97 Clinical Trials for Various Conditions
The primary purpose of this phase I/II study is to evaluate whether partially matched, ≥2/6 HLA-matched, viral specific T cells have efficacy against adenovirus, CMV, and EBV, in subjects who have previously received any type of allogeneic HCT or solid organ transplant (SOT), or have compromised immunity. Reconstitution of anti-viral immunity by donor-derived cytotoxic T lymphocytes has shown promise in preventing and treating infections with adenovirus, CMV, and EBV. However, the weeks taken to prepare patient-specific products, and cost associated with products that may not be used limits their value. In this trial, we will evaluate viral specific T cells generated by gamma capture technology. Eligible patients will include HCT and/or SOT recipients, and/or patients with compromised immunity who have adenovirus, CMV, or EBV infection or refractory viremia that is persistent despite standard therapy. Infusion of the cellular product will be assessed for safety and efficacy.
Background: Epstein-Barr virus (EBV) is the primary cause of infectious mononucleosis, commonly known as mono. EBV infects more than 90% of the world s population. Mono can be serious, and it can lead to severe illnesses like cancer and autoimmune diseases. Researchers want to test vaccines that may help prevent EBV and associated diseases. Objective: To test two EBV vaccines: EBV gH/gL/gp42-ferritin and EBV gp350-ferritin. Eligibility: Healthy EBV-negative or EBV-positive people aged 18 to 29. Design: Participants will be screened. They will have a physical examination. They will give blood and saliva samples. They will receive 3 doses of the study vaccine as an injection in the shoulder muscle. They will get either one vaccine or a combination of both vaccines. Participants will get their first dose of the vaccine at visit 1, the second dose about 30 days later, and the final dose about 90 days after that. Participants will be given a memory aid so they can record any symptoms and side effects between visits. This can be done either on paper or online through a link that is emailed to them. There are 6 required in-person visits. There are also 2 optional visits. In between the in-person visits are 7 telehealth visits or phone calls. Each visit may take up to 4 hours. The study will last for about 17 months. Participants will have the option of staying in the study for an additional year.
The purpose of this study is to evaluate the safety and reactogenicity of mRNA-1195 in healthy participants.
Background: Epstein-Barr virus (EBV) causes most cases of infectious mononucleosis (mono). Mono can cause fatigue that lasts more than 6 months, and some people can have severe complications. EBV infection may also contribute to some cancers and autoimmune diseases. Currently, there are no approved therapies or vaccines for EBV infection. Objective: To test a vaccine against EBV. Eligibility: Healthy people aged 18 to 25 years. Design: Participants will be screened in 2 parts. They will have a blood test. If that test shows they have never had an EBV infection, they will have a second clinic visit. They will have a physical exam, with blood and urine tests. A cotton swab will be rubbed on their gums to collect saliva. Participants will receive 2 injections into a shoulder muscle. Some will receive the EBV vaccine. Others will receive a placebo; this contains harmless salt water with no vaccine. Participants will not know which one they are getting. The 2 injections will be 30 days apart. Participants will be asked to record any side effects or symptoms they have between visits. They can do this on paper or online. Participants will return for a follow-up visit 60 days after the first injection. They will have follow-up visits by phone or telehealth after 5 and 8 months. They will return for a physical exam after 13 months. They may come back for an optional physical exam after 2 years. Participants will come to the clinic if they become ill with an EBV infection during the study.
The main objective of Part A of this trial is to evaluate the safety and reactogenicity of mRNA-1189 in 18- to 30-year-old healthy adults, the main objective of Part B is to evaluate the safety and reactogenicity of mRNA-1189 in 12- to \<18-year-old healthy EBV-seronegative adolescents, and the main objective of Part C is to evaluate the safety and reactogenicity of mRNA-1189 in 10- to 21-year-old healthy adolescents and adults.
