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NCT07572006
The purpose of Part 1 (Dose Escalation) of the study is to assess how safe and tolerable JNJ-95804306 is and to find out the most suitable dose (recommended phase 2 dose \[RP2D\]) of JNJ-95804306. The purpose of Part 2 (Dose Expansion) is to further assess the safety of JNJ-95804306 and determine the anti-tumor activity alone and/or when administered in addition to standard of care (SoC) therapy at the putative RP2D(s) regimens in participants with hematological malignancies (cancer that begins in blood-forming tissue, such as the bone marrow, or in the cells of the immune system). For US sites: The purpose of Part 1 (Dose Escalation) of the study is to assess how safe and tolerable JNJ-95804306 is and to find out the most suitable dose (recommended phase 2 dose \[RP2D\]) of JNJ-95804306. The purpose of Part 2 (Dose Expansion) is to further assess the safety of JNJ-95804306 and determine the anti-tumor activity alone at the putative RP2D(s) regimens in participants with hematological malignancies (cancer that begins in blood-forming tissue, such as the bone marrow, or in the cells of the immune system).
NCT07162038
Background: High-risk blood cancers (leukemias and lymphomas) often come back after treatment, and many cannot be cured with chemotherapy alone. These cancers may be treated and potentially cured in 2 ways: (1) Bone marrow transplant (allogeneic hematopoietic cell transplantation, or alloHCT) gives immune and blood stem cells from a donor. These new cells can attack the cancer and also grow into healthy blood. (2) Chimeric antigen receptor (CAR) T-cell therapy takes immune cells and changes them in a lab to better recognize and target certain cancers. But these 2 treatments are not usually given at the same time. Objective: To test alloHCT and CAR-T cell therapy, used together, in people with high-risk blood cancers. Eligibility: People aged 18 to 75 years with an aggressive blood cancer that has a protein on the surface called CD19. A healthy related donor aged 12 years or older is also needed; this donor may be a parent or child or may be some siblings or even extended family members, but has to be half-matched at something called the HLA (human leukocyte antigen). Design: Participants will be screened. They will have imaging scans, blood tests, and tests of their heart and lung function. They will have eye and dental exams. They may have fluid drawn from around their spinal cord (spinal tap) and tissue taken from inside a bone (bone marrow biopsy). Healthy donors will provide bone marrow, immune cells, and about 9 tablespoons of blood for both the recipient s treatment and for research. They will also provide stool, saliva, and oral swabs just for research. Recipient participants will stay in the hospital for 4 to 6 weeks. They will be given drugs over 6 days to prepare for the cell therapies. Both the donor bone marrow cells and CAR-T-cells will be given through a tube inserted into a vein. They will receive drugs to reduce complications after the treatments. Participants will remain within a 1-hour drive of the hospital for 2 to 3 months after they leave the hospital. They will have frequent visits during that time. They will continue to have periodic follow-up visits for 5 years. ...
NCT03983850
Background: Stem cell or bone marrow transplants can cure or control blood cancers. Sometimes the donor cells see the recipient's body as foreign. This can cause complications. A high dose of the drug cyclophosphamide (PTCy) can help reduce these risks. Researchers want to see if a lower dose of PTCy can have the same benefits. Based on encouraging results from the first part of the study, researchers now are investigating whether a lower dose of PTCy can allow other immunosuppression to be decreased. Objective: To see if a lower dose of PTCy and now also shorter duration of another immunosuppressant called mycophenolate mofetil will help people with blood cancers have a more successful transplant and fewer side effects. Eligibility: People ages 15-65 with leukemia, lymphoma, or multiple myeloma that is not curable with standard therapy and is at high risk of returning without transplant, and their healthy adult relatives Design: Transplant participants will be screened with: Blood, urine, breathing, and heart tests Scans Chest x-ray Bone marrow samples: A needle inserted into the participant s pelvis will remove marrow and a bone fragment. Transplant recipients will stay at the hospital and be prepped with chemotherapy over 6 days for the transplant. They will get stem cells through a catheter in the chest or neck. They will get the cyclophosphamide chemotherapy. They will stay in the hospital about 4 more weeks. They will have blood transfusions. They will have frequent blood tests and 2 bone marrow samples within 1 year after the transplant. Donor participants will be screened with: Blood, urine, and heart tests Chest x-ray Scans Donor participants will have bone marrow taken from their pelvis or stem cells taken from their blood. For the blood donation, blood will be taken from a vein in one arm, move through a machine to remove white blood cells, and be returned through a vein in the other arm. Participation will last up to 5 years....
