Goal 1: Promote Human Health

Lung Resilience

What is the dynamic range of homeostasis (limits of resilience) for lung biology? What makes a lung resilient across the life span and to environmental insults?

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Is this idea a Compelling Question (CQ) or Critical Challenge (CC)? : Compelling Question (CQ)

Name of idea submitter and other team members who worked on this idea : NHLBI Staff

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Goal 2: Reduce Human Disease

Seeking the secret behind “resilience” to a variety of HLBS diseases

What is the secret behind the “resilience” some people have to heart, lung, blood, and sleep (HLBS) diseases?

Submitted by (@nhlbiforumadministrator)

Is this idea a Compelling Question (CQ) or Critical Challenge (CC)? : Compelling Question (CQ)

Details on the impact of addressing this CQ or CC :

Results of such research should reveal physiological mechanisms of resilience that could be used to develop interventions that would prevent or cure a variety of heart, lung, blood, and sleep diseases.

Feasibility and challenges of addressing this CQ or CC :

Advances in omics, clinical testing

, accumulation of large sets of clinical data and samples

, big data tools

, and increased interest from public (normal volunteers) and patients to participate in large scientific experiments make it feasible.

For instance, these may be healthy people carrying genetic mutations strongly associated with HLBS diseases (or causing rare/familial genetic diseases – these might easier to focus on first), but also people who are not hypertensive, hypercholesterolemic, or diabetic in spite of consistently making bad dietary choices, people who did not develop lung conditions in spite of high pollutant exposure, or are otherwise “protected” from other heart, lung, blood and sleep diseases. This reasoning is not very different from that used to identify ApoA Milano, or even PCSK9 or the “longevity genes”. Such information should reveal physiological mechanisms that could be leveraged to develop interventions to prevent or cure HLBS diseases.

Name of idea submitter and other team members who worked on this idea : NHLBI Staff

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Goal 1: Promote Human Health

Human normal variation and resilience across lifespan

What is the measureable normal human variation at the -omic, cellular, organ, and system levels within the population and across the lifespan? • What are the range of normal human cellular functions that create resilience at all levels—cells, organs, organ systems? • What inter-organ, tissue, and cellular communications maintain individual health and the health of populations? • How do we understand why individuals with ...more »

Submitted by (@nhlbiforumadministrator)

Is this idea a Compelling Question (CQ) or Critical Challenge (CC)? : Compelling Question (CQ)

Details on the impact of addressing this CQ or CC :

• Will provide a better definition of what is normal in order to better interpret and exploit the big data available through increased personalized monitoring and use of EMRs.

• Insights into the underlying mechanisms of resilient phenotypes will provide new paradigms for disease prevention and treatment.

Feasibility and challenges of addressing this CQ or CC :

Feasibility will depend on the level of investment (large) and accessibility to commons data.

Name of idea submitter and other team members who worked on this idea : NHLBI Staff

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Goal 1: Promote Human Health

Environmental stimuli and the lung: predictors of homeostatic or pathological responses

What are the molecular and cellular responses in the lung that occur after environmental stimuli that predict homeostatic resilience or transition to disease, disorder, or aging?

Submitted by (@nhlbiforumadministrator)

Is this idea a Compelling Question (CQ) or Critical Challenge (CC)? : Compelling Question (CQ)

Details on the impact of addressing this CQ or CC :

Addressing this line of research could define biomarkers and pathways useful for prediction of how human response to an external stimulus of varied nature (i.e. microorganism, chemical, physical) could lead to specific outcomes in relationship to the duration of the exposure and the genetic makeup of the individual exposed. Identification of early signals and the pathways involved could lead to novel preventative or therapeutic approaches.

Feasibility and challenges of addressing this CQ or CC :

Methods for systems biology approaches to address complex pathobiological iterations are ready to be exploited to answer these questions.

Great progress has been made in the clarification of basic mechanisms of molecular and cellular response to environmental stimuli, in cross-sectional analyses. The continuum of the response in relationship to the genetic background of individuals responding with a homeostatic or pathological long-term outcome is missing from these data.

Name of idea submitter and other team members who worked on this idea : NHLBI Staff

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