View clinical trials related to Anemia.
Filter by:The study is being conducted to evaluate the safety, tolerability, pharmacokinetics and pharmacodynamics of multi-dose DDO-3055 tablets in patients with anemia of non-dialysis chronic kidney diseases.
This study is aim to compare the efficacy of intravenous versus oral iron therapy regarding the hemoglobin levels, iron status and erythropoietin dosage in maintenance hemodialysis patients
This research was conducted to carry out the effect of umbilical cord clamping time on baby anemia.
This Phase 1/2, open-label, dose-finding study is intended to evaluate the safety and tolerability, PK, PD, and efficacy of INCB000928 administered as monotherapy or in combination with ruxolitinib in participants with MF who are transfusion-dependent or presenting with symptomatic anemia. This study will consist of 2 parts: dose escalation and expansion.
A multi-center, randomized, controlled study to evaluate the effect of different doses of roxadustate on hemoglobin target-met in peritoneal dialysis patients
The objective of this clinical investigation is to evaluate the pulse oximeter devices for screening prospective blood donors. The purpose study is to report on the accuracy of noninvasive hemoglobin (SpHb) as compared to hemoglobin measurements obtained from a laboratory hematology analyzer in a blood donation setting.
This is a long-term safety and efficacy follow-up study for subjects with Fanconi Anaemia Subtype A who have been treated with ex vivo gene therapy on the FANCOLEN-I trial. After completion of the FANCOLEN-I study, eligible subjects will be followed for a total of 15 years post gene therapy treatment. No investigational drug product will be administered during this study.
Background: Severe aplastic anemia (SAA) is a form of bone marrow failure. It usually results from a cytotoxic T cell attack on the marrow stem cell. Two treatments can be used for most people with SAA. One is allogeneic hematopoietic stem cell transplant (HSCT). The other is immunosuppressive treatment (IST). For people who are treated with IST, relapse can occur. If this happens, they can have HSCT or be re-treated with IST. The two most common IST regimes used for relapsed SAA are rabbit ATG (rATG) and alemtuzumab. Both rATG and alemtuzumab have similar response rates and survival rates. There is not much long-term data on people who need repeat IST treatment due to relapse. Researchers want to look at data from past studies to learn more. Objective: To compare the data of relapsed SAA patients between those who received alemtuzumab versus rATG for repeat IST treatment. Eligibility: Adults and children with SAA who were enrolled on NHLBI protocol 12-H-0150, 06-H-0034, 05-H-0242, 03-H-0249, 03-H-0193, 00-H-0032, or 90-H-0146 Design: This study uses data from past studies. The participants in those studies have allowed their data to be used in future research. Researchers will review participants medical records. They will collect clinical data, such as notes, test results, and imaging scans. They will also collect the research data gathered as part of the original study. Researchers will enter the data into an in-house database. It is password protected. All data will be kept in secure network drives or in secure sites. Other studies may be added in the future....
Background: Severe aplastic anemia (SAA) is a form of bone marrow failure. It usually results from a cytotoxic T cell attack on the marrow stem cell. Two treatments can be used for SAA. One is allogeneic hematopoietic stem cell transplant (HSCT). The other is immunosuppressive treatment (IST). In most cases, HSCT or IST works. But for some people, clonal evolution occurs after IST. One of the most common forms of clonal evolution is chromosome 7 abnormalities. These have a poor prognosis. HSCT can be used to treat them. Researchers do not know why clonal evolution happens. They want to look at data from past studies to learn more. Objective: To compare the data of people with SAA who developed chromosome 7 abnormalities between those who ultimately received HSCT versus those who received chemotherapy alone or supportive care. Eligibility: Adults and children with SAA who were enrolled on NHLBI protocol 12-H-0150, 06-H-0034, 03-H-0249, 03-H-0193, 00-H-0032, or 90-H-0146 Design: This study uses data from past studies. The participants in those studies have allowed their data to be used in future research. Researchers will review participants medical records. They will collect clinical data, such as notes, test results, and imaging scans. They will also collect the research data gathered as part of the original study. Researchers will enter the data into an in-house database. It is password protected. All data will be kept in secure network drives or in sites that comply with NIH security rules. Other studies may be added in the future.
Anemia is a great public health problem affecting both developing and developed countries. Iron deficiency anemia represents about 50% of causes of anemia worldwide. Lactoferrin fortified milk has a positive effect on Hb and iron status of infants. the hypothesis of this study is "lactoferrin may have comparable efficacy to ferrous sulfate therapy with more tolerability and fewer side effects". the research question of this study is whether oral lactoferrin is effective for treatment of iron deficiency anemia, compared to traditional ferrous sulfate therapy regarding hemoglobin rise and side effects and tolerability.