Clinical Trial Details
— Status: Recruiting
Administrative data
| NCT number |
NCT06330597 |
| Other study ID # |
21-5196 |
| Secondary ID |
|
| Status |
Recruiting |
| Phase |
|
| First received |
|
| Last updated |
|
| Start date |
July 17, 2021 |
| Est. completion date |
December 31, 2024 |
Study information
| Verified date |
March 2024 |
| Source |
University Health Network, Toronto |
| Contact |
Yishay Szekely, MD |
| Phone |
416-340-4800 |
| Email |
Yishay.szekely[@]uhn.ca |
| Is FDA regulated |
No |
| Health authority |
|
| Study type |
Observational
|
Clinical Trial Summary
This is an investigator-initiated, single-center, single-arm prospective study to compare
non-invasive hemodynamic assessment using transthoracic echocardiography (TTE) and lung
ultrasound (LUS) and hemodynamic assessment using PAC. Patients who have been hemodynamically
assessed using PAC will be invited to participate. Each patient will undergo TTE and LUS
immediately after first invasive assessment, and again daily after PAC assessments.
Description:
Background
Heart Failure
Approximately 600,000 Canadians are living with heart failure (HF) with 50,000 new patients
diagnosed each year. Once diagnosed, the median survival for HF patients is 1.7 years for men
and 3.2 years for women. As HF progresses, patients experience a worsening in symptom
severity, functional capacity, and quality of life. In addition, acute exacerbations of HF is
the most frequent cause of unscheduled hospital admissions. Almost 83% of all HF patients
will be hospitalized at least once and 43% hospitalized more than three times. However, the
mechanisms of HF decompensation are still unclear.
Most drugs (ACE-I/ARB/beta-blockers/MRA) used for the treatment of HF are prescribed because
of their ability to improve symptoms or survival. The target doses of these drugs are
generally selected on the basis of reported results from randomized controlled trials rather
than changes produced in cardiac monitoring of hemodynamics. Interestingly, hemodynamic
monitoring has been reportedly indicated in patients where it is difficult to determine their
volume status, in addition to those patients refractory to therapy. The ACC/AHA 2013
guidelines3 define the importance of invasive hemodynamic monitoring in patients with:
- severe clinical decompensation in which therapy is limited by elevated filling
pressures, hypoperfusion, and vascular tone
- persistent severe symptoms despite a trial of recommended therapies
- the needed or dependency for (or escalation of) pressor and inotropic therapy
Cardiogenic shock
Cardiogenic shock (CS) is a state of profound HF resulting in peripheral organ hypoperfusion,
injury and failure. The precipitating events leading to CS are diverse. Patients may
experience CS as a slow progression of chronic HF. More frequently however; patients
experience CS after an acute cardiac insult such as an acute myocardial infarction,
myocarditis or malignant ventricular arrhythmia. It is inevitable that patients who develop
CS will die if treatment is not initiated rapidly. In addition, if initial medical therapy
fails to maintain adequate cardiac output, initiation of mechanical circulatory support (MCS)
represents a life-saving strategy. There has been no established role for the use of invasive
hemodynamic measurements in the management of patients with HF. And yet, patients with CS
being considered for cardiac transplantation or placement of an MCS device are required to
undergo right-heart catheterization using pulmonary artery catheter (PAC), including an
assessment of right heart filling pressures, pulmonary artery pressures, left heart filling
pressures and cardiac output.
University Health Network (UHN) has the largest and most comprehensive MCS program in Canada.
As clinicians working at the Peter Munk Cardiac Centre (PMCC) we are caring for an
ever-increasing number of patients with profound refractory cardiogenic shock who require
invasive hemodynamic assessment.
Rationale for the study
The majority of patients who present to the CICU require invasive hemodynamic assessment as
part of their usual care. To assist in the management of these critically ill patients, the
investigators need a complete understanding of the hemodynamic status. Currently, this is
usually done invasively by placing a PAC. Alternatively, a non-invasive assessment using
transthoracic echocardiography (TTE) can be pursued.
Pulmonary artery Catheter
In early retrospective registries, there was no benefit shown for the use of PAC. However,
this had not been studied in patients with CS until recently. In a large retrospective study
of CS patients, the use of PAC was associated with improved survival (30% vs 38%). This study
provided the basis for the incorporation of PAC into CS treatment algorithms. In addition,
the guidelines and scientific statements limited recommendations regarding PAC to use in
patients with CS. The hemodynamic data obtained with a PAC can facilitate clinical
decision-making and allow customization of a treatment plan through the optimization of
medical therapy. However, as with any invasive diagnostic tool, the benefit must be balanced
against risks. Complications of PAC include central venous access-related adverse events
(<3.6%), arrhythmias and heart block (0.3% to 3.8%), and pulmonary artery rupture (0.02% to
0.03%).
Transthoracic echocardiography
TTE is a non-invasive ultrasound-based diagnostic tool that has the ability to also evaluate
and track both RV and LV hemodynamic status. There is conflicting evidence of the utility of
TTE monitoring in reflecting the hemodynamic changes in PAC-derived hemodynamic measurements.
Lung Ultrasound (LUS)
LUS allows for a rapid point-of-care evaluation of a number of conditions, including
pulmonary edema, lung consolidation, pleural effusion, and pneumothorax. High intra-rater and
inter-rater reproducibility, ease of learning, short exam duration (<5 min), and the
noninvasive nature of this technique makes it an advantageous point-of-care tool. LUS is
increasingly used in the acute care setting, and has improved diagnostic accuracy compared
with clinical assessment and chest radiography for the identification of a cardiac aetiology
in patients presenting to the emergency department with undifferentiated dyspnea.
Quantification of B-lines (vertical artefacts that result from an increase in interstitial
density) has been shown to be useful for the diagnosis, monitoring, and risk assessment of
patients with known or suspected ADHF. Either curvilinear or phased array transducers can be
used, typically at an imaging depth of 14-18 cm.
Hypothesis
The investigators hypothesize that non-invasive hemodynamic parameters derived from TTE would
be comparable to those obtained invasively by PAC in patient admitted to the CICU. The
investigators also hypothesize that there will be a strong correlation between intracardiac
pressures and the severity of pulmonary congestion as evaluated by LUS.