Background: Epstein-Barr virus (EBV) causes most cases of infectious mononucleosis (mono). Up to 1 in 10 people who get mono can have fatigue that lasts more than 6 months. One out of 100 people can have severe complications. EBV is also associated with several types of cancer. Researchers want to test an EBV vaccine. Objective: To test the safety of and immune response to a new vaccine against EBV. Eligibility: Healthy adults ages 18-29 Design: Participants will be screened with a medical history and physical exam. They will give a blood sample. Screening tests will be repeated during the study. Participants will get a dose of the study vaccine as an injection in a muscle in the upper arm. They will be observed for 30 to 60 minutes. Blood pressure, heart rate, breathing rate, and temperature will be checked. The injection site will be examined. Participants will get a diary card. They will write down any side effects they have after the vaccine dose, or they may use an electronic diary card. Participants will be asked to write down or enter any important medical events that may occur at any time during the study. Participants will get a vaccine dose at 2 more study visits. They will have 4 follow-up visits at different times after a vaccine dose. Participants will have 6 telephone calls in between the in-person visits. They will also have 1 telephone call 1 year after the third dose of vaccine. If possible, this visit can occur in person. Participation will last about 18 months. There is an optional in-person visit or telephone call 2 years after the third dose of vaccine.
This is a multicenter, open-label, single-arm Phase 1B/2 study to assess the safety and efficacy of tabelecleucel in combination with pembrolizumab for the treatment of subjects with platinum-pretreated, recurrent/metastatic Epstein-Barr Virus-associated Nasopharyngeal Carcinoma (EBV+ NPC).
Background: The drug Nivolumab has been approved to treat some cancers. Researchers want to see if it can slow the growth of other cancers. They want to study its effects on cancers that may have not responded to chemotherapy or other treatments. Objectives: To see if Nivolumab slows the growth of some types of cancer or stops them from getting worse. To test the safety of the drug. Eligibility: People 12 and older who have Epstein-Barr Virus (EBV)-positive lymphoproliferative disorders or EBV-positive non-Hodgkin lymphomas with no standard therapy Design: Participants will be screened with: Medical history Physical exam Blood and urine tests CAT scan of the chest, abdomen, and pelvis Tumor and bone marrow biopsies (sample taken) Magnetic resonance imaging scan of the brain Lumbar puncture (also known as spinal tap) Positron emission tomography/computed tomography scan with a radioactive tracer Every 2 weeks, participants will get Nivolumab by vein over about 1 hour. They will also have: Physical exam Blood and pregnancy tests Review of side effects and medications During the study, participants will repeat most of the screening tests. They may also have other biopsies. After stopping treatment, participants will have a visit every 3 months for 1 year. Then they will have a visit every 6 months for years 2-5, and then once a year. They will have a physical exam and blood tests.
This will be a randomized, placebo-controlled, double-blind single-center proof of concept study to evaluate the anti-EBV activity of 4 grams of valomaciclovir (2 grams BID) for 21 days in subjects with infectious mononucleosis documented to be caused by primary EBV infection. Otherwise healthy subjects (≥15 years old) referred to us with a clinical diagnosis of primary infectious mononucleosis will be screened and those with laboratory-confirmed primary EBV infection will be enrolled.
To determine the safety of the combination of CD45 monoclonal antibody (Mab) followed by intravenous injection of EBV specific CTL in patients with nasopharyngeal cancer. To compare the expansion, persistence and anti-tumor effects of the EBV specific CTL given after CD45 Mab administration with that observed in our first study. To obtain preliminary information on the safety and response to an extended dosage regimen of EBV-specific CTL in patients, who have stable disease or a partial response after the initial dose of EBV-specific CTL.
