View clinical trials related to Herpes Simplex.
Filter by:The purpose of the study is to learn if adding femtosecond laser-assisted corneal debridement to a standard therapy of oral ganciclovir can help shorten the healing time of herpes simplex epithelial keratitis (HSK).
To compare the sensitivity of Tzanck smear with methylene blue stain versus traditional Giemsa stain in patients with herpes infection.
Encephalitics is a serious condition in which the brain becomes inflamed (swollen). It usually happens as a direct result of virus, such as herpes simplex virus (HSV). HSV encephalitis is often treated with the drug acyclovir (an antiviral drug which slows the growth and spread of HSV in the body). Despite this however, around 2 out of every 3 people will have memory difficulties long term. Dexamethasone is a corticosteroid medication, which works by preventing the release of natural chemicals in the body which cause inflammation. It is possible that dexamethasone could help to reduce in swelling of the brain may improve the recovery of patients with HSV encephalitis. The aim of this study is to find out whether treatment with dexamethasone can improve long-term health outcomes in adults with HSV Encephalitis.
Randomized, open-label, multi-center, comparative trial to assess the efficacy and safety in immunocompromised subjects with acyclovir resistant or acyclovir susceptible mucocutaneous HSV infection, treated with pritelivir 100 mg once daily (following a loading dose of 400 mg as first dose to rapidly reach steady-state plasma concentration) or investigators choice, which can be either foscarnet 40 mg/kg every 8 hours or 60 mg/kg every 12 hours, or Cidofovir iv 5 mg/kg body weight given once weekly, or Cidofovir 1% or 3% topical applied 2 to 4 times daily, or Imiquimod 5% topical 3 times per week) (provided the drug is nationally approved).
Recombinant human GM-CSF herpes simplex virus injection (OrienX010) is a genetically engineered from Chinese patients oral separation of wild type 1 herpes simplex virus (HSV) as the carrier insert GM-CSF gene therapy drug.After gene recombination technology successively removing ICP34.5, ICP47 and insert the deactivation ICP6 gene, and at the site of the original ICP34.5 insert guided by IE promoter of hCMV human gm-csf gene.The drug after tumor site local injections of dosing, on the one hand, because of the soluble tumor characteristics of herpes simplex virus, reconstructing it after HSV-1 virus carrier at the injection site specific "soluble tumor" kill tumor cells;Viral vector expressed in tumor site, on the other hand, to produce high concentrations of GM-CSF enhance the antitumor immune function, play "beside the destruction effect", have inhibition effect on the distant metastases.
As is reported, NSAIDs(pranoprofen ,bromfenac) eye drops can suppress herpes simplex virus(HSV-1) reactivation and reduce inflammatory reaction in vitro and in vivo. In Clinical, there is no risk of corneal tissue melting, glaucoma, cataract by topical application of NSAIDs. To explore more effective clinical treatment of viral keratitis patients to control the inflammatory damage, save the visual function and reduce the recurrence of the virus ,we observe the effect of anti-inflammatory and inhibition of recurrence on the herpes simplex virus after topical NSAIDs administration.
Background: - Viral infections are an important cause of illness and death in hospitalized patients as well as outpatients. New strains of viruses may appear and infect both healthy people and those with weak immune systems. A better understanding of these new virus strains (such as SARS-CoV-2, the virus that causes COVID-19) may help to control and prevent these infections. In particular, some viral infections that are less problematic in healthy persons can be life threatening in persons with weak immune systems, and viruses may be able to evolve more rapidly in persons with weak immune systems and therefore develop resistance to existing treatments. Researchers are interested in collecting samples and information from otherwise healthy persons or persons with weak immune systems to study the effects of viruses and their development. Objectives: - To collect samples and data from individuals who have been exposed to or have contracted viral infections. Eligibility: - Individuals of all ages who have been diagnosed with a viral infection are suspected to have a viral infection, or have been in close contact with someone with a suspected or actual viral infection that is of interest to investigators in the Laboratory of Infectious Diseases. - Healthy persons and persons with weak immune systems (immunocompromised individuals) are eligible to participate. Design: - Participants will be pre-screened to determine if they meet the eligibility criteria for the trial. - If eligible, evaluation may include a medical chart review, a history and physical examination, review of clinical reports from outside hospitals and laboratories, and review of tissue biopsies. - Study procedures may include collection of blood, urine, saliva, nasal fluid sampling, throat swabs, stool, and genital swabs. For participants who have specimens collected as part of their medical care (e.g. wound swabs, spinal tap, bronchoscopy, liver biopsy etc.), researchers may use leftover specimens from the clinical laboratory for testing. - Specimens may be collected up to 4 times per week during the first 2 weeks after enrollment, and then as many as 2 times per week for up to 2 years. Some participants may be asked to continue providing specimens if there is concern for relapse or recurrence of the infection. - Treatment is not offered under this study.
The purpose of this study is to compare the levels of immune and inflammatory markers among HIV-1, HSV-2 co-infected adults achieving plasma HIV RNA suppression to <50 copies/mL, between those randomized to valacyclovir and placebo, over a twelve-week intervention period.
The purpose of this study is to determine whether oral Valtrex alone or in combination with aspirin will reduce the shedding of herpes simplex virus DNA in the tears and saliva from volunteers with no evidence of ocular herpes infection. The secretion of virus into the tears and saliva might make people more susceptible to virus infection in the future if their immune system becomes deficient. The study will also try to determine if there is a correlation between shedding of viral DNA and herpes virus antibodies in serum and to determine if subjects are carriers of a special form of a gene in their blood cells, the presence of which may suggest the possibility of an increased susceptability to herpes and to Alzheimer's disease and heart disease.
OBJECTIVES: I. Determine the efficacy of long term suppressive therapy with oral acyclovir in infants with herpes simplex virus infection involving the central nervous system. II. Determine whether neurologic outcome is improved in these patients when treated with this regimen. III. Determine whether continuous administration of this drug suppresses recurrent skin lesions in these patients. IV. Determine the safety of this regimen in these patients.