13 Clinical Trials for Various Conditions
This trial is being performed to evaluate the feasibility of the study protocol and to test the efficacy and safety of platelets stored at cold conditions (1-6°C) in 100% plasma for 10-14 days (CSP) in cardiac surgery patients who are actively bleeding and require platelet transfusion.
This is a clinical trial of bone marrow transplantation for patients with the diagnosis of a genetic disease of blood cells that do not have an HLA-matched sibling donor. Genetic diseases of blood cell include: Red blood cell defects e.g. hemoglobinopathies (sickle cell disease and thalassemia), Blackfan-Diamond anemia and congenital or chronic hemolytic anemias; White blood cells defects/immune deficiencies e.g. chronic granulomatous disease, Wiskott-Aldrich syndrome,Osteopetrosis, Kostmann's syndrome (congenital neutropenia), Hereditary Lymphohistiocytosis (HLH); Platelets defects e.g.Congenital amegakaryocytic thrombocytopenia; Metabolic/storage disorders e.g. leukodystrophies,mucopolysaccharidoses as Hurler disease;Stem cell defects e.g.reticular agenesis, among many other rare similar conditions. The study treatment plan uses a new transplant treatment regimen that aims to try to decrease the acute toxicities and complications associated with the standard treatment plans and to improve outcome The blood stem cells will be derived from either unrelated donor or unrelated umbilical cord blood.
The purpose of this study is to conduct a Verify now assay to detect platelet aggregation defects in patients with Myelodysplastic syndrome(MDS), immune thrombocytopenia purpura (ITP) and myeloproliferative disorders (MPD).
This study will identify and characterize the gene or genes responsible for Gray Platelet syndrome (GPS). Platelets are small blood cells that stick on injured blood vessels to form a plug and stop bleeding. When a blood vessel is injured (like a cut on a finger), platelets release the proteins stored in their sacs to help form a blood clot. Patients with GPS bleed longer than other people because their platelets lack some of these protein-carrying sacs. Platelets without sacs look pale gray under the microscope rather than pink, giving the syndrome its name. Except for rare patients with severe hemorrhage, the bleeding tendency in GPS is usually mild to moderate, with patients experiencing easy bruising, nosebleeds, and, in women, excessive menstrual bleeding. Patients with GPS and members of their family with GPS may be eligible for this study. Participants will provide a personal and family medical history and will have blood drawn. About 1 to 2 tablespoons of blood will be drawn in adults, and about 1 teaspoon in children. The blood will be analyzed for genes that cause GPS
The study aims to test the non-inferiority of an Allogenic Dermal Matrix with Platelet-Rich Fibrin for treatment of gingival recessions in comparison to the Connective Tissue Graft.
Chediak-Higashi syndrome (CHS) is a rare autosomal recessive disorder characterized in its classical form by oculocutaneous albinism, a bleeding diathesis, recurrent infection due to abnormal neutrophil and natural killer cell function, and eventual progression to a lymphohistiocytic infiltration known as the accelerated phase . Death often occurs within the first decade as a result of infection or the development of the accelerated phase; bone marrow transplantation is curative except for the late occurrence of neurological deterioration. The basic defect is unknown, although it probably involves abnormal fusion or trafficking of intracellular vesicles. Patients with classical CHS have their disease due to mutations in the LYST gene, but mildly affected individuals have been reported whose genetic defect has not been defined. It is likely that these variants of CHS have abnormalities in proteins involved in the pathways responsible for vesicle fusion. Since the full clinical spectrum of CHS and its variants has not been characterized, and the underlying defects remain enigmatic, we plan to evaluate this group of patients clinically, biochemically, and molecularly, and perform cell biological studies on their fibroblasts, melanocytes, and transformed lymphoblasts. Routine admissions will be 5 days and may occur every two years, or required by changes in clinical symptomatology....
Cesarean delivery has become the most common surgical procedure in the US. Non-steroidal anti-inflammatory drugs (NSAIDs) have been shown to improve the quality of post-cesarean analgesia and markedly reduce opioid consumption. The effect of NSAIDs on healthy volunteers results in inhibition of platelet aggregation and prolonged bleeding time. However, in the obstetric population, the presence and degree of platelet inhibition after NSAID exposure is less clear. The investigators plan to use Platelet Aggregometry and Thromboelastography (TEG) to evaluate the effect of ketorolac on platelets.
Inflammatory periodontal disease often results in loss of bone around the teeth. Bone defects that have a certain size and shape (called intrabony or intraosseous defects) may be improved by using a graft material in the bony defect. The purpose of this study is to compare healing of periodontal intrabony defects that are treated using demineralized freeze dried bone allograft (DFDBA) versus autogenous platelet-rich fibrin. The null hypotheses is that there will be no significant differences in bone fill, CAL gain, PD reduction or recession at sites treated with PRF compared to sites treated with DFDBA.
