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Clinical Trial Summary

Tipranavir is a drug with a high antiretroviral activity, also in presence of major mutations in the protease gene. However, its necessity of being co-administered with 400 mg of ritonavir daily, limits its efficacy for the treatment of HIV-infected patients, due to the high incidence of gastrointestinal adverse events. Nevertheless, tipranavir plasma though concentrations were higher than the proposed minimum effective concentration for patients with previous experience with protease inhibitors (PI) in half of patients treated with tipranavir/ritonavir at 500/100 mg dose every 12 hours. Furthermore, when the number of mutations in the protease gene is limited, there are no differences in the reduction of the viral load between patients treated with tipranavir/ritonavir at 500/200 mg and 500/100 mg every 12 hours. At last, the efficacy of tipranavir treatment has been more closely related with the inhibition quotient (IQ) than with concentrations considered isolated.

Considering the previous arguments, it can be hypothesized that, basing in every subject IQ, it could be possible to identify those patients HIV-infected in treatment with tipranavir/ritonavir at 500/200 mg every 12 hours that could take advance of the reduction of ritonavir to 100 mg every 12 hours, without compromising the viral replication control. This strategy could improve the tolerability to the treatment, what could result in a better adherence and less proportion of treatment abandon due to this reason


Clinical Trial Description

Tipranavir efficacy as a rescue treatment in HIV-infected patients was assessed in the RESIST studies, which included patients with a wide antiretroviral experience who were found in viral failure despite being on PI-based antiretroviral therapy and in which resistance test showed the presence of major mutations in the protease gene. In those studies treatment with tipranavir/ritonavir at 500/200 mg dose every 12 hours was related with a major probability of achieving undetectable viral load after a 48 weeks follow-up, compared with conventional PI (33.6% vs. 15.3%, respectively). However, tipranavir clinical efficacy can be limited by the appearance of adverse events, mainly on a gastrointestinal level, but also altering the lipid profile or elevating the transaminase plasmatic concentration.

According to the data of the BI 1182.52 study, response to tipranavir is related to its plasma trough concentration. So, concentrations higher than 20 mmol/L (10 times the IC90 adjusted by the binding to proteins of HIV PI-resistant-strains) are related with a major probability of achieving the viral replication suppression. This concentration was achieved by the 77% and the 48% of patients who received tipranavir 500 mg every 12 hours co-administered with 200 and 100 mg of ritonavir every 12 hours respectively. Furthermore, viral load diminution was similar between patients treated with 100 or with 200 mg of ritonavir every 12 hours, as long as the number of mutations was less than 20. These data states the importance of putting together virological (mutations in the protease gene) and pharmacokinetic data (trough levels) so the antiretroviral treatment benefit can be maximized. The subanalysis that included 157 patients of the BI 1182.52 study and 311 patients of the RESIST study showed that virological response in patients with treatment with tipranavir/ritonavir was better in patients with an IQ higher than 25-50.

With this data the following conclusions can be inferred: tipranavir is a drug with a high antiretroviral activity, also in presence of major mutations in the protease gene. However, its necessity of being co-administered with 400 mg of ritonavir daily, limits the efficacy for the treatment of HIV-infected patients, due to a high incidence of gastrointestinal adverse events. Nevertheless, trough levels of tipranavir was over the proposed minimum effective concentration for patients with previous experience with protease inhibitors (IP). Furthermore, as the number of mutations in the protease gene is limited, there are no differences in the reduction of the viral load between patients treated with tipranavir/ritonavir at 500/200 mg and 500/100 mg every 12 hours. At last, the efficacy of tipranavir treatment has been closely related with the inhibition quotient (IQ) than with concentrations obtained considered isolated.

Considering the previous arguments, it can be hypothesized that, basing in every subject IQ, it could be possible to identify those patients HIV-infected in treatment with tipranavir/ritonavir at 500/200 mg every 12 hours that could take advance of the reduction of ritonavir to 100 mg every 12 hours, without compromising the viral replication control. This strategy could improve the tolerability to the treatment, what could result in a better adherence and less proportion of treatment abandon due to this reason. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT00607958
Study type Interventional
Source Germans Trias i Pujol Hospital
Contact
Status Completed
Phase Phase 4
Start date December 2007
Completion date May 2009

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