Lecture-8 (Demographic Studies and Health Services Statistics).ppt
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About This Presentation
ppt
Slide Content
Demographic and Health
Services Statistics
University of Gondar
College of medicine and health science
Institute of public health
Department of Epidemiology and
Biostatistics
Lemma Derseh (BSc., MPH)
Services Statistics
University of Gondar
College of medicine and health science
Institute of public health
Department of Epidemiology and
Biostatistics
Lemma Derseh (BSc., MPH)
Demographic and Health Services
Statistics
Demographyis the study of human population in its staticand
dynamicaspects
The staticaspects of population to be studied could include
characteristics at a point in time such as composition by: age,
sex, race, marital status, economiccharacteristics
Whereas the dynamicaspects are: Fertility, mortality, nuptiality
(marriage), migrationand growth.
Statistics
Demographyis the study of human population in its staticand
dynamicaspects
The staticaspects of population to be studied could include
characteristics at a point in time such as composition by: age,
sex, race, marital status, economiccharacteristics
Whereas the dynamicaspects are: Fertility, mortality, nuptiality
(marriage), migrationand growth.
DEMOGRAPHIC ANDHEALTHCONT…
The three elements of demography are the:
Size,
Composition and,
Distribution
of human population
These elements are affected by three main
demographic processes namely,
fertility,
mortality and
migration
The three elements of demography are the:
Size,
Composition and,
Distribution
of human population
These elements are affected by three main
demographic processes namely,
fertility,
mortality and
migration
SOURCESOFDEMOGRAPHIC DATA
Demographic data can be produced mainlythrough:
Census
Continuous vital events registration
Sample survey
The choice to carry out among the above sources is
influenced by several factors including: resource (time, man
power, finance), accuracy needed, etc
Demographic data can be produced mainlythrough:
Census
Continuous vital events registration
Sample survey
The choice to carry out among the above sources is
influenced by several factors including: resource (time, man
power, finance), accuracy needed, etc
SOURCESOFDEMOGRAPHIC DATACONT…
A census is the enumeration at specific time of
individuals comprising the population within an
area
There are two methods of making a census:
1-De fact
2-De jure
A census is the enumeration at specific time of
individuals comprising the population within an
area
There are two methods of making a census:
1-De fact
2-De jure
CENSUSCONT…
De facto census
Counting individuals wherever they actuallyare on the
day the census is conducted.
Advantage
The de facto census is much easy, less expensive and
more economic to apply than de-jure type.
The disadvantages include
Persons in transit may not be included
Provision of incorrect picture of the population
Vital rates may be distorted
De facto census
Counting individuals wherever they actuallyare on the
day the census is conducted.
Advantage
The de facto census is much easy, less expensive and
more economic to apply than de-jure type.
The disadvantages include
Persons in transit may not be included
Provision of incorrect picture of the population
Vital rates may be distorted
Census cont…
The de jurecensus
Counting individuals at their legal permanent residence
regardless to whether or not they are physically present
at the time of the census.
Advantage
It gives a true figure.
The disadvantages include
Expensive in time and money
Some individuals may be counted twice
Information may be incomplete
The de jurecensus
Counting individuals at their legal permanent residence
regardless to whether or not they are physically present
at the time of the census.
Advantage
It gives a true figure.
The disadvantages include
Expensive in time and money
Some individuals may be counted twice
Information may be incomplete
CENSUSCONT….
