Showing 6 ideas for tag "pah"

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 »

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

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i. In patients with pulmonary hypertension, the use of multiple tests to characterize the type and severity has long been recommended by global experts; one commonly used diagnostic algorithm recommends more than ten different tests to accurately define this complex, heterogeneous disease. Despite the algorithm used, to confirm a diagnosis of one specific type of PH, pulmonary arterial hypertension (PAH), one must always directly measure the pressures in the heart and pulmonary artery through a right heart catheterization (RHC). Complications for this procedure are rare, but not non-existent with potentially 1 in every 100 patients having a right heart catheterization experiencing a serious adverse event (Hoeper MM 2006). Patients would significantly benefit from a non-invasive method of quantifying their pulmonary artery pressures and/or disease progression, but to date this has not been possible with echocardiography due to measurement errors (Laver 2014), CT scan due in part to measurement inconsistencies (Alhamad 2011), and cardiac MRI due to lack of standardization and multicenter trials (Peacock 2013). Not only would wider utilization of a non-invasive method of measuring pulmonary artery pressures and disease progression potentially reduce the risk from RHC, depending on the modality it could lead to earlier diagnosis of this progressive disease and/or application in countries where RHC is less common.

Feasibility and challenges of addressing this CQ or CC

Addressing a non-invasive method of measuring pulmonary artery pressures requires investment in both technology and multicenter clinical trials to validate these measures.

Name of idea submitter and other team members who worked on this idea Katherine Kroner, Michael Patrick Gray, PHA

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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 »

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

Details on the impact of addressing this CQ or CC

The evolution of the anticoagulation recommendation in pulmonary arterial hypertension (PAH) is a relatively logical one at face value. Early in the modern era of PAH management, a “thrombosis” in the small pulmonary arteries was identified and described; studies since then have demonstrated hypercoagulability in patients with severe disease. Together, these observations led to a theory that in-situ thrombosis contributed to the PAH disease progression and a belief that anticoagulation should be beneficial. The empirical evidence currently supporting this recommendation comes mostly from a retrospective cohort study of the European COMPERA PH registry and a systematic review of 7 retrospective cohort studies that are at least 10 years old—2 of which did not suggest a survival benefit—and in a time where only 4 of the widely used PAH-targeted therapies were approved by the FDA. Purely based on observational evidence with a number of potential biases, warfarin (Coumadin) is widely used in PAH management to this day. Warfarin in this patient population is not without its risks, as some subgroups of PAH patients are at increased risk of bleeding complications based on their disease process alone. Assessing the true benefit of this widely used background therapy could allow clinicians and patients to more accurately weigh the risks and burden of anticoagulation with a true understanding of the survival benefit.

Feasibility and challenges of addressing this CQ or CC

Addressing this compelling question is indeed feasible through an NIH-sponsored randomized, double-blind, placebo-controlled trial of anticoagulation in patients with certain types of pulmonary arterial hypertension.

Name of idea submitter and other team members who worked on this idea Katherine Kroner, Michael Patrick Gray, PHA

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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 »

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

Details on the impact of addressing this CQ or CC

Pulmonary arterial hypertension is a heterogeneous condition generally characterized by high blood pressure in the lungs and increased pulmonary vascular resistance that leads to right heart failure if left untreated. Though some causes of PAH are seen in both adult and pediatric populations, some etiologies are seen exclusively in pediatric populations, including persistent pulmonary hypertension of the newborn, bronchopulmonary dysplasia, lung hypoplasia, and alveolar capillary dysplasia. Despite these differences in disease etiology, and known physiologic differences in pediatric populations, inhaled nitric oxide (iNO) in the acute setting is the only approved medication for PAH treatment in children. A number of issues have decreased pediatric PAH pharmaceutical research, including protection of the pediatric population as vulnerable subjects, principle of scientific necessity, balance of risk and potential benefit, parental consent/child assent, and feasibility of pediatric clinical trial design and implementation. Encouraging clinical trials of existing adult medications and potentially emerging, novel agents specifically for pediatrics—either through direct sponsorship or regulatory incentives—would not only lead to better outcomes for pediatric PAH patients, but potentially to a better and more comprehensive characterization of the developing pulmonary vascular system and right ventricle.

Feasibility and challenges of addressing this CQ or CC

Several challenges exist for addressing this critical challenge. First, there are a number of differences between conducting clinical research in pediatric populations compared to adult populations. This not only includes the broad items referenced above, but items as noted by Rose and colleagues related to clinical trial design and analysis including (1) accepted age-matched normal ranges for laboratory values; (2) requirements for the validation of clinical endpoints for the assessment of efficacy and safety; and (3) standards for long-term safety monitoring and pharmacovigilance (Rose K, et al. NEJM 2005). Sponsorship of this type of clinical research is a second concern, which could either be mitigated by direct support from the National Institutes of Health of pediatric PAH clinical trials or in regulatory changes incentivizing pediatric clinical research in rare diseases.

