View clinical trials related to Bone Marrow Diseases.
Filter by:To evaluate the pharmacokinetic characteristics, pharmacodynamic characteristics, safety, tolerability and immunogenicity of SHR-2017 injection in patients with bone metastases, and to evaluate the efficacy of SHR-2017 injection in the treatment of skeletal-related event and cancer pain.
The purpose of this study is to evaluate the efficacy and safety of Shenqi Sherong Pill in participants with Mild or Moderate Cervical Spondylotic Myelopathy (qi deficiency, blood stasis and kidney deficiency type) which based on placebo-control, providing a basis for drug registration.
To compare increasing doses and different treatment schedules of stereotactic body radiation therapy (SBRT) against standard treatment scheduling.
Shwachman-Diamond syndrome (SDS) is a genetic condition characterized by bone marrow failure, medical co-morbidities, and leukemia predisposition. SDS-Like patients share clinical features with SDS but lack mutations in known SDS genes. Since SDS/SDS-Like syndromes are rare diseases, data are sparse regarding the clinical features, natural history, clinical outcomes with current management, and treatment. For this reason, the SDS Registry was formed to collect clinical data from medical records and to bank biological samples with the goal of understanding SDS/SDS-Like diseases to develop better treatments and improve the health of patients with these conditions.
This is a single-site, non-randomized, interventional study designed to evaluate the impact of adding physical and occupational therapy consultation upon inpatient admission for a bone marrow transplantation (BMT). The purpose of this study is to investigate whether consultation with physical and occupational therapists as part of the general admission order set for patients scheduled for bone marrow transplant will result in reduced complications, morbidity, length of inpatient stay, 30-day readmission and 90-day mortality. Baseline data collection will be used to determine eligibility. This study will be partially retrospective (pre-implementation of physical and occupational therapy consultation order) and partially prospective.
The aim of this study is to evaluate the efficacy and safety of apalutamide in combination with 89Sr as neoadjuvant therapy in prostate cancer with ≤10 bone metastases. The primary endpoint is PFS and the second endpoints are pCR, rPFS, PSA response, pain score, number and extent of bone metastases.
Diseases of bone associated with ageing, including osteoporosis (OP) and osteoarthritis (OA), reduce bone mass, bone strength and joint integrity. Current non-surgical approaches are limited to pharmaceutical agents that are not disease modifying and have poor patient tolerability due to side effect profiles. Developing a fundamental understanding of cellular bone homeostasis, including how key cell types affect tissue health, and offering novel therapeutic targets for prevention of bone disease is therefore essential. This is the focus of OSTEOMICS. A number of factors have been linked to increased risk of bone disease, including genetic predisposition, diet, smoking, ageing, autoimmune disorders and endocrine disorders. In our study, we will recruit patients undergoing elective and non-elective orthopaedic surgery and obtain surgical bone waste for analysis. This will capture a cohort of patients with bone disorders like OP and OA, in addition to patients without overt clinical bone disease. We will study the relationship between the molecular biology of bone cells, bone structure, genetics (DNA) and environmental factors with the aim of identifying and validating novel therapeutic targets. We will leverage modern single cell technologies to understand the diversity of cell types found in bone. These technologies have now led to the characterisation of virtually every tissue in the body, however bone and bone-adjacent tissues are massively underrepresented due to the anatomical location and underlying technical challenges. Early protocols to demineralise bone and perform single cell profiling have now been developed. We will systematically scale up these efforts to observe how genetic variation at the population level leads to alterations in bone structure and quality. Over the next 10 years, we will generate data to comprehensively characterise bone across health and disease, use machine learning to drive analysis, and experimentally validate hypotheses - which will ultimately contribute to developing the next generation of therapeutic agents.
This study will comprehensively evaluate the outcomes and endpoints of these two different FDA-approved artificial disc implants used to treat cervical spondylotic myelopathy and/or radiculopathy today: Biomet Zimmer Mobi-C and Nuvasive Simplify. Both implants are structurally different with the Nuvasive Simplify implementing a three-piece design with two endplates and a semi-constrained mobile core while the Biomet Zimmer Mobi-C implements an unconstrained three piece design. Subjects will be age-matched and randomly assigned to either implant with informed consent. All subjects will undergo a variety of assessments that evaluate neck disability, quality of life, pain, physiological outcome (radiographic assessments), and neck range-of motion before and after their procedure. One baseline testing will be conducted along with three post-operation visits (three months, six months, and one year) in accordance to standard follow-up procedure. Thus, the duration of participation in the study will be approximately one and a half years.
The purpose of this study is to assess toxicities of FLASH radiotherapy treatment and pain relief in subjects with painful thoracic bone metastases. FLASH radiotherapy is radiation treatment delivered at ultra-high dose rates compared to conventional radiation treatment.
To create a research repository of patients with known degenerative cervical myelopathy (DCM) and a control cohort of subjects who have non-myelopathic spinal disease. This repository will be used to assess functional and/or biological measures that may allow for improved prediction of symptomatic progression and response to treatment in patients with DCM. In addition, this repository will be used to develop a risk assessment scale to accurately predict functional outcomes following operative management of DCM.