(@nhlbiforumadministrator)

Goal 3: Advance Translational Research

Bone Marrow Stem Cell Transplant in Peds sibling matched SCD

There is a need to improve accessibility of Bone Marrow Stem Cell Transplantation (BMSCT) for Sickle Cell Disease patients who are most likely to benefit from this treatment option. 1. Building a culture of trust between and among primary care providers, specialists, patients/families, and other stakeholders 2. Consensus building around BMSCT as an acceptable treatment alternative (as opposed to another research endeavor) ...more »

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52 net votes
80 up votes
28 down votes
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(@nhlbiforumadministrator)

Goal 3: Advance Translational Research

Implementation science research to reduce adverse effects of SCD

From various publications and reports, we have characterized the risks associated with sickle cell disease (SCD) and understand many of the barriers for treatment of SCD in LMICs. How can implementation science research be used to reduce the negative outcomes of SCD in low/middle income countries?

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18 net votes
31 up votes
13 down votes
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(@rjjones)

Goal 3: Advance Translational Research

Allogeneic transplantation as a safe and universally available therapeutic strategy for treating non-malignant blood diseases

Can new advances in allogeneic blood or marrow transplantation (BMT) make the procedure a safe and universally available therapeutic strategy for treating non-malignant blood and immune disorders such as sickle cell anemia, thalassemia, aplastic anemia, and severe combined immune deficiency?

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164 net votes
214 up votes
50 down votes
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(@lakshmanankrishnamurti)

Goal 2: Reduce Human Disease

What is the place of curative therapies in the management of Sickle Cell Disease

Advances in the care of pediatric patients with sickle cell disease ( SCD) have resulted in improved survival to adulthood.However, adulthood is marked by rapid disease progression, impaired quality of life and premature mortality. Hematopoietic cell transplantation(HCT) from matched sibling donor has curative potential, but has been offered mainly to children. Refinements in the conditioning regimen, supportive care, ...more »

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112 net votes
141 up votes
29 down votes
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(@juliewashko)

Goal 2: Reduce Human Disease

Assess the true impact of sickle cell trait on cardiovascular health across then age spectrum

Sickle cell disease is now understood as a disease of inflammation in addition to abnormal red blood cells. It is likely persons with sickle cell trait are also negatively affected by the damage caused by inflammation. There is a significant racial disparity in hypertension, stroke, and chronic kidney disease. It remains unclear the degree to which sickle cell trait contributes to this disparity. It also remains unclear ...more »

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17 net votes
31 up votes
14 down votes
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(@nhlbiforumadministrator1)

Goal 2: Reduce Human Disease

Innovations in Red Cell Transfusion in Sickle Cell Disease

Challenges that need to be overcome in blood transfusion, especially in SCD, include: a. Adopting molecular genotyping as the standard in blood transfusion therapy. b. Advancing new generation, anti-oxidant hemoglobin-based oxygen carriers (HBOCs) for use in emergencies such as trauma, stroke, acute hemolysis, and in transfusion in SCD and related disorders. In SCD, HBOCs have the capacity to not only serve as substitutes ...more »

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29 net votes
47 up votes
18 down votes
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(@hashmi.shahrukh)

Goal 2: Reduce Human Disease

Sickle Cell anemia and Aplastic anemia survivors: Late effects and quality of life issues in Stem Cell Transplant Survivors

Most of the patients suffering from non-malignant hematologic conditions are cured of the original disease with Hematopoitec Stem Cell Transplant (HSCT) but still their survival is less compared to age matched general population, and additionally they suffer from unique complications of HSCT culminating into a variety of late physical, psychologic, financial, and social complications (“late effects”). Considerable improvements ...more »

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71 net votes
89 up votes
18 down votes
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(@freddigoldman)

Goal 2: Reduce Human Disease

How can we more safely deliver stem cells to Sickle Cell patients

Newer therapies using gene correction, rather than gene addition, are needed for sickle cell disease. Even with this potential advantage, there needs to be a way to safely deliver gene corrected HSC to the sickle cell patient. Chemotherapy is poorly tolerated, and often is the reason patients do not choose the BMT option. What is the status of other less toxic non myeloablative approaches, and how can they best be ...more »

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51 net votes
67 up votes
16 down votes
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(@bsachais)

Goal 2: Reduce Human Disease

Apheresis Medicine in the Management of Sickle Cell Disease

Despite advances in care, patients with sickle cell disease have significant morbidity and mortality. One challenge is the optimal use of simple vs exchange transfusion vs no transfusion when managing these patients. Simple transfusions lead to iron overload while exchange transfusions may expose patients to increase numbers of red blood cell units. The mechanism of benefit from transfusion (oxygen delivery vs marrow ...more »

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130 net votes
152 up votes
22 down votes
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