Treatment interruptions in the salvage setting: what have we learned?Patients with multi-drug-resistant virus are still facing the dilemma of putting together an effective treatment regimen that is tolerable. Ideally, strategies for managing treatment in such patients would be based on introducing new treatments, those specifically designed to inhibit HIV HIV (Human Immunodeficiency Virus), either of two closely related retroviruses that invade T-helper lymphocytes and are responsible for AIDS. There are two types of HIV: HIV-1 and HIV-2. HIV-1 is responsible for the vast majority of AIDS in the United States. with accumulated drug-resistance mutations, such as enfuvirtide (Fuzeon), or experimental compounds like tipranavir, TMC TMC Technology Marketing Corporation (Norwalk, Connecticut) TMC Texas Medical Center (Houston, TX) TMC Traffic Message Channel TMC The Movie Channel TMC Traffic Management Center 114, and TMC125. However, such new agents usually are available one at a time because they are developed by different companies and have different timelines for research and development. This leaves clinicians and patients with the problem of how to put together a complete regimen with more than one optimally active drug. The early reports of what happens to multi-drug-resistant virus populations when treatment is interrupted (the well-known shift to wild-type virus) raised much hope that this could be an effective strategy for dealing with the problem of resistant viruses: just let them disappear and be replaced by wild-type virus. What we have learned, however, is that this may not be such a good strategy after all. Clinically, patients may be better off staying on treatment, as shown by the CPCRA CPCRA Community Programs for Clinical Research on AIDS 064 study recently reported by Jody Lawrence and her co-investigators (see data review, page 5). The reasons for this notion include basic principles of drug-resistance selection, viral fitness, resulting shifts in viral population, and the benefits of treatment even for patients with "treatment failure." Perhaps much of the optimism associated with the implementation of this treatment-interruption strategy was based on a misunderstanding of what the shift in the viral population actually represents. The population of HIV within a patient comprises quasispecies with the high diversity and rapid evolution of viral genomes characteristic of RNA viruses RNA viruses, n See viruses. ; this forms the basis for the efficient selection of drug-resistant mutants observed under suboptimal Suboptimal A solution is called suboptimal if a part of the solution has been optimized without regards to the overall objective. treatment conditions. As long as antiretroviral drugs Antiretroviral Drugs Definition Antiretroviral drugs inhibit the reproduction of retroviruses—viruses composed of RNA rather than DNA. The best known of this group is HIV, human immunodeficiency virus, the causative agent of AIDS. exert selective pressure, the drug-resistant strains of HIV will have the upper hand. But, resistance mutations frequently affect enzyme activity Enzyme activity A measure of the ability of an enzyme to catalyze a specific reaction. Mentioned in: Glucose-6-Phosphate Dehydrogenase Deficiency and result in reduced fitness of the resistant HIV strains compared to wild-type viruses--when compared in drug-free conditions. This explains why, as soon as the selective pressure of the drugs is removed, the wild-type population will outgrow outgrow verb To change the relationship with a condition or structure by dint of ↑ age or size; while children outgrow clothing, and certain behaviors, they rarely outgrow diseases–eg, asthma the resistant one(s). This phenomenon is observed in vivo in vivo /in vi·vo/ (ve´vo) [L.] within the living body. in vi·vo adj. Within a living organism. in vivo adv. , indicating that wild-type virus has been archived during the on-treatment period--just as drug-resistant strains will be archived during the off-treatment period (see also essay, page 14). The key is that neither population may ever be completely eradicated in any one individual over a lifetime of being treated; therefore, re-initiation of treatment may well lead to reselection of the resistant strains present in the archived collection of viruses. However, the virus with reduced fitness may be less harmful to the patient and thus the overgrowth overgrowth Rapid growth in the sales of a mutual fund's shares to the extent that the fund has difficulty finding promising new investments or it must take such large positions in individual investments that its trading flexibility is reduced. of wild-type virus may not be the desired effect either. Each of these points has been documented with data derived from clinical samples. Perhaps the most useful information that has come out of this line of research is the understanding that the "failing" treatment does provide clinical benefit, although the patient clearly may be experiencing virologic failure virologic failure Antiretroviral therapy failure, see there . One of the first indications of this premise was the observation that viral loads increase and CD4 T cell Noun 1. CD4 T cell - T cell with CD4 receptor that recognizes antigens on the surface of a virus-infected cell and secretes lymphokines that stimulate B cells and killer T cells; helper T cells are infected and killed by the AIDS virus counts fall in patients stopping therapy. The association between clinical benefit and antiretroviral treatment may be indirect (attributable to changes in the fitness of mutant viruses) or direct (attributable to the residual activity of the "failing" regimen). Evidence for the "fitness" effect comes from the temporal association between loss of resistance phenotype and the steepest changes in surrogate markers. Studies by Stephen Deeks and colleagues have also given credence to this hypothesis. However, surrogate marker surrogate marker Lab medicine A parameter or measured to detect a pathologic condition when a more specific test doesn't exist, is impractical or not cost-effective; surrogate testing has been used for non-A, non-B hepatitis, measuring ALT and antibodies to HBV changes have been observed even in patients whose viral populations did not exhibit the "shift," indicating