View clinical trials related to Hematologic Diseases.
Filter by:This is a Phase 1,open label,safety,and efficacy study in subjects with non-β0/β0 TDT β-thalassemia Major by transplanting BD211 drug product which is for autologous use only,via a single IV administration.
The objective of this study is the development, implementation and management of a registry of patient data that captures clinically meaningful, real-world, data on the diagnosis, nature, course of infection, treatment(s) and outcomes in patients with complex disease globally.
Carbapenem-resistant Organisms (CRO) include Carbapenem-resistant Enterobacteriaceae (CRE), Carbapenem-resistant Pseudomonas aeruginosa (CRPA) and Carbapenem-resistant Acinetobacter baumannii (CRAB). Due to the high fatality rate of CRO infection, and its potential for wide spread, it is currently one of the issues that seriously affect the global public health safety. In 2019, CDC of the United States listed CRE and CRAB as the highest level of "antibiotic-resistant bacteria with urgent threat", while CRPA was listed as "antibiotic-resistant bacteria with serious threat". Previous studies show that in China, patients with hematological disease are at high-risk of CRE colonization and infection, but there still lack the data of colonization rate of CRPA and CRAB in patients with hematological disease. Intestinal flora is not only an important micro-ecological environment for the human body, but also an important place for the habitation of multidrug-resistant bacteria. The colonization of these bacteria can not only lead to the spread of bacteria in hospital, but also may lead to the translocation infection of carriers. Patients with hematological diseases are often in a state of neutropenia after chemotherapy. At the same time, chemotherapy drugs and various factors can cause intestinal mucosa damage, which is prone to induce intestinal microflora translocation, causing serious infections such as sepsis, and posing a serious threat to the prognosis of patients. Early detection of CRO carriers is not only beneficial to the control of nosocomial infection, but also beneficial to early precise anti-infection treatments, reducing the probability of infection and improving the prognosis of infected patients. Our study is designed to clarify the intestinal carriage rate of carbapenem-resistant Organisms (CRO) in patients with hematological diseases, and the risk factors of intestinal CRO colonization in patients with hematological diseases and its correlation with subsequent infections. 5000 patients diagnosed with hematological diseases will be enrolled, and rectal swabs or feces will be collected to detect the CRE intestinal colonization. Subsequently, the last 6 months clinical data of CRO-colonized patients and matched non CRO-colonized patients (1:1) will be collected. Then, the randomly selected 200 CRO-colonized patients and matched 200 non CRO-colonized patients (1:1) are followed up for 12 months, a total of 400 patients will be enrolled. Every month, rectal swabs and relevant clinical data will be collected.
Total Body Irradiation (TBI) was shown to help in providing immunosuppression that facilitates the donor transplant acceptance. Randomized trials demonstrated that conditioning regimens to bone marrow transplantation (BMT) including TBI have produced better survival rates than chemo-only regimens. The TBI target is represented by the whole BM, and eventually the whole lymphatic system, liver, spleen. The increased life expectancy revealed the occurrence of important toxicities because of full doses received by organs at risk (OARs) and this limited the use of TBI. Many groups have explored the possibility of sophisticated techniques for reducing the dose to healthy tissues while increasing the dose to the BM. These newer approaches aim to generate total marrow (lymph-node) irradiation (TMI/TMLI), sparing as much as possible non-skeletal and non-lymphoid structures. Actually, the time required to optimize a TMI/TMLI plan is 10 days. Therefore, the simulation Computed Tomography (CT) is performed many days before the BMT. Furthermore, the lymph-nodes are defined only on CT images.
This is a multicentre observational study with the aim of evaluating the antibody and cellular response after vaccination for SARS-CoV-2 with Pfizer-BioNTech or Moderna vaccines in frail subjects with impaired immuno-competence, due to their underlying diseases or ongoing therapies.
