Introduction To Community Medicine PDF

Summary

This document is an introduction to community medicine. It covers definitions of key terms like community medicine, preventive medicine, and public health. It also outlines goals of community medicine, concerning promotion, preservation, and correcting departures from health.

Full Transcript

INTRODUCTION

BY

AHMED GHANDOUR
 Definition of community
medicine
It is the branch of medicine that gets use of all scientific
health information gathered from:
1. Epidemiology
2. Biostatistics
3. Preventive medicine and public health
4. Demography
5. Health management
6. Environmental sanitation
7. Occupational health
8. Other related science such as behavioral and social
sciences.
For meeting the health needs of the community as a whole.
 Preventive Medicine:
It is the science of application of the different levels of
prevention at the population, community and individuals.

Public health
Public Health defined as 'the science and art of preventing
disease, prolonging life and promoting health and efficiency
through organized community measures such as control of
infection, sanitation, health education, health services and
legislation, etc.
 Social Medicine:
It is defined as the study of the man as a
social being in his total environment. It
stands on two pillars- medicine and
sociology. It is concerned with the health of
groups of individuals as w II as individuals
within groups.
 Goals of community medicine

I. Promotion of health

II. Preservation of health

III. Correcting of any departure from health
that interfere with the wellbeing of the
community.
 Community Medicine
Main items which is concerned by community medicine:
1.Disease or health problem:
– Natural history
– Distribution
– Why arise
– Methods of prevention
– Health services and programs provided to prevent it.
2.Measuring and evaluation of health status of
population
3.Raising the level of health of the population.
 Health and Disease
Definition: (WHO)
It is a state of compete
physical,
mental &
social wellbeing
and not merely the absence of disease or
infirmity.
 Dimensions of health:
Physical Health:
The state of physical health implies the notion of "perfect
functioning" of the body. It is a state in which every cell and
every organ is functioning at optimum capacity and in
perfect harmony with the rest of the body.
Mental Health:
A mentally healthy person is free from internal conflicts, He
is able to get on well with others, He is well adjusted, He
has good self-control and He faces problems and tries to
solve them intelligently.
 Dimensions of health:
Social Health:
It takes into account that every individual is
part of a family and of wider community. The
social, cultural and economic conditions in
which we live have an impact on the health
and disease of individuals and communities.
 Levels of Health
Ideal Health:
It confirms the WHO definition of health.
Positive Health:
In which there is a reserve of health which enables the
individual or the community to face the physical, mental
and social problems without the appearance of any
symptoms or signs of diseases.
Average Health:
The individual is healthy but when faces any physical,
mental or social problem he become diseased.
 Levels of Health
In-apparent disease:
A diseased person showing no signs or symptoms. But the
disease can be discovered by investigations.
Apparent disease:
A diseased person showing symptoms & signs of the
disease.
Death:
The end of the health spectrum.
 Factors affecting health
[Determinants of health]

1. The environment
2. Genetics
3. Nutrition
4. Behaviour
5. Level of immunity(herd immunity)
6. Health care system and programs
 Disease
It is deviation from normal health status with characteristic
symptoms and signs.
(May be communicable or non communicable)
Communicable disease :
It is characterized by:
1. Caused by a biological agent as bacteria , virus…etc
2. Transmitted from a source of infection to susceptible
host through channels of transmission (one or more)
Non communicable disease:
It is non transmissible disease such as CHD, DM,
Hypertension…. etc..
 Important Definitions
Infection:
It is invasion of human body with a pathogenic
agent.
Infectious disease:
It a clinically manifest disease resulting from
infection
N.B. Infection ≠ infectious disease.

Non infectious disease:
It a disease is not due to infectious agent as DM.
Contagious disease:
Disease transmitted from person to another by
direct contact as scabies, leprosy…etc.
Iatrogenic disease:
It is a physician induced disease e.g., prenatal
x-ray → childhood leukemia, infected blood
transfusion → HBV – AIDS ….etc.
Opportunistic infection:
It is infection by an organism that takes the
opportunity provided by a defect in the host
defense mechanism e.g., AIDS.
Ecology of the disease:
It is the interaction between the host, agent and
environment that affect this disease.
Infestation:
Invasion of the host by ectoparasite e.g., worm.
Contamination:
The presence of living infectious agents on the
exterior surface of the body or on the clothes or
articles of the person or on any inanimate object
in the environment including water and food.
Decontamination:
It is removing of contaminants such as
microorganisms, radioactive substances,
hazardous chemical material,..etc
Disinfection:
A process of killing pathogenic microorganisms
(doesn’t include spores). Disinfectant is a chemical
agent used for the process of disinfection.

