Effect of iNO in Patients With Submassive and Massive PE

Pulmonary Embolism Clinical Trial

Official title: Study to Evaluate the Role of Inhaled Nitric Oxide (iNO) on Pulmonary Hemodynamics in Patients With Intermediate/Submassive and Massive Pulmonary Embolism (PE)

Status Withdrawn

Clinical Trial Summary

A single center study to evaluate the effect of inhaled nitric oxide (iNO) on pulmonary dynamics in patients presenting with imaging confirmed intermediate/submassive or massive pulmonary embolism (PE). The target enrollment is 20 subjects at Ronald Reagan UCLA Medical Center. PE patients undergoing catheter-based intervention will be administered iNO during their intervention and pulmonary hemodynamic measurement will be measured before, during, and after iNO administration (Invasive Cohort). Patients who are not undergoing catheter-based intervention will also be administered iNO and will have pulmonary hemodynamics, blood pressure, and heart rate measured non-invasively (Non-Invasive Cohort).

Clinical Trial Description

This is a single center study to evaluate patients presenting with imaging confirmed intermediate/submassive or massive pulmonary embolism (PE). The investigators anticipate to enroll a total of 20-25 subjects at Ronald Reagan UCLA Medical Center.

After informed consent is obtained, the subject will proceed under one of two study intervention arms depending on his or her treatment plan. If the patient requires invasive treatment such as interventional thrombectomy or catheter-directed thrombolysis (CDT), the participant will be enrolled in the interventional radiology arm (invasive cohort). If the patient requires non-invasive treatment such as anticoagulation therapy, deep vein thrombosis (DVT) thrombectomy, or inferior vena cava (IVC) filter, the participant will be enrolled in the non-intervention arm (non-invasive cohort).

Interventional Radiology Arm (Invasive Cohort):

The following procedure will be performed:

Interventional radiology (IR) will perform a right heart catheterization (RHC) as part of a planned IR procedure. Patient arrives in the IR suite and is positioned flat with head of bed between flat and 45 degrees. O2 amount and modality, blood pressure, pressor name, dose, and rate will be recorded. If the patient is intubated, the sedation/analgesia drug name(s), dose(s), and rate(s) will be recorded. If the patient is not intubated, name and dose amount of sedation will be recorded. Arterial blood gas will be obtained if an A-line is placed.

Bedside apical 4 chamber view (RV:LV ratio) will be recorded using an ultrasound device, and noninvasive RV data will be obtained with Edwards ClearSight system and Edwards EV1000 clinical platform.

Edwards ClearSight system and Edwards EV1000 clinical platform is a finger probe worn with a supportive forearm strap. Hemodynamic measurements from the finger cuff will be recorded at intervals.

Novel non-invasive methods of estimating stroke volume and associated cardiac output have the potential to revolutionize PE risk stratification and care. Non-invasive blood pressure (NIBP) monitors can even measure stroke volume beat to beat, allowing for continuous evaluation of cardiac function. NIBP systems are typically composed of a finger cuff with an inflatable bladder, pressure sensors, and light sensors. An arterial pulse contour is formed using the volume clamp method of blood pressure measurement combined with calibration and brachial pressure reconstruction algorithms. The stroke volume with each heart beat can be estimated as the area under the systolic portion of the blood pressure curve divided by the afterload. A limitation of using NIBP monitors to measure stroke volume is their relative inaccuracy, as they are calculations of an indirect measurement. However, NIBP monitors¬ may improve clinical care of PE because they allow for assessment of dynamic cardiac changes in real time. Detection of worsening stroke volume in acute PE could inform providers of impending cardiac collapse, and improvement of stroke volume may function as a positive prognostic factor or marker of therapeutic success. Use of NIBP monitors during acute PE to identify clinically significant changes in cardiac function may advance both PE prognostication and management.

The Butterfly iQ+ (one possible ultrasound device which may be used) is a single-probe, whole-body ultrasound device.

After initial measurements, inhaled nitric oxide (iNO) will be administered at 30 ppm for 3 minutes. The same measurements will be obtained/calculated before, during iNO administration, and after iNO has been withheld for 2 minutes.

All major changes in pressures, sedation, vital signs, and major events will be recorded throughout the RHC procedure.

iNO is scheduled to be weaned off post RHC but the IR/anesthesia team may choose to keep the patient on iNO at their clinical discretion. The patient will then proceed to their standard of care IR procedures with planned intervention.

Non-intervention Arm (Non-invasive Cohort):

Vitals including O2 amount and modality, blood pressure, pressor name, dose, and rate will be recorded. If the patient is intubated, the name, dose, and rate of sedation and analgesia will be recorded. If the patient is not intubated, name and dose amount of sedation will be recorded. Arterial blood gas will be obtained if an A-line is placed. Bedside apical 4 chamber view will be recorded (RV:LV ratio) with an ultrasound device, and noninvasive RV data will be obtained with Edwards ClearSight system and Edwards EV1000 clinical platform. This data will be obtained before, during iNO administration, and after iNO has been withheld for 2 minutes.

If a subject initially enrolled in the Non-intervention Arm (Non-invasive Cohort) needs an invasive procedure, they will be removed from the study. ;

Related Conditions & MeSH terms

• Embolism
• Pulmonary Embolism
• Pulmonary Embolism Subacute Massive

• NCT number: NCT04996667
• Study type: Interventional
• Source: University of California, Los Angeles
• Status: Withdrawn
• Phase: Phase 2
• Start date: June 1, 2021
• Completion date: June 30, 2023