Simplified Mathematical Modelling of Uncertainty: Cost-Effectiveness of COVID-19 Vaccines in Spain
Abstract
:1. Introduction
2. Materials and Methods
3. Results
3.1. Magnitude of the Healthcare Problem: COVID-19 Outbreak Versus Influenza
3.2. COVID-19 Related Expenditures
3.3. Cost-Effectiveness of Vaccination
4. Discussion
5. Conclusions
Author Contributions
Funding
Institutional Review Board Statement
Informed Consent Statement
Acknowledgments
Conflicts of Interest
References
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Men | Women | |||||
---|---|---|---|---|---|---|
Age | Life Expectancy (LE) | U | LE Good Health | Life Expectancy (LE) | U | LE Good Health |
0 | 80.48 | 0.793623 | 63.87 | 85.9 | 0.79350 | 68.13 |
50 | 31.85 | 0.687555 | 21.90 | 36.8 | 0.60030 | 22.10 |
55 | 27.42 | 0.674419 | 18.49 | 32.2 | 0.56993 | 18.32 |
60 | 23.20 | 0.599138 | 13.90 | 27.6 | 0.53354 | 14.71 |
65 | 19.21 | 0.589744 | 11.33 | 23.1 | 0.48085 | 11.10 |
70 | 15.43 | 0.556034 | 8.58 | 18.7 | 0.47353 | 8.85 |
75 | 11.91 | 0.522736 | 6.23 | 14.5 | 0.46622 | 6.75 |
80 | 8.80 | 0.489438 | 4.31 | 10.6 | 0.37504 | 3.99 |
85 | 6.25 | 0.456140 | 2.85 | 7.40 | 0.28387 | 2.11 |
90 | 4.39 | 0.383721 | 1.68 | 5.00 | 0.11491 | 0.58 |
Population | 47,431,688 [1] | |||
---|---|---|---|---|
COVID-19 | ×100,000 ‡ | Influenza | ×100,000 ‡ | |
Prevalence [2] | 7,010,340 | 14,780 | 6,521,798 | 13,750 |
Confirmed [3] | 1,116,738 | 2354 | 619,000 | 1305 |
Hospitalized | 170,789 | 360 | 27,657 | 58 |
ICU | 15,278 | 32 | 1800 | 4 |
Fatalities | 59,422 | 3900 | ||
Mortality (over [1]) | 0.13% | 125.3 | 0.01% | 8.2 |
CFR (over [3]) | 5.32% | 0.63% | ||
IFR (over [2]) | 0.85% | 0.06% |
27 October 2020 | 17 February 2021 | Template | |
---|---|---|---|
Prevalence [2] | 7,010,340 | 9,814,476 | Based on Pub. |
Confirmed [3] | 1,116,738 | 3,107,172 | Reported |
Hospitalized | 170,789 | 306,727 | 3.45 nf |
ICU | 15,278 | 26,477 | 0.3036 nf |
Fatalities (number) | 59,422 | 84,150 | nf |
Mortality (over [1]) | 0.13% | 0.18% | |
CFR (over [3]) | 5.32% | 2.7% | |
IFR (over [2]) | 0.85% | 0.86% |
HC Provision | Number of Cases | Cost per Unit | After Discharge | Total |
---|---|---|---|---|
50% of cases with few symptoms | 4,935,398 | 20 € | 98,707,960 € | |
PC and OP health assistance | 2,639,250 | 190 € | 501,457,500 € | |
Hospital ward standard | 246,236 | 3700 € | 200 € | 911,073,200 € |
Hospital ward w/comp. | 18,534 | 10,000 € | 300 € | 185,340,000 € |
ICU (including ARDS) | 25,548 | 27,000 € | 350 € | 689,796,000 € |
Total | 2,386,374,660 € | |||
Per inhabitant | 50 € | |||
Per% of GDP | 0.21% |
Cost Directly Linked to Health Care |
|
General population and business |
|
Governmental |
|
