(@nhlbiforumadministrator)

Goal 3: Advance Translational Research

Translational Bioinformatics Spanning Multiple Scales of Biologic Complexity to Implement Precision Pulmonary Medicine at the Po

What translational bioinformatics tools could be used in pulmonary medicine to allow multidimensional, multi-scale modeling of clinical and biomolecular data to assist clinical decision-making?

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-2 net votes
10 up votes
12 down votes
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(@daniel.perez)

Goal 2: Reduce Human Disease

Developing Standards of Care for adult muscular dystrophy (FSHD, DM) patients affected by hypercarbic respiratory insufficiency

There is an unmet need for the NHLBI to foster basic, preclinical and clinical research on the pulmonary consequences of respiratory insufficiency, and specifically with hypercarbic (high CO2) respiratory insufficiency, in facioscapulohumeral muscular dystrophy (FSHD) and other adult muscular dystrophies. The adult muscular dystrophies have received insufficient attention, both from research and clinical practice perspectives. ...more »

Voting

-11 net votes
4 up votes
15 down votes
Active
(@daniel.perez)

Goal 3: Advance Translational Research

Develop guidelines, standard of care, new technologies for respiratory care for adult facioscapulohumeral muscular dystrophy

There is a need for NHLBI to develop guidelines, standard of care, new technologies for respiratory care for adult muscular dystrophy (facioscapulohumeral, myotonic and limb girdle) patients with undiagnosed or unforeseen hypercarbia CO2 retention in the acute setting who end up in trouble to help the families, doctors and patients navigate their way back to stable condition e.g. perhaps going forward with non-invasive ...more »

Voting

-12 net votes
2 up votes
14 down votes
Active
(@bradley.richmond)

Goal 2: Reduce Human Disease

How can we better understand regional tissue heterogeneity in lung disease?

Many lung diseases (IPF, COPD) are characterized by marked heterogeneity at the tissue level. Unfortunately, most of the tools we currently employ to understand lung disease are unable to elucidate the mechanisms that result in regional heterogeneity. Clinical studies and animal models, while invaluable, generally assume that all lung tissue is similarly affected based on the presence or absence of diagnostic criteria ...more »

Voting

9 net votes
26 up votes
17 down votes
Active
(@yyzhao)

Goal 4: Develop Workforce and Resources

Establishment of an independent study section on Pulmonary Vascular Biology and Translational Research

The research on pulmonary vascular biology including smooth muscle cell biology and endothelial cell biology and related pulmonary vascular diseases such as pulmonary hypertension and related right heart failure, and endothelial dysfunction in lung vascular inflammation and acute lung injury, as well as pulmonary embolism and lung transplantation has been rapidly expanding. The field is attracting an ever increasing ...more »

Voting

23 net votes
50 up votes
27 down votes
Active
(@swigrisj)

Goal 2: Reduce Human Disease

Challenge

Genetic or biologic makers that predict outcomes in pulmonary fibrosis are needed.

Validated animal models of lung fibrosis that better resemble the human condition are needed to speed up the drug development process.

An international patient registry is needed to help promote understanding of the natural history of pulmonary fibrosis and real-world impacts of interventions.

Voting

1 net vote
6 up votes
5 down votes
Active
(@amtager)

Goal 2: Reduce Human Disease

Fibrosis Across Organs: Bringing Together Investigators of Fibrosis of the Heart, Lungs and Bone Marrow

Fibrosis can affect essentially any tissue or organ, including the heart, lungs and bone marrow. Effective anti-fibrotic therapy has long been elusive, and transplantation has been the only therapy capable of restoring patient function as fibrotic diseases progress to organ failure. Although these diseases present clinically with organ-specific manifestations, they are now thought to share many common pathogenetic mechanisms. ...more »

Voting

16 net votes
20 up votes
4 down votes
Active
(@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 »

Voting

67 net votes
75 up votes
8 down votes
Active