(@zbigniew.m.szczepiorkowski)

Goal 3: Advance Translational Research

ESTABLISHMENT OF APHERESIS MEDICINE CONSORTIUM TO ADVANCE DEVELOPMENT OF EVIDENCE BASED THERAPIES

The apheresis medicine encompasses treatment of numerous diseases many of which are directly related to blood, lung and heart. There is a need to establish consortia for Apheresis Medicine to facilitate networking, information exchange and research collaboration among investigators, including junior investigators. These consortia would perform basic science as well as translational research and investigate the best pathways... more »

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112 net votes
131 up votes
19 down votes
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(@jantin)

Goal 2: Reduce Human Disease

Transplantation across HLA barriers in aplastic anemia

Allogeneic stem cell transplantation is curative in aplastic anemia with much less intrinsic toxicity than transplantation in hematologic malignancies. The recent BMT-CTN trial demonstrated 97% survival at one year with little subsequent decline. However patients without matched related or unrelated donors have graft-rejection rates of up to 50%. Preliminary data from the Netherlands suggests that anti-thymocyte globulin... more »

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110 net votes
137 up votes
27 down votes
Active
(@meaton)

Goal 2: Reduce Human Disease

Support for Cardiothoracic Surgery and Pediatric Heart Clinical Trial Networks

Continued and expanded support for the Cardiothoracic Surgical Trials Network (CTSN) and Pediatric Heart Network (PHN) is essential as both design, conduct, and analyze multiple, collaborative clinical trials that evaluate surgical interventions, and related management approaches for the treatment of cardiovascular disease. To date both networks have reported on and developed a portfolio of studies which need continued... more »

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108 net votes
151 up votes
43 down votes
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(@zbigniew.m.szczepiorkowski)

Goal 4: Develop Workforce and Resources

DEVELOPMENT AND SUPPORT FOR APHERESIS MEDICINE INVESTIGATORS

The apheresis medicine encompasses treatment of numerous diseases many of which are directly related to blood, lung and heart. However, there are very limited opportunities for training young investigators in basic and translational research related to Apheresis Medicine. There is a need to promote Apheresis Medicine as a viable field of research for junior and established investigators. The influx of well-trained junior... more »

Voting

108 net votes
127 up votes
19 down votes
Active
(@kkomanduri)

Goal 3: Advance Translational Research

How can we develop more selective immunosuppression for allogeneic hematopoietic cell transplantation?

Graft versus host disease (GVHD) remains the most significant complication of allogeneic hematopoietic stem cell transplantation (HCT). While the use of HCT has grown significantly safer and has demonstrated broad efficacy in the setting of a broad range of blood diseases, immunosuppressive therapy has not dramatically evolved since the introduction of calcineurin inhibitor-based approaches decades ago. The availability... more »

Voting

106 net votes
129 up votes
23 down votes
Active
(@meaton)

Goal 2: Reduce Human Disease

Funding for Cardiothoracic Surgery Research

The continued development of new technologies requires cardiothoracic surgeons to maintain a strong level of research to ensure the highest quality of patient care and surgical outcomes are received across the world. The level of support for CT surgery within the NIH has continued to drop over the last decade. This is a substantial problem for the specialty as the limited funding available creates difficulty in the continued... more »

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105 net votes
155 up votes
50 down votes
Active
(@js2745)

Goal 2: Reduce Human Disease

The role of Extracorporeal Photopheresis (ECP) in the prophylaxis and treatment of acute & chronic Graft Versus Host Disease

In Acute Graft Versus Host Disease (aGVHD), we would like to examine whether early and intensified delivery of ECP as part of standard prophylaxis will decrease overall corticosteroid exposure while preserving expected relapse rates in patients undergoing unrelated donor hematopoietic stem cell transplantation (HSCT). Chronic GVHD (cGVHD) is common after HSCT (30-50% recipients) and is a major contributor to late transplant-related... more »

Voting

103 net votes
126 up votes
23 down votes
Active
(@nhlbiforumadministrator1)

Goal 2: Reduce Human Disease

A Systems Approach to Obesity

There is a need to use an integrated systems approach to obesity prevention and treatment. Obesity is a complex phenotype influenced by factors from the molecular to the socio-economic level. To address the causes and prevention of obesity, we need to integrate information at the molecular level with behavioral, social and environmental data. This will require investigators in molecular biology, genetics, epidemiology,... more »

Voting

97 net votes
138 up votes
41 down votes
Active
(@nhlbiforumadministrator)

Goal 3: Advance Translational Research

Better disease models

Many diseases of the heart, lung and blood systems are studied using animal models, often with genetically engineered mice. However, while mice get models, humans get diseases. Too many grants are devoted to curing models, a practice encouraged by many high profile journals who want to see “proof” in a standard model of disease. Much less time, effort and money will be wasted on developing ineffective therapies if focus... more »

Voting

97 net votes
126 up votes
29 down votes
Active
(@zbigniew.m.szczepiorkowski)

Goal 3: Advance Translational Research

TREATMENT OF SEPSIS-MULTIPLE ORGAN DYSFUNCTION SYNDROME (MODS) UTILIZING APHERESIS BASED STRATEGIES

Sepsis, a systemic inflammatory response to infection, is the most common cause of death in non-cardiac intensive care units. The incidence and severity of sepsis have increased over the last two decades. With advances in supportive care, sepsis carries a mortality that averages 17%, however, this figure increases to 50 - 80% in Multiple Organ Dysfunction Syndrome (MODS), defined as failure of 3 or more organ systems.... more »

Voting

97 net votes
115 up votes
18 down votes
Active
(@csaper)

Goal 2: Reduce Human Disease

What are the biological consequences of sleep loss or disruption and how can they best be avoided?

Arousals in obstructive sleep apena (OSA) are life saving, but the associated disruption of sleep is now thought to cause cognitive impairment, increased risk of high blood pressure and atherosclerosis, as well as glucose intolerance and metabolic syndrome. The mechanisms for these downstream effects, however, are not well understood. Can these specific pathophysiological mechanisms be identified, and can ways for mitigating... more »

Voting

96 net votes
125 up votes
29 down votes
Active
(@winters.jeffrey)

Goal 2: Reduce Human Disease

Lipid apheresis as adjunct therapy in peripheral vascular disease

What is the roll of inflammation and how does lipid apheresis alter inflammation in peripheral vascular disease when added to standard therapy and/or when used alone? Does lipid apheresis result in long-term improvement with reduced morbidity, mortality, and expense compared to standard therapy?

Voting

96 net votes
116 up votes
20 down votes
Active
(@ewong0)

Goal 3: Advance Translational Research

Development of Novel Apheresis Adsorption Technologies to More Effectively and Safely Treat Hematologic Diseases

Current FDA approved apheresis technology currently uses elutriation/centrifugation separation techniques to remove pathologic cellular and/or plasma elements. These techniques are non-specific, limited by inefficient removal kinetics and often require considerable blood product exposure. Despite tremendous improvement in our understanding of the pathophysiology of a variety of disease, our ability to treat many of... more »

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93 net votes
112 up votes
19 down votes
Active