Epidemiological modelling: Difference between revisions
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[[op_fi:Epidemiologinen_malli]] | [[op_fi:Epidemiologinen_malli]] | ||
{{method}} | {{method|moderator=Mnud}} | ||
{{progression class|progression= | {{progression class|progression=Checked|curator=THL|date=2016-03-21}} | ||
==Question== | ==Question== | ||
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==Answer== | ==Answer== | ||
The predicted reduction in the incidence of invasive pneumococcal disease (IPD) in different age groups are obtained from the serotype replacement model | The predicted reduction in the incidence of invasive pneumococcal disease (IPD) in different age groups are obtained from the serotype replacement model <ref name="optimalserotype">[http://www.ploscompbiol.org/article/info%3Adoi%2F10.1371%2Fjournal.pcbi.1003477 Nurhonen M, Auranen K (2014) Optimal Serotype Compositions for Pneumococcal Conjugate Vaccination under Serotype Replacement. PLoS Comput Biol 10(2): e1003477. doi:10.1371/journal.pcbi.1003477]</ref>. | ||
== | === Computation === | ||
The following program illustrates the working of the replacement model. In its current implementation the code allows the user to specify upto 4 vaccine compositions and then displays the predicted ''number'' of IPD cases in Finland per year corresponding to these vaccines. The results are shown by serotype and by age category (<5 and 5+ year olds). Possible choices for vaccine compositions are: PCV10, PCV13, no vaccination and a user specified serotype composition. The program is based on the code in File S1 in <ref name="optimalserotype"></ref>. | |||
<br> | <br> | ||
* <big>'''<u>Instructions for user: Choose the desired vaccine compositions from the list below and then press "Run code".</u>''' | |||
You can compare 2,3 or 4 vaccine compositions. The results will be displayed on a separate tab. The default choice is PCV10 and PCV13.</big> | |||
You can compare 2,3 or 4 vaccine compositions. The results will be displayed on a separate tab. The default choice is PCV10 and PCV13. | |||
<rcode embed=0 graphics=1 variables=" | <rcode embed=0 graphics=1 variables=" | ||
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</rcode> | </rcode> | ||
==Rationale== | |||
The epidemiological model for pneumococcal carriage and disease is based on the assumption that vaccination completely eliminates vaccine-type carriage in the vaccinated population and that vaccine-type carriage is completely replaced by non-vaccine-type carriage. The implications of this replacement on the decrease or increase in pneumococcal disease then depend on the disease causing potential of the replacing types compared to that of the replaced types. To predict the incidence of post-vaccination disease only pre-vaccination data on serotype-specific carriage and disease are used. | |||
The consequences of serotype replacement in the model depend on two key assumptions regarding the new steady-state after vaccination: | |||
# the relative serotype proportions among the non-vaccine types are not affected by vaccination (proportionality assumption); | |||
# the case-to-carrier ratios (the disease causing potentials) of individual serotypes remain at their pre-vaccination levels. | |||
The implications of vaccination on disease incidence are assumed to be solely due to the elimination of vaccine type carriage and its replacement by non vaccine-type carriage. An exception to this is when protective efficacy against disease without any efficacy against carriage is assumed for certain serotypes (a feature to be added). | |||
[[File:Model_kuva_simplified2.jpg|thumb|center|600px|'''Figure 1. Illustration of the replacement model.''' The incidence of pneumococcal carriage (x-axis) and case-to-carrier ratios (y-axis) for vaccine serotypes (VT) and non-vaccine serotypes (NVT) before (panel A) and after vaccination (panel B). The incidences of disease (DVT and DNVT) are obtained by multiplication of the two quantities and correspond to the areas of the rectangles. After vaccination, VT carriage is eliminated and replaced by NVT carriage (panel B). The decrease in IPD incidence after vaccination is obtained as the difference between the eliminated VT disease and the replacing NVT disease. This is the area of the blue rectangle in panel B.]] | |||