o
oCharacteristicsandessentialfeaturesofcensus
oIndividualenumeration-impliesthateachindividualisenumerated
andhis/hercharacteristicsrecordedseparately
oUniversalitywithinadefinedterritory-censusshouldcovertheentire
countryorwelldefinedterritoryandincludeeverypersonliving
therein
oSimultaneity-datacollectedshouldrefertothesamewelldefined
referenceperiod–generallythecensusdaywithspecifictime
oDefinedperiodicity-censusshouldbetakenatregularintervalsso
thatcomparableinformationismadeavailableinafixedsequence
oAccuracyandreliabilityofinformation
o
oCharacteristicsandessentialfeaturesofcensus
oIndividualenumeration-impliesthateachindividualisenumerated
andhis/hercharacteristicsrecordedseparately
oUniversalitywithinadefinedterritory-censusshouldcovertheentire
countryorwelldefinedterritoryandincludeeverypersonliving
therein
oSimultaneity-datacollectedshouldrefertothesamewelldefined
referenceperiod–generallythecensusdaywithspecifictime
oDefinedperiodicity-censusshouldbetakenatregularintervalsso
thatcomparableinformationismadeavailableinafixedsequence
oAccuracyandreliabilityofinformation
CONTINUOUSVITALREGISTRATION
Continuous vital registration consists of the following
component parts:
Live birth
oExtraction or expulsion
oProduct of conception
oBreathes or shows evidence of life
oDuration of pregnancy irrelevant
Fetal death
oDeath prior to the complete expulsion
o“early fetal deaths” –less than 20 weeks
o“intermediate fetal deaths” –20 –28 weeks
o“late fetal deaths” –28 weeks or more
Continuous vital registration consists of the following
component parts:
Live birth
oExtraction or expulsion
oProduct of conception
oBreathes or shows evidence of life
oDuration of pregnancy irrelevant
Fetal death
oDeath prior to the complete expulsion
o“early fetal deaths” –less than 20 weeks
o“intermediate fetal deaths” –20 –28 weeks
o“late fetal deaths” –28 weeks or more
CONTINUOUSVITALREGISTRATIONCONT…
Death
Permanent disappearance of life
Marriage
Act, ceremony, process
Legal relationship
Civil, religious or other
Divorce
Final dissolution of a marriage
Death
Permanent disappearance of life
Marriage
Act, ceremony, process
Legal relationship
Civil, religious or other
Divorce
Final dissolution of a marriage
SAMPLESURVEYS
Though the above sources (census, and vital registration) can be
the major sources of demographic data, it may be difficult to conduct
them in a stuffiest degree in developing countries like Ethiopia
Census can be done only once in ten years
Continuous vital registration hasn’t started till now in
Ethiopia
Sample surveys are thus the feasible alternatives to fill this gap
This is because sample surveys are based on only some
representative members of the population which may request a
huge resource
Can be made also in a reasonably short time intervals or
sporadically
A few survey examples which can give demographic data are DHS,
household consumption and expenditure surveys, etc
Though the above sources (census, and vital registration) can be
the major sources of demographic data, it may be difficult to conduct
them in a stuffiest degree in developing countries like Ethiopia
Census can be done only once in ten years
Continuous vital registration hasn’t started till now in
Ethiopia
Sample surveys are thus the feasible alternatives to fill this gap
This is because sample surveys are based on only some
representative members of the population which may request a
huge resource
Can be made also in a reasonably short time intervals or
sporadically
A few survey examples which can give demographic data are DHS,
household consumption and expenditure surveys, etc
DEMOGRAPHICTRANSITION
It is occurrence of major demographic changes/trends of
the past two centuries.
Stages of demographic transition
Pre-transitional:-high mortality and high fertility, with low
population growth (young population).
Triangular, broad based pattern of population pyramid.
Seen in primitive societies and is sometimes known as
expansive (type I).
Transitional:-high birth rate and reduced death rate, with
high (rapid) growth rate (“young population”).
triangular pyramid characterizing a developing society
(sometimes known as expansive (type II).
It is occurrence of major demographic changes/trends of
the past two centuries.
Stages of demographic transition
Pre-transitional:-high mortality and high fertility, with low
population growth (young population).
Triangular, broad based pattern of population pyramid.
Seen in primitive societies and is sometimes known as
expansive (type I).
Transitional:-high birth rate and reduced death rate, with
high (rapid) growth rate (“young population”).
triangular pyramid characterizing a developing society
(sometimes known as expansive (type II).
