Goal 2: Reduce Human Disease

Submitted by (@ahenn0)

Making It Real: Affordable Physiologically Relevant In Vitro Environments

We have done the best we can to mimic the human internal environment in vitro for the discovery, testing, and validation of therapeutics, but there is a critical need to do better. The use of more complex cell-based in vitro models is the result of the recognition of how little predictive power there is in current experimental conditions, even with animal models. With an in vitro environment that goes beyond temperature ...more »

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Goal 3: Advance Translational Research

Submitted by (@hubel001)

Advancing the preservation of cellular therapies

Cell therapies are produced in specialized facilities and the viability/function of the cells must be retained in order to permit transportation to the site of use, coordination with patient care, etc. Current options for preserving cells are limited. Conventional methods of cryopreservation may result in poor post thaw function and are difficult to use at the point of care. Liquid storage of cells is typically limited ...more »

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Goal 2: Reduce Human Disease

Submitted by (@mariannes.clancy)

How gene mutations contribute to defects in vascular development

How do gene mutations in endoglin and alk 1 create arteriovenous malformations leading to disease. Alk 1 and endoglin are receptors in TGFB/BMP family signaling. TGFB/BMP have roles in vascular development, remodeling and maintenance in vascular integrity. Understanding the downstream effect will lead to advancements in reducing genetic diseases such as HHT as well as vascular malformations in general

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Goal 3: Advance Translational Research

Submitted by (@scottsimon)

Detection of inflammatory monocytes as a biomarker of CVD

Coronary artery disease (CAD), of which atherosclerosis is a major contributor, costs the United States $108.9 billion each year. While a number of conventional risk factors such as smoking, diabetes and hypertension have been associated with CAD, their predictive performance is poor in the prevention of acute coronary syndrome (ACS). Despite the prevalence of ACS in our society, there are currently no molecular biomarkers ...more »

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Goal 1: Promote Human Health

Submitted by (@wheeze)

Environmental Exposures and Atopic Disease

As the current chair of the Research and Training Division, I would like to convey that the AAAAI membership would like the NHLBI to consider the following in the development of its strategic plan:

 

What are the molecular and cellular responses in the lung that occur after environmental stimuli (including allergens) that predict homeostatic resilience or transition to atopic diseases?

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Goal 2: Reduce Human Disease

Submitted by (@nhlbiforumadministrator)

Heart transplant surveillance

It is essential to develop clinically viable, non-invasive, less expensive technologies for the surveillance of allograft rejection in heart transplant patients. Critical challenges that exist in the near term or long term surveillance after transplant is the unavailability of molecular and cellular level markers that can be non-invasively imaged and quantified detect rejection and thus improve patient survival. Development ...more »

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