HIV resistance testing
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]
Overview
The emergence of resistance to one or more antiretroviral drugs is one of the more common reasons for therapeutic failure in the treatment of HIV. In addition, the emergence of resistance to one antiretroviral drug sometimes confers a reduction in or a loss of susceptibility to other or all drugs of the same class. The application of laboratory technologies, such as gene amplification, automated nucleic acid sequencing, and nucleic acid hybridization, and the availability of recombinant viruses for testing phenotypic susceptibility have permitted advances in HIV resistance testing. Many clinicians and investigators are currently using these technologies in the clinical management of HIV.
Rationale for Drug Resistance Testing
Drug resistance remains a crucial issue:
- Centers for Disease Control (CDC) did a survery, covering 2003 to 2006, 10.9% of patients exhibited resistance to anti-HIV drugs, with the majority having resistance to nonnucleoside analogue reverse transcriptase inhibitors (NNRTIs) and 1.9% having resistance to at least 1 drug in numerous drug classes.
- Thousands of individuals who began therapy in the early and mid-1990s already harbor multidrug-resistant viruses. Drug resistance is observed in most countries where ART is prescribed, thus jeopardizing the success of the therapy.[1][2]
- Resistance testing can improve treatment outcomes for infected individuals.
Goals of Resistance testing
The goals of resistance testing are to:
- Determine the effect of an antiviral drug on the evolution of the virus.
- Identify the baseline genotypic and phenotypic determinants of virologic success or failure (or clinical success or failure) in the study.
Indications
Resistance testing is recommended in the following:[3]
- At the time of diagnosis of HIV infection, as a part of initial patient assessment.
- All cases of virologic failure.
- Special settings like pregnancy.
- Before initiating therapy with chemokine receptor antagonist.
Advantage
Despite limitations of resistance assays and their interpretation, several randomized controlled studies have demonstrated that virologic outcome, at least over the short term, may be improved when genotypic or phenotypic data are used to guide choice of drug regimens in patients with loss of virologic response to prior regimens.[6][7]
Resistance testing has also shown to improve survival in HIV patients.[8]
The FDA recommends that characterization of resistance and cross-resistance be a part of antiretroviral drug development so that clinically relevant information is available at the time of approval.
Limitations
- Performance characteristics (e.g., sensitivity, specificity, and reproducibility) for many of the assays in investigational use have not been fully established.
- The clinical significance of many mutations or mutational patterns has not been defined completely for many antiretroviral drugs.
- The quantitative relationship between reductions of cell culture susceptibility and loss of clinical activity has not been established for most drugs.
- The ability to detect drug-resistance mutations, can vary substantial among different laboratories.[9][10]
Types
There are 2 main methods to detect antiretroviral resistance in HIV:
Other resistant testing procedures are under development and may prove to be useful in future. These are as follows:
These assays are used to investigate the role of minority variants (those having drug resistant trait), that are present below the level of detection by other methods.
Genotypic testing
Underlying Concept
Drug-resistance mutations have been well known and characterized from patient specimens and in vitro work. Rapid detection of probable resitance mutation to different ART can be detected by amplification and sequencing.
Process
- Mutations responsible for reductions in susceptibility to a drug can be identified by DNA sequence analysis of the relevant portions of the virus genome.
- The complete coding sequence of the gene for the target protein should be determined in the early stages of characterization of mutations associated with reduced drug susceptibility.
- Once mutations are identified, their ability to confer phenotypic resistance should be evaluated in a recombinant virus system (e.g., by using site-directed mutagenesis or polymerase chain reaction (PCR) amplification of relevant portions of the virus genome to introduce these mutations into a standard laboratory HIV genetic background) or other suitable system, such that the mutations necessary to reproduce the resistant phenotype are identified.
- If site-directed mutagenesis experiments within the target gene fail to recapitulate the resistance phenotype, then the potential effects of mutations elsewhere in the viral genome should be examined.
- In the case of studying mutations in the envelope gene, which is highly variable, a possible option is to introduce mutations into the parental envelope to assess their contribution to the resistance phenotype.
- Recombinant virus should then be tested for drug susceptibility in cell culture. Shifts in drug susceptibility (fold- increases in EC50 value) for recombinant virus relative to WT should be determined.
