DELAYED RECOVERY OF CARDIOVASCULAR AUTONOMIC
FUNCTION AFTER MITRAL VALVE SURGERY
Evidence for Direct Trauma?
R. Bauernschmitt
1
, B. Retzlaff
1
, N. Wessel
2
, H. Malberg
3
, G. Brockmann
1
C. Uhl
1
and R Lange
1
1
German Heart Center Munich,
2
University of Potsdam,
3
University of Karlsruhe
Keywords: Biosignal processing, Baroreflex response, surgery.
Abstract: Baroreflex Sensivity (BRS) and heart rate variability (HRV) have significant influence on the patients’
prognosis after cardiovascular events. The following study was performed to assess the differences in the
postoperative recovery of the autonomic regulation after mitral valve (MV) surgery and aortic valve (AV)
surgery with heart-lung machine. 43 consecutive male patients were enrolled in a prospective study; 26
underwent isolated aortic valve surgery and 17 isolated mitral valve surgery. Blood pressure, ECG and
respiratory rate were recorded the day before, 24h after surgery and one week after surgery. BRS was
calculated according to the Dual Sequence Method, time and frequency parameters of HRV were calculated
using standard methods. There were no major differences between the two groups in the preoperative
values. At 24 h a comparable depression of HRV and BRS in both groups was observed, while at 7 days
there was partial recovery in AV-patients, which was absent in MV-patients: p (AV vs. MV)<0,001. While
the response of the autonomic system to surgery is similar in AV- and MV-patients, there obviously is a
decreased ability to recover in MV-patients, probably attributing to traumatic lesions of the autonomic
nervous system by opening the atria. Ongoing research is required for further clarification of the
pathophysiology of this phenomenon and to establish strategies to restore autonomic function.
1 INTRODUCTION
The well-known depression of cardiovascular
autonomic function following cardiac surgery is
related to a variety of reasons like anaesthesia and
the use of the heart-lung-machine (Brown et al.,
2003), (Bauernschmitt et al., 2004). The role of
direct surgical trauma to the autonomic nerves (AN)
is still unclear. The following study was performed
comparing patients with isolated aortic valve
replacement (AV, the surgical trauma to AN is
considered to be low) or isolated mitral valve
surgery (MV, high surgical trauma to AN is
expected). With regard to the hypothesis that there is
a traumatic lesion of the cardiovascular autonomic
nervous system by opening the atria we observe the
postoperative recovery of AV- and MV-patients.
2 METHODS
43 consecutive male patients were analysed. 26 of
them underwent aortic valve surgery and 17 of them
mitral valve surgery. The mean age of AV-patients
was 63 +/- 13 years and the mean age of MV-
patients 59 +/- 12 years. Patients with concomitant
coronary heart disease were excluded for the known
effects of atherosclerosis. Perioperative medication
was standardized.
Anaesthesia was standardized; induction was
performed with sufentanil and midazolam. For
maintaining narcosis, a continuous infusion of
propofol was given; muscle relaxation was achieved
by pancuronium. Central venous pressure and
pulmonary artery pressure were monitored by a
Swan-Ganz catheter, arterial pressure by cannulation
of the radial artery. All operations were carried out
with cardiopulmonary bypass (CPB) in mild
hypothermia (32-34°C) and pulsatile perfusion
mode, cold crystalloid cardioplegia or blood
cardioplegia (isolated bypass surgery) was used for
cardiac arrest. After declamping, most of the patients
needed one countershock to terminate ventricular
fibrillation.
After 10-min equilibrations to the environment,
non-invasive blood pressure signals were collected
504
Bauernschmitt R., Retzlaff B., Wessel N., Malberg H., Brockmann G., Uhl C. and Lange R. (2008).
DELAYED RECOVERY OF CARDIOVASCULAR AUTONOMIC FUNCTION AFTER MITRAL VALVE SURGERY - Evidence for Direct Trauma?.
In Proceedings of the First International Conference on Bio-inspired Systems and Signal Processing, pages 504-507
DOI: 10.5220/0001064705040507
Copyright
c
SciTePress
from the radial artery by a tonometer (Colin Medical
Instruments) at 1000 Hz. Data were channelled into
a bed-side laptop after A/D-conversion and stored
for analysis. Simultaneously, breathing excursions
and a standard ECG were monitored. Data were
sampled for a 30-min period the day before surgery,
24h and seven days after surgery on the ICU. Care
was taken to perform the measurements during the
same time of the day in each patient. From the
recorded data the beat-to-beat intervals as well as the
beat-to-beat systolic and diastolic values were
extracted; premature beats, artifacts and noise were
excluded using an adaptive filter considering the
instantaneous variability.
Baroreflex Sensitivity (BRS): Dual Sequence
Method (DSM).