Sterilization:
A process that kills all viable microorganisms. i.e.
absolute germ free state.
Infectivity:
It refers to the proportion of exposed persons
who become infected.
Pathogenicity:
It refers to the proportion of infected persons
who develop clinical disease.
Virulence:
It refers to the proportion of persons with clinical
disease who become severely ill or die.
 Epidemiology
Definition:
*
It is the study of the distribution and determinants of
health related states or events in specified populations
and the application of this study to the control of the
health problems.
[Epi = upon Demos = people Ology = science]

Distribution: related to person / place/ time
= Descriptive epidemiology.
Determinants: include both causes and factors
that influence the risk of diseases
= Analytic epidemiology.
 Uses of epidemiology
1. Searching for causes of disease

2. Community assessment

3. Evaluating community health
programs and intervention

4. Identification of syndromes
(Lumping and splitting)
5. Completing the clinical picture

6. Improving the diagnosis and treatment and
prognosis of diseases.

7. Investigating the mode of transmission of
new disease.

8. Clinical decision analysis:

9. By studying time trends → predict some
future development and devise means of
control.
Epidemiological triad (triangle) *

Theory of disease causation:
1. Single disease theory: [old theory]
any disease has one single cause e.g., typhoid
bacilli cause typhoid fever.

2. Multiple causation theory:
health and disease are affected by 3 groups of
factors → agent - host - environment
Epidemiological triad or triangle

Definition:
It is the 3 groups of factors operating in
the prepathogenesis period of natural
history of disease
1. Agent Agent

2. Host
3. Environment
Host Environment
 I- Agent factors:

Definition of causative agent of a disease:
is a factor that influences the occurrence of a disease
→ ↑ factor → ↑ disease occurrence
↓ factor → ↓ disease occurrence

1. Biological agents: bacteria – virus- parasite … etc.
2. Chemical agents: organic or inorganic chemicals
3. Physical agents: heat – cold – light – noise … etc.
4. Psychological agents: worries –internal conflicts..etc.
5. Traumatic agents: accidents - floods … etc.
 II- Host factors:

Host factors → intrinsic factors that influence
an individual's exposure, susceptibility or
response to causative agent.
Age, sex, race, socioeconomic status and
behaviors (e.g., smoking, eating
habits…etc.) genetic composition –
nutritional status – immunological status –
anatomic structure – presence of disease
or medications and psychological makeup
 Environmental factors:

A. Physical factors:
1. Geologic factors: as type of soil (which determine type
of agriculture), food and water supply.
2. Geographical factors: as location of the city.
3. Climatic factors: as temperature – humidity – winds.

B- Biological factors: as insects.

C. Sociocultural factors:
as population density – Sanitation - Educational status -
Economic level - Medical health facilities - Means of
transportation [providing medical care & rapid
spread of infection from one locality to another]
 Natural history of disease

Definition:
It refers to the progress of a disease in an individual over
time, in the absence of intervention.

It begins with exposure to or accumulation of factors
capable of causing disease (e.g., microorganisms for
infectious disease or cancer initiators as asbestos or
tobacco → lung cancer or cancer promoters as
estrogens → endometrial cancer) without medical
intervention, the process ends with → recovery, disability
or death.
 Usual time of
Pathologic changes diagnosis

Stage
Stage of symptoms
symptoms
Exposure

Stage of sub clinical Stage of clinical disease Stage of recovery,
Stage of susceptibility disease disability or death
(stage of pre
symptomatic)