Invasive mold infections (IMI) mainly affect patients with hematologic malignancies receiving intensive chemotherapy or after hematopoietic stem cell transplantation (HSCT). Prolonged neutropenia after remission induction chemotherapy (>10 days duration) and continuous immunosuppression in the context of prevention or therapy of graft versus host disease (GVHD) for HSCT recipients (first 100 days post-transplantation and thereafter if GVHD is present) are considered as periods at high risk of IMI. Posaconazole prophylaxis is prescribed according to current guidelines to reduce the occurrence of IMI. Nevertheless, breakthrough IMI (bIMI), i.e. IMI occurring under mold-active prophylaxis, are still observed. The investigators hypothesized that the epidemiology of bIMI (under posaconazole prophylaxis) differs from that of IMI occurring in the absence of mold-active antifungal prophylaxis. Because bIMI are rare events since the introduction of posaconazole prophylaxis, epidemiological data of bIMI are scarce. This study aims to i) describe the epidemiology, clinical features, treatment and outcome of bIMI, ii) assess the causes of bIMI, iii) determine potential risk factors associated with the developllement of bIMI iv) assess the impact of bIMI on overall mortality. Design Retrospective and prospective, observational, case-control, multicenter, international study. The retrospective part will enroll previously identified bIMI cases and control cases (1:2) over the last five years: October 1st 2015 to September 30st 2020. The prospective part will enroll bIMI cases and control cases (1:2) occurring over a two-year period: October 1st 2020 to September 30st 2022. Setting The aim is to enroll 10 to 15 European centers with dedicated units for hematologic cancer patients. Currently, six centers have confirmed their participation (from Switzerland and Germany). Study Population Adult (≥ 18 years old) patients with a hematologic malignancy receiving posaconazole prophylaxis during induction, consolidation or re-induction chemotherapy or after HSCT. Cases : patients receiving posaconazole prophylaxis for at least 7 days and diagnosed with bIMI proven or probable according to EORTC-MSGERC. Controls: patients receiving posaconazole prophylaxis for at least 7 days, without diagnosis of bIMI possible, probable or proven according to EORTC-MSGERC. The objective is to enroll about 100 bIMI cases and 200 controls.
A Study of CD 70 CAR T for patients with CD70 positive malignant hematologic diseases
Background Hematological diseases are disorders of the blood and hematopoietic organs. The current hematological cohorts are mostly based on single-center or multi-center cases, or cohorts with limited sample size in China. There is a lack of comprehensive and large-scale prospective cohort studies in hematology. The purpose of this study is to analyze the incidence and risk factors of major blood diseases, the treatment methods, prognosis and medical expenses of these patients in China. Method The study will include patients diagnosed with acute myeloid leukemia, multiple myeloma, hemophilia, aplastic anemia, leukemia, myelodysplastic syndrome, lymphoma, bleeding disorders or received bone marrow transplantation in the investigating hospitals from January 1, 2020, and collect basic information, diagnostic and treatment information, as well as medical expense information from medical records. In its current form, the NICHE registry incorporates historical data (collected from 2000) and is systematically collecting prospective data in two phases with broadening reach. The study will use questionnaire to measure the exposure of patients, and prospectively follow-up to collect the prognosis information.
The purpose of this study is to determine the safety of a cell therapy, T-allo10, after αβdepleted-HSCT in the hopes that it will boost the adaptive immune reconstitution of the patient while sparing the risk of developing severe Graft-versus-Host Disease (GvHD). The primary objective of Phase 1a is to determine the recommended Phase 2 dose (RP2D) administered after infusion of αβdepleted-HSCT in children and young adults with hematologic malignancies. A Phase 1b extension will occur after dose escalation, enrolling at the RP2D for the T-allo10 cells determined in the Phase 1 portion to evaluate the safety and efficacy of infusion of T-allo10 after receipt of αβdepleted-HSCT. Additionally, Phase 1b aims to explore improvements in immune reconstitution. All participants on this study must be enrolled on another study: NCT04249830
This is a 3-phase mixed methods study design. A literature review (Phase 1) has been completed to determine the areas of exploration and to identify challenges faced and the impact of the blood disorder on pediatric patients. Based on Phase 1, Phases 2 and 3, as proposed in this study, will be completed and will include interviews of patients diagnosed with bleeding and thrombotic disorders (phase 2). The interviews will be individual, semi-structured, and consist of open-ended questions to elicit unbiased and in-depth responses to gain an understanding of participant's perspectives on themes predetermined in the study design phase.