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Evaluation of HIV-related Complications

$0ZIAFY2014CLNIH

Clinical Center

Investigators

Linked publications & trials

Abstract

At present, there are no clear guidelines as to when antiretroviral (ARV) therapy for human immunodeficiency virus (HIV) should be stopped in the setting of elevated liver enzymes. In large part, this is due to a limited understanding of the natural history of ARV-related hepatotoxicity. We have undertaken a pilot study to estimate the prevalence of hepatic fibrosis in a cohort of HIV-infected patients who have chronically elevated transaminases while on ARV therapy in the absence of Hepatitis B (HBV) or C (HCV) coinfection. Liver biopsy specimens are being evaluated for fibrosis by microscopic examination, the current gold standard for assessing the nature and severity of liver disease. Fibrosis, as well as other histopathology, is being measured using a validated scoring system. To date, 62 patients have enrolled in the study and undergone liver biopsy. Significant liver abnormalities, primarily steatohepatitis, but also fibrosis, have been seen in the 40 patients. A paper describing the histopathologic abnormalities and clinical correlates of these patients is currently being prepared. We plan to continue to follow these patients long-term to better understand the natural history of these liver abnormalities. This study should provide clinically relevant information on the significance of elevated transaminases in HIV-infected patients without co-infection with HCV or HBV, and facilitate management of such patients. Progressive liver disease has become an important non-opportunistic complication of HIV infection in the HAART era. Liver fibrosis is a significant problem in HIV-infected patients, including those with HCV co-infection, as well as, based on the study summarized above, in patients without HCV infection. Agents that can prevent progression of fibrosis, and potentially even reverse fibrosis, may thus provide clinical benefit, but to date no effective drug has been identified that can consistently prevent progression of fibrosis. Recently a monoclonal antibody that targets LOXL2, an enzyme involved in collagen synthesis, has been found in animal models to be effective in preventing as well as reversing fibrosis. A humanized form of this antibody has been developed and has entered phase 1 clinical trials. We have undertaken a phase 1 clinical trial with this antibody (Caryn Morse is PI) in 3 groups of patients with biopsy-documented liver fibrosis: HIV mono-infected patients, HCV mono-infected patients, and HIV-HCV co-infected patients. The primary endpoint of this study is safety, and secondary endpoints include effect on liver fibrosis based on pre- and post-treatment liver biopsies, as well as other non-invasive markers of fibrosis. A total of 18 patients enrolled in this study; the last infusions will be administered shortly, and analysis of the data will be undertaken at that time. This study will examine the safety and provide preliminary information on the anti-fibrotic activity of this monoclonal antibody in patients with liver fibrosis. Biomarkers including D-dimer and IL-6 have been shown to predict mortality in HIV-infected patients independent of CD4 and viral load. To better understand the mechanism leading to D-dimer elevation, we have undertaken a cross-sectional study to examine markers of coagulation, platelet function, endothelial activation and inflammation, and to identify correlates of elevated D-dimer levels. Our hope is that this analysis will provide insights into which of these pathways is leading to D-dimer elevation. To date we have enrolled approximately 230 HIV+ patients and HIV-volunteers. Preliminary analysis suggests that TNF-, sVCAM, and von Willebrand Factor correlate with levels of D-Dimer. These data suggest that ongoing monocyte activation plays a role in D-dimer elevation. We plan to enroll an additional 60 patients to study the correlates of immunologic non-response in patients receiving HAART, to include 30 subjects and 30 controls. We plan to examine immunophenotypic characteristics of the patients, as well as look for evidence of infection with a variety of viral pathogens, including unknown viruses. We also plan to look at T-cell receptor repertoire diversity. The goal is to better understand the mechanisms leading to poor immunologic response in HIV-infected patients. Diagnosis of respiratory infections in HIV infected patients remains an expensive and laborious process. With funding from a Bench to Bedside award, we have undertaken a protocol to examine the utility of a resequencing microarray in the diagnosis of such infections. Our initial goal is to determine the sensitivity of the microarray chip compared to results obtained in the Microbiology Department. We have enrolled 100 patients at the NIH and 13 at Washington Hospital Center. Customized chip development has proceeded at a slower pace than initially anticipated. We have shifted chip development from a commercial group to our collaborators at Leidos. Subsequently the company providing the chip design and methodology ceased operations. We hope to be able to complete the development of the processing methodologies in the coming year, and anticipate that we will be able to obtain the chips from Affymetrix. This study will allow us to evaluate a new technology for diagnosis of a broad array of respiratory pathogens in a single platform.

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