Cost analysis of implementing HIV drug resistance testing in Kenya: a case study of a service delivery site at a tertiary level hospital in Kenya

Gachogo, Rachael W; Mwai, Daniel; Onyambu, Frank

doi:10.12688/f1000research.23379.1

Cited by 4 publications

(5 citation statements)

References 21 publications

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“…The expanded use of DTG-based treatment for first-line regimen in all PLHIV-1 necessitates access to affordable and effective DRT for monitoring of drug resistance to INSTIs both as a public health surveillance tool and for individual patient care and treatment (Gachogo et al, 2020;World Health Organization, 2017a). In the current study, we demonstrate the performance characteristics of a low cost in-house HIV drug resistance test using WHO guidelines for assay validation (World Health Organization, 2018).…”

Section: Discussionmentioning

confidence: 99%

“…This underscores the need to develop affordable alternatives, such as in-house tests. In-house assays reduce costs by use of less-costly reagents, reagent miniaturization, reduction of number of primers and amplification steps, negotiating with suppliers for best prices or by collaborating with not-for-profit manufacturers (Gachogo, Mwai, & Onyambu, 2020;Inzaule et al, 2016;Magomere et al, 2019;Manasa et al, 2014). Nevertheless, substantial effort and resources are required for optimization of the various procedures in the development of in-house assays (Chaturbhuj et al, 2014;World Health Organization, 2018).…”

Section: Introductionmentioning

confidence: 99%

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A low-cost in-house HIV integrase strand transfer inhibitor drug resistance test for resource-limited settings

et al. 2021

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Background: HIV-1 drug resistance testing (DRT) is vital for monitoring of individual patient treatment outcomes and for public health surveillance. Access to HIV-1 DRT is limited in resource-poor settings, including Kenya due to its costly nature. Recent inclusion of integrase strand transfer inhibitors (INSTIs) in first-line treatment for all people living with HIV-1 (PLHIV-1) underscores the need for an INSTI DRT. This study aims to validate a cost-effective in-house DRT method to detect HIV-1 Integrase resistance-associated mutations (RAMs) using HIV positive plasma derived samples Methods: Thirty-six plasma derived samples were used to assess the performance characteristics including accuracy, precision, reproducibility and amplification sensitivity of an in-house method in comparison with a reference assay. Cost estimation per test followed an incremental ingredient costing approach. Clinical application of the in-house test was evaluated on a plasma sample from a patient failing an INSTI-based regimen. Results: Comparison of the in-house and reference assay gave mean nucleotide and amino acid sequence identity of 99.49 %, CI [99.21- 99.77] and 99%, CI [98.58, 99.42] respectively. Complete concordance was observed by both assays in detection of the T97TA INSTI RAM. Precision and reproducibility assessment revealed mean nucleotide sequence identities of 100% and 99.14% respectively. The amplification sensitivity was 100% for samples with VL> 1000 copies/mL (n=8) and 50% for samples with VL<1000 copies/mL. Two major (G118R and E188K) and two accessory INSTI mutations (G149A and E157Q) were detected from the clinical sample of a patient failing an INSTI-based therapy. Cost analysis estimated the cost per test at $50.31. Conclusion: The developed HIV-Integrase assay met the validation acceptance criteria and demonstrates the ability to detect clinically relevant INSTI-resistance-associated mutations, highlighting its potential use as an alternative to commercial INSTI tests in resource-limited settings.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A low-cost in-house HIV integrase strand transfer inhibitor drug resistance test for resource-limited settings

et al. 2021

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“…However, a crucial challenge in this field is determining the ideal threshold for detecting mutations with NGS that correlates with clinically significant resistance [ 126 ]. Another challenge lies in the cost (about US $380 per test), which constitutes a significant barrier for HIV genotyping in resource-limited settings (RLS), and this can hinder the effective therapeutic management of HIV/AIDS patients in such settings [ 128 ]. Collaborative partnerships were initiated in some resource-limited countries to develop discounted in-house HIVDR genotyping assays that could be commercially affordable for such settings or similar countries [ 129 , 130 , 131 ].…”