STAGESOFDEMOGRAPHIC TRANSITION
Post –transitional:-low birth and death rates with stable,
moderate growth rate.
Narrow based pyramid and steeper sides.
Typical of advanced or developed countries and is
sometimes known as stationary (Type III).
Life expectancy is higher and a high proportion of the
population survives in to the old age (“old population”).
Stage –IV: low mortality but very low birth rates giving
negative growth rate
Post –transitional:-low birth and death rates with stable,
moderate growth rate.
Narrow based pyramid and steeper sides.
Typical of advanced or developed countries and is
sometimes known as stationary (Type III).
Life expectancy is higher and a high proportion of the
population survives in to the old age (“old population”).
Stage –IV: low mortality but very low birth rates giving
negative growth rate
POPULATIONPYRAMIDS
Population Pyramids are a useful tool for understanding the
structure, composition and size of populations because they
graphically portray many aspects of a population, such as
sex ratios and age structure.
The following points are facts aboutpopulation pyramids:
Normally males are on the left and females are on the
right;
Age categories are in 5 year increasing intervals
labeled up the center axis;
The horizontal axis is measured in millions.
Population Pyramids are a useful tool for understanding the
structure, composition and size of populations because they
graphically portray many aspects of a population, such as
sex ratios and age structure.
The following points are facts aboutpopulation pyramids:
Normally males are on the left and females are on the
right;
Age categories are in 5 year increasing intervals
labeled up the center axis;
The horizontal axis is measured in millions.
CALCIFICATIONOFPOPULATIONPYRAMIDS
Expansive or expanding
Characterized by wide base indicating ahigh-
birth rate & the narrow top indicates a high death rate.
It is a characteristic of a lower standard of living:
High birth rate due to poor access to birth control, lack of education
etc.;
High death rate due to poor medical care & nutrition.
Expansive or expanding
Characterized by wide base indicating ahigh-
birth rate & the narrow top indicates a high death rate.
It is a characteristic of a lower standard of living:
High birth rate due to poor access to birth control, lack of education
etc.;
High death rate due to poor medical care & nutrition.
CALCIFICATIONOFPOPULATIONPYRAMIDSCONT…
Stationary or Stable Population
It has a half ellipse shape.
The base of the pyramid is similar in width to the population of the
reproductive ages which indicates astable population.
It is the characteristic of a high standard of living due to:
Low birth rate due to good family planning, access to birth control,
financial planning, education, etc.;
Low death rate due to good medical care, nutrition, education etc.
Stationary or Stable Population
It has a half ellipse shape.
The base of the pyramid is similar in width to the population of the
reproductive ages which indicates astable population.
It is the characteristic of a high standard of living due to:
Low birth rate due to good family planning, access to birth control,
financial planning, education, etc.;
Low death rate due to good medical care, nutrition, education etc.
CALCIFICATIONOFPOPULATIONPYRAMIDS
Contractive or contracting
Contractive or contracting population pyramids have a
narrower base than the reproductive age population.
This indicates adecreasing population trend.
The low birth rate is indicative of a well developed country.
Contractive or contracting
Contractive or contracting population pyramids have a
narrower base than the reproductive age population.
This indicates adecreasing population trend.
The low birth rate is indicative of a well developed country.
POPULATIONPYRAMID
Exercise
How do you categorize the urban and the country level
population pyramids of Ethiopia into one of the above three
types of pyramids?
Exercise
How do you categorize the urban and the country level
population pyramids of Ethiopia into one of the above three
types of pyramids?
VITALSTATISTICS
Ratio
It is the occurrence of one event in relation to the other (x/y)
where x and y are completely independent
Sex Ratio is measured as the ratio of males relative to females in
a population
General formula: Sex Ratio = (Number of males/Number of
females) x100%
Beyond the simple ratio of sexes (males to females), we can add
other variables to it for further analysis like sex ratio by: age, birth,
death, migration, etc.
