Falkenstein, Germany

Human Papillomavirus in Young People Epidemiological Research 4

Human Papillomavirus in Young People Epidemiological Research 3

Sedation, Temperature and Pressure After Cardiac Arrest and Resuscitation

3500 patients who are comatose after cardiac arrest will be included in a trial studying three separate targets. All patients will be randomised to a control or an intervention arm for sedation, temperature and blood pressure targets. These are. 1. Continuous deep sedation for 36 hours or minimal sedation (SEDCARE) 2. Fever management with or without a feedback-controlled device (TEMPCARE) 3. A mean arterial pressure target of >85mmHg or >65mmHg. (MAPCARE) Participants will be followed up at 30 days and 6 months. The primary outcome will be survival at 6 months.

Trial of Venovenous ECMO to De-Sedate, Extubate and Mobilise in Hypoxic Respiratory Failure

Mechanically ventilated patients with moderate to severe acute hypoxic respiratory failure are at increased risk of dying, short and long-term health problems and are often very costly to treat. The mechanical ventilator, whilst often lifesaving, may harm patients in two ways i) directly via damage to the lungs (termed ventilator induced lung injury), and ii) indirectly via paralysis and sedation that patients require to tolerate mechanical ventilation. Paralysis and sedation can increase the risk of secondary infections, weakness, prolonged duration of intensive care, as well as long-term physical disability. There is a need to develop new treatments that support patients and at the same time reduce these complications. Extracorporeal membrane oxygenation (ECMO) is a device that supports the lungs by adding oxygen and removing carbon dioxide from the blood. By providing non pulmonary gas exchange, veno-venous (VV) ECMO can reduce the need for the mechanical ventilator. This in turn can reduce the risk of lung damage, and also removes the need for sedating medications so that activities like physiotherapy can begin earlier. The REDEEM trial is a phase 2, investigator initiated, multicentre randomised controlled trial that will recruit 140 patients with moderate to severe acute hypoxic respiratory failure. It is designed to test whether adding ECMO to the mechanical ventilator, as compared to using the mechanical ventilator on its own, leads to an increase in the number of patients who survive and are discharged earlier from the intensive care unit. If the REDEEM trial confirms adding ECMO is more effective than mechanical ventilation alone, it has the potential to change the current paradigm of intensive care treatment of hypoxic respiratory failure, and could lead to changes in practice globally.

A Study of Potential Disease Modifying Treatments in Individuals at Risk for or With a Type of Early Onset AD Caused by a Genetic Mutation

