Immunogenicity and Safety of Co-immunization With Cecolin and Hecolin
Human Papilloma Virus Infection Type 16Human Papilloma Virus Infection Type 181 moreThe purpose of this study is to evaluate the immunogenicity and safety of co-immunization with recombinant human papillomavirus bivalent (Types 16,18) vaccine (Escherichia coli) and Hepatitis E vaccine (Escherichia coli)
Natural Killer Cell (CYNK-001) Infusions in Adults With COVID-19
CoronavirusCoronavirus Infection20 moreThis study is a Phase 1 / 2 trial to determine the safety and efficacy of CYNK-001, an immunotherapy containing Natural Killer (NK) cells derived from human placental CD34+ cells and culture-expanded, in patients with moderate COVID-19 disease.
An Effectiveness Trial to Evaluate Protection of Children and Pregnant Women by Influenza Vaccine...
Influenza Viral InfectionsAnnually influenza is a leading cause of severe disease and mortality particularly in young children <5 years old and pregnant women in the low and middle-income countries (LMICs) and both groups are prioritised for vaccination by the World Health Organisation (WHO). In Bangladesh, influenza is responsible for 10% of all childhood pneumonias and 9% of all death. Maternal influenza is associated with an increased risk of hospitalisation and foetal malformation. Influenza is a vaccine preventable disease, however, in most LMICs influenza vaccination is not part of the vaccination programme. This study will evaluate the effectiveness of inactivated influenza vaccine against influenza illness among pregnant women and children in Bangladesh. Influenza vaccine has not yet been studied as combined immunization strategy in a cluster randomized trial. This study is a community-based randomised trial in both pregnant women and young children to assess the impact of inactivated influenza vaccine in preventing influenza in the community as well as population level impact by both direct and indirect effect of vaccination.
T-Lymphocytes for Prevention or Treatment of Viral Infections Following Hematopoietic Stem Cell...
Viral InfectionsBone Marrow Transplant InfectionThis Phase I dose-escalation trial is designed to evaluate the safety of rapidly generated multivirus-specific T-cell products with antiviral activity against CMV, EBV, adenovirus, HHV6, BK virus, JC virus, and human parainfluenza-3 (HPIV3), derived from eligible HSCT donors. In this trial, we will utilize a rapid generation protocol for broad spectrum multivirus-specific T cells for infusion to recipients of allogeneic hematopoietic stem cell transplant (HSCT), who are at risk of developing EBV, CMV, adenovirus, HHV6, BKV, JCV and/or HPIV3, or with PCR/culture confirmed active infection(s) of EBV, CMV, adenovirus, HHV6, BKV, JCV, and/or HPIV3 that has failed to resolve with at least 14 days of standard antiviral therapy (if available and tolerated). These cells will be derived from HSCT donors, and the study agent will be assessed at each dose for evidence of dose-limiting toxicities (DLT). This study will have two arms: Arm A will include patients who receive prophylactic treatment, and Arm B will include patients who receive VSTs for one or more active infections with targeted viruses. Determination of the study arm will be determined by the patient's clinical status. Study arms will each be analyzed for safety endpoints and secondary endpoints.
A Study of JNJ-73763989, JNJ-64300535, and Nucleos(t)Ide Analogs in Virologically Suppressed, Hepatitis...
Hepatitis BChronicThe purpose of this study is to evaluate the efficacy of the study intervention based on hepatitis B surface antigen (HBsAg) levels.
Clinical Study Designed to Evaluate the Effect of CimetrA in Patients Diagnosed With COVID-19
Corona Virus InfectionCovid191 moreA preparation of CimertrA, comprising Artemisinin, Curcumin, and Boswellia, and Vitamin C in a nanoparticular formulation, is proposed as a treatment for the disease associated with the novel coronavirus SARS-CoV-2. This initiative is presented under the urgent circumstances of the fulminant pandemic caused by this lethal disease, which is known as COVID-19 and has spread across the globe causing death and disrupting the normal function of modern society. The grounds for the proposal are rooted in existing knowledge on the components and pharmacological features of this formulation and their relevance to the current understanding of the disease process being addressed. The severe acute respiratory syndrome-associated coronavirus disease 2019 (COVID-19) illness results from the immediate response to the viral infection as well as from a subsequent host inflammatory response. Systemic proinflammatory cytokines and biomarkers are elevated as the disease progresses towards its advanced stages, and correlate with worse chances of survival. Serum cytokine levels that are elevated in patients with Covid-19-associated cytokine storm include interleukin-1β, interleukin-6, IP-10, TNF, interferon-γ, macrophage inflammatory protein (MIP) 1α and 1β, and VEGF. Higher interleukin-6 levels are strongly associated with shorter survival. The relative frequencies of circulating activated CD4+ and CD8+ T cells and plasmablasts are increased in Covid-19. In addition to the elevated systemic cytokine levels and activated immune cells, several clinical and laboratory abnormalities, such as elevated CRP and d-dimer levels, hypoalbuminemia, renal dysfunction, and effusions, are also observed in Covid-19. Laboratory test results reflecting hyper inflammation and tissue damage were found to predict worsening outcomes in Covid-19. CimetrA, comprising Artemisinin, Curcumin, Boswellia, and Vitamin C in a nanoparticular formulation, has been studied on patients with COVID-19 in a randomized double-blind control Phase II study (MGC-006 - under a previous product name - ArtemiC). The study product demonstrated excellent safety and efficacy profiles. Experiments performed in vitro with CimetrA demonstrated the ability to reduce cytokine elevation in response to stimulation of human PBMC preparations. The currently proposed Multi-center multinational-controlled study is designed to include 252 adult patients who suffer from moderate COVID-19 infection. Safety will be assessed through collection and analysis of adverse events, blood and urine laboratory assessments, and vital signs. After the screening visit, the study drug will be administrated twice a day morning and evening (every 12 hours) during (day 1 and day 2) The patients will be randomized in 1:1:1 ratio to study drug (CimetrA) in addition to Standard of Care (Arm 1 (CimetrA-1) or Arm 2 (CimetrA-2)) or Placebo in addition to Standard of Care (Arm 3).
