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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT04207593
Other study ID # 2018-11SO*
Secondary ID
Status Completed
Phase Phase 2
First received
Last updated
Start date April 1, 2019
Est. completion date January 10, 2023

Study information

Verified date June 2024
Source Heidelberg University
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Treatment of O2 naïve patients with PAH will be included in this investigator-initiated trial (IIT) to assess efficacy and safety of oxygen substitution. Nocturnal oxygen substitution improved the 6MWD compared to placebo in one clinical trial in PAH patients. Due to the positive results in the treatment of patients with PAH, the initiation of this proof-of-concept study is justified.


Description:

Most patients with PAH, except those with congenital heart defects and pulmonary-to-systemic shunts, have minor degrees of hypoxemia at rest and during the night.Current recommendations including the pneumological guidelines for LTOT are based on evidence in patients with chronic obstructive pulmonary disease, as data for patients with PH are lacking: When O2 partial pressure is repeatedly <8 kPa (<60 mmHg, alternatively, 90% of O2 saturation), patients are advised to use O2 to achieve a saturation of >8 kPa. The use of ambulatory O2 can be considered when there is evidence of a symptomatic response or correction of exercise-induced desaturation. There are only few studies investigating the effect of oxygen supply in pulmonary hypertension, most of which merely investigate acute effects of O2 administration. Short-term oxygen administration has been shown to reduce mean pulmonary arterial pressure, pulmonary vascular resistance and to increase cardiac output in PAH patients. In one study, oxygen supply also reversed the progression of PH in patients with chronic obstructive pulmonary disease (COPD). One recent randomized-controlled trial indicates that O2 given during cardiopulmonary exercise significantly improves maximal work rate and endurance. Furthermore, nocturnal oxygen supply for one week significantly improved 6-minute walking distance in patients with PH, sleep-associated breathing difficulties, exercise performance during the day as well as cardiac repolarisation. Patients with Eisenmenger's syndrome gain little benefit from nocturnal O2 therapy. Whether these positive effects of O2 supplementation during exercise would translate into long-term improvements of exercise capacity, quality of life, hemodynamics and disease progression is not known to date. Up to now, there are no randomised studies suggesting that long-term O2 therapy is indicated or when it should be initiated.


Recruitment information / eligibility

Status Completed
Enrollment 20
Est. completion date January 10, 2023
Est. primary completion date January 1, 2023
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria Patients in both groups (n = 20; n=10 each group) with precapillary PH, WHO class I -IV (mPAP = 25 mm Hg, pulmonary arterial occlusion pressure =15 mm Hg), who are stable on optimized pharmacological treatment for at least six weeks and who do not suffer from other cardio-pulmonary disease will be recruited if arterial or capillary O2 partial pressure is (<60 mmHg; alternatively, 90% of O2 saturation) at rest and/or during physical activity (O2 partial pressure <60 mmHg pO2 90 % ). - men and women 18 years of age or older - patient is diagnosed with Pulmonary Arterial Hypertension (World Health Organization (WHO) Category Group 1 (by the WHO Clinical classification system)), including Idiopathic (IPAH), Heritable PAH (HPAH, Familial PAH), associated PAH (APAH) and CTEPH, with exceptions as noted in exclusion criteria - patient is willing and able to provide written informed consent - patient is willing and able to comply with the protocol, including required follow-up visits - Patients experiencing oxygen desaturations =90% (or pO2 below 60 mmHg) at rest and/or oxygen desaturations =90% (or pO2 below 60 mmHg) during physical activity - patient has a stable functional class of PAH with no changes of medication during the last two weeks before inclusion Exclusion Criteria - Patient is a female who is pregnant, nursing, or of child bearing potential and is not on a reliable form of birth control - patient with pulmonary venous hypertension - significant functional limitation in lung function tests (FEV1 <60%,TLC <60%) and CT morphological signs of pulmonary disease - significant left heart disease, requiring acute pharmacological or interventional treatment - unstable conditions requiring pharmacological or other treatment, intensive care or relevant severe concomitant disease - patient is enrolled, has participated within the last thirty days, or is planning to participate, in a concurrent drug and/or device study during the course of this clinical trial. Co-enrolment in concurrent trials is only allowed with documented pre-approval from the study manager that there is not a concern that co-enrolment could confound the results of this trial. - patient has been initiated on a new oral or parenteral PAH therapy in the last two weekspatient with a cardiac index (CI) <1.8L/min/m^2 - active smoking Status - patient with severe resting desaturation (repeatedly SpO2 <80%) or severe exercise-induced desaturation (SpO2 =75% for =10 minutes)