This study will recruit participants from the Dominantly Inherited Alzheimer Network observational study (DIAN-OBS), a multicenter international study supported by the National Institutes of Health (Grant Number U01-AG032438; RJ Bateman), Dominantly Inherited Alzheimer Network Trials Unit (DIAN-TU) sites, DIAN-TU partner sites, DIAN Expanded Registry (DIAN-EXR), and families identified by the sites. As part of the DIAN-TU-002 protocol, participants undergo longitudinal assessments that include clinical assessment, cognitive testing, magnetic resonance imaging (MRI) and amyloid imaging, and analysis of cerebrospinal fluid (CSF). Participants in DIAN are recruited from families that have at least one member who has been identified as having a mutation linked to dominantly inherited Alzheimer's disease (DIAD). The mutations in presenilin 1 (PSEN1), presenilin 2 (PSEN2) and amyloid precursor protein (APP) genes that are associated with DIAD have very high penetrance (near 100%). This study will enroll individuals who are either known to have a known disease-causing mutation, or who are at risk for such a mutation (the child or sibling of a proband with a known mutation) and unaware of their genetic status. Because the age at onset of cognitive changes is relatively consistent within each family and for each mutation, an age at onset is determined for each affected parent or mutation as part of the DIAN-OBS study protocol. This study will enroll participants who are asymptomatic and are within a specific window of time of expected age at onset for their family and/or mutation. The ability to identify individuals destined to develop Alzheimer's disease (AD) with a high degree of confidence provides a unique opportunity to assess the efficacy of therapies at asymptomatic and very early stages of dementia. Families with known disease-causing mutations are extremely rare and are geographically dispersed throughout the world. These constraints necessitate a specialized study design. Participants in this study will not yet have developed any symptoms of AD; they will be "asymptomatic" carriers of mutations that cause DIAD and would be expected to perform normally on standard cognitive and functional testing. Further, most mutation carriers will have levels of AD-associated amyloid beta (Aβ) and non-Aβ biomarkers that are the same as non-carriers. Imaging and fluid biomarkers will be used to demonstrate that the treatment compounds have engaged their therapeutic targets. A set of cognitive measures designed to assess the very earliest and most subtle cognitive changes will be collected. However, the goal of this study is to address whether decreasing plaque prone Aβ peptides in the absence of measurable or mild elevations of Aβ plaques in participants with minimal to no amyloid plaque at baseline can lead to the subsequent prevention of non-Aβ biomarkers of disease progression. Additionally, because many at-risk individuals decide not to know whether they have the disease-associated mutation, some of the at-risk individuals enrolled in this study will not have the disease-causing mutations; they will be "mutation-negative." It is important to enroll these participants to avoid coercion (e.g., potential participants may feel pressured into genetic testing to learn their genetic status to be eligible for the trial). These mutation-negative individuals will be assigned to the placebo group and data will be used to determine normal ranges of outcome. Participants and site study staff will remain blinded as to these individuals' active or placebo group assignment and mutation status. Thus, the study will be blinded for placebo and for mutation status, except for mutation carriers who are aware of their genetic status. There may be exceptional circumstances as required by local regulation or health authorities where enrollment may be restricted to mutation carriers only, but such mandates will be thoroughly documented and agreed upon by the governing regulatory agency and the study sponsor. This study is an adaptive-platform-based study. Several different therapies (each referred to as a study drug arm) may be tested in order to increase the likelihood that an effective treatment will be discovered. The compounds are selected for this trial based on mechanism of action and available data on efficacy and safety profile. In the case of multiple study arms, the study design includes a pooled placebo group (referred to as the mutation positive placebos) shared by all study drug arms. Mutation carriers will be assigned to a study drug arm and subsequently randomized within that arm in an overall 1:1 ratio to active drug: placebo. Mutation-negative participants will all receive placebo treatment. Participants and study staff will not be blinded as to which study drug arm each participant has been assigned; they will be blinded to whether participants have been randomized to receive active drug or placebo. The study has 2 treatment periods: Stage 1 is a blinded placebo-controlled period that will continue until the last randomized participant completes 4 years of treatment (i.e., a common close design), and Stage 2 is an open-label period of 4 years (with a planned 2-year interim efficacy analysis) in which all mutation carriers will receive active drug. At the start of Stage 2, participants who were randomized to placebo in Stage 1 will follow the same dose titration schedule and MRI safety schedule used in Stage 1. Participants who were randomized to active drug in Stage 1 will follow a mock dose titration and will have the same MRI safety schedule used during the initial drug titration as Stage 1 but will remain on the dose that they were on at the end of Stage 1. This will protect the blind to the original treatment assignment from Stage 1. Participants, investigators, and the sponsor's clinical team will remain blinded throughout the study to the Stage 1 treatment assignment. Stage 1 of the study is designed to test whether the study drug can slow, prevent, or reverse progression of Aβ pathology associated with AD and Stage 2 is designed to assess the study drug's effect on non-amyloid biomarkers of AD that may lead to future slowing or prevention of clinical symptoms of dementia. Biomarker, cognitive, and/or clinical endpoints will be specified for each study drug arm. Biomarker data will be analyzed for pre-specified endpoints consistent with the drug's mechanism of action and other AD biomarker outcomes. The clinical and cognitive assessments are designed to assess subtle cognitive changes that may be detectable before the onset of dementia as well as cognitive and clinical decline in symptomatic groups. Roche announced a decision to discontinue most of the company's global trials of gantenerumab. The DIAN-TU has paused the DIAN-TU-002 Primary Prevention Trial related to gantenerumab while considering other potential options for this platform trial. The DIAN-TU plans to re-launch the DIAN-TU-002 Primary Prevention Trial with remternetug in collaboration with Eli Lilly and Company as part of this Master Protocol. The remternetug arm is posted under NCT06647498.

A Clinical Trial of Study Medicine (Marstacimab) in Pediatric Patients With Hemophilia A or Hemophilia B

Study to Compare Axicabtagene Ciloleucel With Standard of Care Therapy as First-line Treatment in Participants With High-risk Large B-cell Lymphoma

Five years after randomization, participants who have received axicabtagene ciloleucel will transition to a separate long-term follow-up study (study KT-US-982-5968) to complete the remainder of the 15-year follow-up assessments.

Safety and Preliminary Anti-Tumor Activity of TYRA-300 in Advanced Urothelial Carcinoma and Other Solid Tumors With FGFR3 Gene Alterations

This is a single arm, multi-part, phase 1/2 global trial studying TYRA-300, a novel, potent fibroblast growth factor receptor (FGFR) 3-selective tyrosine kinase inhibitor, in advanced/metastatic urothelial carcinoma of the bladder and urinary tract, that contain activating gene alterations of FGFR3. Phase 1 is a dose-escalation study to evaluate the safety, tolerability, and PK of TYRA-300 to determine the optimal and maximum tolerated dose (MTD) and recommended phase 2 dose (RP2D). Phase 2 will evaluate the preliminary antitumor activity of TYRA-300 in cancers with FGFR3 activating gene alterations, including locally advanced/metastatic urothelial carcinoma of the bladder and urinary tract and other advanced solid tumors.