Cargando…
Increasing the use of second-line therapy is a cost-effective approach to prevent the spread of drug-resistant HIV: a mathematical modelling study
INTRODUCTION: Earlier antiretroviral therapy (ART) initiation reduces HIV-1 incidence. This benefit may be offset by increased transmitted drug resistance (TDR), which could limit future HIV treatment options. We analyze the epidemiological impact and cost-effectiveness of strategies to reduce TDR....
| Autores principales: | , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
International AIDS Society
2014
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4260459/ https://www.ncbi.nlm.nih.gov/pubmed/25491351 http://dx.doi.org/10.7448/IAS.17.1.19164 |
| _version_ | 1782348183213441024 |
|---|---|
| author | Nichols, Brooke E Sigaloff, Kim CE Kityo, Cissy Hamers, Raph L Baltussen, Rob Bertagnolio, Silvia Jordan, Michael R Hallett, Timothy B Boucher, Charles AB de Wit, Tobias F Rinke van de Vijver, David AMC |
| author_facet | Nichols, Brooke E Sigaloff, Kim CE Kityo, Cissy Hamers, Raph L Baltussen, Rob Bertagnolio, Silvia Jordan, Michael R Hallett, Timothy B Boucher, Charles AB de Wit, Tobias F Rinke van de Vijver, David AMC |
| author_sort | Nichols, Brooke E |
| collection | PubMed |
| description | INTRODUCTION: Earlier antiretroviral therapy (ART) initiation reduces HIV-1 incidence. This benefit may be offset by increased transmitted drug resistance (TDR), which could limit future HIV treatment options. We analyze the epidemiological impact and cost-effectiveness of strategies to reduce TDR. METHODS: We develop a deterministic mathematical model representing Kampala, Uganda, to predict the prevalence of TDR over a 10-year period. We then compare the impact on TDR and cost-effectiveness of: (1) introduction of pre-therapy genotyping; (2) doubling use of second-line treatment to 80% (50–90%) of patients with confirmed virological failure on first-line ART; and (3) increasing viral load monitoring from yearly to twice yearly. An intervention can be considered cost-effective if it costs less than three times the gross domestic product per capita per quality adjusted life year (QALY) gained, or less than $3420 in Uganda. RESULTS: The prevalence of TDR is predicted to rise from 6.7% (interquartile range [IQR] 6.2–7.2%) in 2014, to 6.8% (IQR 6.1–7.6%), 10.0% (IQR 8.9–11.5%) and 11.1% (IQR 9.7–13.0%) in 2024 if treatment is initiated at a CD4 <350, <500, or immediately, respectively. The absolute number of TDR cases is predicted to decrease 4.4–8.1% when treating earlier compared to treating at CD4 <350 due to the preventative effects of earlier treatment. Most cases of TDR can be averted by increasing second-line treatment (additional 7.1–10.2% reduction), followed by increased viral load monitoring (<2.7%) and pre-therapy genotyping (<1.0%). Only increasing second-line treatment is cost-effective, ranging from $1612 to $2234 (IQR $450-dominated) per QALY gained. CONCLUSIONS: While earlier treatment initiation will result in a predicted increase in the proportion of patients infected with drug-resistant HIV, the absolute numbers of patients infected with drug-resistant HIV is predicted to decrease. Increasing use of second-line treatment to all patients with confirmed failure on first-line therapy is a cost-effective approach to reduce TDR. Improving access to second-line ART is therefore a major priority. |
| format | Online Article Text |
| id | pubmed-4260459 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2014 |
| publisher | International AIDS Society |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-42604592014-12-09 Increasing the use of second-line therapy is a cost-effective approach to prevent the spread of drug-resistant HIV: a mathematical modelling study Nichols, Brooke E Sigaloff, Kim CE Kityo, Cissy Hamers, Raph L Baltussen, Rob Bertagnolio, Silvia Jordan, Michael R Hallett, Timothy B Boucher, Charles AB de Wit, Tobias F Rinke van de Vijver, David AMC J Int AIDS Soc Research Article INTRODUCTION: Earlier antiretroviral therapy (ART) initiation reduces HIV-1 incidence. This benefit may be offset by increased transmitted drug resistance (TDR), which could limit future HIV treatment options. We analyze the epidemiological impact and cost-effectiveness of strategies to reduce TDR. METHODS: We develop a deterministic mathematical model representing Kampala, Uganda, to predict the prevalence of TDR over a 10-year period. We then compare the impact on TDR and cost-effectiveness of: (1) introduction of pre-therapy genotyping; (2) doubling use of second-line treatment to 80% (50–90%) of patients with confirmed virological failure on first-line ART; and (3) increasing viral load monitoring from yearly to twice yearly. An intervention can