[Pre pathogenic period] [Pathogenic period]
 The usual course of a disease may be halted at any
point in the progression by → Preventive measure
→ therapeutic measures
→ host factors
→ other influences.
Stage of subclinical disease called:
→ incubation period [infectious diseases]
→ latency period [chronic diseases]
The subclincial period varies form seconds as in
hypersensitivity to decades as in AIDS & hepatitis.
In subclincial period → no symptoms but there are
pathologic changes → may be detected by screening
tests (laboratory, radiographic … etc.)]
 Pattern of occurrence of
infectious diseases *
1. Endemic pattern:
– It is persistent occurrence of disease in a certain
community (low or moderate level)?
– Another definition: it is usual prevalence of a given
disease within a given geographic area.
2. Sporadic:
– Scattered occurrence of cases of disease in very
small number and over wide area.
– Under optimal conditions may start an outbreak or
even epidemic.
3. Epidemic:
Sudden occurrence of large number of cases in excess
of normal expectancy in a community in a short time.
Endemo –epidemic: under optimal conditions, the
endemic disease may flare up and cases clearly
exceed seasonal endemic pattern.
Exotic- epidemic: these are imported communicable
disease
4. Pandemic:
– It is an epidemic involving more than one country
e.g., AIDS, cholera.
5. Outbreak:
– It an epidemic on a small scale, among a confined
group in a closed community as prison, school.
Chain (cycle) of infection *

Reservoir of infection Susceptible host

Portal of entry
Portal of exit

Agent

Mode of transmission
 Ι - Reservoir of infection
Definition: it is a man, animal, soil or organic
matter in which infectious agent can live and
multiply.
So, reservoir of infection may be:
Human
Animal
Inanimate
Man and animal →most important source of
infection.
 Human reservoirs
A - Case
1. Frank case [Mild, moderate, severe]
2. Abortive case (missed case)

B - Carrier [Sub-clinical infection]
[in-apparent infection]

NB: severe cases are not necessarily more
infectious than mild or sub-clinical cases.
 Carrier
Definition: is a person who harbors the
infective agents, acting as a source of
infection without showing any symptoms
or signs of the disease.
Classification:
1. According to spectrum of disease
2. According to the duration.
3. According to habitat of the organism.
 According to spectrum of disease
A. Incubatory carrier:
discharging the organism during the IP
e.g., measles, mumps.
B. Healthy carrier:
discharging the organism during sub-clinical period
e.g., menigeococcla meningitis.
C. Contact carrier:
as healthy carrier but gives a history of being in
contact with infected person e.g. diphtheria.
D. Convalescent carrier:
discharging the organism during convalescence
period e.g., typhoid fever.
 According to the duration
A. Transient carrier: few days to few
weeks e.g., cholera
B. Temporary carrier: few weeks to some
months e.g., hepatitis.
C. Chronic carrier: ↑ 1 year e.g., AIDS.
D. Permanent carrier: throughout life
e.g., typhoid (rare case).
 According to habitat of the organism

A. Nasal carrier: as diphtheria

B. Throat carrier: as cerebrospinal meningitis

C. Intestinal carrier: as typhoid, cholera.

D. Urinary carrier: as typhoid.
 Importance of carrier as source
of infection
Because of:
1. They move freely in the community
2. They are greater number than cases
3. They are difficult to diagnose
4. They persist for long time

Dangerous group of carriers:
[Food handlers, Servants, Baby sitters,
Housekeepers, School and hospital personnel,
Coiffeurs and ticket conductors]
B. Animal reservoirs:
Animals may be cases or carriers for many
diseases. e.g., rabies & bovine TB
[Zoonosis: disease that are transmitted from
animal to human]

C. Inanimate reservoirs:
Including soil – plant and organic matter
e.g. tetanus – anthrax.
 II. Portal of exit
1. Respiratory tract → e.g. diphtheria
2. Intestinal tract → e.g. typhoid (feces), cholera
(vomitus).
3. Urinary tract → e.g. typhoid
4. Trans-plancental →e.g. syphilis – AIDS.
5. Mechanical → e.g. insect bite – syringes blood.
6. Open lesion → e.g. skin infection – STDs
 III. Mode of transmission