This study will evaluate the ability of people of different ethnic backgrounds to develop immune responses against the Epstein-Barr virus (EBV). A common virus, EBV is present in 90 percent of healthy people and usually does not cause problems. Most people are infected in childhood, have no symptoms, and are unaware of their infection. People infected as adolescents or adults may develop infectious mononucleosis, which usually resolves completely. However, in immune suppressed people, like those who have had a transplant, EBV can cause fatal cancers. It can also cause certain cancers such as Burkitt's lymphoma, Hodgkin's lymphoma, and nasopharyngeal carcinoma in people who are not immune suppressed. Nasopharyngeal carcinoma is 100 times more common in people of Asian origin (particularly southern Chinese) compared with Caucasians. This difference may be the result of genetic, rather than environmental, factors. This study will examine whether the same proteins produced by EBV in the cancer cells react differently in people of different ethnic background in a way that could explain the differences in predisposition for this disease. Healthy normal volunteers 18 years of age and older of Caucasian or Chinese ancestry may be eligible for this study. Candidates of Chinese ancestry must be born in China (including Taiwan, Hong Kong, and Singapore, or be first generation offspring of parents born in these places). Participants will have a blood sample drawn and will undergo lymphapheresis - a procedure for collecting large numbers of white blood cells called lymphocytes. The blood sample is tested for blood counts and HLA type, a genetic marker of the immune system. HLA molecules help determine the way the body's immune cells respond to virus. HLA typing is similar to blood typing. Usually done to match stem cell or organ transplants, HLA testing may also be used to try to identify factors associated with an increased risk of certain diseases or conditions. HLA type is strongly associated with ethnic background. For lymphapheresis, blood is collected through a needle in an arm vein, similar to donating blood. The blood flows from the vein through a catheter (plastic tube) into a machine that separates it into its components by centrifugation (spinning). The white cells are removed and the rest of the blood (red cells, plasma and platelets) is returned to the body through a needle in the other arm. The procedure takes 2 to 3 hours. The collected white cells are used for research for this study, including the ability to react to EBV proteins, and are then destroyed.
Patients have a type of blood cell cancer or other blood problem that is very hard to cure with standard treatments and s/he will receive a bone marrow transplant. If the patient does not have a brother or sister whose marrow is a "perfect match", this bone marrow will come from a donor whose marrow is the best match available. This person may be a close relative or an unrelated person whose bone marrow best "matches" the patient's, and who agrees to donate marrow. In normal people, the Epstein-Barr (EB) virus infection causes a flu like illness and usually gets better when the immune system controls the infection. The virus, however, remains hidden in the body for life. After a transplant, while the new immune system is growing back, the EB virus can come out and infect cells and cause them to grow in an uncontrolled manner. Patients can develop fevers, swollen lymph nodes and damage to other organs such as kidneys and lungs. This infection acts like a cancer because the cells infected with EB virus grow very quickly and there is no known effective treatment. This sort of infection will occur in between 10-30% of patients receiving a transplant from a donor who is not a perfect match, and has been fatal in nearly all these cases. This infection occurs because the immune system cannot control the growth of the cells. We want to see if we can prevent it from happening or treat it by giving the patient a kind of white blood cell called T cells that we have grown from the marrow donor. These cells have been trained to attack EB virus infected cells. We will grow these T cells from blood taken from the donor at the time of bone marrow harvest. These T cells will be stimulated with the donor's EB virus-infected cells which have been treated with radiation so they cannot grow. After mixing these cells together we will be able to grow special T cells from the donor that can attack EB virus infected cells. We will then collect the T cells and make sure they can kill the virus infected cells. These EBV specific T cells are an investigational product not approved by the Food and Drug Administration.
