deltatrials
Recruiting INTERVENTIONAL NCT02691689

Genes Associated With Development of Pulmonary Arterial Hypertension in Patients With Congenital Shunt Lesions

Prospective, Monocentric Pilot Study for the Identification of Known or Novel Genes Associated With Development of Pulmonary Arterial Hypertension in Patients With Congenital Shunt Lesions

Sponsor: Universitaire Ziekenhuizen KU Leuven

Interventions Genetic testing
Updated 13 times since 2017 Last updated: Apr 27, 2026 Started: Nov 1, 2015 Primary completion: Feb 1, 2027 Completion: Feb 1, 2027
This information is for research purposes only and is not medical advice. Consult a healthcare provider before making any medical decision.

Listed as NCT02691689, this observational or N/A phase trial focuses on Genetic Testing and Heart Defects, Congenital and remains actively recruiting participants. Sponsored by Universitaire Ziekenhuizen KU Leuven, it has been updated 13 times since 2015, reflecting substantial change activity. This study contributes longitudinal data to the cardiovascular research landscape.

Study Description(click to expand)

Pulmonary arterial hypertension (PAH) in patients with congenital heart disease (CHD) usually develops secondary to chronic volume overload of the pulmonary circulation following left to right shunt. This overload leads to elevated pulmonary artery pressure (PAP) and later to increased pulmonary vascular resistance. This causes pressure overload in the right heart, and thereby right ventricular and right atrial dysfunction, which may implicate considerable morbidity and even mortality. Since PAH nowadays is mostly detected when symptoms occur and PAP are elevated, the disease already evolved to an advanced (partially irreversible) stage and treatment is often initiated too late. Next to environmental risk factors, the investigators believe that there is an important role of genetic predisposition to develop PAH in CHD. In the past, certain genes have been identified that play a role in the development of atrial septal defect (ASD). There are also a lot of genes identified that play a role in PAH. Until now, not many research groups have studied a genetic link between CHD and PAH development. But it becomes more and more clear that there often is a discrepancy between the severity of PAH and the CHD, where it is useful to screen for PAH gene mutations....

Pulmonary arterial hypertension (PAH) in patients with congenital heart disease (CHD) usually develops secondary to chronic volume overload of the pulmonary circulation following left to right shunt. This overload leads to elevated pulmonary artery pressure (PAP) and later to increased pulmonary vascular resistance. This causes pressure overload in the right heart, and thereby right ventricular and right atrial dysfunction, which may implicate considerable morbidity and even mortality.

Since PAH nowadays is mostly detected when symptoms occur and PAP are elevated, the disease already evolved to an advanced (partially irreversible) stage and treatment is often initiated too late.

Next to environmental risk factors, the investigators believe that there is an important role of genetic predisposition to develop PAH in CHD. In the past, certain genes have been identified that play a role in the development of atrial septal defect (ASD). There are also a lot of genes identified that play a role in PAH. Until now, not many research groups have studied a genetic link between CHD and PAH development. But it becomes more and more clear that there often is a discrepancy between the severity of PAH and the CHD, where it is useful to screen for PAH gene mutations. The investigators hypothesize that mutations in some of these known PAH genes or in other, still unidentified, genes are partly responsible for the phenotypic variability in patients with congenital shunt lesions, where some develop PAH and others do not. If a genetic predisposition for PAH in CHD could be identified, then genetic screening could be a useful additional tool for early detection of patients at risk of pulmonary vascular disease and PAH development, with new opportunities for prevention or early treatment.

Status Flow

~Jan 2017 – ~Jun 2018 · 17 months · monthly snapshot~Jun 2018 – ~Jun 2019 · 12 months · monthly snapshot~Jun 2019 – ~Jan 2021 · 19 months · monthly snapshot~Jan 2021 – ~May 2021 · 4 months · monthly snapshot~May 2021 – ~Jun 2022 · 13 months · monthly snapshot~Jun 2022 – ~Nov 2022 · 5 months · monthly snapshot~Nov 2022 – ~Jun 2023 · 7 months · monthly snapshot~Jun 2023 – ~Jul 2024 · 13 months · monthly snapshot~Jul 2024 – ~Sep 2024 · 2 months · monthly snapshot~Sep 2024 – ~Jan 2025 · 4 months · monthly snapshot~Jan 2025 – ~Apr 2025 · 3 months · monthly snapshot~Apr 2025 – ~May 2026 · 13 months · monthly snapshotMay 4, 2026 – present · 2 months · daily API

Change History

13 versions recorded
  1. May 4, 2026 — Present [daily]

    Recruiting

    Phase: NANone

  2. Apr 2025 — May 2026 [monthly]

    Recruiting NA

  3. Jan 2025 — Apr 2025 [monthly]

    Recruiting NA

  4. Sep 2024 — Jan 2025 [monthly]

    Recruiting NA

  5. Jul 2024 — Sep 2024 [monthly]

    Recruiting NA

Show 8 earlier versions
  1. Jun 2023 — Jul 2024 [monthly]

    Recruiting NA

  2. Nov 2022 — Jun 2023 [monthly]

    Recruiting NA

  3. Jun 2022 — Nov 2022 [monthly]

    Recruiting NA

  4. May 2021 — Jun 2022 [monthly]

    Recruiting NA

    Status: Unknown StatusRecruiting

  5. Jan 2021 — May 2021 [monthly]

    Unknown Status NA

  6. Jun 2019 — Jan 2021 [monthly]

    Unknown Status NA

    Status: RecruitingUnknown Status

  7. Jun 2018 — Jun 2019 [monthly]

    Recruiting NA

  8. Jan 2017 — Jun 2018 [monthly]

    Recruiting NA

    First recorded

Nov 2015

Trial started

Per CT.gov start date — pre-dates our first snapshot

Eligibility Summary

Pulmonary arterial hypertension (PAH) in patients with congenital heart disease (CHD) is associated with considerable morbidity and even mortality. Next to environmental risk factors, the investigators believe that there is an important role of genetic predisposition to develop PAH in CHD. There often is a discrepancy between the severity of PAH and the CHD, where it is useful to screen for PAH gene mutations. The investigators hypothesize that the genotype is partly responsible for the phenotypic variability in patients with congenital shunt lesions, where some develop PAH and others do not. If a genetic predisposition for PAH in CHD could be identified, then genetic screening could be a useful additional tool for early detection of patients at risk of pulmonary vascular disease and PAH development, with new opportunities for prevention or early treatment.

Contact Information

Sponsor contact:
  • Universitaire Ziekenhuizen KU Leuven
Data source: ClinicalTrials.gov

For direct contact, visit the study record on ClinicalTrials.gov .

Study Locations