Heart Failure Clinical Trial
To compare the efficacy of Pulmonary Artery Catheterization (PAC)-directed treatment strategy to a non-invasive treatment strategy on morbidity and mortality in patients with severe, class IV New York Heart Association (NYHA) congestive heart failure. A secondary objective was to determine costs and resource utilization of PAC-directed treatment strategy compared to non-invasive treatment strategy.
BACKGROUND:
Congestive heart failure constitutes one of the major categories of morbidity, particularly
in the elderly, and is responsible for the utilization of significant resources, including a
large number of hospitalizations (estimated at 800,000 to 2.3 million per year) and related
health care costs. In 1993, 4.7 million Americans carried the diagnosis of CHF, and about
400,000 new cases are diagnosed every year. It is estimated that there are 800,000 to 1.2
million CHF patients with NYHA class III-IV symptoms. The diagnosis and treatment of CHF and
its episodes of decompensation can be facilitated by pulmonary artery catheter use, but its
efficacy is highly dependent on the physician's experience in the treatment of such
patients. Recently, concern has been raised about the benefits of PAC, also known as
Swan-Ganz catheterization.
In response to concerns about the benefits and safety of PAC, the NHLBI and the Food and
Drug Administration (FDA) co-sponsored a workshop in August 1997 entitiled "Pulmonary Artery
Catheterization and Clinical Outcomes (PACCO)". The purpose of the workshop was to provide
an objective assessment of the state-of-the-science of PAC and its various uses. Experts in
critical care, pulmonary medicine, cardiovascular medicine, surgery, pediatric cardiology,
nursing, biostatistics, ethics, and medical economics identified several important clinical
areas as priorities for clinical trials; persistent/refractory congestive heart failure
(NYHA class IV) received top priority to test whether a PAC-directed treatment strategy
achieves a better and less costly long-term outcome compared to a non-invasive treatment
strategy. In addition to providing data on outcome, hospital utilization, and costs, the
study would have additional benefits. For example, it would provide a clear benchmark for
testing other technologies, now in developmental stages, that could supplant PAC in the
future. Finally, the study would provide the basis for developing competency requirements
for physicians, nurses, and others who insert and use pulmonary artery catheters, which was
a strong recommendation of the PACCO Workshop.
DESIGN NARRATIVE:
Patients were randomized into two treatment arms: A total of 218 patients were assigned into
a treatment strategy without PAC hemodynamic monitoring (Usual Group) and 215 patients into
a treatment strategy guided by PAC (Hemodynamic Group). The primary endpoint was the
combined endpoint of rehospitalization and death.
For all patients randomized, therapy was tailored to the ultimate goal of discharge on an
oral medical regimen to provide better relief of CHF symptoms, to reduce filling pressures
and to maintain adequate perfusion. These goals were the same for both groups, but in the
Usual Group therapy was adjusted according to clinical assessment alone, while in the
PAC-directed group, actual measurement of hemodynamics was used to supplement clinical
assessment. The oral medical regimen for discharge was designed by the attending heart
failure physician based on the standard available medications of angiotensin converting
enzyme inhibitors (ACEI), nitrates, hydralazine, furosemide and other diuretic agents.
Intravenous diuretics were used when major diuresis was desired with subsequent change to
oral diuretics at least 48 hours before discharge. Physicians could also use low dose
infusions of dopamine or dobutamine to facilitate diuresis. Intravenous nitroprusside could
be used in either group.
In the Usual Group, therapy was tailored to the following goals: a) absence of evidence of
elevated intracardiac filling pressures; relief of orthopnea; relief of abdominal discomfort
attributed to hepatosplenchnic congestion; resolution of peripheral edema, ascites, and
rales; reduction of jugular venous distension to 5 cm or less above sternal angle; and b)
adequate peripheral perfusion; warm extremities, if they could be achieved, and pulse
pressure 25 percent or more , or, if less, the greatest which could be achieved. Either
during or after hemodynamic monitoring, therapy could be adjusted to achieve the clinical
goals above and further adjusted, if necessary to maintain adequate blood pressure and renal
function for all patients. Patients for whom therapy was adjusted without hemodynamic
monitoring could crossover for hemodynamic monitoring at any time they reached certain
criteria. The criteria for crossover included: need to add intravenous inotropic agents
above 3 mcg/kg/minute to prevent symptomatic hypotension; repeated inability to discontinue
low-dose inotropic agents; or renal insufficiency.
In the PAC-directed hemodynamic arm, therapy was adjusted to achieve specific hemodynamic
goals in addition to the clinical goals in the Usual Group. These goals could include:
pulmonary capillary wedge pressure (PCWP) 15 mm Hg or less; right atrial pressure 8mm Hg or
less unless PCWP is 15 mm Hg or less; maintenance of systolic blood pressure of 80 or above,
except for occasional transient decreases to lower levels after oral medications.
Regardless of the goals by which therapy was adjusted in the hospital, the following
conditions were met prior to discharge: 24 hours on oral medications alone without major
medication change except for anticoagulation, and 48 hours after discontinuation of any
intravenous inotropic medications; stable fluid balance; patient education; and home
services and follow-up appointment.
Post-discharge management was the same for both groups, according to standard practice.
Patients were followed for adjustment of CHF medications in their heart failure clinics at
one to two weeks, four weeks, three months, and six months and more often if clinically
indicated. There was a minimum of six months of follow-up.
Data collection included: blood pressure and weight at each visit; electrocardiogram at
pre-randomization visit and at each hospitalization; serum electrolytes; echocardiogram at
randomization, at hospitalization discharge, and at six month follow-up; exercise stress
tests during index hospitalization and six month follow-up; natriuretic hormone profile at
randomization, discharge, and six month follow-up; medical history, endpoints, side effects,
hospitalizations and quality of life; and compliance with protocol.
The study consisted of a Clinical Coordinating Center which included a network of 26
clinical units, and an echocardiographic core laboratory. The Protocol developed extended
for six months, patient recruitment extended for 48 months, follow-up for six months, and
data analysis for six months.
The NHLBI has awarded R01HL67691 in April 2001 as an ancillary study. The study entitled
"ESCAPE Mechanistic Substudies" has its own site on this database.
;
Allocation: Randomized, Primary Purpose: Treatment
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