W can have other types of ratios like: dependency ratio,
child to women ratio, maternal mortality ratio, etc.
Ratio
It is the occurrence of one event in relation to the other (x/y)
where x and y are completely independent
Sex Ratio is measured as the ratio of males relative to females in
a population
General formula: Sex Ratio = (Number of males/Number of
females) x100%
Beyond the simple ratio of sexes (males to females), we can add
other variables to it for further analysis like sex ratio by: age, birth,
death, migration, etc.
W can have other types of ratios like: dependency ratio,
child to women ratio, maternal mortality ratio, etc.
VITALSTATISTICSCONT...
Proportions
A specific type of ratio in which the numerator is
included in the denominator, usually presented as a
percentage. (x is included in y in the ratio x/y).
Example: Female/Both sexes, or
(proportion of female in a community)
Proportions
A specific type of ratio in which the numerator is
included in the denominator, usually presented as a
percentage. (x is included in y in the ratio x/y).
Example: Female/Both sexes, or
(proportion of female in a community)
RATES
Rate measures the occurrence of an event in a population
over time.
The time component is important in the definition.
Generally rates can be broadly categorized as:
Crude rates
Category specific rates
Adjusted rates
Rate measures the occurrence of an event in a population
over time.
The time component is important in the definition.
Generally rates can be broadly categorized as:
Crude rates
Category specific rates
Adjusted rates
RATES
Crude rates
Example:
Crude death rate
Crude Birth Rate 1000
year same in the populationyear -Mid
year ain birth live ofNumber Total
CBR
*
Crude rates
Example:
Crude death rate
Crude Birth Rate 1000
year same in the populationyear -Mid
year ain birth live ofNumber Total
CBR
*
RATESCONT…
Category/specific rates
Examples on mortality rates:
Category/specific rates
Examples on mortality rates:
RATESCONT…
Adjusted/standardized rates
A standardized death rate is a crude death rate that has
been adjusted for differences in age composition between
the region under study and a standardpopulation.
Standardization allows for comparisons when the
population structures differ and is key in assessing the
potential influence of environmental or cultural factors on
death rates in a region.
Two methods of standardization
Direct standardization
Indirect standardization
Adjusted/standardized rates
A standardized death rate is a crude death rate that has
been adjusted for differences in age composition between
the region under study and a standardpopulation.
Standardization allows for comparisons when the
population structures differ and is key in assessing the
potential influence of environmental or cultural factors on
death rates in a region.
Two methods of standardization
Direct standardization
Indirect standardization
FERTILITYRATES
Crude Birth rate (CBR)
It indicates the number of live births per 1000 population
in a given year.
= Number of births per year
Total Mid-year population
The information required to calculate CBR usually obtained
from a complete and accurate vital registration system or
census
However,CBRhaslimitationslike:
Itgivesonlyacrudeestimateoffertility.
Allthepopulationincludedinthedenominatorisnot
exposedtotheriskofpregnancy
Itisnotgoodforcomparingfertilityacrosspopulations,
asvariationsinagedistributionofthepopulationsbeing
comparedwillaffectthebirthrate
Crude Birth rate (CBR)
It indicates the number of live births per 1000 population
in a given year.
= Number of births per year
Total Mid-year population
The information required to calculate CBR usually obtained
from a complete and accurate vital registration system or
census
However,CBRhaslimitationslike:
Itgivesonlyacrudeestimateoffertility.
