ICER Comparison of HIV/AIDS Control Strategies from a Mathematical Model
by Christopher Chukwuma Asogwa·Updated 2mo ago
5.5 KB1files
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Description
A 5.5 KB Excel file by Christopher Chukwuma Asogwa, last updated in April 2026, presents incremental cost-effectiveness ratio (ICER) results from a mathematical model of HIV/AIDS transmission. The model incorporates compartments like Susceptible, Exposed, and AIDS, and evaluates seven control strategies, including Pre-contact Preventive measures and Anti-retroviral therapy (ART). Simulation results from MATLAB identify the most cost-effective single and combined control strategies for virus management.
Use Cases
Compare the cost-effectiveness of different HIV/AIDS intervention strategies based on the reported ICER values.
Validate or extend the compartmental model's findings on Pre-contact Preventive and ART control measures.
Use the model's parameterization and results as a benchmark for other epidemiological simulations.
Strengths
Model is based on a defined six-compartment structure (Susceptible, Exposed, Treatment, etc.) and uses Pontryagin’s maximum principle for optimal control.
The 5.5 KB file size suggests a focused, non-redundant presentation of key model outputs.
Results are licensed under CC-BY-4.0, permitting open sharing and adaptation.
Limitations
The dataset is very small (5.5 KB), indicating limited scope, likely containing only summary results rather than raw simulation data.
Column-level documentation is absent; field semantics must be inferred after download.
Row count is unknown, which may limit suitability assessment for statistical analysis.
Provenance
Source
Christopher Chukwuma Asogwa via figshare.
Collection Method
Results generated from a mathematical model of HIV/AIDS transmission dynamics, simulated with MATLAB.
Freshness
Last updated 2026-04-15 17:52:40; freshness should be verified.
Data is in XLS (Excel) format; users will need compatible software to view it.