nf = Total Number of Fatalities | Number | Average Age | Life Expectancy | L/Free of Disease | QALY (Q0) | Qw = 0.2Q0 | Total Q | |
---|---|---|---|---|---|---|---|---|
Men alive after ICU | 0.10242nf | 62.6 | 21.2 | 12.8 | 8.6 | (8.2–9.0) | 1.7 | N*Qw |
Women alive after ICU | 0.11466nf | 62.9 | 22.3 | 12.7 | 7.3 | (7–7.6) | 1.5 | N*Qw |
Qw = 0.1Q0 | ||||||||
Men alive after ward hospitalization | 1.25436nf | 66.5 | 18.3 | 10.6 | 7.4 | (7.1–7.7) | 0.7 | N*Qw |
Women alive after ward hospitalization | 1.40431nf | 68.1 | 17.8 | 9.7 | 6.0 | (5.8–6.3) | 0.6 | N*Qw |
Subtotal (morbidity) | Σ | |||||||
Men death by age (hospital and home) | Qw = Q0 | |||||||
<65 | 0.03702nf | 52 | 30.1 | 20.2 | 11.3 | (11.2–11.4) | 11.3 | N*Qw |
65–74 | 0.06664nf | 70 | 15.5 | 8.6 | 6.3 | (6.3–6.4) | 6.3 | N*Qw |
>74 | 0.42459nf | 80 | 12.3 | 6.4 | 3.7 | (3.6–3.9) | 3.7 | N*Qw |
Women death by age (hospital and home) | Qw = Q0 | |||||||
<65 | 0.03306nf | 55.0 | 27.1 | 17.5 | 9.8 | (9.7–9.9) | 9.8 | N*Qw |
65–74 | 0.05951nf | 70.0 | 15.5 | 8.6 | 5.6 | (5.5–5.8) | 5.6 | N*Qw |
>74 | 0.37918nf | 80.0 | 12.3 | 6.4 | 3.7 | (3.6–3.9) | 3.7 | N*Qw |
Subtotal (mortality) | Σ |
100% Population | %Vaccine Efficacy► | 50 | 60 | 70 | 80 | 90 |
Overall QALY (r = 3%) | 539,367 | 10,553 | 8794 | 7538 | 6595 | 5863 |
Overall QALY (r = 3.5%) | 554,539 | 10,264 | 8553 | 7331 | 6415 | 5702 |
Overall QALY (r = 4%) | 577,679 | 9853 | 8211 | 7038 | 6158 | 5474 |
80% Population | %Vaccine Efficacy► | 50 | 60 | 70 | 80 | 90 |
Overall QALY (r = 3%) | 539,367 | 8442 | 7035 | 6030 | 5276 | 4690 |
Overall QALY (r = 3.5%) | 554,539 | 8211 | 6843 | 5865 | 5132 | 4562 |
Overall QALY (r = 4%) | 577,679 | 7882 | 6569 | 5630 | 4926 | 4379 |
70% Population | %Vaccine Efficacy► | 50 | 60 | 70 | 80 | 90 |
Overall QALY (r = 3%) | 539,367 | 7387 | 6156 | 5276 | 4617 | 4104 |
Overall QALY (r = 3.5%) | 554,539 | 7185 | 5987 | 5132 | 4491 | 3992 |
Overall QALY (r = 4%) | 577,679 | 6897 | 5748 | 4926 | 4311 | 3832 |
Vaccination | Target Population | ICER | Currency Rate (1€→) | ICER (€) | d/Rate | Article | Year | First Author | |||
---|---|---|---|---|---|---|---|---|---|---|---|
Pneumoco | Adults 65 and over | 11–33,000 | € | 11–33,000 | 0–5% | Bibliometric | 2000 | Ament | |||
Lyme disease | Resident endemic areas | 62,300 | $US | (2001 = 0.89) | 70,000 | 3% | Modeling | 2001 | Shadick | ||
Influenza | Adults 50–64 y/o | 10,766 | £ | (2005 = 0.67) | 16,069 | NA | Modeling | 2005 | Turner | ||
Influenza | Children 6 m–4 y/o | <25,000 | $US | (2006 = 1.25) | ≤19,925 | NA | Modeling | 2006 | Prosser | ||
H Papilloma (HPV) | 12–24 y/o females | 3000 | $US | (2007 = 1.37) | 2190 | 3% | Modeling | 2007 | Insinga | ||
Papilloma (HPV) | 12–24 y/o females+ males | 16,000 | $US | (2007 = 1.37) | 11,679 | 3% | Modeling | 2007 | Insinga | ||