A - Direct transmission:
– Direct contact
– Droplets
– Transplancental
B - Indirect transmission:
– Vector transmission (vector – borne infection)
– Vehicles transmission (vehicle borne infection)
– Air borne
– Soil borne
 Direct transmission
It means close association between the infected man or
animal and the new host without a 3rd object.
1. Direct contact:
By touch, kissing, sexual intercourse with infected person
Also, by contact with animal e.g., biting (rabies)
2. Droplet transmission:
Droplets are particles of moisture including the
infecting organisms expelled from respiratory tract by
coughing, sneezing, laughing or even talking (limited
distance 1-2 meter) e.g., measles , diphtheria,
influenza.
NB: droplets → may fall in ground → contaminating soil,
food or article (indirect).
3. Transplacental transmission:
from Mother through placenta to fetus, e.g., syphilis –
AIDS
 Indirect transmission
A. Vector transmission (vector – born infection)
Most vectors → arthropods as mosquitoes, fleas, ticks.
Their role is either mechanical or biological
B. Vehicles transmission (vehicle borne infection)
Water
Milk & its products:
Food
Fomites
C. Air borne
Droplet nuclei
Dust nuclei
D. Soil borne
 Vector transmission
1. Mechanical transmission:
A - Direct :
e.g., house flies become contaminated from
discharges of infected eye then → transmit it to
a healthy eye as in purulent conjunctivitis
B - Indirect :
e.g., house flies carry pathogenic organisms
(on feet – mouth part or ingested and pass in
insect feces or vomitus) → then will
contaminate food as in typhoid & cholera.
2. Biological transmission:
The agent has to pass through some biological activity
inside the vector which requires a certain period of
time (extrinsic IP). After this period, the insect is then
able to transmit infection to the new host.

The biological transmission can be:
1. Preparative biological transmission: simple
multiplication of the causative agent in the vector e.g.,
pasturella pestis (flea)
2. Cyclopropagative: organisms multiply and undergo
changes within the vector e.g., malaria.
3. Cyclodevelopmental: organism have a cycle of
developmental changes inside the vector e.g., filaria in
mosquito
 Vehicle transmission
1. Water:
it can be contaminated from excreta as feces and urine → e.g.,
cholera – typhoid – dysentery (bacillary – amoebic)

2. Milk & its products:
It can be contaminated by Man or Animal:
Animal → pathogens excreted in milk of infected animal e.g., bovine
TB.
→ pathogens coming from infected udder e.g. streptococcal
infection.
→ milk contaminated with excreta of animal e.g., anthrax.
Man → droplets e.g. diphtheria, scarlet fever
→ discharges from skin lesions or nasal discharges
e.g., staph food poisoning.
→ using contaminated water in washing utensils used for
milk or for milk adulteration.
3. Food:

May be due to:
a. The animal used as food may be already infected e.g.,
cattle with salmonellosis or pigs with trichniasis.
b. Contamination of food or drink from: insects – food
handlers - soiled utensils – tables – knives… etc.
c. Improper (defective) storage of food
d. Contaminated food items (vegetable – fruits … etc.)
→ eaten raw without proper washing.

4. Fomites:
Fomites → are different objects (e.g., clothes, toys,
utensils, linens… etc) which being contaminated from
the reservoirs.
 Air borne transmission
A - Droplet nuclei:
It is the small particles result from evaporation of
the fluids from the droplets of infected person.
They contain pathogens and remains
suspended in air for a long time in a sort of
unseen smoke, which is dispersed here and
there by the air current → inhaled by susceptible
host → infection.
e.g. spread of measles may occur from room to
room or from word to word in hospital.
B - Dust nuclei:
It is the large particles → fall on the ground → mix with
dust → become part of dust.
The organisms resist drying for a long time as TB –
haemolytic streptococci.
Dust may be contaminated by → droplet – spitting on
ground – excreta.

