- Email: [email protected]
Radionuclide absolute left ventricular volumes during exercise: Validation in normals by Fick measurements
ABSTRACTS
THE
SEQUENCE
OF
J.A.
Abildskov,
M.J.
Burgess,
Lake
City,
MD, MD;
ta
largely
refractory suction
R.L.
is
but
and
established
Using
is
regional
coexisting
covery
times
and
All
opposite moved
cardial
RS
showed
of
action local
in
late
activation. tracks
of
AS.
the
from
greater
to
apex
reflecting
corresponds
evidence
of
to
+
44
in
early
in
the
direct
that
effects
slope
in dog
RS
of
in
the
that and
of is
known
is
In
RNA,
fore
with
ted and
the for
1.01;
CO
five
.86,
to
been
developed alone.
AGE
IN
ON
THE
COMPONENTS
NORMAL
OF
ATRIOVENTRICULAR
MAN
Dhirendra N. Das, MD; Jerome L. Fleg, FlD, FACC; Edward G. Lakatta, MD, Gerontology Research Center, National Institute on Aging, NIH, Baltimore, MD. It is not known whether the age-related increase in PR interval is due to slowed conduction proximal (PH) or distal to the His bundle (HV) or both. Using a microprocessor-assisted high resolution ECG (Marquette MAC-I) to signal average 512 cardiac cycles, we recorded high frequency, low amplitude ECG signals from the body surface of 63 normal volunteers ages 21 to 79 (G = 46.1t17.0 yr) from the Baltimore Longitudinal Study on Aging. All subjects were clinically free of heart disease, had a normal resting ECG, and negative maximal treadmill exercise test. His bundle potentials were identified in 53 individuals; the 10 persons in whom a His spike could not be identified did not differ in age or resting heart rate (HR) from those with His potentials, but had shorter PR intervals (131.5k15.3 vs 155.8k18.5 msec, pc.001). In those subjects with demonstrable His activity, the following relationships were found with age (in years): PR
=
139.6
msec
+
0.35
age,
r
=
.32,
pc.02
PH
=
101.1
msec
+
0.31
age,
r
=
.33,
pc.02
HV
=
38.3
msec
HR
=
72.6
beats/min
+
0.04
age, -0.01
r age,
=
.09, r
=
=
NS
-.19,
p
p
=
NS
Conclusions: 1. The success rate of recordinq surface His ootentials varies directly with the PR interval. 2. HV interval does not change with adult age. 3. The prolongation of PR interval seen with advancing age is due to conduction delay proximal to the His bundle.
1.0; .65
SV
L/min,
The
.77.
Nine an
LV
but
RAD
RAO
method the
ml,
.9C,
ESV 4.7X,
FP
RNA
studies
the
nongeometric
and
were
r value
validated
the
has
from
count
is be
re-
for
technique
can
were
estimate
1.01;
LVEF
A
be-
correla-
of
I)
V=
supine
minutes
of
average
be
RAfl silhou-
and
22.4
to
completely
relationship
completely on
counts
namely
ten
.70;
configurations was
of
LVV,
determinations
volume-to-count
configuration
A,
a
biplane
.93,
balvol-
total by
error
ml,
on that
determined
and
Conclusions:
allows
of
area,
standard
yielded
.97.
measurement
R,
shown
determined
EDV
mea-
count-
experiments
standard 11.6
a
underwent
reproducibility
of
on
indwelling,
and
.8l,
resolution.
supported
results
method
which 2)
experimentally,
OF
LVV
relied
nongeometric
was
patients
date,
has
silhouettes
have
(LVA)
been
To
RNA
strictly
the
catheter
Reproducibility
data
ticrystal
25
correlation,
evaluate
parameters
most
Vc
further
angiograms
The
samples.
a
ratio,
WI vol-
angiography
develop
relationship
Uni-
recently
(FP)
purpose,
respectively:
15.9 ml,
method.
EFFECT
study
regression
.98,
for
this
has
spatial
the
MO:
ventricular
poor
between
LV
pass
dimensions
to is
from
left
blood
based
this
and
This
LVA.
between follows
RNA
related
pigtail
biplane
to to
For
relationship
.6?ZA'+ FP
FP
This
traced
FROM
Milwaukee,
angiographic
due
volumes
counts.
analogous
peated
human
heart.