Name of idea submitter and other team members who worked on this idea Katherine Kroner, Michael Patrick Gray, PHA

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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 »

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

Details on the impact of addressing this CQ or CC

Understanding of many components of the PAH disease state have evolved significantly in the past thirty years. When initially described by an NIH registry, in a time where pulmonary transplantation was the only treatment for PAH, the average life expectancy of PAH patients was estimated to be 2.8 years. Since then, 12 PAH-targeted therapies have been approved by the FDA; these therapies primarily act by dilating the pulmonary arteries in order to allow blood to flow easier through the pulmonary vascular system. Despite these advances and complex therapies, long-term afterload reduction is not achievable in most PAH patients. Patients continue to die from right ventricular failure, highlighting the important relationship of the pulmonary arterial system and right ventricle. Little is known about how and why the RV progresses from hypertrophy to full RV failure, the diagnostic signs indicating early RV failure, and how best to intervene to support the failing ventricle. Knowledge in this area is critical, however, as the RV is able to recover in many patients with severe PAH after lung transplantation. The relationship between the lung vasculature and cardiac function, and specifically a characterization of RV failure, was included as a research opportunity in the Strategic Plan for Lung Vascular Research in an NHLBI-ORDR Workshop Report (Erzurum S, et al. 2010).

Feasibility and challenges of addressing this CQ or CC

The primary challenge of addressing this CQ on how right ventricular function can be improved in the setting of increased afterload is the comprehensive analysis and support that will need to be provided, spanning from basic to clinical science. To begin, strong support of biologic characterization of the right ventricle needs to be provided. The RV is distinctly different from the more comprehensively studied left ventricle (LV), and subsequently responds differently to changes in pressure, neurotransmitters, hormones, and pharmaceutical therapies to name only a few. However, when identified, these RV biologic distinctions can be further explored to develop a better understanding of RV failure and potential points of intervention.

Name of idea submitter and other team members who worked on this idea Katherine Kroner, Michael Patrick Gray, PHA

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Goal 3: Advance Translational Research

Increasing Regenerative Medical Strategies in Pulmonary Arterial Hypertension

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. Current PAH therapies mainly act of the vasoconstrictive component of the disease; however there is a widely accepted view that another contributor to the disease is an abnormal overgrowth of cells that line the pulmonary arteries, which... more »

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

Details on the impact of addressing this CQ or CC

In the past twenty years, 12 PAH targeted-therapies have been approved by the FDA. This increase in disease state awareness and in the treatment armamentarium have contributed to an increase in average survival from 2.8 years to an estimated 8-10 years. However, current treatments primarily address the vasoconstrictive component of the disease and do not address the now accepted theory of post-apoptotic overgrowth of hyperproliferative cells of the pulmonary vessels. A number of circulating stem and progenitor cells, derived from the bone marrow, have been identified that could have roles in repair of the pulmonary vascular system when interacting with the quickly, abnormally growing cells in the lung vessels. Work in this area has been named as a future research opportunity in the NHLBI-ORDR Strategic Plan for Lung Vascular Research (Erzurum S, et al. 2010).

Feasibility and challenges of addressing this CQ or CC

Basic and translational research support is needed—including high-throughput approaches such as phage display and large-scale proteomic analysis—to better understand the relationship between circulating bone marrow-derived cells, lung-resident stem and progenitor cells, and endothelial cells of the pulmonary arterial system.

Name of idea submitter and other team members who worked on this idea Pulmonary Hyeprtension Association, Michael Gray, Katie Kroner

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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 »

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

Details on the impact of addressing this CQ or CC

Since 2006, 12 medical therapies for PAH have been approved by the FDA, which have increased survival of this rare disease from around 2.8 years to approximately 9 years; these therapies primarily act by dilating the pulmonary arteries in order to reduce pulmonary vascular resistance to blood flow. However, patients continue to die from right ventricular failure, highlighting the important relationship of the pulmonary arterial system and right ventricle (RV). Despite patients ultimately dying from RV failure, little is known about the effect of the currently available PAH-targeted therapies on RV functional support. Prostacyclins, PDE5i, and sGC agonists are thought to enhance RV contractility—though the long-term effects remain unknown—while ERAs are thought to reduce it. The direct RV effect of some potential therapies targeting the pseudo-malignancy theory of PAH is a concern, as these therapies seek to reduce the hypertrophy and angiogenesis that may actually be supporting the adapting RV. Further, therapies targeting the ventricle directly have historically been centered on the LV—for example β-adrenergic receptor blockers and RAS inhibition—and either remain controversial or without data in the RV. There remains no identified RV-specific therapy to either provide support through increase contractility or molecularly prevent the progression from RV hypertrophy to ultimate failure.

Feasibility and challenges of addressing this CQ or CC

The primary challenge of addressing this CC on the lack of RV-targeted therapies for the treatment of PAH is the comprehensive analysis and support that will need to be provided, spanning from basic to clinical science. To begin, strong support of biologic characterization of the right ventricle needs to be provided. The RV is distinctly different from the more comprehensively studied left ventricle, and subsequently responds differently to autocrine, paracrine, neuroendocrine, pressure, and pharmaceutical changes to name only a few. However, when identified, these RV biologic distinctions can be translated and tested clinically to more comprehensively and appropriately treat the RV-arterial uncoupling ultimately leading to right heart failure: through both reduction in afterload and an increase in contractility.

Name of idea submitter and other team members who worked on this idea Katherine Kroner, Michael Patrick Gray, PHA

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