In these countries, wild polio virus is
largely replaced by vaccine virus in the environment.
3. Countries with almost total immunization coverage: in these countries polio
is becoming rare, however, sporadic cases do occur rarely.

Poliomyelitis—United States, 1950-2005*

Causative organism:
Poliovirus: belongs to «Picorna» viruses which are small RNA-containing
viruses.
Polioviruses have three antigenically distinct types, giving no cross immunity:
Type I: «Leon»; the commonest in epidemics
Type II: «Berlinhide»; the prevailing type in endemic areas.
Type III: «Lansing»; occasionally causes epidemics.
Polioviruses are relatively resistant and survive for a long time under suitable
environmental conditions, but are readily destroyed by heat (e.g. pasteurization
of milk, and chlorination of water).
Reservoir of infection
Man is the only reservoir of infection of poliomyelitis.
Man: cases and carriers
Cases: all clinical forms of disease
Carriers: all types of carriers (e.g. incubatory, convalescent, contact and
healthy) except chronic type. In endemic areas, healthy carriers are the most
frequent type encountered.
Foci of infection
Pharynx: the virus is found in the oropharyngeal secretions.
Small intestine: the virus finds exit in stools.
Modes of transmission
Since foci of infection are the throat and small intestines, poliomyelitis
spreads by two routes:
Oral-oral infection: direct droplet infection
Faeco-oral infection:
Food-borne (ingestion) infection through the ingestion of contaminated foods.
Vehicles include milk, water, or any others that may be contaminated by
handling, flies, dust….
Hand to mouth infection.
(polio virus has the ability to survive in cold environments. Overcrowding and
poor sanitation provide opportunities for exposure to infection.)
Period of infectivity
Contact and healthy carriers: about 2 weeks
Cases: the cases are most infectious 7 to 10 days before and after the onset of
symptoms. In the feaces, the virus is excreted commonly for 2 to 3 weeks,
sometimes as long as 3 to 4 months.
In polio cases, infectivity in the pharyngeal foci is around one week, and in
the intestinal foci 6-8 weeks.
Incubation Period: 7-14 days


Susceptibility :
Age: more than 95% reported in infancy and childhood with over 50% of them in
infancy.

Sex: no sex ratio differences, but in some countries, males are infected more

frequently than females in a ratio 3:1.

Risk factors: (provocative factors of paralytic polio in individuals infected

with polio virus): fatigue, trauma, intramuscular injections, operative
procedures, pregnancy, excessive muscular exercise…

Immunity: The maternal antibodies gradually disappear during the first 6 months

of life. Immunity following infection is fairly solid, although infection with
other types of polio virus can still occur.
Sequelae of polio infection
1. Inapparent infection
Incidence is more than 100 to 1000 times the clinical cases.
No clinical manifestations, but infection is associated with acquired immunity,
and carrier state.
2. Clinical poliomyelitis
a. Abortive polio (minor illness):
The majority of clinical cases are abortive, with mild systemic manifestations
for one or two days only, then clears up giving immunity. Some abortive cases
may be so mild to pass unnoticed.
Manifestations:
Moderate fever
Upper respiratory manifestations: pharyngitis and sore throat
Gastrointestinal manifestations: vomiting, abdominal pain, and diarrhea.
Clinical poliomyelitis (cont.)
b. Involvement of the CNS (major illness):
Affects a small proportion of the clinical cases, and appears few days after
subsidence of the abortive stage. It takes two forms: nonparalytic and paralytic
polio.
Nonparalytic polio is manifested by fever, headache, nausea, vomiting, and
abdominal pain. Signs of meningeal irritation (meningism), and aseptic
meningitis (pain and stiffness in the neck back and limbs) may also occur.
The case either recovers or passes to the paralytic stage, and here the
nonpralytic form is considered as a «preparalytic stage».
Paralytic poliomyelitis:
Paralysis usually appears within 4 days after the preparalytic stage (around
7-10 days from onset of disease).
The case shows fever, headache, irritability, and different paralytic
manifestations according to the part of the CNS involved, with destruction of
the motor nerve cells, but not the sensory nerve cells.
Forms: spinal, bulbar, and bulbospinal.
1. Spinal polio
Different spinal nerves are involved, due to injury of the anterior horn cells
of the spinal cord, causing tenderness, weakness, and flaccid paralysis of the
corresponding striated muscles.
The lower limbs are the most commonly affected.
2. Bulbar polio
Nuclei of the cranial nerves are involved, causing weakness of the supplied
muscles, and maybe encephalitis.
Bulbar manifestations include dysphagia, nasal voice, fluid regurgitation from
the nose, difficult chewing, facial weakness and diplopia
Paralysis of the muscles of respiration is the most serious life-threatening
manifestation.
3. Bulbospinal polio
Combination of both spinal and bulbar forms
Complications and case fatality
· Respiratory complications: pneumonia, pulmonary edema


· Cardiovascular complications: myocarditis, cor pulmonale.