CONDUCTION
with
directly
maximum
as
epicardial
is opposite
findings of
exlarg-
endocardial
suggest
LVV
of first
designed
relationship.
loons
ettes
differences of
RS
AS
maps. by
of
from
Dymond,
radionuclide
radionuclide
was
D.
techniques
counting
errors
Vc=.32(R-6)'.35.
of
direction
suggested
study
volume
to
of
VOLUME
Ctr,
of
equilibrium
volume
and
Medical
measurement
requires
introduces
VENTRICULAR
MD,
Sinai
nongeometric
of
planimetry
ume epi-
differ-
derivative
time
features
DD
recovery
small same
is
and
patterns
Schmidt,
gated
which
This
to
suggest
local
(RNA)
using
measurement on
D.H.
Wisconsin-Mt
with
surement
precordial of
with
endocardial
these
of
(LVV)
which
ef-
normal
results
indirect, while
bound-
(DD)
Opposing
briefer
re-
maps
greater
the
eval-
bound-
from
durations
be
multiple
Findings
AS.
slopes
during
Although
This
by
reported
LEFT
ANGIOGRAPNY.
scintigraphic
ume
different
MS,
of
The
OF
RADIONUCLIDE
Grenier,
versity
repolarizacan
of
magnitude
expected
lo-
R.
MEASUREMENT
PASS
potential
transition
time.
en-
short
NONGEOMETRIC FIRST
limited
to
THURSDAY, APRIL 29, 1982 AM GUANTITATWE TECHNIGUES IN RADIONUCLIDE ANGIOGRAPHY 8:30- 10:00
gradients
of
of
by
is compatible
activation
first
wave
Daof
successive
patterns
that
base
maps
long these
reflects
acti-
indicate
distributions
T
with
recovery
potentials
RS
with
potential
RS
from
DD
Salt
measures
surface
individual
is determined
Endocardial
action
MD;
define.
ventricles
map
followed
durations
of
boundaries
serial DD
is opposite and
human
from
inferiorly
pected er
DD
thorax
recovery
ences
Green,
and
by
body
derivative but
polarity
usually
and
all
We calculated upper
in
particular of
removes
subjects.
RS
of
of
a
with
characteristics
includes
Calculation
to
Results
both
sensitivity
features
durations
to
gradients
RS
of
importance
equal
difficult
determined
uated.
fectively
has more
apex-base
AS.
right
Utah,
distributions
and
-
of
records.
RS
aries.
University
potential
recovery.
aries.
L.S.
animals
cal
major
VENTRICLES MD;
experimental
microelectrode
do-epicardial
maps
PhD.,
(RS)
periods,
and
HUMAN
Ishikawa,
Lux,
(AS) from
and
tion
IN
T.
sequence
sequence
is
FACC;
Utah.
Repolarization vation
REPOLARIZATION
unique
determined
for
the
mul-
views.
ABSOLUTE LEFT VENTRICULAR VOLUMES DURING RADIONUCLIDE EXERCISE : VALIDATION IN NORMALS BY FICK MEASUREMENTS. W. Wyns, .I. Melin, Y. Dehouck, R. Vanbutsele, M. Steels, L. Piret, J.M. Detry. University of Louvain, Brussels, Belgium, Radionuclide (Rn) absolute left ventricular volumes (LVV) measured at rest correlate well with the angiographic volumes. During exercise (Ex) however, no reference (Rf) values are available. In order to validate Ex isotopic data, eight healthy males had simultaneous Fick stroke volume (SV) measurements and gated blood pool studies (LAO 45") at rest (supine and upright) and during 60" upright Ex at three consecutive workloads (mean heart rate was 110, 147, 181 beats/min). Radionuclide (Rn) left ventricular volumes (LW) were calculated from end-diastolic (ED) and end-systolic (ES) counts corrected in each subject for background (perisystolic region of interest), decay and attenuation (e-pd) : b was .15 cm-l and d was the depth of the center of LV. The activity of a blood sample was used to calculate LVV from LV counts; LW were further corrected for hemoconcentration during Ex. Rf LW were calculated from the Fick SV and Rn ejection fraction. Mean Rf EDV at rest and during Ex was 164 ml (from 110 to 222 ml) and mean Rf ESV was 48 ml (from 7 to 89 ml). Rf and Rn LVV were closely correlated (r=.96, n=80, SEE= 15 ml) but Rn LW were significantly (p<.OOl) underestimated : Rn LVV = .78 Rf LVV + 1.7 ml. The correlation between Rn and Rf was better for ESV (r=.88, n=40, SEE=6 ml) than for EDV (r=.65, x-1=40,SEE=20 ml). Thus, our data acquired over a wide range of physiological LVV show that in normal men, Ex LW can reliably be measured from radionuclide studies.