Contaminated dust may:
→ Dispersed in air → e.g., TB, respiratory infection.
→ soils articles (utensils – bedding – clothes …. etc.)
→ fall on skin → skin infection or tetanus.
→ fall on syringes, instruments or dressings
→ wound infection.
 Soil-borne transmission:
as in ancylostomiasis - ascariasis.
 IV – Portal of entry

Respiratory tract → by inhalation
GIT → by ingestion
Skin and MM→ by direct invasion – vector
Blood → by inoculation
 V – The susceptible host

It is a person or animal (including birds and
arthropod) who get infected by infectious agent
under natural conditions.
Factors affecting the susceptibility:
– Genetic factors
– General factors:
Natural resistance (skin- m.m. – cilia or resp. tract. – cough
reflex…etc.)
Malnutrition, alcoholism, presence of diseases or therapy
which impairs immune system →↑ susceptibility.
– Immunity
– Behavior
 Immunity
Passive :
It is the type of immunity in which ready made
antibodies are gained.
It is 2 types:
1. Natural
2. Artificial

Active :
It is the type of immunity in which the person makes or
develops his own antibodies.
It is 2 types:
1. Natural
2. Artificial
 Passive immunity
1. Natural passive immunity (infant immunity):
It is resistance of infant through:
a. Maternal antibodies
b. Maternal milk (esp. colostrums) → 95% of its protein is
immunoglobulins.
These antibodies are at their highest level → at birth then
→ gradual decline till become insignificant → at 6
months.
Natural passive immunity in the infant could be induced
artificially by immunizing the mother during pregnancy
e.g., immunization of tetanus toxoid to protect the newly
born infant against tetanus neonatorum.
2. Artificial passive immunity: (passive immunization)
It is the immunity induced by injecting immune serum or
gammaglobulin.
It is of short period → about 3 weeks
e.g.
a. Sera of artificially immunized animals as antitetanic &
antidiphtheritic sera → used in prophylaxis or treatment.
b. Gamma globulin: it is a plasma protein fraction that
carries most of antibodies present in the body as
measles and hepatitis A.

[Gamma globulin → used in prophylaxis only]
 Active immunity
1. Natural actively acquired immunity:
(Post-infection immunity)
– It may by solid or for a long time as in case
of mump – measles.
– It may be moderate duration (years) as in
case of meningitis
– It may be short period as in case of common
cold
2. Artificial actively acquired immunity:
(vaccination)
It is produced artificially by active
immunization → using an immunizing
agent which is a specific antigens when
introduced in the body → provoke
antibodies formation.
The ideal immunizing agent:
1. Stable antigenically
2. Reasonable cost
3. Give potent immunity
4. Keeping quality is good
5. Minimal side effects
6. Easy in administration
 Types of immunizing agents
(vaccines)
A. Live attenuated vaccines:
1. Attenuated vaccine:
micro-organisms lose their pathogenicity but retain
their antigenicity as MMR vaccine
2. Variant forms of living organisms vaccine:
In these vaccines a milder species of the organisms
closely related antigenically to the human disease
agents are used as BCG vaccine using bovine tubercle
bacilli - small pox vaccine using cow pox virus.

[Attenuation can be done by repeated sub-cultures or
cultivation under un-favorable conditions ]
B. Non-living vaccines:
1. Killed or inactivated vaccines:
Killed bacterial organism using heat or
chemicals [as ether and Formalin]. As TAB
vaccine - whooping cough vaccine.
Inactivated virus as Salk vaccine.
2. Toxoid vaccines : (products of organisms)
Toxoid is the toxins after loosing their toxicity but
retaining their antigenicity as diphtheria toxoid
– tetanus toxoid.
3. Part of organisms:
As the subunit of hepatitis B surface
antigen (HBsAg) prepared from plasma
of HBsAg positive carriers or by Genetic
engineering.
As part of polysaccharide capsule of
Nisseria meningitides used as vaccine
against meningeococcal meningitis.
 Herd immunity *
Definition:
-it is a state of immunity within the community.
Herd immunity is the factor that decides the
epidemiological pattern of any infectious disease
among the community.
The incidence of a disease raises at times when
the number of susceptible in the population is
highest and the herd immunity if lowest.
Herd immunity is affected by:
– The extent of coverage of mass vaccination
– The degree of resistance afforded by vaccine
– Past experience with different infection
– Duration and degree of infectivity of the
organisms
– Environmental sanitation and overcrowding
sanitation.
 Incubation period *
Definition:
It is the interval between the entry of infective agent into
a susceptible host and the appearance of symptoms
and signs of the disease.
It depends on:
1. Type of infective agent → organism – toxin.
2. Dosage and virulence of infective agent.
3. Host resistance.