Tranexamic acid is a relatively safe medicine that is used to help the body develop clots and slow down bleeding after large surgeries. While it has already been shown to work well in adults and older children, there is no information on whether it works, and how it works in children younger than 6 months old. The goal of our study is to try and understand whether and how tranexamic acid works in children younger than 6 months old who are having open heart surgery. We plan to study tranexamic acid by testing its effect when compared with a placebo. The investigators will use a method called randomization - which means patients who agree to be in the study will be entered into a computer. The computer will randomly assign them to either receive the medicine or the placebo. We will then compare effects on the 2 groups of patients. Our goal is to have 50 patients in each group, or 100 patients total. We will not know whether patients receive tranexamic acid or placebo until we review the data collected at the end of the study. Tranexamic acid is usually given to patients in the operating room during open heart surgery. During open heart surgery patients require cardio-pulmonary bypass which is a machine that replaces the function of the heart and lungs for a short period of time. This allows surgeons to do surgery on the heart itself without having to worry about it moving during the operation. The bypass machine has lots of tubes to carry the blood around it. When blood comes into contact with the tubing it has a tendency to clot. To prevent this patients are given a blood thinner called heparin. Although heparin prevents clotting in the bypass machine, it can also increase the risk of bleeding when the surgery is over. To reduce this risk patients are given another medicine at the completion of surgery called protamine to try and reverse the effect of the blood thinner, heparin. Even so bleeding remains a significant problem, especially for babies after open heart surgery. Being on the bypass machine and having a lot of suture (stitches) lines increase that risk. In addition, the bypass machine affects the function of platelets, the main component of the body's clotting system. We often have to replenish blood products after surgery to try and stop the bleeding. Some centers, including we , have used the medicine tranexamic acid to try and help with bleeding after surgery. There have been other studies that show it helps with fibrinolysis, which is another important part of the body's clotting system. However, that part of the clotting system is not well developed in infants and therefore likely does not play an important role in preventing bleeding in that age group. As such, it may be that tranexamic acid impacts platelet function as well, and it is that effect that helps decrease post-operative bleeding in infants younger than 6 months. This has not been previously studied. In order to study the effect that tranexamic acid has on platelets the investigators are proposing the investigators' research trial. The investigators plan to randomize patients to either receive tranexamic acid or placebo in the operating room as described above. The investigators will then draw a small amount of blood from each patient (total of approximately 1 tablespoon) and send it to a special lab for testing of platelet function. The lab test will help us understand whether the platelets function better when patients receive tranexamic acid instead of placebo. The investigators will also be monitoring other outcomes related to platelet function. These will include how much bleeding patients have after surgery when they are in the intensive care unit, and how much blood products they require to treat that bleeding. The investigators will also monitor labs that are checked routinely in all patients after open heart surgery. The investigators will also track how long it takes each patient to get off the ventilator and how long they spend in the ICU after surgery. All of this data will help us understand whether tranexamic acid makes a positive impact on outcomes after open heart surgery in infants less than 6 months old. The current standard of care is quite variable within our institution as well as at other institutions. Some anesthesiologists use tranexamic acid while others elect not to. There is no definitive guideline to its current use. The dosing differs from center to center, and there are some centers that do not use it at all. The investigators' hope is that the results of this study will help us understand the role tranexamic acid plays in preserving the function of platelets after open heart surgery in young infants, and whether that impact translates into improved outcomes for those patients. Based on the results of our research we hope to develop definitive guidelines for the use of tranexamic acid in the population of infants \<6 months old undergoing open heart surgery.
The purpose of this study is to compare two biologic methods for the treatment of articular cartilage defects in the knee. The first method, microfracture, is the standard of care and is routinely used to recruit cells from the subchondral bone marrow to the site of cartilage loss. The second method is the application of adipose-derived stem cells (ADSCs) to the defect site. In theory, ADSCs on a collagen scaffold should enable the delivery of more specific progenitor cells to the site of injury, resulting in better regeneration and integration of articular cartilage at the site of a defect as compared to the microfracture method.
Hypothesis: The use of cascade platelet-rich fibrin matrix (PRFM) on medium and large sized rotator cuff tears will improve patient results versus the control results by 50%. The purpose of this study is to examine the effect of PRFM on rotator cuff repairs. Since locally applied platelet-derived growth factor (PDGF) has shown early promise in enhancing tendon and ligament healing in anterior cruciate ligament (ACL) and medial collateral ligament (MCL) reconstruction, the investigators believe that locally applied PRFM will enhance the quality of rotator cuff repairs.
PICOLO is a double blind placebo controlled phase II dose ranging, dose escalating study in patients of Blalock-Taussig age categories (neonates and infants/toddlers), to determine the dose providing inhibition of platelet aggregation similar to adults.
Skin cancers such as basal cell carcinoma (BCC), squamous cell carcinoma (SCC), and melanoma lesions that develop on the head and neck are treated by Mohs surgery or wide local excision to remove all tumor cells and preserve the normal tissue. These surgical techniques may result in large wounds requiring reconstructive surgery to restore function and aesthetics. Older, frail patients are particularly vulnerable to complications from these invasive procedures often leaving them to care for chronic wounds until a split-thickness skin graft can be placed. Recombinant human platelet-derived growth factor (rhPDGF) is a manufactured protein that signals through the PDGF receptor, PDGFRβ, to mediate inflammation, granulation, angiogenesis, and remodeling during wound healing and skin repair and is FDA-cleared for diabetic neuropathic ulcers and periodontal bone and soft tissue reconstructions. Preclinical and clinical data suggest that rhPDGF may be a viable therapeutic strategy to augment the reconstruction of these complex surgical wounds by accelerating healing and reducing the time-to-readiness for skin graft placement.