Clinical Trials Logo

Clinical Trial Summary

In preparation for a future mechanistic study, investigators now propose to test the specific hypothesis that carnitine consumption is not reduced in PAH, that plasma carnitine levels are stable over time in PAH and that carnitine supplementation in PAH can increase plasma carnitine and thereby delivery of carnitine to the RV and possibly improve RV function. Investigators propose three aims in humans to test this mechanistic hypothesis, 1) Measure the oral consumption of carnitine in human PAH. This aim will use food diaries and carnitine supplement use questionnaires in PAH patients to test the hypothesis that carnitine supplementation is uncommon in PAH and food consumption is adequate. Aim 2) Measure the stability over time in plasma carnitine levels in PAH patients. This aim will test the hypothesis that plasma carnitine is not affected by disease severity and is stable over time in PAH patients. Investigators will measure plasma carnitine concentration and markers of fatty acid oxidation at Visit 1 and Visit 2. 3) Perform a mechanistic pilot study using carnitine supplementation to enhance circulating carnitine in PAH. This small pilot study will test the hypothesis that carnitine supplementation increases plasma carnitine (primary endpoint) and will test for physiologic effects using six minute walk testing, echocardiography and plasma markers of lipid metabolism.


Clinical Trial Description

Right ventricular (RV) failure is the most common cause of death in pulmonary arterial hypertension (PAH). No RV-specific therapies are available, in part because the underlying mechanisms of RV failure are poorly understood. A growing body of evidence suggests that metabolic abnormalities may underlie RV dysfunction in PAH. Interventions against metabolic dysfunction in PAH may protect against RV failure. Investigators in the PH research group have identified abnormalities in fatty acid (FA) metabolism in PAH that overlap considerably with disorders of carnitine deficiency. Carnitine links to an acyl group, which is required to transport FAs across the mitochondrial membrane to undergo beta-oxidation, the predominate source of ATP production in the human heart. Inborn errors of carnitine metabolism and acquired carnitine deficiency are associated with cardiomyopathy. Acquired deficiency primarily occurs via binding of carnitine to excess circulating fatty acids or renal wasting. Carnitine deficiency and PAH are both associated with insulin resistance, myocardial lipotoxicity, and mitochondrial oxidative stress. Carnitine supplementation in humans and animal models of cardiometabolic dysfunction reverses these abnormalities but has not been studied in PAH. In published work, investigators found that in RV samples from humans with PAH, there is a marked (up to 300-fold) reduction in acylcarnitines along with increased long-chain fatty acids. Investigators also a found a two-fold increase in circulating fatty acids FAs in humans with PAH, indicating increased delivery to the myocardium. As a consequence of unchecked fatty acid accumulation, investigators observed 7-fold higher RV lipid content and markers of lipotoxicity. These observations suggest there is inadequate carnitine substrate to bind fatty acids and facilitate their transport across the mitochondrial membrane in the human PAH RV. The investigator's overarching hypothesis is that in human PAH, RV function can be improved by augmenting carnitine substrate availability to improve outcomes. In preparation for a future mechanistic study, Vanderbilt PAH research investigators now propose to test the specific hypothesis that carnitine consumption is not reduced in PAH, that plasma carnitine levels are stable over time in PAH and that carnitine supplementation in PAH can increase plasma carnitine and thereby delivery of carnitine to the RV and possibly improve RV function. Investigators propose three aims in humans to test this mechanistic hypothesis, 1) Measure the oral consumption of carnitine in human PAH. This aim will use food diaries and carnitine supplement use questionnaires in PAH patients to test the hypothesis that carnitine supplementation is uncommon in PAH and food consumption is adequate. Aim 2) Measure the stability over time in plasma carnitine levels in PAH patients. This aim will test the hypothesis that plasma carnitine is not affected by disease severity and is stable over time in PAH patients. The study will measure plasma carnitine concentration and markers of fatty acid oxidation at Visit 1 and Visit 2. 3) Perform a mechanistic pilot study using carnitine supplementation to enhance circulating carnitine in PAH. This small pilot study will test the hypothesis that carnitine supplementation increases plasma carnitine (primary endpoint) and will test for physiologic effects using six minute walk testing, echocardiography and plasma markers of lipid metabolism. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT04908397
Study type Interventional
Source Vanderbilt University Medical Center
Contact
Status Completed
Phase Phase 1
Start date September 29, 2021
Completion date June 30, 2023

See also
  Status Clinical Trial Phase
Completed NCT04076241 - Effects of Adding Yoga Respiratory Training to Osteopathic Manipulative Treatment in Pulmonary Arterial Hypertension N/A
Completed NCT05521113 - Home-based Pulmonary Rehabilitation With Remote Monitoring in Pulmonary Arterial Hypertension
Recruiting NCT04972656 - Treatment With Ambrisentan in Patients With Borderline Pulmonary Arterial Hypertension N/A
Active, not recruiting NCT03288025 - Pulmonary Arterial Hypertension Improvement With Nutrition and Exercise (PHINE) N/A
Completed NCT01959815 - Novel Screening Strategies for Scleroderma PAH
Recruiting NCT04266197 - Vardenafil Inhaled for Pulmonary Arterial Hypertension PRN Phase 2B Study Phase 2
Active, not recruiting NCT06092424 - High Altitude (HA) Residents With Pulmonary Vascular Diseseases (PVD), Pulmonary Artery Pressure (PAP) Assessed at HA (2840m) vs Sea Level (LA) N/A
Enrolling by invitation NCT03683186 - A Study Evaluating the Long-Term Efficacy and Safety of Ralinepag in Subjects With PAH Via an Open-Label Extension Phase 3
Terminated NCT02060487 - Effects of Oral Sildenafil on Mortality in Adults With PAH Phase 4
Terminated NCT02253394 - The Combination Ambrisentan Plus Spironolactone in Pulmonary Arterial Hypertension Study Phase 4
Withdrawn NCT02958358 - FDG Uptake and Lung Blood Flow in PAH Before and After Treatment With Ambrisentan N/A
Terminated NCT01953965 - Look at Way the Heart Functions in People With Pulmonary Hypertension (PH) Who Have Near Normal Right Ventricle (RV) Function and People With Pulmonary Hypertension Who Have Impaired RV Function. Using Imaging Studies PET Scan and Cardiac MRI. Phase 2
Unknown status NCT01712997 - Study of the Initial Combination of Bosentan With Iloprost in the Treatment of Pulmonary Hypertension Patients Phase 3
Withdrawn NCT01723371 - Beta Blockers for Treatment of Pulmonary Arterial Hypertension in Children Phase 1/Phase 2
Not yet recruiting NCT01649739 - Vardenafil as add-on Therapy for Patients With Pulmonary Hypertension Treated With Inhaled Iloprost Phase 4
Completed NCT01548950 - Drug Therapy and Surgery in Congenital Heart Disease With Pulmonary Hypertension N/A
Completed NCT01165047 - Nitric Oxide, GeNO Nitrosyl Delivery System Phase 2
Completed NCT00902174 - Imatinib (QTI571) in Pulmonary Arterial Hypertension Phase 3
Completed NCT00963001 - Effect of Food on the Pharmacokinetics of Oral Treprostinil Phase 1
Completed NCT00942708 - Safety and Efficacy of Fluoxetine in Pulmonary Arterial Hypertension Phase 2