be considered cost-effective if it costs less than three times the gross domestic product per capita per quality adjusted life year (QALY) gained, or less than $3420 in Uganda. RESULTS: The prevalence of TDR is predicted to rise from 6.7% (interquartile range [IQR] 6.2–7.2%) in 2014, to 6.8% (IQR 6.1–7.6%), 10.0% (IQR 8.9–11.5%) and 11.1% (IQR 9.7–13.0%) in 2024 if treatment is initiated at a CD4 <350, <500, or immediately, respectively. The absolute number of TDR cases is predicted to decrease 4.4–8.1% when treating earlier compared to treating at CD4 <350 due to the preventative effects of earlier treatment. Most cases of TDR can be averted by increasing second-line treatment (additional 7.1–10.2% reduction), followed by increased viral load monitoring (<2.7%) and pre-therapy genotyping (<1.0%). Only increasing second-line treatment is cost-effective, ranging from $1612 to $2234 (IQR $450-dominated) per QALY gained. CONCLUSIONS: While earlier treatment initiation will result in a predicted increase in the proportion of patients infected with drug-resistant HIV, the absolute numbers of patients infected with drug-resistant HIV is predicted to decrease. Increasing use of second-line treatment to all patients with confirmed failure on first-line therapy is a cost-effective approach to reduce TDR. Improving access to second-line ART is therefore a major priority. International AIDS Society 2014-12-05 /pmc/articles/PMC4260459/ /pubmed/25491351 http://dx.doi.org/10.7448/IAS.17.1.19164 Text en © 2014 Nichols BE et al; licensee International AIDS Society http://creativecommons.org/licenses/by/3.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. |
| spellingShingle | Research Article Nichols, Brooke E Sigaloff, Kim CE Kityo, Cissy Hamers, Raph L Baltussen, Rob Bertagnolio, Silvia Jordan, Michael R Hallett, Timothy B Boucher, Charles AB de Wit, Tobias F Rinke van de Vijver, David AMC Increasing the use of second-line therapy is a cost-effective approach to prevent the spread of drug-resistant HIV: a mathematical modelling study |
| title | Increasing the use of second-line therapy is a cost-effective approach to prevent the spread of drug-resistant HIV: a mathematical modelling study |
| title_full | Increasing the use of second-line therapy is a cost-effective approach to prevent the spread of drug-resistant HIV: a mathematical modelling study |
| title_fullStr | Increasing the use of second-line therapy is a cost-effective approach to prevent the spread of drug-resistant HIV: a mathematical modelling study |
| title_full_unstemmed | Increasing the use of second-line therapy is a cost-effective approach to prevent the spread of drug-resistant HIV: a mathematical modelling study |
| title_short | Increasing the use of second-line therapy is a cost-effective approach to prevent the spread of drug-resistant HIV: a mathematical modelling study |
| title_sort | increasing the use of second-line therapy is a cost-effective approach to prevent the spread of drug-resistant hiv: a mathematical modelling study |
| topic | Research Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4260459/ https://www.ncbi.nlm.nih.gov/pubmed/25491351 http://dx.doi.org/10.7448/IAS.17.1.19164 |
| work_keys_str_mv | AT nicholsbrookee increasingtheuseofsecondlinetherapyisacosteffectiveapproachtopreventthespreadofdrugresistanthivamathematicalmodellingstudy AT sigaloffkimce increasingtheuseofsecondlinetherapyisacosteffectiveapproachtopreventthespreadofdrugresistanthivamathematicalmodellingstudy AT kityocissy increasingtheuseofsecondlinetherapyisacosteffectiveapproachtopreventthespreadofdrugresistanthivamathematicalmodellingstudy AT hamersraphl increasingtheuseofsecondlinetherapyisacosteffectiveapproachtopreventthespreadofdrugresistanthivamathematicalmodellingstudy AT baltussenrob increasingtheuseofsecondlinetherapyisacosteffectiveapproachtopreventthespreadofdrugresistanthivamathematicalmodellingstudy AT bertagnoliosilvia increasingtheuseofsecondlinetherapyisacosteffectiveapproachtopreventthespreadofdrugresistanthivamathematicalmodellingstudy AT jordanmichaelr increasingtheuseofsecondlinetherapyisacosteffectiveapproachtopreventthespreadofdrugresistanthivamathematicalmodellingstudy AT halletttimothyb increasingtheuseofsecondlinetherapyisacosteffectiveapproachtopreventthespreadofdrugresistanthivamathematicalmodellingstudy AT bouchercharlesab increasingtheuseofsecondlinetherapyisacosteffectiveapproachtopreventthespreadofdrugresistanthivamathematicalmodellingstudy AT dewittobiasfrinke increasingtheuseofsecondlinetherapyisacosteffectiveapproachtopreventthespreadofdrugresistanthivamathematicalmodellingstudy AT vandevijverdavidamc increasingtheuseofsecondlinetherapyisacosteffectiveapproachtopreventthespreadofdrugresistanthivamathematicalmodellingstudy |