Each disease has its own IP. IP varies from few hours to
few years.
Types of IP:
1. Intrinsic IP : In man
[as definition]
2. Extrinsic IP : In vector
it is the Period between the time the vector gets
infected and time the vector become infected

[It is required for development or multiplication of
pathogenic agent].
Importance of IP:
1. To know the probable date of exposure to source
of infection → tracing the source of infection
2. To apply preventive measures in certain disease as
in measles: if measles vaccine given to the contact
in 1st 3 days after exposure → it will prevent the
disease.
3. To evaluate the control measures: if good control
measures → no 2ry cases, if not efficient control
measures → 2ry cases
(2ry cases = cases that appear for a period longer
than IP).
4. To decide the period required for isolation –
surveillance or segregation of contacts.
5. To differentiate between pattern of
epidemic curve
6. Quarantinable measures of international
travelers. e.g. for travelers coming from
endemic area of cholera without having
valid vaccination certificate → they are
quarantined for 5 days (IP of cholera).
 Period of communicability
(infectivity) *

Definition:
It is the time during which the causative
agent may be transferred directly or
indirectly from infected individual to
another or from an infected animal to man.
 Epidemic curve *
Definition:
It is a line graph (frequency polygon) → showing the
number of cases of an epidemic every defined period
of time.
Phases:
1. Phase of evolution: represented by → ascending
limb :steep (abrupt) rise, gradual rise
2. Phase of decline: represented by → descending limb:
steep (abrupt) rise, gradual rise
3. Peak : acute – broad – flat (plateau)
 Phase of evolution:

a. Steep or abrupt rise: b. Gradual rise
Suggesting Suggesting
Short impulse → short period Continuous impulse → long
of contamination period of contamination
Short IP Long IP
Rapid rate of dissemination of Slow rate of dissemination of
infection infection
 Phase of decline:

a. Steep or abrupt decline: b. Gradual decline

Suggesting Suggesting

Short impulse Continuous impulse

Short IP Long IP

Effective control measures Deficient control measures

Rapid exhaustion of susceptible Occurrence of 2ry cases
in the community
Peak of the epidemic curve:
a. Acute peak → steep ascending & descending limbs
b. Broad peak → gradual ascending & descending
limbs
c. Flat (plateau) peak → rare:
suggesting;
1. Sustained source of infection
2. sustained susceptible in the community
3. Ineffective control measures.
4. Continuous favorable environmental background
for the spread of infection.
 Types of epidemic curve *

Explosive type: common source Epidemic
common vehicle Epidemic
e.g.: water or food contamination
Progressive type: contact Epidemic
e.g. : Droplet epidemic
Prevention of communicable disease
These are actions taken prior to the disease onset which
control the causation and the risk factors → thus limit the
incidence or prevent the possibility of occurrence of a
disease.
Measures of prevention:
1. Health education
2. Environmental sanitation
– safe water supply
– clear air
– adequate sewage and refuse
– good housing
– anti flies measure
3. Adequate nutrition
4. Specific protection
– immunization
– chemoprophylaxis
– protection from carcinogens and allergens
– protection against accidents
– protection against occupation hazards
Control of communicable disease

1. Control of cases
2. Control of contacts
3. Control of environment
4. International measures
1. Control of cases:
a. Case finding:
Clinical diagnosis and laboratory confirmation if necessary.
The earlier → the better for case, contacts and community.