A Trial Investigating the Safety and Effects of Four BNT162 Vaccines Against COVID-2019 in Healthy...
InfectionsRespiratory5 moreThis trial has two parts. Part A and Part B. Due to changes in the overall clinical development plan, Part B will no longer be conducted. The objectives originally described for Part B have been implemented in the ongoing development via a pivotal Phase I/II/III trial BNT162-02/C4591001 (ClinicalTrials.gov NCT: 04368728). Part A is for dose ranging of four different vaccines (BNT162a1, BNT162b1, BNT162b2, and BNT162c2) which will be undertaken with dose escalation and de-escalation plus the evaluation of interim dose levels. It also includes dose ranging in older participants. The vaccines BNT162a1, BNT162b1, BNT162b2, and BNT162c2 will be administered using a Prime/Boost (P/B) regimen. The vaccine BNT162c2 will also be administered using a Single dose (SD) regimen. Three additional cohorts aged from 18 to 85 years receiving BNT162b2 only. BNT162b2 has entered a Phase II/III evaluation of efficacy, with the intent to support an application for marketing authorization. The dosing regimen under investigation is two BNT162b2 doses given ~21 d apart.
Study to Evaluate Pharmacokinetics, Safety & Tolerability of 101-PGC-005 in Healthy, Adult, Human...
Glucocorticoids ToxicityCOVID-192 moreThe goal of this interventional study is to evaluate the pharmacokinetics, safety, and tolerability of 101-PGC-005 in healthy, adult, human subjects. The main question it aims to answer is what are the single and multi-dose PK properties of 101-PGC-005 in the systemic circulation Participants will receive a bolus injection of 101-PGC-005 administered intravenously once daily for 3 consecutive days. Blood and urine samples will be collected at predetermined timepoints for analysis.
Allogeneic Virus-specific T Cell Lines (VSTs)
Viral Infections After HSCTThe primary purpose of the study is to evaluate whether most closely HLA-matched multivirus-specific T cell lines obtained from a bank of allogeneic virus-specific T cell lines (VSTs) have antiviral activity against three viruses: EBV, CMV and adenovirus. Reconstitution of anti-viral immunity by donor-derived VSTs has shown promise in preventing and treating infections associated with CMV, EBV and adenovirus post-transplant. However, the time taken to prepare patient-specific products and lack of virus-specific memory T cells in cord blood and seronegative donors, limits their value. An alternative is to use banked partially HLA-matched allogeneic VSTs. A prior phase II study at our institution using trivirus-specific VSTs generated using monocytes and EBV-transformed B cells gene-modified with a clinical grade adenoviral vector expressing CMV-pp65 to activate and expand specific T cells showed the feasibility, safety and activity of this approach for the treatment of refractory CMV, EBV and Adenovirus infections. However, the production process was lengthy, requiring 8-12 weeks, with exposure to biohazards (B95.8 EBV viral strain and adenovector), while antigenic competition between different viral components precluded increasing the spectrum of specificity beyond these three viruses. Investigator have overcome these limitations and in the current trial, they will evaluate whether rapidly generated, allogeneic most closely HLA-matched multivirus-specific VSTs, activated using overlapping peptide libraries spanning immunogenic antigens from CMV, adenovirus and EBV will be safe and produce anti-viral effects in allogeneic HSCT recipients infected with one of more of the targeted viruses that are persistent despite conventional anti-viral therapy. The study agent will be assessed for safety (stopping rules defined) and antiviral activity.
Avelumab With Valproic Acid in Virus-associated Cancer
Cancer That is Associated With a Chronic Viral Infectionp16 Positive SCCHN6 moreUp to 20% of all cancers may be associated with a bacterial or viral infection. In some instances, the infection may be one of the reasons why the cancer developed in the first place. One such example is infection with the human papilloma virus (HPV) and the development of cervical or oral cavity cancer. A viral infection that is chronic may not cause a person symptoms, and may be able to escape detection by a person's own immune system. One of the medications being studied in this clinical trial (Valproic acid) may be able to unmask a chronic viral infection from a person's own immune system, therefore making the virus susceptible to attack by the immune system. In this study Valproic acid is being combined with an immune therapy, Avelumab. Avelumab is an antibody that targets a person's own immune cells, or lymphocytes. Lymphocytes must be activated to fight infections or cancer, but after activation they are deactivated. Avelumab prevents the deactivation of a lymphocyte, in effect "turning off the off-switch." This leads to a re-energizing of a person's immune system, hopefully leading to an attack by the immune system on a person's cancer. Avelumab is known to be an effective treatment for a variety of cancers, although it has not yet been tested in all cancers. By combining Valproic acid, a treatment which targets the virus that contributed to the development of this type of cancer with Avelumab the investigators hope to enhance the ability of Avelumab to restore the body's own immune defense against the cancer.