Allthepopulationincludedinthedenominatorisnot
exposedtotheriskofpregnancy
Itisnotgoodforcomparingfertilityacrosspopulations,
asvariationsinagedistributionofthepopulationsbeing
comparedwillaffectthebirthrate
FERTILITYRATESCONT…
General Fertility rate
Number of live births per 1000 women ages 15-49
in a given year or is the same as:
It relates births to the age-sex group at risk of giving
births (usually defined as women ages 15-49 years)
It is more refined measure than crude birth rate to
compare fertility across populations
General Fertility rate
Number of live births per 1000 women ages 15-49
in a given year or is the same as:
It relates births to the age-sex group at risk of giving
births (usually defined as women ages 15-49 years)
It is more refined measure than crude birth rate to
compare fertility across populations
FERTILITYRATESCONT…
Age Specific Fertility Rate (ASFR)
ASFR is the ratio of the number of births per year per 1000
women of a specific age (group)
Example
Age Specific Fertility Rate (ASFR)
ASFR is the ratio of the number of births per year per 1000
women of a specific age (group)
Example
FERTILITYRATESCONT…
TOTAL FERTILITY RATE
It estimates the number of children a hypothetical cohort of
1,000 females in the specified population would bear if they
all went through their childbearing years experiencing the
same age-specific birth rates for a specified time period.
Or it can be defined as the average number of children that
would be born to a woman by the time she ended
childbearing if she were to pass through all her childbearing
years conforming to the age-specific fertility rates of a given
year
TOTAL FERTILITY RATE
It estimates the number of children a hypothetical cohort of
1,000 females in the specified population would bear if they
all went through their childbearing years experiencing the
same age-specific birth rates for a specified time period.
Or it can be defined as the average number of children that
would be born to a woman by the time she ended
childbearing if she were to pass through all her childbearing
years conforming to the age-specific fertility rates of a given
year
FERTILITYRATESCONT…
TFR = (ΣASBR) x 5, where ASBR is each five-year age-specific
birth rate defined as
Where B
xis the number of live births to mothers age x and P
xis
the number of resident women age x.
The sum of these ASBRs is multiplied by 5 because each ASBR
represents a five-year cohort of women
Sometimes TFR is expressed per woman instead of per 1,000
women.
For example, the theoretical replacement rate would be
expressed as 2.1 live births per woman.
TFR = (ΣASBR) x 5, where ASBR is each five-year age-specific
birth rate defined as
Where B
xis the number of live births to mothers age x and P
xis
the number of resident women age x.
The sum of these ASBRs is multiplied by 5 because each ASBR
represents a five-year cohort of women
Sometimes TFR is expressed per woman instead of per 1,000
women.
For example, the theoretical replacement rate would be
expressed as 2.1 live births per woman.
FERTILITYRATESCONT…
Example:
TFR = 419.7 X 5 = 2,098.5 live births per 1,000 female who
live through their reproductive years
Note that sometimes the age group 10-15 may be ignored from the calculation of
TFR.
Example:
TFR = 419.7 X 5 = 2,098.5 live births per 1,000 female who
live through their reproductive years
Note that sometimes the age group 10-15 may be ignored from the calculation of
TFR.
FERTILITYRATESCONT…
Gross Reproduction Rate (GRR)
The average number of daughters that would be born to a
woman during her lifetime if she passed through her child-
bearing years conforming to the age specific fertility rates of a
given year
GRR is exactly like TFR, except that it counts only daughters,
and literally measures “reproduction”–a woman reproducing
herself in the next generation by having a daughter.
GRR = ∑ASFRx(B
f
/B
f+m
) = TFRx(Proportion of female births)
Where, B
f
= Number of female births and B
m+f
= Number of male
and female births i.e. all births
Gross Reproduction Rate (GRR)
The average number of daughters that would be born to a
woman during her lifetime if she passed through her child-
bearing years conforming to the age specific fertility rates of a
given year
GRR is exactly like TFR, except that it counts only daughters,
and literally measures “reproduction”–a woman reproducing
herself in the next generation by having a daughter.
