View clinical trials related to Vaccinia.
Filter by:The purpose of this research study is to determine whether JX-594 (Pexa-Vec) has significant anti-tumoral activity and tolerability in primary hepatocellular carcinoma and to determine the dose to be used in further testing.
The purpose of this research study is to find out whether JX-594 (Pexa-Vec) is safe and effective for treating surgically unresectable malignant melanoma.
Atopic dermatitis (AD) is a chronic inflammatory skin disorder characterized by recurrent viral skin infections. Recent studies have demonstrated that the skin of people with AD my have decreased antimicrobial peptide (AMP) expression. The purpose of this study is to compare smallpox virus replication and the number of AMPs and other antiviral molecules in people with AD, as compared to those seen in people with psoriasis or asthma, or healthy individuals.
This study will test an experimental antiviral drug called SIGA-246 for use against the smallpox virus (variola). Although smallpox has been universally eradicated, it could possibly be brought back as a bioweapon. In the event of a smallpox attack, it would be best to have an antiviral medication in addition to the smallpox vaccine. SIGA-246 has shown to have activity against other viruses from the same family (orthopoxvirus) that smallpox belongs to. Healthy volunteers who are 18-50 years of age and are not pregnant or breastfeeding may be eligible for this study. Candidates are screened with a medical history and physical examination, blood and urine tests, and an electrocardiogram. Participants are randomly assigned to receive a one-time dose of SIGA-246 (either 500 mg, 1000 mg, or 2000 mg) or a placebo (sugar pill) taken by mouth. They report to the clinic in the morning for the following procedures: - Insertion of intravenous (IV) line in the forearm. - Blood and urine tests before taking the study drug. - Drug administration within 30 minutes of eating a light breakfast. - Blood sampling from the IV line at 30 minutes and at 1, 1.5, 2, 2.5, 3, 3.5, 4, 5 and 6, 10 and 12 hours after taking SIGA-246 to determine how the drug is absorbed, distributed, broken down and excreted. Samples are also collected by needle stick at 24 and 48 hours for the same tests. - Electrocardiogram at 2 hours and 24 hours after taking SIGA-246. - 24-hour urine collection after taking the SIGA-246. - Complete diary card at home for 7 days after taking the SIGA-246. - Follow-up visits at about 2 weeks and about 4 weeks after taking SIGA-246. - Checks for health changes or problems at every visit.
The purpose of this study is to determine the safety of and immune response to a DNA HIV vaccine, pGA2/JS7, followed by a modified vaccinia (smallpox) HIV vaccine, MVA/HIV62, in HIV uninfected adults.
The purpose of this study is to assess intranodal immunotherapy in locally advanced to metastatic melanoma patients (American Joint Committee on Cancer [AJCC] stages IIb to IV). For this, the investigators capitalize on their previous melanoma clinical trial (published by Zajac P et al in Human Gene Ther 2003) and take advantage of a proprietary recombinant vaccinia virus (replication inactivated) expressing 5 minigenes: 3 melanoma associated antigens and 2 costimulatory molecules. Immunization with the recombinant vaccinia virus is followed by 3 boosts with soluble, synthetic melanoma associated antigens. The patients are immunized intranodally (groin lymph node) under ultrasonographic guidance in an outpatient clinic. The protocol foresees 2 cycles of immunotherapy for alternate weeks and lasts 15 weeks.
This study will evaluate patients with eye complications related to vaccination against smallpox to learn more about these conditions. Vaccinia vaccination has been used for more than 100 years for preventing smallpox. A small number of people who receive the vaccination (less than 1 in 1,000) develop complications, sometimes in their eyes. This usually results from the accidental transfer of the infection from the vaccination site to the face or eyes, perhaps by touching the vaccination area and then the face or eyelids before washing the hands. The study will also examine whether an experimental treatment called NP-016 vaccinia immune globulin can reduce corneal scarring that is sometimes associated with serious vaccinia complications and can impair vision. Children and adults with keratitis, severe conjunctivitis, or blepharitis following exposure to vaccinia vaccination may be eligible for this study. Children must weigh at least 10 kg. Participants undergo the following tests and procedures at enrollment, with some tests repeated at scheduled study visits: 1. Medical history and physical examination 2. Infectious disease consultation 3. Complete eye evaluation including: - Fundus photography to examine the back of the eye - dilation of the pupils with eye drops to examine and photograph the back of the eye - Slit lamp biomicroscopy - evaluation of the front part of the eye with a slit lamp microscope - Eye pressure measurements - Eye swab to look for vaccinia virus or other causes of disease 4. Blood tests 5. Photographs and documentation of eye and skin lesions 6. Vaccinia diagnostic tests, such as skin or mucosa scrapings; blood, throat, or urine cultures; and tissue biopsies, if needed Patients begin treatment with standard medications for their eye disease, such as trifluridine (Viroptic® (Registered Trademark)) anti-viral eye drops. Patients whose condition becomes serious are offered additional treatment with intravenous (through a vein) infusions of either VIG or placebo (salt water solution with no active drug) and are randomly assigned to one or the other treatment group. All patients continue standard-of-care treatment as well. Follow-up visits at the NIH eye clinic are scheduled as required by the patient's condition. Patients with mild complications who are taking only standard medications may need to be seen only 1 month after the initial visit and then 6 months and 12 months later. Patients with more serious conditions who qualify for VIG or placebo treatments may be seen daily for a week, then once a week for the rest of the first month, and then at 6 months and 12 months, unless more frequent treatment or observation is required.