Limitations
- Low viral load
- It not only decreases the sensitivity of the test but also make this test redundant.
- Low-level resistance can be lost in the mixed population of viral pseudospecies, which often exists in HIV infected persons.
Phenotypic testing
Underlying Concept
It test the ability of Human Immunodeficiency Virus to replicate in the presence of a particular antiretroviral drug i.e. it measures the phenotype (external behavior) of patient's HIV in response to ART. The virus is grown in test-tubes with anti-retroviral drug. It is then evaluated whether it grows (or not grow) under the presence of that drug.
Limitations
- Low viral load limits the test.
- It is a very labor intensive process.
Advantages
It is better than genotypic testing at detecting mixed populations of resistant and sensitive pseudospecies.
Recommendations
U.S. Department of Health and Human Services Recommendations
Indications for Antiretroviral Drug Resistance Testing in HIV-Infected Pregnant Women
- HIV drug-resistance testing is recommended for:
- All pregnant women with HIV RNA levels above the threshold for resistance testing (e.g., >500–1,000 copies/mL) not currently receiving antiretroviral (ARV) drugs, before starting treatment or prophylaxis (AIII).
- All pregnant women receiving antenatal ARV drugs who have suboptimal viral suppression or persistant viral rebound to detectable levels after prior viral suppression on an ARV regimen (AII).
- Empiric initiation of ARV drugs before results of resistance testing are available may be warranted, with adjustment as needed after the test results are available, for optimal prevention of perinatal transmission (BIII).
WHO-recommended strategy
The WHO-recommended strategy provides country-level guidance for the following activities:
- National HIVDR working groups.
- HIVDR Early Warning Indicators (EWI).
- Surveys to assess acquired HIV drug resistance.
- Surveillance of transmitted HIV drug resistance.
- Surveillance of initial HIV drug resistance
- National drug resistance database.
- Global drug resistance laboratory network.
Reference
- ↑ Brenner B, Wainberg MA, Salomon H, Rouleau D, Dascal A, Spira B, Sekaly RP, Conway B, Routy JP (2000). "Resistance to antiretroviral drugs in patients with primary HIV-1 infection. Investigators of the Quebec Primary Infection Study". International Journal of Antimicrobial Agents. 16 (4): 429–34. PMID 11118853. Retrieved 2012-06-01. Unknown parameter
|month=ignored (help) - ↑ Little SJ, Holte S, Routy JP, Daar ES, Markowitz M, Collier AC, Koup RA, Mellors JW, Connick E, Conway B, Kilby M, Wang L, Whitcomb JM, Hellmann NS, Richman DD (2002). "Antiretroviral-drug resistance among patients recently infected with HIV". The New England Journal of Medicine. 347 (6): 385–94. doi:10.1056/NEJMoa013552. PMID 12167680. Retrieved 2012-06-01. Unknown parameter
|month=ignored (help) - ↑ Hirsch MS, Günthard HF, Schapiro JM, Brun-Vézinet F, Clotet B, Hammer SM, Johnson VA, Kuritzkes DR, Mellors JW, Pillay D, Yeni PG, Jacobsen DM, Richman DD (2008). "Antiretroviral drug resistance testing in adult HIV-1 infection: 2008 recommendations of an International AIDS Society-USA panel". Clinical Infectious Diseases : an Official Publication of the Infectious Diseases Society of America. 47 (2): 266–85. doi:10.1086/589297. PMID 18549313. Retrieved 2012-06-01. Unknown parameter
|month=ignored (help) - ↑ Booth CL, Geretti AM (2007). "Prevalence and determinants of transmitted antiretroviral drug resistance in HIV-1 infection". The Journal of Antimicrobial Chemotherapy. 59 (6): 1047–56. doi:10.1093/jac/dkm082. PMID 17449483. Retrieved 2012-06-01. Unknown parameter