'''Related research'''<br> | |||
The replacement model was built to reflect the accumulated 15 year long experience on use of pneumococcal conjugate vaccines worldwide and the related scientific research activity. Some of the most recent relevant publications are listed on a separate page: [[References]]. | |||
'''Sensitivity analysis'''<br> | |||
To assess the sensitivity of the predictions produced by the epidemiological model, | |||
effects of some alternative scenarios regarding the role of certain serotypes in PCV10 and PCV13 were calculated. | |||
In particular, these scenarios concern assumptions about indirect protection against serotype 3 under PCV13, | |||
indirect protection against serotype 6A under PCV10, and direct protection against 19A in PCV10. The detailed results are | |||
reported on a separate page: [[Sensitivity_analysis_pcv_model]]. In summary, the most influential assumptions are whether or not there will be population-level (indirect) impact on serotype 3 disease under PCV13 and serotype 6A disease under PCV10. | |||
=== Data === | === Data === | ||
{{hidden| | {{hidden| | ||
<t2b name='Pneumococcal carriage and IPD _' index='Serotype,Age,Observation' locations='Carriage,IPD' unit='Number of cases per year'> | |||
19F|Under 5|156030|7.78 | |||
23F|Under 5|156030|7.88 | |||
6B|Under 5|126990|24.39 | |||
14|Under 5|41200|20.76 | |||
9V|Under 5|22290|2.91 | |||
4|Under 5|12830|2.91 | |||
18C|Under 5|10130|6.64 | |||
1|Under 5|10|0.31 | |||
7|Under 5|14180|3.02 | |||
6A|Under 5|54940|3.94 | |||
19A|Under 5|24320|9.88 | |||
3|Under 5|12160|1.25 | |||
8|Under 5|1350|0.1 | |||
9N|Under 5|20940|0.83 | |||
10|Under 5|4050|0.41 | |||
11|Under 5|72270|0.42 | |||
12|Under 5|10|0.21 | |||
15|Under 5|33100|1.98 | |||
16|Under 5|3380|0.21 | |||
20|Under 5|1350|0.01 | |||
22|Under 5|12160|0.93 | |||
23A|Under 5|3380|0.1 | |||
33|Under 5|680|0.42 | |||
35|Under 5|30400|0.31 | |||
38|Under 5|4050|0.42 | |||
6C|Under 5|27470|0.01 | |||
Oth|Under 5|24320|0.73 | |||
19F|Over 5|168100|28.51 | |||
23F|Over 5|314800|53.72 | |||
6B|Over 5|256700|29.53 | |||
14|Over 5|209800|99.43 | |||
9V|Over 5|114100|43.07 | |||
4|Over 5|62500|76.99 | |||
18C|Over 5|200700|24.39 | |||
1|Over 5|100|6.58 | |||
7|Over 5|100|46.88 | |||
6A|Over 5|158800|17.42 | |||
19A|Over 5|54900|20.54 | |||
3|Over 5|30800|55.04 | |||
8|Over 5|8800|11.21 | |||
9N|Over 5|8800|25.2 | |||
10|Over 5|20800|6.28 | |||
11|Over 5|97700|12.76 | |||
12|Over 5|100|13.89 | |||
15|Over 5|100|9.18 | |||
16|Over 5|191900|4.73 | |||
20|Over 5|25200|3.29 | |||
22|Over 5|72500|29.03 | |||
23A|Over 5|22000|4.4 | |||
33|Over 5|100|5.64 | |||
35|Over 5|71300|12.41 | |||
38|Over 5|100|1.43 | |||
6C|Over 5|79400|5.5 | |||
Oth|Over 5|330100|11.2 | |||
</t2b> | |||
<t2b name="Serotypes in typical pneumococcal vaccines" index="Vaccine" obs="Serotype" unit="-"> | <t2b name="Serotypes in typical pneumococcal vaccines" index="Vaccine" obs="Serotype" unit="-"> | ||
PCV10|19F | PCV10|19F | ||
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}} | }} | ||
=== Initiate functions | === Initiate functions (only for developers) === | ||
<rcode name="initiate" label="Initiate functions" embed=1> | <rcode name="initiate" label="Initiate functions" embed=1> | ||
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== References == | == References == | ||
<references/> | |||
== Related files == | |||
* {{#l:GSK 03 Epidemiological modelling_final_for Opasnet.docx}} | |||
== Comment the content == | == Comment the content == | ||
{{commenting tool}} | {{commenting tool}} |
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Question
How to predict the net effectiveness of pneumococcal conjugate vaccination with a given set of serotypes when the vaccine is included in the national immunisation programme?
