HIV/AIDS Clinical Trials in Los Angeles

Showing 401-420 of 648 trials

HIV Medication Adherence in Underserved Populations

NCT02392884

The purpose of this study is to determine whether cognitive rehabilitation or psychoeducation impacts medication adherence in HIV-1 seropositive individuals.

Human Immunodeficiency VirusAcquired Immunodeficiency Syndrome

Cedars-Sinai Medical Center60 participantsStarted Sep 2014

Los Angeles, California, United States

COMPLETEDPhase 1< 1 mile

Phase 1 Dose Escalation Study of Autologous T-cells Genetically Modified at the CCR5 Gene by Zinc Finger Nucleases in HIV-Infected Patients

NCT01044654

This research study is being carried out to study a new way to possibly treat HIV. This agent is called a "Zinc Finger Nuclease" or ZFN for short. ZFNs are proteins that can delete another protein named CCR5. This CCR5 protein is required for certain types of HIV (CCR5 tropic) to enter into and infect your T-cells. T cells are one of the white blood cells used by the body to fight HIV. The most important of these are called "CD4 T-cells." Some People are born without CCR5 on their T-cells. These people remain healthy and are resistant to infection with HIV. Other people have a low number of CCR5 on their T-cells, and their HIV disease is less severe and is slower to cause disease (AIDS). Even with no detectable levels of HIV in the blood, HIV remains in some tissues in the body, primarily the gut tissue. HIV infects the CD4+ T-cells including in the blood and gut. The new treatment to be studied will involve removing white blood cell from the blood that contains CD4+ T-cells. The extracted CD4+ T-cells are then genetically modified by the ZFNs to be resistant to infection by HIV by removing the CCR5 gene from the surface of the CD4+ T cell where HIV enters the cell. Additional genetically modified cells are manufactured and then re-infused back into you. Researchers hope that these genetically modified cells will be resistant to infection by HIV and will be able to reproduce additional resistant CD4+ T-cells in your body. Laboratory studies have shown that when CD4+ T-cells are modified with ZFNs, HIV is prevented from killing the CD4+ T-cells. On the basis of these laboratory results, thre is the potential that ZFNs may work in humans infected with HIV and improve their immune system by allowing their CD4+ T-cells to survive longer. The purpose of this research study is to find out whether "zinc finger" modified CD4+ T-cells are safe to give to humans and find how "zinc finger" modified T-cell affects HIV.

HIV InfectionHIV Infections

Sangamo Therapeutics19 participantsStarted Dec 2009

Los Angeles, California, United States • Newport Beach, California, United States • San Francisco, California, United States +6 more locations

HIV Medication Adherence in Underserved Populations

Phase 1 Dose Escalation Study of Autologous T-cells Genetically Modified at the CCR5 Gene by Zinc Finger Nucleases in HIV-Infected Patients

HIV/AIDS Trials in Other Cities

A Phase I Trial of Peptide T: Efficacy for the Neuropsychiatric Complications of Acquired Immunodeficiency Syndrome (AIDS).

A Study of the Pharmacokinetics and Antiviral Activity of Dolutegravir in the Central Nervous System in HIV-1 Infected ART-naive Subjects

The Safety and Effectiveness of Clarithromycin Plus Ethambutol Used With or Without Clofazimine in the Treatment of MAC in Patients With AIDS

Safety and Efficacy of BAY 50-4798 in Patients With HIV Infection

Comparative Study of Three NNRTI-Sparing HAART Regimens

Etravirine Pharmacokinetics and HIV Viral Load in Breast Milk and Plasma

A Study to Evaluate the Safety, Tolerability, and Pharmacokinetics of Etravirine Administered in Combination With Other Antiretroviral Agents in Antiretroviral Treatment-Experienced HIV-1 Infected Patients

A Study of TMC278 in Human Immunodeficiency Virus Type 1 Infected Patients, Who Are Not Treated With Antiretroviral Medicines

CSP #512 - Options in Management With Anti-Retrovirals

A Medication Adherence Intervention for HIV Infected Veterans

Measuring HIV Quality of Care

Qualitative Assessment of Implementing Routine Rapid HIV Testing

When to Start Anti-HIV Drugs in Patients With Opportunistic Infections

Atazanavir/Ritonavir, Once Daily + Raltegravir, Twice Daily, Switch Study in HIV-1-Infected Patients

The Safety and Effectiveness of Clarithromycin in the Prevention of Mycobacterium Avium Complex (MAC) Infection in HIV-Infected Patients

Collection of Blood Samples From HIV Infected People

Assessing HIV-Related Oral Mucosal Disease and Using Saliva to Measure Viral Load

Maraviroc Plus Darunavir/Ritonavir for Treatment-Naïve Patients Infected With R5-tropic HIV-1

Other Conditions in Los Angeles