Last data update: Dec 02, 2024. (Total: 48272 publications since 2009)
Records 1-9 (of 9 Records) |
Query Trace: Rudolph DL[original query] |
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Evaluation of the Abbott ARCHITECT HIV Ag/Ab Combo Assay for Determining Recent HIV-1 Infection (preprint)
Curtis KA , Rudolph DL , Pan Y , Delaney K , Anastos K , DeHovitz J , Kassaye SG , Hanson CV , French AL , Golub E , Adimora AA , Ofotokun I , Bolivar H , Kempf MC , Peters PJ , Switzer WM . bioRxiv 2020 2020.11.09.374017 Background Given the challenges and costs associated with implementing HIV-1 incidence assay testing, there is great interest in evaluating the use of commercial HIV diagnostic tests for determining recent HIV infection. A diagnostic test with the capability of providing reliable data for the determination of recent HIV infection without substantial modifications to the test protocol would have a significant impact on HIV surveillance. The Abbott ARCHITECT HIV Ag/Ab Combo Assay is an antigen/antibody immunoassay, which meets the criteria as the first screening test in the recommended HIV laboratory diagnostic algorithm for the United States.Methods In this study, we evaluated the performance characteristics of the ARCHITECT HIV Ag/Ab Combo signal-to-cutoff ratio (S/Co) for determining recent infection, including estimation of the mean duration of recent infection (MDRI) and false recent rate (FRR), and selection of recency cutoffs.Results The MDRI estimates for the S/Co recency cutoff of 400 is within the 4 to 12 months range recommended for HIV incidence assays, and the FRR rate for this cutoff was 1.5%. Additionally, ARCHITECT Combo S/Co values were compared relative to diagnostic test results from two prior prospective HIV-1 diagnostic studies in order to validate the use of the S/Co for both diagnostic and recency determination.Conclusion Dual-use of the ARCHITECT Combo assay data for diagnostic and incidence purposes would reduce the need for separate HIV incidence testing and allow for monitoring of recent infection for incidence estimation and other public health applications. |
Evaluation of the Abbott ARCHITECT HIV Ag/Ab combo assay for determining recent HIV-1 infection
Curtis KA , Rudolph DL , Pan Y , Delaney K , Anastos K , DeHovitz J , Kassaye SG , Hanson CV , French AL , Golub E , Adimora AA , Ofotokun I , Bolivar H , Kempf MC , Peters PJ , Switzer WM . PLoS One 2021 16 (7) e0242641 BACKGROUND: Given the challenges and costs associated with implementing HIV-1 incidence assay testing, there is great interest in evaluating the use of commercial HIV diagnostic tests for determining recent HIV infection. A diagnostic test with the capability of providing reliable data for the determination of recent HIV infection without substantial modifications to the test protocol would have a significant impact on HIV surveillance. The Abbott ARCHITECT HIV Ag/Ab Combo Assay is an antigen/antibody immunoassay, which meets the criteria as the first screening test in the recommended HIV laboratory diagnostic algorithm for the United States. METHODS: In this study, we evaluated the performance characteristics of the ARCHITECT HIV Ag/Ab Combo signal-to-cutoff ratio (S/Co) for determining recent infection, including estimation of the mean duration of recent infection (MDRI) and false recent rate (FRR), and selection of recency cutoffs. RESULTS: The MDRI estimates for the S/Co recency cutoff of 400 is within the 4 to 12 months range recommended for HIV incidence assays, and the FRR rate for this cutoff was 1.5%. Additionally, ARCHITECT Combo S/Co values were compared relative to diagnostic test results from two prior prospective HIV-1 diagnostic studies in order to validate the use of the S/Co for both diagnostic and recency determination. CONCLUSION: Dual-use of the ARCHITECT Combo assay data for diagnostic and incidence purposes would reduce the need for separate HIV incidence testing and allow for monitoring of recent infection for incidence estimation and other public health applications. |
A multiplex HIV incidence assay for inferring recent HIV-1 transmission and time of infection