NCT07234630
The aim of this research is to measure fibrinolytic activity in neoplastic pathologies in order to provide preliminary data on which to base a future, larger-scale study to determine predictive markers of complication in order to improve patient management. Primary purpose: measure plasminogen concentration on day 1 in subjects diagnosed with malignant hematological disease, solid tumors, or septic shock, with coagulopathy. Secondary purpose: * Estimate the difference in plasminogen concentration at D1 in patients with coagulopathy between subjects with a diagnosis of haematological malignancy and those with solid tumor * Estimate the difference in plasminogen concentration at D1 in patients with coagulopathy between subjects with a diagnosis of haematological malignancy and those with septic shock * Estimate the difference in plasminogen concentration on Day 1 in patients with coagulopathy between subjects with a diagnosis of solid tumor and those with septic shock. In the 3 groups, subjects with a diagnosis of haematological malignancy, solid tumor, septic shock, presenting with coagulopathy: * Evaluate the correlation between the concentration of circulating plasminogen active on Day 1 and the occurrence of a bleeding complication within 28 days of admission to critical care. * Evaluate the correlation between the concentration of circulating plasminogen active on Day 1 and the occurrence of a thrombotic complication, within 28 days of admission to critical care. * Evaluate the predictive performance of circulating active plasminogen concentration on Day 1 in the need for extra renal purification within 28 days of admission to critical care. * Estimate the differences at each time point (D1, D3, D7) in haemostasis markers and markers of fibrinolytic activity and its regulation. Assess the link between fibrinolytic activity and : * The diagnosis of disseminated intravascular coagulation (DIC), * The risk of haemorrhage * Risk of organ failures * Thrombotic risk * Risk of organ failure * Neutrophile activation and circulating NETs levels
NCT03136445
The purpose of this study is to test whether giving tranexamic acid to patients receiving treatment for blood cancers reduces the risk of bleeding or death, and the need for platelet transfusions. Patients will be randomised to receive tranexamic acid (given intravenously through a drip, or orally) or a placebo.
NCT07179094
Hematologic malignancies are the fifth most common type of cancer in the world. Patients with hematologic malignancies receive long-term and exhausting treatments such as chemotherapy, radiotherapy, hematopoietic stem cell transplantation and supportive therapies. Chemotherapy-induced nausea and vomiting has a significant impact on the daily lives of patients and causes physiological effects such as anorexia, malnutrition, weight loss, dehydration and electrolyte imbalance. It also has a negative impact on activities of daily living and psychological status, and may lead to poor adherence to chemotherapy regimens, refusal of chemotherapy or discontinuation of treatment. Oral mucosa is one of the areas most affected by the cytotoxic damage of chemotherapy. Disruption of the oral mucosa causes nausea, vomiting and feeding problems. Patients resort to non-drug approaches to manage these problems. It is important that these non-pharmacologic approaches are supported and controlled by reliable and evidence-based studies in order to prevent adverse effects on patient outcomes. In the literature, it has been determined that peppermint oil has antiemetic, antiseptic, anti-inflammatory, analgesic, antiseptic, antioxidant, antiviral, antifungal and spasmolytic effects, protects the integrity of the oral mucosa and has positive effects on nausea-vomiting and anorexia. In this context, the aim of the study was to investigate the effect of a preventive oral care protocol with peppermint oil mouthwash on chemotherapy-induced nausea, vomiting and appetite in patients with hematologic malignancy. Research Hypotheses H01: The protective oral care protocol applied with peppermint oil in patients with hematological malignancies has no effect on the development of chemotherapy-induced nausea and vomiting. H02: The protective oral care protocol applied with peppermint oil in patients with hematological malignancies has no effect on the severity of chemotherapy-induced nausea and vomiting. H03: The protective oral care protocol applied with peppermint oil in patients with hematological malignancies has no effect on the development of chemotherapy-induced anorexia. H04: The protective oral care protocol applied with peppermint oil in patients with hematological malignancies has no effect on the severity of chemotherapy-induced anorexia. Methods: The type of study is a single-blind randomized controlled experimental study. The research will be conducted between September 10, 2025, and April 10, 2026, with patients admitted to the hematology clinic of a university hospital for chemotherapy treatment. The study will be conducted with a total of 72 people who will be randomly assigned to the intervention (n=36) and control groups (n=36) by stratified and block randomization method. Patients who are 18 years of age or older, have hematologic malignancy, with a history of at least one chemotherapy cycle, and scheduled to receive chemotherapy with high or moderate emetogenic risk agents, do not have oral mucositis before chemotherapy, do not have metastasis, are literate and volunteer to participate in the study will be included in the study. Research data will be collected using the "Patient Introduction Form", "Rhodes Nausea-Vomiting and Retching Index", "Oral Assessment Guide", "Appetite Assessment Chart \[(Visual Analog Scale (VAS)\]", "Peppermint Oil Protective Oral Care Protocol", "Food Intake Record Form", "Allergic Reaction Monitoring Form" and "Patient Monitoring Form and Antiemetic Record Chart". In addition to the routine protective oral care (saline solution mouthwash and/or sodium bicarbonate mouthwash) in the clinic, "Peppermint Oil Protective Oral Care Protocol" will be applied to the intervention group for 6 days from the start of chemotherapy treatment. Patients will receive mouthwash prepared with 1 ml of peppermint oil and 50 ml of prepared drinking water 3 times a day. Patients in the intervention group will be monitored for 6 days by evaluating oral assessment, development of oral mucositis, appetite follow-up and compliance with mouthwash. The development of allergy due to the use of peppermint oil in each mouthwash application will be evaluated. The control group will not receive any oral care intervention by the researcher and will receive routine preventive oral care in the clinic. In the evaluation of the data, descriptive statistics, Chi-square / Fisher's Exact test will be used for the relationship between categorical variables, Mann Whitney U test, Wilcoxon test, Kruskal-Wallis H test will be used for the relationship between continuous variables in groups that do not show normal distribution; one-way analysis of variance / repeated measures analysis of variance, t test for dependent and independent groups will be used in groups with normal distribution. Correlation analysis and regression analysis will be used to examine the relationship between variables.