Patients who may have been infected with EBV (Epstein-Barr Virus) before or after the time of their transplant have a higher risk of developing Lymphoproliferative Disease (LPD) or may already have a form of this disease. This research study uses Epstein Barr virus (EBV) specific cytotoxic T lymphocytes (CTLs). These cells have been trained to attack and kill (cytotoxic) EB virus infected cells. We make these cells from the patients blood by first growing an EBV infected B cell line by infecting the blood with an EBV virus called B-95. We then treat these EBV infected B cells with radiation so they cannot grow and use them to stimulate T cells. This stimulation will train the T cells to kill EBV infected cells. We will then test the T cells to make sure they kill the EBV infected cells. The purpose of this study is to find the largest safe dose of EBV specific CTLs, to learn what the side effects are, and to see whether this therapy might help prevent or cure EBV related cancers in solid organ transplant patients
Severe chronic active Epstein-Barr virus (SCAEBV) is a rare Epstein-Barr virus (EBV or commonly known as mono or the kissing disease) associated disorder. This disorder may cause chronic tiredness and fevers and sometimes be complicated by life threatening problems such as multi-organ failure, chronic (ongoing) pneumonia, and lymphoproliferative diseases (diseases involving the lymph nodes which could eventually show up as leukemia or a tumor). The reasons for the body's inability to control the EBV infection are still unknown and no effective treatment is currently available. This research study uses Epstein-Barr virus (EBV) specific cytotoxic T lymphocytes (CTLs). We want to see if we can grow special white blood cells, called T cells, that have been trained to kill EBV infected cells in the laboratory and see if these cells may help control the EBV infection when given back to the patient. The purpose of this study is to find the largest safe dose of EBV specific CTLs, to learn what the side effects are, and to see whether this therapy might help the body fight off the SCAEBV infection.
This study will examine the effects of long-term antiviral therapy with valaciclovir (Valtrex) on Epstein-Barr virus infection. This virus infects more than 95 percent of people in the United States. Most are infected in childhood, have no symptoms, and are unaware of their infection. People infected as adolescents or adults may develop infectious mononucleosis, which usually resolves completely. Once infected, most people shed the virus from their throat occasionally, and all carry the virus in their white blood cells for life. This study will determine whether the amount of virus in the blood declines or disappears with long-term valaciclovir treatment. Normal volunteers who are not taking any antiviral medicines and patients enrolled in NIH's protocol no. 97-I-0168 (Evaluation of Valaciclovir for Prevention of Herpes Simplex Virus Transmission) or Glaxo-Wellcome protocol HS2AB 3009 at collaborating centers may be eligible for this study. Patients in the multi-center study must be about to start valaciclovir therapy for at least 1 year. All candidates must be 18 years of age or older. Study participants will be seen in clinic for about 1 hour every 3 months for a year. During these visits, they will provide information about the medicines they are taking, gargle twice with salt water and spit the fluid into a tube, and have blood drawn (no more than 8 teaspoons each visit). The blood and gargled fluid will be tested for the amount of Epstein-Barr virus and antibodies to the virus. (Blood samples will also be tested for HLA type in order to do immunologic studies in the laboratory. HLA is a marker of the immune system that is similar to blood-typing testing.) The results in people taking valaciclovir will be compared with those in people not taking the drug. People whose results show the virus has disappeared from the body will continue to be followed twice a year for 5 years with the blood and gargling tests to continue to look for evidence of virus. Also, people who develop symptoms resembling mononucleosis (e.g., enlarged lymph nodes with fever and sore throat) will be asked to have their blood tested for the virus.
The purpose of the research is to test the safety and efficacy of the investigational drug in human subjects with cancer.
This research study is being performed to find out if Truvada (tenofovir/emtricitabine), an antiviral drug with activity against the Epstein Barr virus (EBV), can reduce EBV levels in saliva and blood in people with multiple sclerosis (MS). A second goal is to find out if Truvada (tenofovir/ emtricitabine) is safe and tolerable in people with MS.