Using the DSM, the most relevant
parameters for estimating the spontaneous baroreflex
(BR) are the slopes as a measure of sensitivity. The
DSM is based on standard sequence methods with
several modifications: Two kinds of BBI responses
were analyzed: bradycardic (an increase in systolic
blood pressure (SBP)) that causes an increase in the
following beat-to-beat-intervals (BBI) and
tachycardic fluctuations (a decrease in SBP causes a
decrease in BBI). Both types of fluctuations were
analyzed both in a synchronous and in a 3-interbeat-
shifted mode. The bradycardic fluctuations primarily
represent the vagal spontaneous BR analysis of the
tachycardic fluctuations represent the delayed
responses of heart rate (shift 3) assigned to the
beginning slower sympathetic regulation. The
following parameter groups are calculated by DSM:
(1) the total numbers of slopes in different sectors
within 30 min; (2) the percentage of the slopes in
relation to the total number of slopes in the different
sectors; (3) the numbers of bradycardic and
tachycardic slopes; (4) the shift operation from the
first (sync mode) to the third (shift 3 mode)
heartbeat triple; and (5) the average slopes of all
fluctuations. DSM parameters are defined as
described by Malberg et al (European Heart Journal,
1996).
Heart rate Variability (HRV).
Respecting the
suggestions by the Task Force HRV (Malberg et al.,
2003), the following standard parameters are
calculated from the time series: MeanNN (mean
value of normal beat-to-beat intervals): Is inversely
related to mean heart rate. sdNN (standard deviation
of intervals between two normal R-peaks): Gives an
impression of the overall circulatory variability.
Rmssd (root mean square of successive RR-
intervals):
600
650
700
750
800
850
85 105 125 145
SBP [mmHg]
RRI [ms]
Avera
ge
Slope
Slope
s>20
ms/m
mHg
Slope
s
Figure 1: Schematic representation of the two main
baroreflex parameters estimated by the Dual Sequence
Method: the average slope (dotted line) of all baroreflex
sequences as well as the total number of baroreflex slopes
above 20 ms/mmHg (thick lines). The thin lines symbolize
all baroreflex slopes below 20 ms/mmHg.
Higher values indicate higher vagal activity.
Shannon (the Shannon entropy of the histogram):
Quantification of RR-interval distribution. Apart
from the time-domain parameters mentioned above,
the HRV analysis focused on high-frequency
components (HF, 0.15-0.4 Hz, high values indicate
vagal activity) and low-frequency components (LF,
0.04-0.15 Hz, high values indicate sympathetic
activity). The following ratios were considered: LFn
– the normalized low frequency (LFn=LF/(LF+HF)),
HP/P - the to the total power P normalized high
frequency as well as LP/P - the P-normalized low
frequency.
Nonlinear Dynamics.
New parameters can be
derived from methods of nonlinear dynamics, which
describe complex processes and their interrelations.
These methods provide additional information about
the state and temporal changes in the autonomic
tonus. Several new measures of non-linear dynamics
in order to distinguish different types of heart rate
dynamics as proposed by Kurths were used. The
concept of symbolic dynamics is based on a coarse-
graining of dynamics. The difference between the
current value (BBI or systolic blood pressure) and
the mean value of the whole series is transformed
into an alphabet of four symbols (0; 1; 2; 3).
Symbols '0' and '2' reflect low deviation (decrease or
increase) from mean value, whereas '1' and '3' reflect
a stronger deviation (decrease or increase over a
predefined limit, for details see Voss et al.
Subsequently, the symbol string is transformed to
'words' of three successive symbols explaining the
nonlinear properties and thus the complexity of the
system.
DELAYED RECOVERY OF CARDIOVASCULAR AUTONOMIC FUNCTION AFTER MITRAL VALVE SURGERY -
Evidence for Direct Trauma?
505
The Renyi entropy calculated from the distributions
of words ('fwrenyi025' - a = 0.25) is a suitable
measure for the complexity in the time series ('a'
represents a threshold parameter). Higher values of
entropy refers to higher complexity in the
corresponding time series and lower values to lower
ones. A high percentage of words consisting only of
the symbols '0' and '2' ('wpsum02') reflects
decreased HRV. The parameter 'Forbidden words
(FW)' reflects the number of words which never or
very rarely occur. A high number of forbidden
words are typical for regular behaviour, while in
highly complex time series, only very few forbidden
words are found.
3 RESULTS
There were no major differences among the two
groups preoperatively. At 24h after surgery, both
groups showed a comparable depression of HRV
and BRS. One week after surgery, however, marked
differences were present: SDNN 15+/-6 (MV) vs.
42+/-33 (AV); p<0.001 (Fig. 1).
HRV-sdNN
0
10
20
30
40
50
60
70
80
90
100
preoperative postoperative after 24h postoperative after 1
week
MV
AV
*
Figure 2: HRV-sdNN, heart rate variability - standard
deviation of beat to beat intervals.
HRV-HF
0,0
0,2
0,4
0,6
0,8
1,0
1,2
preoperative postoperative after 24h postoperative after 1
week
MV
AV
*
Figure 3: HRV-HF: heart rate variability – high frequency
(indicator for parasympathetic regulation).
Similar kinetics were found for the High- and
Low-Frequency components of HRV (HF 0.01+/-
0.02 (MV) vs. 0.38+/- 0.64 (AV); p<0.02 (Fig. 2, 3).