· Late complications: soft tissue and bone deformities, osteoporosis, and

chronic distension of the colon.
Case fatality: varies from 1% to 10% according to the form of disease (higher in
bulbar), complications and age ( fatality increases with age).
Case definition
The following case definition for paralytic poliomyelitis has been approved by
CDC (1997)
Clinical case definition
Acute onset of a flaccid paralysis of one or more limbs with decreased or absent
tendon reflexes in the affected limbs, without other apparent cause, and without
sensory or cognitive loss.
Case classification
Probable: A case that meets the clinical case definition.
Confirmed: A case that meets the clinical case definition and in which the
patient has a neurologic deficit 60 days after onset of initial symptoms, has
died, or has unknown follow-up status.
Confirmed cases are then further classified based on epidemiologic and
laboratory criteria. Only confirmed cases are included in the Morbidity and
Mortality Weekly Report (MMWR).
Indigenous case: Any case which cannot be proved to be imported.
Imported case: A case which has its source outside the country. A
person with poliomyelitis who has entered the country and had onset of illness
within 30 days before or after entry
Diagnosis and laboratory testing:
Laboratory studies, especially attempted poliovirus isolation, are critical to
rule out or confirm the diagnosis of paralytic poliomyelitis.
Virus isolation
The likelihood of poliovirus isolation is highest from stool specimens,
intermediate from pharyngeal swabs, and very low from blood or spinal fluid.
Serologic testing
A four-fold titer rise between the acute and convalescent specimens suggests
poliovirus infection.
Cerebrospinal fluid (CSF) analysis
The cerebrospinal fluid usually contains an increased number of
leukocytes—from 10 to 200 cells/mm3 (primarily lymphocytes) and a mildly
elevated protein, from 40 to 50 mg/100 ml.
Prevention
General prevention:
Health promotion through environmental sanitation.
Health education (modes of spread, protective value of vaccination).
Prevention
a. Seroprophylaxis by immunoglobulins:
Not a practical way of giving protection because it must be given either before
or very shortly after exposure to infection.
(0.3 ml/kg of body weight).
b. Active immunization:
* Salk vaccine (intramuscular polio trivalent killed vaccine).
* Sabin vaccine (oral polio trivalent live attenuated vaccine).


Inactivated Polio Vaccine
Contains 3 serotypes of vaccine virus
Grown on monkey kidney cells
Inactivated with formaldehyde
Contains 2-phenoxyethanol, neomycin, streptomycin, polymyxin B
Highly effective in producing immunity to poliovirus
>90% immune after 2 doses
>99% immune after 3 doses
Duration of immunity not known with certainty
Oral Polio Vaccine
Contains 3 serotypes of vaccine virus
Grown on monkey kidney (Vero) cells
Contains neomycin and streptomycin
Shed in stool for up to 6 weeks following vaccination
Highly effective in producing immunity to poliovirus
50% immune after 1 dose
>95% immune after 3 doses
Immunity probably lifelong
Salk versus Sabin vaccine

Polio Vaccination Schedule

Polio Vaccination of Unvaccinated Adults
IPV
Use standard IPV schedule if possible (0, 1-2 months, 6-12 months)
May separate doses by 4 weeks if accelerated schedule needed
Polio Vaccination of Previously Vaccinated Adults
Previously complete series
administer one dose of IPV
Incomplete series
Administer remaining doses in series ,no need to restart series
Polio Vaccine Adverse Reactions
Rare local reactions (IPV)
No serious reactions to IPV have been documented
Paralytic poliomyelitis (OPV)
Vaccine-Associated Paralytic Polio
Increased risk in persons >18 years
Increased risk in persons with immunodeficiency
No procedure available for identifying persons at risk of paralytic disease
5-10 cases per year with exclusive use
of OPV
Most cases in healthy children and their household contacts
Polio Vaccine
Contraindications and Precautions
Severe allergic reaction to a vaccine component or following a prior dose of
vaccine
Moderate or severe acute illness.
B. Control of patient, contacts and the immediate environment:
1)Report to local health authority: Obligatory case report of paralytic cases as
a Disease under surveillance by WHO, Class 1.
2) Isolation: Enteric precautions in the hospital for wild virus disease; of
little value under home conditions because many household contacts are infected
before poliomyelitis has been diagnosed.
3) Concurrent disinfection: Throat discharges, feces and articles soiled
therewith. Terminal cleaning.
4) Quarantine: Of no community value.
5) Protection of contacts: Immunization of familial and other
close contacts is recommended but may not contribute to
immediate control; the virus has often infected susceptible
close contacts by the time the initial case is recognized.
6) Investigation of contacts and source of infection: Occurrence
of a single case of poliomyelitis due to wild poliovirus must
be recognized as a public health emergency prompting
immediate investigation and planning for a large-scale response.
A thorough search for additional cases of AFP in the
area around the case assures early detection, facilitates
control and permits appropriate treatment of unrecognized
and unreported cases.
7) Specific treatment: None; however, Physical therapy is used to attain maximum
function after paralytic poliomyelitis.
C. Epidemic measures:
In any country, a single case of poliomyelitis must now be considered a public
health emergency, requiring an extensive supplementary immunization response
over a large geographic area.


D. Disaster implications:
Overcrowding of non-immune groups and collapse of the sanitary infrastructure
pose an epidemic threat

E. International measures:

Poliomyelitis is a Disease under surveillance by WHO and is targeted for
eradication by 2005.

National health administrations are expected to inform WHO immediately of

individual cases and to supplement these reports as soon as possible with
details of the nature and extent of virus transmission.
Planning a large-scale immunization response must begin immediately and, if
epidemiologically appropriate, in coordination with bordering countries. :
Countries should submit monthly reports on case of poliomyelitis AFP cases and
AFP surveillance performance to their respective WHO offices.
International travelers visiting areas of high prevalence must be adequately
immunized.
Polio Eradication
Last case in United States in 1979
Western Hemisphere certified polio free in 1994
Last isolate of type 2 poliovirus in India in October 1999
Global eradication goal

Saif AlDeen Adil Kamil