Curtis KA , Campbell EM , Hanson DL , Rudolph DL , Duwve J , Blosser S , Gentry J , Lovchik J , Peters PJ , Owen SM , Switzer WM . J Acquir Immune Defic Syndr 2019 80 (4) 454-460 BACKGROUND: Laboratory assays for determining recent HIV-1 infection are an important public health tool for aiding in the estimation of HIV incidence. Some incidence assay analytes are remarkably predictive of time since seroconversion and may be useful for additional applications, such as predicting recent transmission events during HIV outbreaks and informing prevention strategies. METHODS: Plasma samples (n= 154) from a recent HIV-1 outbreak in a rural community in Indiana were tested with the customized HIV-1 Multiplex assay, based on the Bio-Rad Bio-Plex platform, which measures antibody response to HIV envelope antigens, gp120, gp160, and gp41. Assay cutoffs for each analyte were established to determine whether an individual seroconverted within 30, 60, or 90 days of the sample collection date. Additionally, a novel bioinformatics method was implemented to infer infection dates of persons newly diagnosed with HIV during the outbreak. RESULTS: Sensitivity/specificity of the HIV-1 Multiplex assay for predicting seroconversion within 30, 60, 90 days, based on a training data set, was 90.5%/95.4%, 94.1%/90%, 89.4%/82.9%, respectively. Of 154 new diagnoses in Indiana between December 2014 and August 2016, the majority (71%) of recent infections (</=3 months since seroconversion) were identified between February and May 2016. The epidemiologic curve derived from the bioinformatics analysis indicated HIV transmission began as early as 2010, grew exponentially in 2014, and leveled off in April 2015. CONCLUSION: The HIV-1 Multiplex assay has the potential to identify and monitor trends in recent infection during an epidemic to assess the efficacy of programmatic or treatment interventions. |
A multiplexed RT-LAMP assay for detection of group M HIV-1 in plasma or whole blood
Curtis KA , Morrison D , Rudolph DL , Shankar A , Bloomfield LSP , Switzer WM , Owen SM . J Virol Methods 2018 255 91-97 Isothermal nucleic acid amplification techniques, such as reverse-transcription loop-mediated isothermal amplification (RT-LAMP), exhibit characteristics that are suitable for the development of a rapid, low-cost NAT that can be used at the POC. For demonstration of utility for global use, studies are needed to validate the performance of RT-LAMP for the detection of divergent subtypes. In this study, we designed and evaluated multiplexed HIV-1 integrase RT-LAMP primers to detect subtypes within group M, along with an RNase P positive internal processing and amplification control. Using a panel of 26 viral isolates representing the major circulating subtypes, we demonstrated detection of all isolates of subtypes A1, C, D, F1, F2, G, CRF01_AE, CRF02_AG, and two unique recombinant forms (URFs). A whole blood panel created with one representative isolate of each subtype was successfully amplified with the group M HIV-1 integrase and RNase P internal control primers. The group M HIV-1 RT-LAMP assay was further evaluated on 61 plasma specimens obtained from persons from Cameroon and Uganda. The sequence-conserved group M HIV-1 RT-LAMP primers, coupled to a low-cost amplification device, may improve diagnosis of acute infection at the POC and provide timely confirmation of HIV status. |
Single-use, electricity-free amplification device for detection of HIV-1
Curtis KA , Rudolph DL , Morrison D , Guelig D , Diesburg S , McAdams D , Burton RA , LaBarre P , Owen M . J Virol Methods 2016 237 132-137 Early and accurate diagnosis of HIV is key for the reduction of transmission and initiation of patient care. The availability of a rapid nucleic acid test (NAT) for use at the point-of-care (POC) will fill a gap in HIV diagnostics, improving the diagnosis of acute infection and HIV in infants born to infected mothers. In this study, we evaluated the performance of non-instrumented nucleic acid amplification, single-use disposable (NINA-SUD) devices for the detection of HIV-1 in whole blood using reverse-transcription, loop-mediated isothermal amplification (RT-LAMP) with lyophilized reagents. The NINA-SUD heating device harnesses the heat from an exothermic chemical reaction initiated by the addition of saline to magnesium iron powder. Reproducibility was demonstrated between NINA-SUD units and comparable, if not superior, performance for detecting clinical specimens was observed as compared to the thermal cycler. The stability of the lyophilized HIV-1 RT-LAMP reagents was also demonstrated following storage at -20, 4, 25, and 30 degrees C for up to one month. The single-use, disposable NAT minimizes hands-on time and has the potential to facilitate HIV-1 testing in resource-limited settings or at the POC. |
Detection of Acute HIV-1 Infection by RT-LAMP.