that residual antiviral activity (in spite of drug resistance) may play a role. Surprisingly, support for this notion has come from testing the effect of removing single drugs from a failing regimen--in particular, nucleoside reverse transcriptase inhibitors (NRTIs). Three recently reported studies of partial or single-drug interruption indicate that a failing drug may not be completely devoid of activity in patients whose virus carries resistance-associated mutations to that drug. Frank Maldarelli and colleagues from the National Institutes of Health (NIH "Not invented here." See digispeak. NIH - The United States National Institutes of Health. ) reported that interruption of stavudine (Zerit) in 3 patients who were receiving it as part of a failing regimen resulted in significant increases in viremia viremia /vi·re·mia/ (vi-re´me-ah) the presence of viruses in the blood. vi·re·mi·a n. The presence of viruses in the bloodstream. . The patients' baseline viral genotypes had multiple mutations associated with stavudine resistance. Upon resumption of stavudine treatment, HIV-1 RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic levels declined to baseline, leading the authors to conclude that stavudine contributed to antiviral activity in this regimen. (1) Similarly, Tom Campbell and his colleagues from the University of Colorado University of Colorado may refer to:
Only 1 of the 3 controlled clinical trials described above was powered to assess the clinical impact of a treatment strategy that includes a period of treatment interruption. As described in the literature review in this issue of RITA RITA Cardiology A clinical trial–Randomized Intervention Treatment of Angina–comparing the outcome of PCTA vs CABG in Pts with angina. See Angina, Angioplasty, CABG, Percutaneous transluminal angioplasty. ! (see page 5), the conclusions reached by investigators of treatment interruption are often in disagreement with each other. All 3 studies described above documented changes with regard to which viral variants comprised the predominant or majority population. Interestingly, however, the CPCRA 064 study demonstrated that patients with a shift in predominant viral population towards wild-type virus did have better virologic and immunologic responses, confirming the earlier observations from observational studies observational studies, n.pl an investigational method involving description of the associations be-tween interventions and outcomes. Outcomes research and practice audits are examples of this investigational method. and the GIGHAART study (see data review, page 5). But the surrogate marker responses did not translate into a clinical benefit. The decrease in CD4 T cell count prior to re-initiation of treatment may have been sufficient to put the patients at risk for clinical progression, regardless of the subsequent response. An estimated median of 4.9 months passed for the CD4 T cell count to exceed baseline values in the treatment-interruption group. The study with the most positive conclusions (a significant benefit for treatment interruption in terms of surrogate marker responses) was GIGHAART, which used the shortest interruption time and the highest number of drugs in the new treatment regimen. If residual drug activity plays a therapeutic role, as indicated by the single-drug interruption studies, then the effects of such antiviral activity would have a greater chance of being detected if more drugs are used in treatment combinations. However, the clinical impact of having extremely reduced CD4 T cell counts for too long may override the effect of a superior virologic response offered by multiple agents. The basic concepts of drug-resistance selection and viral fitness, together with the documented benefit of staying on treatment, should guide patient management decisions. In situations where treatment interruption is necessary, the interruption times should be as brief as possible, with careful monitoring of CD4 T cell counts during the interruption interval. The available data suggest that the composition of the new treatment regimen should be based on including a maximum number of truly "active" drugs. So, where should research in this area now be focused? The best overall strategy will be one that helps us avoid situations that foster the development of multi-drug resistance and intolerable long-term toxicities. Whether this problem of multi-drug resistance will continue to be prevalent after years of HAART HAART highly active antiretroviral therapy. HAART Highly active antiretroviral therapy, triple combination therapy AIDS The concurrent administration of 2 nucleoside reverse transcriptase inhibitors–eg, AZT and 3TC, and a protease remains to be seen, especially considering the many current patients who are survivors from the pre-HAART treatment era and who therefore have likely been exposed to suboptimal therapy. Has HAART really been as effective in preventing resistance development as we had predicted? We should continue assessing the prevalence and characteristics of multi-drug resistance over time. Finally, the assessment of each drug's contribution to the benefit sustained by a "failing" regimen is another area that should be developed, as is the use of immune-based therapies that may provide protection during periods off treatment. References (1.) Maldarelli F, Palmer S, Kearney M, et al. Antivir Ther. 2003;8(Suppl. 1):S149. (2.) Campbell TB, Young RK. Johnson SC, Lanier ER, Kuritzkes DR. Antivir Ther. 2003;8(Suppl. 1):S156. (3.) Deeks SG, Martin JN, Hoh R, Wrin T, Petropoulos C, Grant R. 10th Conference on Retroviruses and Opportunistic Infections, February 10-14, 2003; Boston. Abstract 640. (4.) Miller V, Mocroft A, Clotet B, et al., for the EuroSIDA Study Group. J Infect Dis. 2002;186:189-197. (5.) Lundgren JD, Vella S, Paddam L, et al. 9th Conference on Retroviruses and Opportunistic Infections, February 24-28, 2002; Seattle. Abstract 48. Veronica Miller, PhD Forum for Collaborative HIV Research, George Washington University George Washington University, at Washington, D.C.; coeducational; chartered 1821 as Columbian College (one of the first nonsectarian colleges), opened 1822, became a university in 1873, renamed 1904. , Washington DC |
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