b. Notification:
Cases (definite or suspected)→ must be notified to an appropriate
authority → MOHP → WHO (in specific diseases)

c. Isolation:
The infectious case must be isolated → at home, hospital or
special place → according to nature of disease and home
condition.
Period of isolation varies according to period of communicability
d. Disinfection:
It is the process of destroying pathogenic
organisms outside the body.
Concurrent disinfection:
Disinfection is carried out during the course of
disease → for
– excreta and discharges
– soiled articles and fomites
– any object or material used in nursing
Terminal disinfection:
Disinfection for the last time → after transferring the
case, cure or death → for the place and
contaminated belonging of the patient.
 e. Treatment:
specific therapy as chemotherapy or antitoxins
nursing and proper feeding
symptomatic treatment
prevention and control of squeal and complications

f. Release :
The case can leave isolation and return to school or work
after:
Clinical recovery
Satisfactory general condition
Becoming bacteriologically free → in disease with
convalescent carriers.
2. Control of contacts

a. Enlistment:
a special contacts list is filled for names and personal
data
b. Search for carriers: using screening tests
c. Surveillance, segregation or isolation: according to the
disease.
4. Specific protection: by
– Immunization → active as measles, passive as diphtheria.
– Chemoprophylaxis e.g., tetracycline in cholera.
a. Surveillance:
It is the supervision of contacts to permit recognition of infection or
illness without restricting their movements.
The period of observation is equal to longest IP of the disease under
observation..
b. Segregation:
As in measles – diphtheria – enterica.
It is an exclusion from school or work ( not isolation) → until prove
not to be case or carrier.
(for IP or after becoming bacteriological free in diseases with
convalescent carrier as diphtheria).
c. Isolation:
In serious diseases only.
It means separation of contacts in a specific place (quarantine) → to
prevent direct or indirect contact between them and unexposed
individuals.
Period of isolation is for the longest IP counted from date of last
exposure.
It occurs only in case of contacts of → pneumonic plague –
pneumonic anthrax – cholera in non-endemic area.
3. Control of environment:
According to the disease as:
→ food sanitation
→ super-chlorination of water
→ sanitary sewage and refuse disposal
→ adequate ventilation
→ insect control
→ health education to at risk group or to population.
→ specific measures: → mass active immunization or
chemoprophylaxis (if available) to at-risk group.
4. International prevention :

It is some international regulations which followed
by many countries → to prevent transmission
of particular infectious diseases (quarantine
disease) from on country to other.
These measures:
→ international travelers
→ imported animals
→ imported goods
 Investigation of outbreak or
epidemic *
Steps:
prepare for field work
ensure the existence of epidemic or outbreak
confirm the diagnosis
define and count the cases
performing descriptive epidemiology
determine the population at risk
hypotheses formulation
evaluation hypotheses
implementing control and preventive measures
communicating the findings

NB: these steps are in conceptual order, in practice → several steps
may done at the same time or different order may be followed
according to circumstances of the outbreak.
Prepare for field work:
Preparation can be grouped into 3 categories:

a. Investigation:
1st, for field investigation, must have appropriate scientific
knowledge, supplies and equipments to carry out the investigation.
Before leaving for a filed investigation, consultations with
laboratory staff should be held to prepare the proper laboratory
material and assure proper sample collection, storage and
transportation techniques.
b. Administration:
Administrative procedures as traveling… etc.
c. Consultation:
Everyone must know the expected role in the field.
Ensure the existence of an epidemic or
outbreak:
Requires comparison with present incidence
and previous incidence → to determine
the existence of the epidemic or outbreak.
Difference between epidemic and outbreak
→ see before.
Confirm the diagnosis:
Reviewing clinical findings and laboratory results is
essential.
Visiting the several patients with the disease → to gather
critical information from patients such as:
1. what were their exposures before becoming ill?
2. What do they think caused their illness?
3. Do they know anyone else with the disease?
4. Do they have anything in common with others who
have the disease?
5. Conversations with patients → helpful in generating
hypotheses about disease etiology and spread.
Define and count the cases:
A. Establishing a case definition:

Case definition can classified as:
1. Confirmed → must have laboratory verification
2. Probable → has typical clinical features of the
disease without laboratory confirmation.
3. Possible → few typical clinical features.
B. Identifying and counting cases:
For every case, the following information should
be collected:
– Identifying information → name – address –
telephone no
– Demographic information → age – sex – occupation.
– Clinical information → date of onset – hospitalization,
disease pattern …
– Risk factor information
– Reporter information → the person who provided the
case report.
Performing descriptive epidemiology:
time – person – place → see descriptive study.
Determine the population at risk of having the health
problem:
Hypotheses formulation:
We can generate hypotheses in variety of ways:
knowledge about the disease itself
what is the agent – reservoirs – vehicle?
How it is transmitted?
What are the known risk factors?
Talking to a few of the cases:
For possible exposures – conditions related to disease
occurrence.
Descriptive characteristics of the disease
Evaluating hypotheses:
We can evaluate hypotheses in one of two ways:
1. comparing the hypotheses with the established facts
2. using analytic epidemiology → to quantify relationships
and explore the role of chance.
Implementing control and preventive measures:
Communicating the findings:
usually takes 2 forms:
1. oral briefing for local authorities
2. written report:
Eradication of infectious disease
*
It is getting rid of the causative organisms and consequently disease → in a
certain area, country or world ( no reported case nor reservoirs of infection).

Examples:
1. Small pox (variola) 1978
2. Rabies : in some developed countries through
- vaccination of animals
- quarantine of dogs and cats coming from other countries.

3. Bovine TB: in some countries through:
– tuberculin testing of cattle
– slaughtering of infected cattle
– proper ttt of cases

4. Brucellosis: in some countries through as in bovin TB.
Elimination of infectious disease *

It means that endemic disease is so
controlled to reach the level of "nor
reported cases" while the causative agent
is not necessarily eliminated

e.g., Polio in Egypt →1st eliminated → then
eradicated.
 Surveillance *
Definition: Public health surveillance → is
the ongoing systematic collection, analysis,
interpretation and dissemination of health
data to take a public health action.
Public health action
↓
Surveillance priority setting
↓ planning , implementation &
collection evaluating disease
analysis investigation
interpretation control
dissemination prevention
Purposes and uses of surveillance:

Monitoring health events:
– detecting sudden changes in disease occurrence and
distribution e.g., malaria, bilharizia surveillance.
– To follow secular (long –term) trends and patterns of
disease e.g., AIDS at first → homosexual then
injecting drug users and their sex partners.
– To monitor (identify) changes in agents and host
factors e.g., changes of antigenic pattern of agents –
changes of behavior of host as smoking.
– Detecting changes in health care practice e.g.,
precautions of dentists - ↑ number of CS in some
hospital.
 Purposes and uses of surveillance:

Link to public health action:
– Investigation and control
– Planning
– Evaluating prevention and control measures
– Generating hypotheses and stimulating public health
research e.g., toxic shock syndrome and
menstruating woman → 1980.
Other uses of surveillance
– Testing hypotheses
– Archive of disease activity
 Type of surveillance
1. Passive surveillance:
It refers to data generated without request, intervention
or contact with health authorities carrying to
surveillance.
These data → provide basic information necessary for
studying infectious diseases in specific areas.
2. Active surveillance:
It refers to collection of data (usually on a specific
disease) for a relatively period of time.
This type may be undertaken when a new disease is
discovered –new mode of transmission is being
investigated – a high risk season or year is recognized
– a disease appears in a new geographic area.
 Type of surveillance
3. Sentinel surveillance:
It is the surveillance of a specified health event in only
sample of population at risk using a sample of possible
reporting sites. The sample should be representative of
the total population at risk e.g., HIV in many developing
countries → not feasible for health authorities to sue
national population based surveillance → sentinel
surveillance → health officials → define homogenous
population subgroups and regions to be sampled →
then identify institutions → sero – surveys → at least
annually to provide statistically valid estimates of HIV
prevalence.
 Notifiable disease in Egypt *
I. Immediate notification:

II. Notification within 1 week (weekly
notification):

III. Notification within 1 months (monthly
notification):
 Immediate notification
– Bacterial meningitis
– Acute flaccid paralysis
– HIV/AIDS
– Diphtheria
– Malaria
– Plague
– Tetanus (neonatal tetanus)
– Food born disease
– Unusual health event:
Rift valley fever
Viral hemorrhagic fever
Botulism
Cholera
Other
 Notification within 1 week
(weekly notification)

Typhoid fever
Brucellosis
TB
Measles
Pertussis
Bloody diarrhea
 Notification within 1 months
(monthly notification)

Acute viral hepatitis
Mumps
Rubella
Leprosy
Schistosomiasis
Fascioliasis
Filariasis