GRR = ∑ASFRx(B
f
/B
f+m
) = TFRx(Proportion of female births)
Where, B
f
= Number of female births and B
m+f
= Number of male
and female births i.e. all births
FERTILITYRATESCONT…
Example: Let the TFR and Sex Ratio at birth for a certain
country were 6.7 and 1.03 respectively. Then the GRR can
be calculated as:
Example: Let the TFR and Sex Ratio at birth for a certain
country were 6.7 and 1.03 respectively. Then the GRR can
be calculated as:
FERTILITYRATESCONT…
Net Reproduction Rate (NRR):
Average number of daughters that would be born to a woman
if she passed through her life-time from birth to the end of her
reproductive years conforming to the age-specific fertility
and mortality rates of a given year
NRR is always lower than GRR, because it takes into
account the fact that some women will die before entering
and completing their child-bearing years.
Correspondingly NRR will be less than half the magnitude of
the TFR
Net Reproduction Rate (NRR):
Average number of daughters that would be born to a woman
if she passed through her life-time from birth to the end of her
reproductive years conforming to the age-specific fertility
and mortality rates of a given year
NRR is always lower than GRR, because it takes into
account the fact that some women will die before entering
and completing their child-bearing years.
Correspondingly NRR will be less than half the magnitude of
the TFR
FERTILITYRATESCONT…
Reproduction of population when NRR = 3
Reproduction of population when NRR = 3
FERTILITYRATESCONT…
Replacement Fertility
Replacement Level of Fertility is said to have been reached
when NRR=1.0.
This will occur when surviving women in the hypothetical
cohort have exactly enough daughters (on average) to
replace themselves in the population.
It is the same as when GRR>1 and TFR>2. Roughly, this is
when couple has an average of two children.
However, when NRR=1.00 it does not imply that CBR= CDR
or Population growth rate = 0
Replacement Fertility
Replacement Level of Fertility is said to have been reached
when NRR=1.0.
This will occur when surviving women in the hypothetical
cohort have exactly enough daughters (on average) to
replace themselves in the population.
It is the same as when GRR>1 and TFR>2. Roughly, this is
when couple has an average of two children.
However, when NRR=1.00 it does not imply that CBR= CDR
or Population growth rate = 0
MEASURESOFMORTALITY
Crude Death Rate:
Age-Specific Death Rate(ASDR):1000
yeargiven in the area same in the populationyear Mid
yeargiven ain areaan ain occurring causes all todue deaths ofnumber Total
CDR 1000
a group ageor ageat populationyear Mid
a group ageor ageat deaths Total
ASDR
a
Crude Death Rate:
Age-Specific Death Rate(ASDR):1000
yeargiven in the area same in the populationyear Mid
yeargiven ain areaan ain occurring causes all todue deaths ofnumber Total
CDR 1000
a group ageor ageat populationyear Mid
a group ageor ageat deaths Total
ASDR
a
Infant Mortality Rate(IMR):1000
births live Total
age ofyear oneunder children of Deaths
IMR
MEASURESOFMORTALITYCONT…
births live Total
age ofyear oneunder children of Deaths
IMR
MEASURESOFMORTALITYCONT…
POPULATIONPROJECTIONS
There are different types of population projection
methods. The most important once are:
The exponential method
The logistic method
The cohort component method
There are different types of population projection
methods. The most important once are:
The exponential method
The logistic method
The cohort component method
The exponential growth model
It is the simplest type of population growth model.
Exponential growth occurs when a population is not limited by
other competitors, resources are not limited, and the environment
is constant.
These conditions called an ‘ecological vacuum’, and this does not
often occur (for long) in nature
It is the simplest type of population growth model.
Exponential growth occurs when a population is not limited by
other competitors, resources are not limited, and the environment
is constant.