March 1982
The American Journal of CARDIOLOGY
Volume 49
1031
THE
SEQUENCE
OF
J.A.
Abildskov,
M.J.
Burgess,
Lake
City,
MD, MD;
ta
largely
refractory suction
R.L.
is
but
and
established
Using
is
regional
coexisting
covery
times
and
All
opposite moved
cardial
RS
showed
of
action local
in
late
activation. tracks
of
AS.
the
from
greater
to
apex
reflecting
corresponds
evidence
of
to
+
44
in
early
in
the
direct
that
effects
slope
in dog
RS
of
in
the
that and
of is
known
is
In
RNA,
fore
with
ted and
the for
1.01;
CO
five
.86,
to
been
developed alone.
AGE
IN
ON
THE
COMPONENTS
NORMAL
OF
ATRIOVENTRICULAR
MAN
Dhirendra N. Das, MD; Jerome L. Fleg, FlD, FACC; Edward G. Lakatta, MD, Gerontology Research Center, National Institute on Aging, NIH, Baltimore, MD. It is not known whether the age-related increase in PR interval is due to slowed conduction proximal (PH) or distal to the His bundle (HV) or both. Using a microprocessor-assisted high resolution ECG (Marquette MAC-I) to signal average 512 cardiac cycles, we recorded high frequency, low amplitude ECG signals from the body surface of 63 normal volunteers ages 21 to 79 (G = 46.1t17.0 yr) from the Baltimore Longitudinal Study on Aging. All subjects were clinically free of heart disease, had a normal resting ECG, and negative maximal treadmill exercise test. His bundle potentials were identified in 53 individuals; the 10 persons in whom a His spike could not be identified did not differ in age or resting heart rate (HR) from those with His potentials, but had shorter PR intervals (131.5k15.3 vs 155.8k18.5 msec, pc.001). In those subjects with demonstrable His activity, the following relationships were found with age (in years): PR
=
139.6
msec
+
0.35
age,
r
=
.32,
pc.02
PH
=
101.1
msec
+
0.31
age,
r
=
.33,
pc.02
HV
=
38.3
msec
HR
=
72.6
beats/min
+
0.04
age, -0.01
r age,
=
.09, r
=
=
NS
-.19,
p
p
=
NS
Conclusions: 1. The success rate of recordinq surface His ootentials varies directly with the PR interval. 2. HV interval does not change with adult age. 3. The prolongation of PR interval seen with advancing age is due to conduction delay proximal to the His bundle.
1.0; .65
SV
L/min,
The
.77.
Nine an
LV
but
RAD
RAO
method the
ml,
.9C,
ESV 4.7X,
FP
RNA
studies
the
nongeometric
and
were
r value
validated
the
has
from
count
is be
re-
for
technique
can
were
estimate
1.01;
LVEF
A
be-
correla-
of
I)
V=
supine
minutes
of
average
be
RAfl silhou-
and
22.4
to
completely
relationship
completely on
counts
namely
ten
.70;
configurations was
of
LVV,
determinations
volume-to-count
configuration
A,
a
biplane
.93,
balvol-
total by
error
ml,
on that
determined
and
Conclusions:
allows
of
area,
standard
yielded
.97.
measurement
R,
shown
determined
EDV
mea-
count-
experiments
standard 11.6
a
underwent
reproducibility
of
on
indwelling,
and
.8l,
resolution.
supported
results
method
which 2)
experimentally,
OF
LVV
relied
nongeometric
was
patients
date,
has
silhouettes
have
(LVA)
been
To
RNA
strictly
the
catheter
Reproducibility
data
ticrystal
25
correlation,
evaluate
parameters
most
Vc
further
angiograms
The
samples.
a
ratio,
WI vol-
angiography
develop
relationship
Uni-
recently
(FP)
purpose,
respectively:
15.9 ml,
method.
EFFECT
study
regression
.98,
for
this
has
spatial
the
MO:
ventricular
poor
between
LV
pass
dimensions
to is
from
left
blood
based
this
and
This
LVA.
between follows
RNA
related
pigtail
biplane
to to
For
relationship
.6?ZA'+ FP
FP
This
traced
FROM
Milwaukee,
angiographic
due
volumes
counts.
analogous
peated
human
heart.