A Phase 2 study to evaluate the efficacy of nanatinostat in combination with valganciclovir in patients with relapsed/refractory EBV-positive lymphomas
This study involved patients that have a cancer called diffuse large B cell lymphoma (DLBCL), NK and T cell lymphomas (NK/TL) or classical Hodgkin lymphoma (cHL) (hereafter these 3 diseases will be referred to as lymphoma). Patients lymphoma has come back or not gone away after treatment. Because there is no standard treatment for the patients cancer at this time or because the currently used treatments do not work fully in all cases, the patients are being asked to volunteer in this research study. In this study the investigators want to test a type of T cell made from a normal donor. The T cells the investigators will use are called Epstein Barr virus (EBV) specific T cells (EBVSTs) and are cells that the investigators have trained in the laboratory to recognize a EBV which is the virus that causes mono or kissing disease. Some patients with lymphoma have EBV in their cancer cells. Researchers have given T cell lines from normal donor EBVSTs to lymphoma patients who have EBV in their lymphoma cells and have seen responses in about half the patients. The cells have have been generated and are frozen in a bank. The cells are called "allogeneic" (meaning the donor is not related to the patient). CD30.CAR in EBV-specific T cells (called allogeneic CD30.CAR-EBVST) from the blood of healthy donors. The investigators are giving the cells to patients with lymphoma cells that express CD30. If the lymphoma cells also express EBV there may be some benefit from targeting both proteins. The purpose of this study is to find out the highest safe dose of allogeneic CD30.CAR-EBVST cells given following chemotherapy and used to treat lymphoma. The investigators will learn the side effects of CD30.CAR-EBVST cells in patients and see whether this therapy may help lymphoma patients.
To evaluate the anti cancer effect of VK 2019 in subjects with EBV related nasopharyngeal carcinoma (NPC) for whom there is no other standard treatment available
The purpose of this study is to assess the efficacy and safety of tabelecleucel in participants with Epstein-Barr virus (EBV) associated diseases.
VK-2019-001 is a 1/2a trial of the oral EBNA-1 targeting agent VK-2019 in patients with EBV-positive recurrent or metastatic NPC to determine the Maximum Tolerated Dose (MTD) and Recommended Phase 2 Dose (RP2D), as well as to evaluate the PK profile of VK-2019.
The purpose of this study is to determine the clinical benefit and characterize the safety profile of tabelecleucel for the treatment of Epstein-Barr virus-associated post-transplant lymphoproliferative disease (EBV+ PTLD) in the setting of (1) solid organ transplant (SOT) after failure of rituximab (SOT-R) and rituximab plus chemotherapy (SOT-R+C) or (2) allogeneic hematopoietic cell transplant (HCT) after failure of rituximab.
This phase II trial studies how well pembrolizumab works with capecitabine and radiation therapy in treating patients with mismatch repair deficient and Epstein-Barr virus positive gastric cancer. Monoclonal antibodies, such as pembrolizumab may interfere with the ability of tumor cells to grow and spread. Drugs used in chemotherapy, such as capecitabine, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Radiation therapy uses high energy x-rays to kill tumor cells and shrink tumors. Giving pembrolizumab, capecitabine and radiation therapy may work better at treating gastric cancer.
Subjects have a type of a lymph node cancer called Non-Hodgkin's Lymphoma (NHL) or lymphoproliferative disease (LPD), which affects their immunity, blood production, and can involve multiple other organs in the body. Their disease has come back or has not gone away after treatment. The experimental treatment plan consists of an antibody therapy called "Nivolumab" that helps the subjects' T-cells control the tumor, and special immune system cells called EBV-specific cytotoxic T lymphocytes, also a new therapy whose side effects are well studied. Some patients with NHL or LPD are infected with the virus that causes infectious mononucleosis (called Epstein-Barr virus, or EBV) before or at the time of their diagnosis. The cancer cells that are infected by EBV are able to hide from the body's immune system and escape destruction. Investigators want to see if special white blood cells, called T cells, that have been trained to kill cells infected by EBV can survive in the blood and affect the tumor. Investigators have used this sort of therapy to treat a different type of cancer that occurs after bone marrow or solid organ transplant called post-transplant lymphoma with good success. These cells are called EBV-specific cytotoxic T-lymphocytes (EBVSTs), and are effective in treating these diseases. These EBVSTs are experimental and not yet approved by the Food and Drug Administration (FDA). Sometimes it is not possible to grow these cells; or they may not last very long in the body after being given into the vein thereby having only limited time to fight the tumor. With this study, investigators aim to increase the duration of time that the T cells can last in the body and can effectively fight the cancer by using nivolumab. Nivolumab is FDA approved for treatment of other kinds of cancer like lung cancer and a skin cancer called Melanoma. The purpose of this study is to find out if EBVST cells in combination with nivolumab are safe, to learn what the side effects are, and to see whether this therapy may help patients with EBV related lymphoma or LPD.
