Your search keyword '"Prague, Mélanie"' showing total 3 results

1. Dynamic models for estimating the effect of HAART on CD4 in observational studies: Application to the Aquitaine Cohort and the Swiss HIV Cohort Study.

Author

Prague, Mélanie, Commenges, Daniel, Gran, Jon Michael, Ledergerber, Bruno, Young, Jim, Furrer, Hansjakob, and Thiébaut, Rodolphe

Subjects

*HIGHLY active antiretroviral therapy, *DYNAMIC models, *SCIENTIFIC observation, *COHORT analysis, *ORDINARY differential equations

Abstract

Highly active antiretroviral therapy (HAART) has proved efficient in increasing CD4 counts in many randomized clinical trials. Because randomized trials have some limitations (e.g., short duration, highly selected subjects), it is interesting to assess the effect of treatments using observational studies. This is challenging because treatment is started preferentially in subjects with severe conditions. This general problem had been treated using Marginal Structural Models (MSM) relying on the counterfactual formulation. Another approach to causality is based on dynamical models. We present three discrete-time dynamic models based on linear increments models (LIM): the first one based on one difference equation for CD4 counts, the second with an equilibrium point, and the third based on a system of two difference equations, which allows jointly modeling CD4 counts and viral load. We also consider continuous-time models based on ordinary differential equations with non-linear mixed effects (ODE-NLME). These mechanistic models allow incorporating biological knowledge when available, which leads to increased statistical evidence for detecting treatment effect. Because inference in ODE-NLME is numerically challenging and requires specific methods and softwares, LIM are a valuable intermediary option in terms of consistency, precision, and complexity. We compare the different approaches in simulation and in illustration on the ANRS CO3 Aquitaine Cohort and the Swiss HIV Cohort Study. [ABSTRACT FROM AUTHOR]

Published

2017

2. Treatment Monitoring of HIV-Infected Patients based on Mechanistic Models.

Author

Prague, Mélanie, Commenges, Daniel, Drylewicz, Julia, and Thiébaut, Rodolphe

Subjects

*HIV-positive persons, *PATIENT monitoring, *EPIDEMIOLOGY, *OPTIMAL control theory, *CLINICAL trials, *VIRAL load, *PARAMETER estimation

Abstract

For most patients, the HIV viral load can be made undetectable by highly active antiretroviral treatments highly active antiretroviral therapy: the virus, however, cannot be eradicated. Thus, the major problem is to try to reduce the side effects of the treatment that patients have to take during their life time. We tackle the problem of monitoring the treatment dose, with the aim of giving the minimum dose that yields an undetectable viral load. The approach is based on mechanistic models of the interaction between virus and the immune system. It is shown that the 'activated cells model,' allows making good predictions of the effect of dose changes and, thus, could be a good basis for treatment monitoring. Then, we use the fact that in dynamical models, there is a nontrivial equilibrium point, that is with a virus load larger than zero, only if the reproductive number R0 is larger than one. For reducing side effects, we may give a dose just above the critical dose corresponding to R0 equal to 1. A prior distribution of the parameters of the model can be taken as the posterior arising from the analysis of previous clinical trials. Then the observations for a given patient can be used to dynamically tune the dose so that there is a high probability that the reproductive number is below one. The advantage of the approach is that it does not depend on a cost function, weighing side effects and efficiency of the drug. It is shown that it is possible to approach the critical dose if the model is correct. A sensitivity analysis assesses the robustness of the approach. [ABSTRACT FROM AUTHOR]

Published

2012

3. Acute versus chronic partial sleep deprivation in middle-aged people: differential effect on performance and sleepiness.

Author

Philip, Pierre, Sagaspe, Patricia, Prague, Mélanie, Tassi, Patricia, Capelli, Aurore, Bioulac, Bernard, Commenges, Daniel, and Taillard, Jacques

Published

2012