- The focus is on the incidence of invasive pneumococcal disease (IPD) cases in different age groups covering the whole population.
- The model is assumed to be valid in a population in which pneumococcal conjugate vaccination of infants has been in place for several years so that a new steady-state after vaccination has been reached.
- The coverage of vaccination and vaccine efficacy against carriage are assumed to be high enough to justify the assumption of complete elimination of vaccine-type carriage among both the vaccinated and also, due to substantial herd effects, among the unvaccinated members of the population.
- Vaccine-type carriage will be completely replaced by carriage of the non-vaccine types whose disease causing potential is not altered by vaccination.
Answer
The predicted reduction in the incidence of invasive pneumococcal disease (IPD) in different age groups are obtained from the serotype replacement model [1].
Computation
The following program illustrates the working of the replacement model. In its current implementation the code allows the user to specify upto 4 vaccine compositions and then displays the predicted number of IPD cases in Finland per year corresponding to these vaccines. The results are shown by serotype and by age category (<5 and 5+ year olds). Possible choices for vaccine compositions are: PCV10, PCV13, no vaccination and a user specified serotype composition. The program is based on the code in File S1 in [1].
- Instructions for user: Choose the desired vaccine compositions from the list below and then press "Run code".
You can compare 2,3 or 4 vaccine compositions. The results will be displayed on a separate tab. The default choice is PCV10 and PCV13.
Rationale
The epidemiological model for pneumococcal carriage and disease is based on the assumption that vaccination completely eliminates vaccine-type carriage in the vaccinated population and that vaccine-type carriage is completely replaced by non-vaccine-type carriage. The implications of this replacement on the decrease or increase in pneumococcal disease then depend on the disease causing potential of the replacing types compared to that of the replaced types. To predict the incidence of post-vaccination disease only pre-vaccination data on serotype-specific carriage and disease are used.
The consequences of serotype replacement in the model depend on two key assumptions regarding the new steady-state after vaccination:
- the relative serotype proportions among the non-vaccine types are not affected by vaccination (proportionality assumption);
- the case-to-carrier ratios (the disease causing potentials) of individual serotypes remain at their pre-vaccination levels.
The implications of vaccination on disease incidence are assumed to be solely due to the elimination of vaccine type carriage and its replacement by non vaccine-type carriage. An exception to this is when protective efficacy against disease without any efficacy against carriage is assumed for certain serotypes (a feature to be added).
Related research
The replacement model was built to reflect the accumulated 15 year long experience on use of pneumococcal conjugate vaccines worldwide and the related scientific research activity. Some of the most recent relevant publications are listed on a separate page: References.
Sensitivity analysis
To assess the sensitivity of the predictions produced by the epidemiological model,
effects of some alternative scenarios regarding the role of certain serotypes in PCV10 and PCV13 were calculated.
In particular, these scenarios concern assumptions about indirect protection against serotype 3 under PCV13,
indirect protection against serotype 6A under PCV10, and direct protection against 19A in PCV10. The detailed results are
reported on a separate page: Sensitivity_analysis_pcv_model. In summary, the most influential assumptions are whether or not there will be population-level (indirect) impact on serotype 3 disease under PCV13 and serotype 6A disease under PCV10.
Data
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Initiate functions (only for developers)
See also
References
Related files
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