(Circulation. 1997;96:1874-1881.)
© 1997 American Heart Association, Inc.
Articles |
Phasic Coronary Flow Characteristics in Patients With Constrictive Pericarditis
Comparison With Restrictive Cardiomyopathy
From the Department of Cardiology (T.A., K.Y., A.Y., T.H., T.T., S.M.), Kobe General Hospital, and the First Department of Internal Medicine (J.Y.), Osaka, Japan.
Correspondence to Takashi Akasaka, MD, Department of Cardiology, Kobe General Hospital, Minatojima-nakamachi 4-6, Chuo-ku, Kobe 650, Japan.
Background Phasic coronary flow characteristics have been reported in patients with aortic valve disease and hypertrophic cardiomyopathy. The purpose of this study was to assess the differences in coronary flow characteristics between patients with constrictive pericarditis and those with restrictive cardiomyopathy.
Methods and Results The study populations consisted of 7
case patients with constrictive pericarditis, 8 with restrictive
cardiomyopathy, and 11 control subjects with chest
pain and normal coronary arteries. Five minutes after injection
of 3 mg of isosorbide dinitrate, phasic coronary flow velocity
patterns were analyzed in the proximal segment of the
angiographically normal left anterior descending coronary
artery at rest using a 0.014-in, 15-MHz Doppler guidewire.
Coronary flow reserve was obtained from the ratio of
adenosine-induced (0.14 mg ·
kg-1 · min-1
IV) hyperemic/baseline time-averaged peak velocity. Although in
case patients with constrictive pericarditis and restrictive
cardiomyopathy maximal hyperemic
time-averaged peak velocity (21±8 and 31±17 versus 60±19 cm/s,
respectively; P<.001) and coronary flow reserve
(1.3±0.4 and 1.6±0.6 versus 3.6±0.4, respectively,
P<.001) were significantly lower than in control subjects,
there were no significant differences in these indexes between the two
groups of case patients. Velocity half-time of diastolic
flow velocity corrected by 
, which indicates deceleration
of diastolic flow, in the groups of case patients with
constrictive pericarditis and restrictive
cardiomyopathy was significantly less than that in
control subjects (6.2±2.6 and 10.6±1.5 versus 16.9±2.7,
respectively; P<.001); this was also significantly smaller
in constrictive pericarditis than restrictive
cardiomyopathy (P<.001). This index
<9.5 could distinguish constrictive pericarditis from restrictive
cardiomyopathy with a sensitivity of 86% and a
specificity of 88%. Furthermore, time from the beginning of
diastole to diastolic peak velocity corrected
by indicating acceleration of diastolic flow
velocity in constrictive pericarditis was significantly less than that
in restrictive cardiomyopathy and control subjects
(2.8±1.2 versus 4.8±0.8 and 4.4±0.6, respectively;
P<.001).
Conclusions Although coronary flow reserve is limited in both constrictive pericarditis and restrictive cardiomyopathy because of restriction of hyperemic response, rapid acceleration and more rapid deceleration of diastolic flow velocity are more characteristic in constrictive pericarditis than in restrictive cardiomyopathy.
Key Words: pericarditis • cardiomyopathy • diagnosis • coronary flow
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