These conditions called an ‘ecological vacuum’, and this does not
often occur (for long) in nature
THEEXPONENTIALGROWTHMODELCONT…
P(t) = P
0(1 + r)
t
, where:
Where, P(t) is the population at time t,
r = CBR-CDR, which is the rate of natural increase orintrinsic rate
of increase. Therefore, r is the theoretical maximum rate of
increase of a population per individual
P
0 is the initial population
t is the time on which projection is to be made
Equivalently we can use the formula (mathematically same):
P(t) = P
0e
kt
Where, k = ln(1 + r)
P(t) = P
0(1 + r)
t
, where:
Where, P(t) is the population at time t,
r = CBR-CDR, which is the rate of natural increase orintrinsic rate
of increase. Therefore, r is the theoretical maximum rate of
increase of a population per individual
P
0 is the initial population
t is the time on which projection is to be made
Equivalently we can use the formula (mathematically same):
P(t) = P
0e
kt
Where, k = ln(1 + r)
THEEXPONENTIALGROWTHMODELCONT…
Example: Consider the population of a certain minority group
of size 5000 in an island. If this population is increasing by
5% each year, by how many individuals will the population
increase after 30 months?
Let P
(t)be the population after t years. Then
P
0= P
(0)= 5000 is the initial population size in the island.
Let r = 0.05 be the percentage increase each year.
Therefore, the population size after 30 months = 5/2 years is
given by:
P
(5/2)= 5000(1.05)
5/2
= 5649
Therefore, the population in the island will increase by 5649 -
5000= 649 individuals after 30 months.
Example: Consider the population of a certain minority group
of size 5000 in an island. If this population is increasing by
5% each year, by how many individuals will the population
increase after 30 months?
Let P
(t)be the population after t years. Then
P
0= P
(0)= 5000 is the initial population size in the island.
Let r = 0.05 be the percentage increase each year.
Therefore, the population size after 30 months = 5/2 years is
given by:
P
(5/2)= 5000(1.05)
5/2
= 5649
Therefore, the population in the island will increase by 5649 -
5000= 649 individuals after 30 months.
THELOGISTICGROWTHMODELS
Exponential models have a flaw since they assume
population can grow without bound.
In many situations, growth begins exponentially but then
slows and approaches zero. The population approaches a
maximum sustainable population.
Logistic models incorporate an upper bound on the
population. It is one of the most important population growth
models.
P
(t) = 1/(1+ae
-kt
), where a and k are positive constants in the
model and t is the time.
Exponential models have a flaw since they assume
population can grow without bound.
In many situations, growth begins exponentially but then
slows and approaches zero. The population approaches a
maximum sustainable population.
Logistic models incorporate an upper bound on the
population. It is one of the most important population growth
models.
P
(t) = 1/(1+ae
-kt
), where a and k are positive constants in the
model and t is the time.
LOGISTICGROWTHMODELCONT…
Example: The number of students infected with flu at a high
school after t days is modeled by the function:
P
(t)= 800/(1 + 49e
−0.2t
) .
(a) What is the initial number of infected students?
(b) When will the number of infected students be 200?
(c) The school be will closed when 300 students are
infected. When does the school be closed?
(a) At t = 0, we have P
(0)= 800/(1 + 49e
−0.2t
) = 800/(1 + 49) =
800/50 =16. There are initially 16 students infected.
(b) The number of infected students is equal to 200 when P(t)
= 200 = 800/(1 + 49e
−0.2t
), implying that t ≈14 days
Example: The number of students infected with flu at a high
school after t days is modeled by the function:
P
(t)= 800/(1 + 49e
−0.2t
) .
(a) What is the initial number of infected students?
(b) When will the number of infected students be 200?
(c) The school be will closed when 300 students are
infected. When does the school be closed?
(a) At t = 0, we have P
(0)= 800/(1 + 49e
−0.2t
) = 800/(1 + 49) =
800/50 =16. There are initially 16 students infected.
(b) The number of infected students is equal to 200 when P(t)
= 200 = 800/(1 + 49e
−0.2t
), implying that t ≈14 days
THECOHORT-COMPONENT METHOD
The cohort component technique uses the components of
demographic change including births, deaths, and migration to
project population .
It projects the population by age groups, in addition to other
demographic attributes such as sex and ethnicity.
Formula:
P
t+n= Survived population + births + net migrant
Assumption: the components of demographic change, mortality,
fertility, and migration,will remain constant throughout the
projection period.