Study Design


Intervention

Drug:
Oxygen
Study medication will be oxygen (O2) in diverse concentrations, titrated until a SaO2>90% or pO2 >60 mmHg is achieved, for 20 patients vs. no supplemental O2 for 20 patients over 90 ± 7 days. Patients of the control group will be offered to participate in the interventional treatment arm after they have terminated the control period (partial cross-over; secondary intervention group). After the end of the study it is up to the judgment of the investigator to prescribe oxygen to all patients who might benefit from the treatment.

Locations

Country Name City State
Germany Centre for pulmonary hypertension of the Thoraxclinic at the University Hospital Heidelberg Heidelberg

Sponsors (1)

Lead Sponsor Collaborator
Heidelberg University

Country where clinical trial is conducted

Germany, 

References & Publications (1)

Ulrich S, Hasler ED, Saxer S, Furian M, Muller-Mottet S, Keusch S, Bloch KE. Effect of breathing oxygen-enriched air on exercise performance in patients with precapillary pulmonary hypertension: randomized, sham-controlled cross-over trial. Eur Heart J. 2 — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary 6-minute Walking distance To determine the benefits for PH patients from a long-term oxygen therapy (LTOT) given continuously during =16h/day for 12 weeks, measured by improvement of exercise performance assessed by the 6 minute walking distance (6MWD). Change from baseline to 6 months
Secondary Quality of life: physical Summation score; short form health Survey 36 (score from 0-100; higher scores indicating better outcome) To investigate effects of oxygen treatment on QoL, physical Summation score measured with SF-36 questionnaire Change from baseline to 6 months
Secondary Quality of life: mental Summation score; short form health Survey 36 (score from 0-100; higher scores indicating better outcome) To investigate effects of oxygen treatment on QoL, mental Summation score measured with SF-36 questionnaire Change from baseline to 6 months
Secondary Clinical worsening; frequency and type of clinical worsening events To assess time to worsening of oxygen saturation and time to clinical worsening clinical worsening events from baseline to 6 months
Secondary cardiac index in liters per minute per square meter (of body surface area) /(CI) Assessment of Cardiac Index during RHC Change from baseline to 6 months
Secondary systolic pulmonary arterial pressure Right heart catheterization Change from baseline to 6 months
Secondary mean pulmonary arterial pressure Right heart catheterization Change from baseline to 6 months
Secondary pulmonary arterial wedge pressure Right heart catheterization Change from baseline to 6 months
Secondary right atrial pressure Right heart catheterization Change from baseline to 6 months
Secondary pulmonary vascular resistance (PVR) Right heart catheterization Change from baseline to 6 months
Secondary cardiac output and ejection fraction (CO, HZV) Right heart catheterization Change from baseline to 6 months
Secondary cardiac index (CI) Right heart catheterization Change from baseline to 6 months
Secondary blood gas analysis from pulmonary artery central venous saturation Change from baseline to 6 months
Secondary Change in systolic pulmonary arterial pressure Echocardiography and Stress Doppler Echocardiography Change from baseline to 6 months
Secondary Echocardiography and Stress Doppler Echocardiography right ventricular pump function Change from baseline to 6 months
Secondary Peak oxygen consumption Cardiopulmonary exercise testing Change from baseline to 6 months
Secondary Peak oxygen consumption/kg body weight Cardiopulmonary exercise testing Change from baseline to 6 months
Secondary oxygen Saturation Cardiopulmonary exercise testing Change from baseline to 6 months
Secondary oxygen equivalent Cardiopulmonary exercise testing Change from baseline to 6 months
Secondary Cardiopulmonary exercise testing carbon dioxide equivalent Change from baseline to 6 months
Secondary Oxygen pulse Cardiopulmonary exercise testing Change from baseline to 6 months
Secondary ventilatory threshold Cardiopulmonary exercise testing Change from baseline to 6 months
Secondary respiratory reserve Cardiopulmonary exercise testing Change from baseline to 6 months
Secondary World Health Organization functional classification Functional assessment of pulmonary hypertension Change from baseline to 6 months
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