H Papilloma (HPV) | 12 y/o females | 21–31,000 | $CAN | (2007 = 1.46) | 30,666–45,260 | 3% | Modeling | 2007 | Brison | ||
A Hepatitis | Travellers | 26,046 | $US | (2008 = 1.46) | 17,840 | 5% | Bibliometric | 2008 | Anonychuk | ||
A Hepatitis | Health care workers | 129,046 | $US | (2008 =1.46) | 88,388 | NA | Bibliometric | 2008 | Anonychuk | ||
A Hepatitis | Military | 16,332 | $US | (2008 = 1.46) | 11,186 | NA | Bibliometric | 2008 | Anonychuk | ||
A + B Hepatitis | Children | <35,000 | $US | (2008 =1.46) | <23,972 | NA | Bibliometric | 2008 | Anonychuk | ||
H Papilloma (HPV) | NA | 32,884 | € | 32,884 | NA | Modeling | 2008 | Bergeron | |||
Herpres Zoster | Adults 60 and over | 20,400 | £ | (2009 = 0.89) | 22,921 | 6% | Modeling | 2009 | Van Hoek | ||
pH1N1 Influenza | 6 m–64 y/o | 8000–52,000 | $US | (2009 = 1.39) | 5755–37,410 | 3% | Modeling | 2009 | Prosser | ||
Rotavirus | Children < 5 y/o | 23,298 | £ | (2009 = 0.89) | 26,178 | 3.5% | Modeling | 2009 | Martin | ||
Rotavirus | Children < 5 y/o | 61,000 | £ | (2009 = 0.89) | 68,539 | 3.5–3% | Modeling | 2009 | Jit | ||
H1N1v Influenza | Age groups | 2733–3215 | £ | (2010 = 0.86) | 2733–3215 | 3.5% | Modeling | 2010 | Baguelin | ||
H Papilloma (HPV) | 12 y/o females | 1917 | € | 1917 | 3% | Modeling | 2010 | Olsen | |||
H Papilloma (HPV) | Girls 12 y/o | 3583 | € | 3583 | 3–5% | Modeling | 2015 | Olsen | |||
Influenza (IIV3) | Adults 65 and over | 3690 | $US | (2016 = 1.11) | 3324 | 3% | Modeling | 2016 | Raviotta | ||
Influenza (TIV) | Adults 65 and over | 10,750 | € | 10,750 | 0% | Modeling | 2018 | Capri |
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Marco-Franco, J.E.; Pita-Barros, P.; González-de-Julián, S.; Sabat, I.; Vivas-Consuelo, D. Simplified Mathematical Modelling of Uncertainty: Cost-Effectiveness of COVID-19 Vaccines in Spain. Mathematics 2021, 9, 566. https://doi.org/10.3390/math9050566
Marco-Franco JE, Pita-Barros P, González-de-Julián S, Sabat I, Vivas-Consuelo D. Simplified Mathematical Modelling of Uncertainty: Cost-Effectiveness of COVID-19 Vaccines in Spain. Mathematics. 2021; 9(5):566. https://doi.org/10.3390/math9050566
Chicago/Turabian StyleMarco-Franco, Julio Emilio, Pedro Pita-Barros, Silvia González-de-Julián, Iryna Sabat, and David Vivas-Consuelo. 2021. "Simplified Mathematical Modelling of Uncertainty: Cost-Effectiveness of COVID-19 Vaccines in Spain" Mathematics 9, no. 5: 566. https://doi.org/10.3390/math9050566
APA StyleMarco-Franco, J. E., Pita-Barros, P., González-de-Julián, S., Sabat, I., & Vivas-Consuelo, D. (2021). Simplified Mathematical Modelling of Uncertainty: Cost-Effectiveness of COVID-19 Vaccines in Spain. Mathematics, 9(5), 566. https://doi.org/10.3390/math9050566