CONDUCTION
with
directly
maximum
as
epicardial
is opposite
findings of
exlarg-
endocardial
suggest
LVV
of first
designed
relationship.
loons
ettes
differences of
RS
AS
maps. by
of
from
Dymond,
radionuclide
radionuclide
was
D.
techniques
counting
errors
Vc=.32(R-6)'.35.
of
direction
suggested
study
volume
to
of
VOLUME
Ctr,
of
equilibrium
volume
and
Medical
measurement
requires
introduces
VENTRICULAR
MD,
Sinai
nongeometric
of
planimetry
ume epi-
differ-
derivative
time
features
DD
recovery
small same
is
and
patterns
Schmidt,
gated
which
This
to
suggest
local
(RNA)
using
measurement on
D.H.
Wisconsin-Mt
with
surement
precordial of
with
endocardial
these
of
(LVV)
which
ef-
normal
results
indirect, while
bound-
(DD)
Opposing
briefer
re-
maps
greater
the
eval-
bound-
from
durations
be
multiple
Findings
AS.
slopes
during
Although
This
by
reported
LEFT
ANGIOGRAPNY.
scintigraphic
ume
different
MS,
of
The
OF
RADIONUCLIDE
Grenier,
versity
repolarizacan
of
magnitude
expected
lo-
R.
MEASUREMENT
PASS
potential
transition
time.
en-
short
NONGEOMETRIC FIRST
limited
to
THURSDAY, APRIL 29, 1982 AM GUANTITATWE TECHNIGUES IN RADIONUCLIDE ANGIOGRAPHY 8:30- 10:00
gradients
of
of
by
is compatible
activation
first
wave
Daof
successive
patterns
that
base
maps
long these
reflects
acti-
indicate
distributions
T
with
recovery
potentials
RS
with
potential
RS
from
DD
Salt
measures
surface
individual
is determined
Endocardial
action
MD;
define.
ventricles
map
followed
durations
of
boundaries
serial DD
is opposite and
human
from
inferiorly
pected er
DD
thorax
recovery
ences
Green,
and
by
body
derivative but
polarity
usually
and
all
We calculated upper
in
particular of
removes
subjects.
RS
of
of
a
with
characteristics
includes
Calculation
to
Results
both
sensitivity
features
durations
to
gradients
RS
of
importance
equal
difficult
determined
uated.
fectively
has more
apex-base
AS.
right
Utah,
distributions
and
-
of
records.
RS
aries.
University
potential
recovery.
aries.
L.S.
animals
cal
major
VENTRICLES MD;
experimental
microelectrode
do-epicardial
maps
PhD.,
(RS)
periods,
and
HUMAN
Ishikawa,
Lux,
(AS) from
and
tion
IN
T.
sequence
sequence
is
FACC;
Utah.
Repolarization vation
REPOLARIZATION
unique
determined
for
the
mul-
views.
ABSOLUTE LEFT VENTRICULAR VOLUMES DURING RADIONUCLIDE EXERCISE : VALIDATION IN NORMALS BY FICK MEASUREMENTS. W. Wyns, .I. Melin, Y. Dehouck, R. Vanbutsele, M. Steels, L. Piret, J.M. Detry. University of Louvain, Brussels, Belgium, Radionuclide (Rn) absolute left ventricular volumes (LVV) measured at rest correlate well with the angiographic volumes. During exercise (Ex) however, no reference (Rf) values are available. In order to validate Ex isotopic data, eight healthy males had simultaneous Fick stroke volume (SV) measurements and gated blood pool studies (LAO 45") at rest (supine and upright) and during 60" upright Ex at three consecutive workloads (mean heart rate was 110, 147, 181 beats/min). Radionuclide (Rn) left ventricular volumes (LW) were calculated from end-diastolic (ED) and end-systolic (ES) counts corrected in each subject for background (perisystolic region of interest), decay and attenuation (e-pd) : b was .15 cm-l and d was the depth of the center of LV. The activity of a blood sample was used to calculate LVV from LV counts; LW were further corrected for hemoconcentration during Ex. Rf LW were calculated from the Fick SV and Rn ejection fraction. Mean Rf EDV at rest and during Ex was 164 ml (from 110 to 222 ml) and mean Rf ESV was 48 ml (from 7 to 89 ml). Rf and Rn LVV were closely correlated (r=.96, n=80, SEE= 15 ml) but Rn LW were significantly (p<.OOl) underestimated : Rn LVV = .78 Rf LVV + 1.7 ml. The correlation between Rn and Rf was better for ESV (r=.88, n=40, SEE=6 ml) than for EDV (r=.65, x-1=40,SEE=20 ml). Thus, our data acquired over a wide range of physiological LVV show that in normal men, Ex LW can reliably be measured from radionuclide studies.
March 1982
The American Journal of CARDIOLOGY
Volume 49
1031