Clinical Trial Details
— Status: Completed
Administrative data
| NCT number |
NCT01480713 |
| Other study ID # |
RIPIM |
| Secondary ID |
2011-004464-30 |
| Status |
Completed |
| Phase |
Phase 3
|
| First received |
|
| Last updated |
|
| Start date |
May 2012 |
| Est. completion date |
May 2014 |
Study information
| Verified date |
April 2024 |
| Source |
IrsiCaixa |
| Contact |
n/a |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Interventional
|
Clinical Trial Summary
This is a pilot, proof of concept, open-label clinical trial, to assess the extend of
persistent viral reservoir and the level of immune activation in patients receiving
suppressive treatment with protease inhibitors.
40 Chronically HIV-1 infected subjects, receiving monotherapy with ritonavir-boosted
lopinavir or darunavir for at least 12 months with plasma viremia below 50 copies HIV RNA per
ml, and CD4 T-cell counts greater than 500 cells/mm3 will be included.
The total duration of the study will be 48 weeks: 12 weeks for patients' inclusion, 24 weeks
of follow-up once the last patient is included, and 12 weeks for data analysis.
Description:
AIDS continues to be a major global health priority. Although important progress has been
achieved in preventing new HIV infections and in lowering the annual number of AIDS-related
deaths, the number of people living with HIV worldwide continued to grow in 2008, reaching an
estimated 33.4 million. AIDS-related illnesses remain one of the leading causes of death
globally and are projected to continue as a significant global cause of premature mortality
in the coming decades: an estimated 3 million new HIV infections and 2 million deaths due to
AIDS-related illnesses occurred worldwide in 2008 (UNAIDS, report 2009).
In contrast to the failed attempts at developing a vaccine against HIV, efforts to provide
drug therapies stand as a great success. More than 25 agents have been approved thus far, and
the right combinations can suppress replication of the virus, often keeping blood levels so
low as to be undetectable by standard tests. These powerful drug combinations, collectively
termed highly active antiretroviral therapy, HAART, have prolonged life and health in
countless infected individuals.
Although life expectancy of HAART-treated people in developed countries has significantly
improved, treatment has to be carefully observed to avoid virus rebound, what will happen in
only in a few days after treatment withdrawal (13). Moreover, long-term treatment is not
exempt from complications, including the continuous likelihood of developing drug resistance
and the induction of significant metabolic disturbances as a consequence of drug toxicities,
which will clinically impact on the future health of the HIV-infected patient, including
hyperlipidaemia, lipodystrophy, metabolic syndrome, cardiovascular disease and type 2
diabetes. Finally, the cost of full HIV-1 treatment implementation should not be disregarded.
Only in Catalunya, the annual cost in antiretroviral approaches the 300 million Euros.
Guidelines for the use of antiretrovirals for HIV-1 infection recommend combining at least
three agents. However, toxicities, cost, and the complexity of such regimens warrant the
search for other options. Boosted protease inhibitor monotherapy is one of the appealing
options being investigated.
Different clinical trials have evaluated the efficacy of boosted protease inhibitor
monotherapy in several clinical settings: maintenance therapy of HAART-suppressed subjects
(1-3, 12), salvage regimens (10) and first-line treatment (4, 7-9). Monotherapies with
boosted lopinavir or darunavir have been largely investigated in maintenance and
induction-maintenance strategies, showing that they are able to maintain viral suppression in
a high proportion of patients. Thus, both Darunavir/ritonavir DRV/r and Lopinavir/ritonavir
LPV/r are accepted options for monotherapy regimens when triple therapy is not possible.
To determine the role for low-level replication in maintaining HIV infection, our group has
recently exploited the unique effect of Raltegravir on viral replication (6). This integrase
inhibitor blocks integration of viral linear cDNA into genomic host cell DNA. Under normal
conditions, in the absence of raltegravir, a small proportion of the linear cDNA is
circularized by host DNA repair enzymes to form episomes with one or two copies of the viral
long terminal repeat(LTR)(1-LTR or 2-LTR circles). We reasoned that if there was persistent,
ongoing low-level viral replication in patients on antiretroviral therapy, raltegravir
administration should result in a measurable increase in 2-LTR circles in their blood, as
happened. Furthermore, the 2-LTR-positive subjects receiving raltegravir showed marked
decreases in CD8+ T-cell activation markers, providing what may be the first in vivo
demonstration that ongoing immune activation is attributable, in part, to ongoing, albeit
low-level, viral replication.
It seems likely that the contribution of each mechanism to maintaining HIV infection varies
from person to person and is dependent on multiple variables, including genetics, development
of resistance, concurrent infections, viral strain, stage of disease and antiretroviral
regimen. In fact, among patients receiving raltegravir in the study, the main difference
between the 2-LTR-positive and 2-LTR-negative groups was the antiretroviral regimen used: a
total of 61% of patients in the 2-LTR-positive group was on a protease inhibitor-containing
regimen at the time raltegravir was added, compared to 19% of the 2-LTR-negative group (P =
0.011). It is possible that the presence of three reverse transcriptase inhibitors in
protease inhibitor-sparing regimens reduces the probability of formation of the linear cDNA
precursor to episomal cDNA. It is also possible that active replication occurs in anatomic
compartments that are less accessible to protease inhibitors or that pharmacodynamic
variability of protease inhibitors contributes to this observation.
To further explore the previous observations, we have designed a pilot trial in which
patients that have been on boosted protease inhibitor single-agent strategy with suppressive
plasma viremia by standard assays would have their treatment temporary intensified with
raltegravir. This should provide further insights in the level of residual viral replication
and immune-affectation of patients on boosted protease inhibitor monotherapy.