Section: Drivers Of Virologic Failurementioning

confidence: 99%

Current ARTs, Virologic Failure, and Implications for AIDS Management: A Systematic Review

Foka

Mufhandu

2023

Viruses

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Antiretroviral therapies (ARTs) have revolutionized the management of human immunodeficiency virus (HIV) infection, significantly improved patient outcomes, and reduced the mortality rate and incidence of acquired immunodeficiency syndrome (AIDS). However, despite the remarkable efficacy of ART, virologic failure remains a challenge in the long-term management of HIV-infected individuals. Virologic failure refers to the persistent detectable viral load in patients receiving ART, indicating an incomplete suppression of HIV replication. It can occur due to various factors, including poor medication adherence, drug resistance, suboptimal drug concentrations, drug interactions, and viral factors such as the emergence of drug-resistant strains. In recent years, extensive efforts have been made to understand and address virologic failure in order to optimize treatment outcomes. Strategies to prevent and manage virologic failure include improving treatment adherence through patient education, counselling, and supportive interventions. In addition, the regular monitoring of viral load and resistance testing enables the early detection of treatment failure and facilitates timely adjustments in ART regimens. Thus, the development of novel antiretroviral agents with improved potency, tolerability, and resistance profiles offers new options for patients experiencing virologic failure. However, new treatment options would also face virologic failure if not managed appropriately. A solution to virologic failure requires a comprehensive approach that combines individualized patient care, robust monitoring, and access to a range of antiretroviral drugs.

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“…However, there is currently one commercially available Sanger sequencing assay approved by the US Food and Drug Administration (FDA) for HIVDR genotyping, namely ViroSeq HIV-1 Genotyping kit [23][24][25][26]. The kit is relatively expensive, costing approximately US$380 per test, making it less affordable for RLS [27]. This makes laboratories resort to developing low-cost in-house assays, and in some cases modifying commercial assays to reduce costs [28].…”

Section: Sanger Sequencing and Ngs For Hivdr Genotypingmentioning

confidence: 99%

HIV-1 Drug Resistance Genotyping in Resource Limited Settings: Current and Future Perspectives in Sequencing Technologies

Manyana

Gounder

Pillay

et al. 2021

Viruses

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Affordable, sensitive, and scalable technologies are needed for monitoring antiretroviral treatment (ART) success with the goal of eradicating HIV-1 infection. This review discusses use of Sanger sequencing and next generation sequencing (NGS) methods for HIV-1 drug resistance (HIVDR) genotyping, focusing on their use in resource limited settings (RLS). Sanger sequencing remains the gold-standard method for detecting HIVDR mutations of clinical relevance but is mainly limited by high sequencing costs and low-throughput. NGS is becoming a more common sequencing method, with the ability to detect low-abundance drug-resistant variants and reduce per sample costs through sample pooling and massive parallel sequencing. However, use of NGS in RLS is mainly limited by infrastructure costs. Given these shortcomings, our review discusses sequencing technologies for HIVDR genotyping, focusing on common in-house and commercial assays, challenges with Sanger sequencing in keeping up with changes in HIV-1 treatment programs, as well as challenges with NGS that limit its implementation in RLS and in clinical diagnostics. We further discuss knowledge gaps and offer recommendations on how to overcome existing barriers for implementing HIVDR genotyping in RLS, to make informed clinical decisions that improve quality of life for people living with HIV.

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Cost analysis of implementing HIV drug resistance testing in Kenya: a case study of a service delivery site at a tertiary level hospital in Kenya

Cited by 4 publications

References 21 publications

A low-cost in-house HIV integrase strand transfer inhibitor drug resistance test for resource-limited settings

A low-cost in-house HIV integrase strand transfer inhibitor drug resistance test for resource-limited settings

Current ARTs, Virologic Failure, and Implications for AIDS Management: A Systematic Review

HIV-1 Drug Resistance Genotyping in Resource Limited Settings: Current and Future Perspectives in Sequencing Technologies

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