NCT05882175
Hemophagocytic lymphohistiocytosis (HLH) associated with hematologic malignancies (HM-HLH) is a syndrome with an abysmal prognosis (10-30% 5 years overall survival). The investigators have recently established an improved diagnostic and prognostic index for HM-HLH, termed the Optimized HLH Inflammatory (OHI) index. The OHI index is comprised of the combined elevation of soluble CD25 (sCD25) \> 3,900 U/mL and ferritin \>1,000 ng/mL . However, the true incidence and outcomes of HLH/OHI+ in an unselected cohort are unknown, and so is the mechanism of HM-HLH.
NCT03023202
This study seeks to evaluate the clinical utility of the Precision Medicine Molecular Tumor Board, and to track patient outcomes.
NCT03301493
There is no evidence available about which molecular profiling methods are currently used for cancer patients in Austrian clinical practice. The construction of the registry proposed as a completely independent research endeavor, will be helpful for scientific evaluation and the establishment of highly credible data.
NCT06339541
The ACC Preclinical Research Platform for Precision Oncology is a retrospective and prospective observational study focused on the implementation and validation of the application of PDCM (Patient Derived Cancer Models) generated from tissues or cells of patients with neoplastic disease, as a tool to improve molecular and biological knowledge of tumours and to test the efficacy and sensitivity of pharmacological treatments.
NCT03219268
The primary goal of this Phase 1 study is to characterize the safety and tolerability of tebotelimab and establish the maximum tolerated dose (MTD) of tebotelimab in advanced solid tumors, and tebotelimab in combination with margetuximab in HER2+ advanced solid tumors. Pharmacokinetics (PK), immunogenicity, pharmacodynamics (PD), and the anti-tumor activity of tebotelimab will also be assessed.
NCT01374841
The purpose of this study is to determine if engraftment can be achieved safely in patients with high-risk hematologic malignancies who undergo non-myeloablative transplant with peripheral stem cells from Human Leukocyte Antigen (HLA) haploidentical donors with pre and post-transplant cyclophosphamide as immunosuppression.
NCT02623309
Allogeneic (Allo) hematopoietic stem cell transplantation (HSCT) is a recognized curative procedure for hematological malignancies. It is now well known that this property is related to the graft-versus-tumor (GVT) effect developed from the immunocompetent cells contained in or generating from the donor graft. For years, however, and despite this unique antitumoral activity, Allo-HSCT has been restricted to a limited number of patients due to two major limitations: the toxicity of the procedure and the absence of a donor for every single patients. More recently the stage has dramatically changed with respect to these two restraints. Over the last decade, many studies have established the feasibility of Allo-HSCT in older patients but the availability of MRD is even less frequent in elderlies, likely related to medical contraindication for graft donation or sibling deaths. UD are routinely used but associated with a high incidence of GVHD. As compared to younger populations, unrelated cord-blood HSCT is seldom performed in this population and numbers decrease with age due to the feared risk of supposed increased lethal infectious complications related to the effect of the delayed immune reconstitution in elderlies. Thus the need for alternative donors allowing for a safe and efficient transplantation is still unmet. In consequence, overall, despite the fact that Allo-HSCT feasibility has been established in the oldest patients, all these lacks contribute eventually to maintain a low rate of allo-HSCT performed in a population with the higher incidence of hematologic malignancies that usually present with the poorest prognosis. Thus it is critical developing innovative efficient therapeutic strategies answering this unmet-medical need. In this perspective, Haplo-HSCT could represent a part of the answer in this aged population. It offers the potential advantage to offer a rapid donor determination for virtually every single patient. In addition, our data suggest that in elderlies haplo-HSCT using T-repleted graft, RIC and PT-HDCy presents low NRM and retains an antitumor effect despite low GVHD incidences. They also suggest that haplo-HSCT may conduct to better outcome than URD-HSCT as an alternative to MRD-HSCT. It may also be associated with lower costs (no graft purchase and low post-transplant complications rate) and better QOL likely related to low cGVHD-rate. In addition the conduct of such trial at a time when the diffusion of the strategy in this population is just starting is really crucial before widespread uncontrolled dissemination. The investigators propose to address this question by prospectively comparing these 2 strategies in elderly patients without MRD, in terms of efficacy, safety and including the prospective evaluation study of quality-of-life (QOL). They will conduct a national, multicenter, open-label, comparative, randomized phase III trial in patients with hematological malignancies justifying an allo-HSCT from an alternative donor when a MRD has not been identified. When MRD search is recognized to be a failure, patients will be included in the clinical trial after informed consent and randomized in the two strategies based on donor search: * Reference group: Unrelated Donor group * Investigational group: Haplo Donor Group Investigators will use a composite end-point embracing the three main causes of failure: death, relapse and severe cGVHD (as a surrogate endpoint for QOL). We will analyze the HSCT usual objectives as GHVD, NRM, relapse and survival. A specific study of patients' health related quality of life will also be conducted using the FACT-BMT questionnaire. In addition, the success of the two strategies in term of transplant completion (donor determination, transplant realization and time to do so) will be compared.