Use the cohort component method when population projections by
age and sex are needed for 5 years, 10 years or longer periods of
time
The cohort component technique uses the components of
demographic change including births, deaths, and migration to
project population .
It projects the population by age groups, in addition to other
demographic attributes such as sex and ethnicity.
Formula:
P
t+n= Survived population + births + net migrant
Assumption: the components of demographic change, mortality,
fertility, and migration,will remain constant throughout the
projection period.
Use the cohort component method when population projections by
age and sex are needed for 5 years, 10 years or longer periods of
time
HEALTHSERVICESTATISTICS
Major limitations of morbidity and mortality data
from health institutions in Ethiopia
Lack of completeness:
Lack of representativeness:
Lack of denominator: The underlying population
served by a health institution is difficult to define
Lack of uniformity in quality:
Lack of compliance with reporting:
Major limitations of morbidity and mortality data
from health institutions in Ethiopia
Lack of completeness:
Lack of representativeness:
Lack of denominator: The underlying population
served by a health institution is difficult to define
Lack of uniformity in quality:
Lack of compliance with reporting:
HEALTHSERVICEUTILIZATIONRATES
1. Admission rate (AR): The number of (hospital)
admissions per 1000 of the population per year1000
areaCatchment theof n PopulatioTotal
year thein Admissions ofNumber
AR
2. Average length of stay (ALS):the average period in hospital (in
days) per patient admitted. Deathsand s DischargeofNumber
ays Patient Dzed HospitaliofNumber Annual The
ALS
1. Admission rate (AR): The number of (hospital)
admissions per 1000 of the population per year1000
areaCatchment theof n PopulatioTotal
year thein Admissions ofNumber
AR
2. Average length of stay (ALS):the average period in hospital (in
days) per patient admitted. Deathsand s DischargeofNumber
ays Patient Dzed HospitaliofNumber Annual The
ALS
Bed-occupancy rate (BOR): the average
percentage occupancy of hospital beds.
Turnover interval (TI):the average period, in
days, that a bed remains empty( the average time
elapsing between the discharge of one patient
and the admission of the next).365
1
BedsofNumber Total
ays Patient Dzed HospitaliofNumber Annual The
BOR Deathsand s DischargeofNumber
ays Patient Dzed HospitaliofNumber - Beds)ofNumber (365
TI
HEALTHSERVICEUTILIZATIONRATES…
percentage occupancy of hospital beds.
Turnover interval (TI):the average period, in
days, that a bed remains empty( the average time
elapsing between the discharge of one patient
and the admission of the next).365
1
BedsofNumber Total
ays Patient Dzed HospitaliofNumber Annual The
BOR Deathsand s DischargeofNumber
ays Patient Dzed HospitaliofNumber - Beds)ofNumber (365
TI
HEALTHSERVICEUTILIZATIONRATES…
HOSPITALDEATHRATE(HDR)1000
PeriodGiven thein s DischargeofNumber
PeriodGivena in Deaths HospitalofNumber Total
HDR
PeriodGiven thein s DischargeofNumber
PeriodGivena in Deaths HospitalofNumber Total
HDR
EXERCISE
a) Calculate the population doubling time of a given country with annual
rate of
growth ( r) = 1% .
b) The following summary table was taken from the annual (1988) health
profile of
district Z.
Year Total population of the
district
No of health institutions in the district Total number of
hospital beds
HealthStation HealthCenter Hospital
1988 400,000 14 2 1 80
1.The health service coverage of the district
2.The average length of stay
3.Bed occupancy rate
4.Turnover interval
a) Calculate the population doubling time of a given country with annual
rate of
growth ( r) = 1% .
b) The following summary table was taken from the annual (1988) health
profile of
district Z.
Year Total population of the
district
No of health institutions in the district Total number of
hospital beds
HealthStation HealthCenter Hospital
1988 400,000 14 2 1 80
1.The health service coverage of the district
2.The average length of stay
3.Bed occupancy rate
4.Turnover interval
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