|month=ignored (help) - ↑ Arrivé E, Newell ML, Ekouevi DK, Chaix ML, Thiebaut R, Masquelier B, Leroy V, Perre PV, Rouzioux C, Dabis F (2007). "Prevalence of resistance to nevirapine in mothers and children after single-dose exposure to prevent vertical transmission of HIV-1: a meta-analysis". International Journal of Epidemiology. 36 (5): 1009–21. doi:10.1093/ije/dym104. PMID 17533166. Retrieved 2012-06-01. Unknown parameter
|month=ignored (help) - ↑ Baxter JD, Mayers DL, Wentworth DN, Neaton JD, Hoover ML, Winters MA, Mannheimer SB, Thompson MA, Abrams DI, Brizz BJ, Ioannidis JP, Merigan TC (2000). "A randomized study of antiretroviral management based on plasma genotypic antiretroviral resistance testing in patients failing therapy. CPCRA 046 Study Team for the Terry Beirn Community Programs for Clinical Research on AIDS". AIDS. 14 (9): F83–93. PMID 10894268. Retrieved 2012-05-30. Unknown parameter
|month=ignored (help) - ↑ Cohen CJ, Hunt S, Sension M, Farthing C, Conant M, Jacobson S, Nadler J, Verbiest W, Hertogs K, Ames M, Rinehart AR, Graham NM (2002). "A randomized trial assessing the impact of phenotypic resistance testing on antiretroviral therapy". AIDS. 16 (4): 579–88. PMID 11873001. Retrieved 2012-05-30. Unknown parameter
|month=ignored (help) - ↑ Palella FJ, Armon C, Buchacz K, Cole SR, Chmiel JS, Novak RM, Wood K, Moorman AC, Brooks JT (2009). "The association of HIV susceptibility testing with survival among HIV-infected patients receiving antiretroviral therapy: a cohort study". Ann. Intern. Med. 151 (2): 73–84. PMID 19620160. Unknown parameter
|month=ignored (help);|access-date=requires|url=(help) - ↑ Sayer DC, Land S, Gizzarelli L, French M, Hales G, Emery S, Christiansen FT, Dax EM (2003). "Quality assessment program for genotypic antiretroviral testing improves detection of drug resistance mutations". Journal of Clinical Microbiology. 41 (1): 227–36. PMC 149552. PMID 12517853. Retrieved 2012-06-01. Unknown parameter
|month=ignored (help) - ↑ Descamps D, Delaugerre C, Masquelier B, Ruffault A, Marcelin AG, Izopet J, Chaix ML, Calvez V, Brun-Vézinet F, Costagliola D (2006). "Repeated HIV-1 resistance genotyping external quality assessments improve virology laboratory performance". Journal of Medical Virology. 78 (2): 153–60. doi:10.1002/jmv.20522. PMID 16372300. Retrieved 2012-06-01. Unknown parameter
|month=ignored (help) - ↑ Johnson JA, Li JF, Wei X, Lipscomb J, Bennett D, Brant A, Cong ME, Spira T, Shafer RW, Heneine W (2007). "Simple PCR assays improve the sensitivity of HIV-1 subtype B drug resistance testing and allow linking of resistance mutations". Plos One. 2 (7): e638. doi:10.1371/journal.pone.0000638. PMC 1919426. PMID 17653265. Retrieved 2012-06-01.
- ↑ Palmer S, Kearney M, Maldarelli F, Halvas EK, Bixby CJ, Bazmi H, Rock D, Falloon J, Davey RT, Dewar RL, Metcalf JA, Hammer S, Mellors JW, Coffin JM (2005). "Multiple, linked human immunodeficiency virus type 1 drug resistance mutations in treatment-experienced patients are missed by standard genotype analysis". Journal of Clinical Microbiology. 43 (1): 406–13. doi:10.1128/JCM.43.1.406-413.2005. PMC 540111. PMID 15635002. Retrieved 2012-06-01. Unknown parameter
|month=ignored (help) - ↑ Simen BB, Simons JF, Hullsiek KH, Novak RM, Macarthur RD, Baxter JD, Huang C, Lubeski C, Turenchalk GS, Braverman MS, Desany B, Rothberg JM, Egholm M, Kozal MJ (2009). "Low-abundance drug-resistant viral variants in chronically HIV-infected, antiretroviral treatment-naive patients significantly impact treatment outcomes". The Journal of Infectious Diseases. 199 (5): 693–701. doi:10.1086/596736. PMID 19210162. Retrieved 2012-06-01. Unknown parameter
|month=ignored (help)