NCT04264767
Nucleix EpiCheck® tests analyzes the methylation pattern in a panel of DNA methylation biomarkers and determines whether this pattern is consistent with cancer under test or with non-cancer tissue. This study is being performed as part of the development process of the Pan Cancer EpiCheck test which includes the identification of different methylation profiles in various cancer types and healthy controls.
NCT01869218
This study is aimed to determine the feasibility of obtaining and molecularly characterizing pre-treatment tumor biopsies, to determine the feasibility of obtaining and molecularly characterizing archival and post-treatment tumor biopsies, to assess molecular expression changes between archival and baseline tumor samples, and to assess molecular expression changes between tumor samples obtained at baseline and at the time of disease progression.
NCT04871165
The study will evaluate the immunogenicity, safety and efficacy of vaccines against severe acute respiratory syndrome corona virus 2 (SARS-CoV-2) in oncohematological patient population and compare the results with patients without prior oncohematological disease. The study is comprised of retrospective and prospective parts. In retrospective part, biobanked residual biological patient material and data will be used. In prospective part, vaccinated oncohematological patients and vaccinated patients without prior oncohematological disease will be invited to participate in long-term follow-up. The subjects will be invited for blood sample collection every three months from the second vaccine dose administration, i.e. 3 mos., 6 mos., 9 mos. etc. When the study subject receives booster dose, additional blood samples for immunogenicity analyses will be collected up to 14 days before and 4-8 weeks after the booster vaccine dose. The follow-up time points occurring every three months will be counted from the last vaccine's dose. Ten time points in total will be collected and tested for humoral and cellular immunogenicity. For safety analysis patient self-documented systemic events (fever, fatigue, headache, chills, vomiting, diarrhea, new or worsened muscle pain, and new or worsened joint pain) occurring up to 7 days following each vaccine dose will be systematized and compared between oncohematological patients and healthy individuals. For efficacy analysis, polymerase chain reaction assay (PCR) confirmed symptomatic disease rates, hospitalization rates and mortality rates will be assessed.
NCT05054231
In the frame of Si-CART study, blood will be collected from patients treated with CAR-T cells: before (at Day (D)-6 and D0 before cells injection), post infusion at D3, D5,D7, D9, D11, D14, D18, D 21, Month (M) 2 and M12 post injection. A cerebrospinal fluid sample will also be collected if a Cerebrospinal Fluid Analysis Lumbar puncture is performed
NCT02367196
CC-90002-ST -001 is an open-label, Phase 1, dose escalation clinical study in subjects with advanced, refractory solid and hematologic cancers.
NCT00526045
This is a phase I/II, open-label, multicenter study of AUY922 administered intravenously in patients with advanced solid malignancies to determine the maximum tolerated dose. Phase II expansion arms will investigate efficacy in patients with either HER2 positive or ER positive locally advanced or metastatic breast cancer. Additional patients with advanced solid malignancies will also be investigated in a separate expansion arm. Safety, pharmacokinetics and pharmacodynamics will be assessed.
NCT04323605
After the initial monitoring period during hospitalization and isolation, patients with recent transplants are regularly monitored in monthly consultations but are still fragile, immunosuppressed and undergoing many treatments. The implementation of an outpatient assistance program for transplant patients should be feasible and allow for the improvement in medical-psycho-social care for the patients during this fragile and risky period, improve the satisfaction and quality of life for these transplant patients and assist in their socio-professional and familial reintegration.