Rudolph DL , Sullivan V , Owen SM , Curtis KA . PLoS One 2015 10 (5) e0126609 A rapid, cost-effective diagnostic test for the detection of acute HIV-1 infection is highly desired. Isothermal amplification techniques, such as reverse-transcription loop-mediated isothermal amplification (RT-LAMP), exhibit characteristics that are ideal for the development of a rapid nucleic acid amplification test (NAAT) because they are quick, easy to perform and do not require complex, dedicated equipment and laboratory space. In this study, we assessed the ability of the HIV-1 RT-LAMP assay to detect acute HIV infection as compared to a representative rapid antibody test and several FDA-approved laboratory-based assays. The HIV-1 RT-LAMP assay detected seroconverting individuals one to three weeks earlier than a rapid HIV antibody test and up to two weeks earlier than a lab-based antigen/antibody (Ag/Ab) combo enzyme immunoassay (EIA). RT-LAMP was not as sensitive as a lab-based qualitative RNA assay, which could be attributed to the significantly smaller nucleic acid input volume. To our knowledge, this is the first demonstration of detecting acute HIV infection using the RT-LAMP assay. The availability of a rapid NAAT, such as the HIV-1 RT-LAMP assay, at the point of care (POC) or in laboratories that do not have access to large platform NAAT could increase the percentage of individuals who receive an acute HIV infection status or confirmation of their HIV status, while immediately linking them to counseling and medical care. In addition, early knowledge of HIV status could lead to reduced high-risk behavior at a time when individuals are at a higher risk for transmitting the virus. |
Real-Time Detection of HIV-2 by Reverse Transcription-Loop-Mediated Isothermal Amplification.
Curtis KA , Niedzwiedz P , Youngpairoj AS , Rudolph DL , Owen SM . J Clin Microbiol 2014 52 (7) 2674-6 Currently, there are no FDA-approved, nucleic acid amplification tests (NAATs) for the detection or confirmation of HIV-2 infection. We describe the development of a real-time assay for detection of HIV-2 DNA and RNA, using reverse-transcription loop-mediated isothermal amplification (RT-LAMP) and the ESEQuant Tube Scanner, a portable isothermal amplification/detection device. |
Isothermal amplification using a chemical heating device for point-of-care detection of HIV-1
Curtis KA , Rudolph DL , Nejad I , Singleton J , Beddoe A , Weigl B , Labarre P , Owen SM . PLoS One 2012 7 (2) e31432 BACKGROUND: To date, the use of traditional nucleic acid amplification tests (NAAT) for detection of HIV-1 DNA or RNA has been restricted to laboratory settings due to time, equipment, and technical expertise requirements. The availability of a rapid NAAT with applicability for resource-limited or point-of-care (POC) settings would fill a great need in HIV diagnostics, allowing for timely diagnosis or confirmation of infection status, as well as facilitating the diagnosis of acute infection, screening and evaluation of infants born to HIV-infected mothers. Isothermal amplification methods, such as reverse-transcription, loop-mediated isothermal amplification (RT-LAMP), exhibit characteristics that are ideal for POC settings, since they are typically quicker, easier to perform, and allow for integration into low-tech, portable heating devices. METHODOLOGY/SIGNIFICANT FINDINGS: In this study, we evaluated the HIV-1 RT-LAMP assay using portable, non-instrumented nucleic acid amplification (NINA) heating devices that generate heat from the exothermic reaction of calcium oxide and water. The NINA heating devices exhibited stable temperatures throughout the amplification reaction and consistent amplification results between three separate devices and a thermalcycler. The performance of the NINA heaters was validated using whole blood specimens from HIV-1 infected patients. CONCLUSION: The RT-LAMP isothermal amplification method used in conjunction with a chemical heating device provides a portable, rapid and robust NAAT platform that has the potential to facilitate HIV-1 testing in resource-limited settings and POC. |
A rapid real-time PCR assay for the detection of HIV-1 proviral DNA using double-stranded primer
Pau CP , Wells SK , Rudolph DL , Owen SM , Granade TC . J Virol Methods 2009 164 55-62 In this study, a rapid real-time PCR assay to detect HIV-1 proviral DNA in whole blood was developed using a novel double-stranded primer that does not require a target-specific fluorescent probe or intercalating dye systems. Co-amplification of a human gene RNase P served as the internal control to monitor the efficiency of the DNA extraction and PCR amplification. The HIV-1 amplification efficiency was 100% and could amplify 1 copy of HIV-1 DNA 64% of the time and all attempts to amplify 4 copies were successful in less than 51min. All 22 HIV-1 sero-positive and 20 sero-negative whole blood specimens tested were classified correctly by this assay. In addition, 22 cultured PBMC specimens infected with various HIV-1 subtypes or CRF (A=2, AC=1, B=4, C=3, D=3, AE=2, F=1, BF=2, G=4) were amplified equally well with a similar threshold cycle (C(t)) number (22.9+/-1.2). The high amplification efficiency and short PCR cycles were in part due to the short target sequence amplified by eliminating the probe-binding sequence between the primers. This assay may be useful as an alternative confirmation test in a variety of HIV testing venues. |
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