(@yanyunw)

Goal 1: Promote Human Health

Study wellness instead of diseases by longitudinal follow-up of frequent and long term blood donors

Blood donors (especially young donors) in general represent healthy populations. Longitudinal follow-up of frequent and long term blood donors can be useful to establish data and sample sources for the study of wellness, instead of disease (especially for blood diseases). Not only it can be used as healthy controls, it can also be used to predict the wellness factors such as genetic variation, life style, exercise patterns, ...more »

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2 net votes
2 up votes
0 down votes
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(@andrew.dunham)

Goal 2: Reduce Human Disease

Mitigating risks due to the RBC storage lesion and vulnerable patients

What are the underlying dependencies (genomic, metabolic, disease) in individual donors that either accelerate or delay the changes to red blood cells during refrigerated storage? What methods of preparation might protect patients from the risks posed by the accelerated degradation of RBCs provided by "poor storers"? What characteristics of individual patients make them particularly vulnerable to transfusion of red ...more »

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3 net votes
3 up votes
0 down votes
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(@mmarkl)

Goal 3: Advance Translational Research

Comprehensive Assessment of Cardiovascular Physiology: Imaging of Structure, Function and Blood Flow

The development of cardiovascular disease is associated with changes in structure, function and blood flow within a complex and highly interconnected system. Current diagnostic tools focus on individual elements of the cardiovascular system and/or relatively simple parameters which do not reflect the true underlying pathophysiology. A novel multi-modular and multi-parametric approach based on new and promising imaging ...more »

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1 net vote
1 up votes
0 down votes
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(@joyce.bischoff)

Goal 3: Advance Translational Research

To find specific medical therapies to treat the wide array of human vascular malformations and vascular tumors.

Vascular malformations and vascular tumors, together referred to as vascular anomalies, comprise a complex and wide array of diseases in which there is a fundamental disruption in blood and lymphatic vasculature. The lesions disrupt organ function, destroy tissue, cause bleeding, increase infections and can threaten life. At present, there are some medical therapies but none are specifically targeted to an underlying ...more »

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18 net votes
20 up votes
2 down votes
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(@chintamani.atreya)

Goal 3: Advance Translational Research

Tools to facilitate availability and safe use of innovative blood products and their analogs

Novel blood products are being developed based on innovative science (e.g., ex vivo manufactured RBC and platelets, and platelet and plasma derived hemostatic products). However, there is a significant lag in the development of appropriate tools and model systems, which poses a challenge when evaluating such products for regulatory approval.

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12 net votes
17 up votes
5 down votes
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(@katherinek)

Goal 2: Reduce Human Disease

Development of right ventricular-targeted therapies in pulmonary arterial hypertension (PAH)

Pulmonary arterial hypertension (PAH) is a complex, progressive condition characterized by high blood pressure in the lungs and restriction of flow through the pulmonary arterial system. A great increase in the treatment armamentarium has been noted for this rare disease in the past 20 years, with 12 new PAH-targeted therapies. Though these therapies do improve cardiac performance, this is most likely due to their primary ...more »

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66 net votes
75 up votes
9 down votes
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(@katherinek)

Goal 2: Reduce Human Disease

In pulmonary arterial hypertension (PAH), how can right ventricular function be improved in the setting of increased afterload

Pulmonary arterial hypertension (PAH) is a complex, progressive condition characterized by high blood pressure in the lungs and restriction of flow through the pulmonary arterial system. Significant improvements have been made in medical management with through approved pulmonary vasodilator therapies. However, long-term right ventricular afterload reductions have still not yet been achieved. The process by which the ...more »

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65 net votes
72 up votes
7 down votes
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(@katherinek)

Goal 2: Reduce Human Disease

How can we increase the pharmaceutical clinical research of targeted therapies in pediatric PAH patients, including encouraging

Clinical research, especially randomized pharmaceutical clinical trials, poses many unique challenges compared to research in adult subjects. In pulmonary arterial hypertension, a disease characterized by high blood pressure of the lungs with increased pulmonary vascular resistance leading to right ventricular failure, there are 12 FDA-approved PAH-targeted therapies for adults. None of these medications are currently ...more »

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66 net votes
76 up votes
10 down votes
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(@katherinek)

Goal 2: Reduce Human Disease

Would patients with pulmonary arterial hypertension (PAH) benefit from background anticoagulation in addition to their PAH-targe

Pulmonary hypertension (PH) is a complex, progressive condition characterized by high blood pressure in the lungs. For several decades, oral anticoagulation has been recommended by some societies for patients with a specific form of PH called pulmonary arterial hypertension. However, the evidence currently supporting this recommendation is very limited. To date, no prospective randomized clinical trial has been completed ...more »

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62 net votes
68 up votes
6 down votes
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(@katherinek)

Goal 2: Reduce Human Disease

How can we non-invasively, but still accurately, measure blood pressure in the pulmonary arteries?

Pulmonary hypertension (PH) is a complex, progressive condition characterized by high blood pressure in the lungs. The gold standard for measuring pressures in the pulmonary arteries is a right heart catheterization, where a special catheter is guided through the right side of the heart and into the pulmonary artery, the main vessel carrying blood to the lungs. This measurement is essential, as it allows physicians and ...more »

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67 net votes
75 up votes
8 down votes
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(@garrett.s.booth)

Goal 1: Promote Human Health

Nefarious substances in the US blood supply

Prescription and illicit drug is everpresent in the US, which can potentially result in controlled substances entering the US blood supply. Passive transfer of immune allergens is only anecdotally been reported as peanut allergens, fish allergens, and contrast material. However, US blood donors are only screened for a limited number of medications on the universal donor health questionnaire at time of collection. What, ...more »

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-11 net votes
6 up votes
17 down votes
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(@kevinfiscella)

Goal 2: Reduce Human Disease

Inflammation: what is the role of the blood microbiome?

Blood is not continuously sterile. Data from dental studies, blood donors, and random blood cultures document that "normal" human blood often harbors microbes. Sepsis only occurs when immunological regulatory systems fail. Growing evidence link subclinical, potentially transient bacteremia to cardiovascular and other diseases. Could many of the diseases associated with inflammatory markers represent either continuous ...more »

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15 net votes
25 up votes
10 down votes
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(@ben.croker)

Goal 2: Reduce Human Disease

Prevent cytopenia in septic patients

Sepsis is the leading cause of death in critically ill patients in the USA, affecting particularly young children and the elderly. A hallmark of septic shock patients upon diagnosis is peripheral blood cytopenia. This persistent cytopenia commonly affects myeloid, lymphoid and erythroid lineages resulting in immunosuppression and is a well-established predictor of fatal outcome. Clinical trials targeting the production ...more »

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0 net votes
11 up votes
11 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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