By combining a variety of agents that potentiate Zidovudine (ZDV), the investigators hope to induce remission in this generally fatal disease. Most therapies for aggressive B cell lymphomas are based upon intensive chemotherapeutic regimens, expensive modalities (bone marrow transplant, Rituximab), or experimental approaches (gene therapy, cytotoxic T cell infusion) that are difficult to implement in heavily pre-treated patients. Therapy for relapsed aggressive B cell lymphomas is very poor. Even curable lymphomas such as Burkitt Lymphoma (BL) and Hodgkin lymphoma are extremely difficult to treat in relapse and/or after stem cell transplant failure. The investigators propose a novel therapeutic approach that exploits the presence of Epstein-Barr virus (EBV) in lymphomas; antiviral mediated suppression of NF-kB and disruption of viral latency.
The investigators intend to utilize reduced intensity conditioning and allogeneic stem cell transplant from EBV positive HLA matched sibling or unrelated adult donor combined with post AlloSCT allogeneic donor derived LMP specific cytotoxic T-lymphocyte (CTL) infusions in EBV positive patients with poor risk Hodgkin Lymphoma. One of three reduced intensity conditioning regimens predetermined at each institutional center of the Childhood, Adolescent and Young Adult Lymphoma Cell Therapy Consortium (LCTC) will be utilized for related or matched unrelated adult donor allogeneic transplant followed by donor LMP specific CTL infusion for three doses post AlloSCT. The investigators hypothesize that the addition of donor derived LMP specific CTLs will be safe and feasible.
This is a Phase II trial to evaluate the efficacy and safety of human leukocyte antigen (HLA) partially-matched third-party allogeneic Epstein-Barr virus cytotoxic T lymphocytes (EBV-CTLs) for the treatment of EBV-induced lymphomas and EBV-associated malignancies.
Patients have a type of a lymph node cancer called lymphoma, a tumor of the nasal passages called nasopharyngeal carcinoma (NPC), a tumor of a particular type of muscle called leiomyosarcoma (LMS) or a condition called severe chronic active EBV (SCAEBV) syndrome. The disease has come back, may come back or has not gone away after treatment. This voluntary research study uses special immune system cells called LMP-specific cytotoxic T lymphocytes, a new experimental therapy. Some patients with these diseases show evidence of infection with the virus that causes infectious mononucleosis (called Epstein-Barr virus, or EBV) before or at the time of their diagnosis. EBV is found in the cancer cells of up to half of the patients with lymphomas, and in some cases of NPC and LMS, suggesting that it may play a role in causing these diseases. Those cancer cells (as well as some B cells in SCAEBV) that are infected by EBV are able to hide from the body's immune system and escape destruction. We want to see if special white blood cells, called T cells, that have been trained to kill cells infected by EBV can survive in the blood and affect the tumor. This treatment with specially trained T cells has had activity against these viruses when the cells are made from patients with those diseases (or, after bone marrow transplant, from the patient's transplant donor). However, sometimes it is not possible to grow these cells; other times, it may take 2 to 3 months to make the cells, which may be too long when one has an active tumor. We are therefore asking if subjects would like to participate in this study, which tests if blood cells from a donor that is a partial match with the subject (or the transplant donor) that have been grown in the way described above can survive in the blood and affect the disease. These LMP-specific CTLs are an investigational product not approved by the Food and Drug Administration.
The purpose of this study is to test the safety of giving the patient special cells from a donor called "Modified T-cells". The goal is to assess the toxicities of T-cells for patients with relapsed B cell leukemia or lymphoma after a blood SCT organ SCT or for patients who are at high risk for relapse of their B cell leukemia or lymphoma.