HRV-LF
0,0
0,2
0,4
0,6
0,8
1,0
1,2
1,4
1,6
1,8
preoperative postoperative after 24h postoperative after 1
week
MV
AV
*
Figure 4: HRV, low-frequency.
Regarding the nonlinear parameters, there was a
significant depression present already 24h after
surgery with mitral patients more suppressed than
aortic patients, these alterations being even more
distinct after one week (Fig. 4).
HRV-shannon entropy
0,0
0,5
1,0
1,5
2,0
2,5
3,0
preoperative postoperative after 24h postoperative after 1
week
MV
AV
**
Figure 5: HRV, Shannon-entropy.
The baroreflex was impacted in a similar way for
both the number and strength of regulations (BRS
bradycardic 4.5+/-1.2 (MV) vs. 7.3+/-2.7 (AV);
p<0.001 (Fig. 5, 6).
Baroreflex (brady, strength)
0
2
4
6
8
10
12
14
preoperat ive post operat ive
af t er 24h
post operat ive
af t er 1 week
MV
AV
**
Figure 6: BRS, strength of bradycardic regulations.
BIOSIGNALS 2008 - International Conference on Bio-inspired Systems and Signal Processing
506
number of regulations (bradycardic)
0
10
20
30
40
50
60
70
80
preoperative postoperative after 24h postoperative after 1
week
MV
AV
*
Figure 7: BRS, number of bradycardic regulations.
For the tachcardic part of the baroreflex, however,
the differences among aortic and mitral patients
failed significance after one week (p<0.08, data not
shown).
4 DISCUSSION AND
CONCLUSIONS
The last decade witnessed a strong increase in basic
knowledge of the cardiovascular autonomic system.
However, as far as alterations in the cardiac patient
and in patients undergoing open heart surgery are
concerned, we are still at the very start.
Meanwhile it is well known, that cardiac surgery
leads to an early depression of autonomic function,
and that there is potential for recovery after a certain
time frame. The mechanisms for both phenomena
are quite unclear, so the aim of the present study was
to shed light on the precise role of direct surgical
trauma. In contrast to earlier studies, where different
preoperative conditions and different surgical
procedures were mixed up, we focussed on patients
with isolated aortic valve disease and isolated mitral
valve disease, thus excluding the well known
influences of atherosclerosis on cardiovascular
autonomic function. On the other hand, the operative
procedures done in these patients offer two entirely
distinct entities of surgical trauma: while for aortic
valve replacement the heart is left more or less
untouched and the valve is approached by an
incision in the anterior aspect of the ascending aorta
only, in mitral valve operations, both the caval veins
are extensively dissected, and the heart is opened by
an incision right posterior to the interatrial groove,
where an abundance of autonomic nerve endings are
supposed to be.
The similar depression in both groups observed
at 24h may reflect the effects of standardized
anesthesia and perioperative treatment being
comparable in all patients. While AV-patients
showed a clear tendency to recover after one week,
no recovery was recorded in MV-patients. In our
opinion, this is a strong indicator of higher surgical
trauma to AN, if the atria are dissected. Recovery of
autonomic fibres is possible, even in heart transplant
patients, as described earlier, so the next step will be
investigating time and frequency parameters and
baroreflex sensivity after six months to give
evidence of the hypothesis of direct surgical trauma.
Summarizing, we were able to demonstrate for
the first time, that direct surgical trauma can be one
of the major mechanisms leading to depression of
cardiovascular autonomic function. The diversity of
results in earlier studies may be caused by the case-
mix of patients, comprising different initial
conditions as well as different extents of trauma.
ACKNOWLEDGEMENTS
This study was supported by grants from the
Deutsche Forschungsgemeinschaft (DFG BA
1581/4-1, BR 1303/8-1, KU 837/20-1).
REFERENCES
Brown CA, Wolfe LA, Hains S, Ropchan G, Parlow J.
Spontaneous baroreflex sensitivity after coronary
artery bypass graft surgery as a function of gender and
age. Can. J. Physiol. Pharmacol. 2003;(9): 894–902.
Bauernschmitt R, Malberg H, Wessel N, Kopp B,
Schirmbeck EU, Lange R. Impairment of
cardiovascular autonomic control in patients early
after cardiac surgery. Eur J Cardiothorac Surg 2004;
25(3):320-326.
Heart rate variability Standards of measurement,
physiological interpretation, and clinical use. Task
Force of The European Society of Cardiology and The
North American Society of Pacing and
Electrophysiology. European Heart Journal 1996; 17:
354–381.
Malberg H, Bauernschmitt R, Meyerfeldt U, Schirdewan,
A, Wessel N. Short-term heart rate turbulence analysis
versus variability and baroreceptor sensitivity in
patients with dilated cardiomyopathy. Z Kardiol 2003;
92(7):547-557.
DELAYED RECOVERY OF CARDIOVASCULAR AUTONOMIC FUNCTION AFTER MITRAL VALVE SURGERY -
Evidence for Direct Trauma?
507