The purpose of this study is to gather information on the safety and the effectiveness of an investigational vaccine for the prevention of smallpox disease. Smallpox was one of the major causes of death and sickness through the first half of the 20th century, but a global program of smallpox eradication resulted in the elimination of the natural disease. The last cases of smallpox in the United States occurred in 1949 in Texas. Today, only laboratory workers who work with smallpox-related viruses, military personnel, and health care workers are vaccinated. Historically, individuals in the US were vaccinated with a product such as Dryvax®, which contains the virus vaccinia in the same family as smallpox. This virus could promote immunity to smallpox, but not produce the disease itself. Although effective, these vaccines are not safe to use in people with atopic dermatitis (eczema, allergic immune response to allergens), children less than 1 year of age, and people with a compromised immune system, occurring in certain diseases (HIV positive individuals and AIDS), and following treatment with certain types of drugs. It is important to find a safe vaccine that can be used to protect people who cannot receive routine vaccinia-based smallpox vaccine. The vaccine in this study is known as Modified Vaccinia Ankara or MVA vaccine. It is the objective of this study to find out if MVA vaccine is safe and effective in providing immunity to smallpox. The effectiveness of this vaccine will be measured in two ways. The first way is to find out if there are specific antibodies in your blood following MVA vaccination. Antibodies are chemicals your body produces to fight smallpox virus. The second way is to see whether or not there is a typical skin reaction following vaccination with a traditional smallpox vaccine, given about three months after vaccination with the MVA vaccine. The typical reaction in an unvaccinated person to smallpox vaccine is formation of a blister or "pox" which occurs at the site of vaccination. In a person with immunity to smallpox the skin reaction is much less, and typically consists of a little swelling at the site of vaccination.
This study will test the safety of an experimental vaccine called modified vaccinia virus ankara (MVA) and determine if it confers protection against the smallpox virus (variola). There is an existing vaccine, called Dryvax® (Registered Trademark), which is effective against smallpox; however, this vaccine can cause various side effects, including some that, on rare occasions, can be life-threatening. Dryvax® (Registered Trademark) has not been used in the United States since childhood vaccination was stopped in 1971, and though it is given to certain healthcare and laboratory workers, and some people in the armed forces, it is not recommended for the general population. Both the MVA and Dryvax® (Registered Trademark) vaccines are made using the vaccinia virus, which is closely related to variola. Healthy normal volunteers between 31 and 60 years of age who have been vaccinated with a smallpox vaccine more than 10 years before entering the study may be eligible for this protocol. Candidates will be screened with a medical history, physical examination, and blood and urine tests, including an HIV test and a pregnancy test for women of childbearing potential. Participants will receive MVA vaccine or placebo, followed by a dose of Dryvax® (Registered Trademark). The MVA vaccine and placebo are injected into an arm muscle with a needle and syringe. The Dryvax® (Registered Trademark) vaccine is administered with a special forked needle that is poked lightly into the skin of the upper arm, usually 15 times, in a process called scarification. When the vaccine works, a small pus-filled blister forms, followed by a scab and then scarring at the site of the vaccination. The formation of the blister and scab is called a take, indicating that the vaccine is effective and will protect against smallpox for at least a few years. If scarification does not take, it can either mean that the person already has immunity or that the vaccine did not work. Study participants will be randomly assigned to one of the following dosing groups: 1) one injection of MVA; 2) one injection of placebo; 3) two injections of MVA 4 weeks apart; or 4) two injections of placebo 4 weeks apart. All participants will receive a challenge dose of Dryvax® (Registered Trademark) 12 weeks after their last injection of MVA or placebo to determine if the MVA vaccine has conferred immunity. A take, that occurs in response to the Dryvax® (Registered Trademark) dose indicates lack of prior immunity, and thus tells whether one or two doses of MVA is needed to produce an immune response. Participants will be observed for at least 1 hour after each injection. They will come to the clinic at least once a week after MVA or placebo injections and at least twice a week after Dryvax® (Registered Trademark) to have the injection site evaluated and photographed. At each visit, participants will be asked how they are feeling and what medications, if any, they are taking. Blood and urine tests will be done according to the following schedule: - Before each injection; - 1 week after each injection; - 4 weeks after the MVA or placebo injections are finished; - At the time of the Dryvax® (Registered Trademark) dose; - 4 weeks after the Dryvax® (Registered Trademark) dose; - 12 weeks after the Dryvax® (Registered Trademark) dose. Additional laboratory tests may be done between visits if medically necessary.
To define the safety of vaccination with APSV as determined by the reactogenicity of the vaccine and the development of expected and un-expected adverse events associated with vaccination. To assess the proportion of individuals who respond to vaccination with a "take" (those who form a visible lesion at the injection site) 6 to 8 days after the vaccination.