- Email: [email protected]
Total Cavopulmonary Connection: Lateral Tunnel Anastomosis or Extracardiac Conduit? — an Analysis of 114 Consecutive Patients
Chin Med Sci J June 2009
Vol. 24, No. 2 P. 76-80
CHINESE MEDICAL SCIENCES JOURNAL ORIGINAL ARTICLE
Total Cavopulmonary Connection: Lateral Tunnel Anastomosis or Extracardiac Conduit? –– an Analysis of 114 Consecutive Patients Song Fu1, Klaus Valeske2, Matia Muller2, Dietmer Schranz2*, and Hakan Akinturk2 1
Children’s Heart Center, Bayi Children’s Hospital, the Military General Hospital of Beijing People’s Liberation Army, Beijing 100026, China 2 Children’s Heart Center, University Hospital Giessen and Marburg GmbH, Giessen 35385, Germany
Key word: univentricular heart; total cavopulmonary connection; extracardiac conduit; lateral tunnel anastomosis Objective To compare the postoperative outcomes of patients with the diagnostic univentricular heart undergoing lateral tunnel (LT) operation with extracardiac conduit (EC) operation. Methods From June 1996 to July 2007, 114 consecutive patients with a single ventricle underwent total cavopulmonary connection (TCPC) in Children’s Heart Center, University Hospital Giessen and Marburg GmbH, Germany. A LT was performed in 19 (16.7%) patients, and an EC in 95 (83.3%) patients. The mean age of EC group was 50.8±31.6 (ranging from 22 to 212) months, and that of LT group was 61.5±41.2 (ranging from 30 to 168) months. Early and midterm outcomes of two groups were analyzed. Results One died in LT group (5.3%) and three in EC group (3.2%). The overall mortality was 3.5%. There was no significant difference in mortality between EC and LT groups (P>0.05). The postoperative pulmonary arterial pressure, oxygen saturation, and effusion time of two groups had no significant difference (all P>0.05). No significant difference in the occurrences of complications (arrhythmias, enteropathy, and thrombosis) was found between two groups after operation (P>0.05). Conclusions There seems no difference between LT and EC in the clinical results in the early and middle postoperative stage. Glenn anastomosis followed by an EC seems to have some advantages.
T
OTAL cavopulmonary connection (TCPC) includes
tricular heart underwent TCPC in Children’s Heart Center,
lateral tunnel anastomosis (LT) and extracardiac
University Hospital Giessen and Marburg GmbH, Germany.
conduit (EC). In the past ten years, 114 con-
The purpose of this report was to compare the outcomes of
secutive patients with the diagnostic univen-
univentricular heart patients receiving lateral tunnel anastomosis (LT) operation with those of receiving extracardiac conduit (EC) operation at a single institution
Received for publication June 16, 2008. *Corresponding author Tel: 49-641-99-43461, E-mail: Dietmar. [email protected]
over the same duration.
Vol. 24, No.2
CHINESE MEDICAL SCIENCES JOURNAL
PATIENTS AND METHODS
77
pacemaker-dependent rhythm or other rhythm according to a 12-lead electrocardiogram (Table 3).
Patients From June 1996 to July 2007, 114 consecutive patients
Operative technique
with the diagnostic univentricular heart underwent TCPC in
During intracardiac surgical procedures, antegrade crys-
Children’s Heart Center, University Hospital Giessen and
talloid cardioplegia solution (30 ml/kg, Bretschneider) was
Marburg GmbH, Germany. A LT was performed in 19
applied. For the lateral technique, a 0.4-mm thickness
(16.7%) patients, and 95 (83.3%) patients were treated
PTFE cardiovascular patch was used to create an access
with an EC using PTFE conduits. The cardiac morphology of
between inferior and superior vena cava to avoid injury to
patients is shown in Table 1. Most patients had been op-
either the pulmonary veins or the sinoatrial node. The
erated before (Table 2). Mean number of previous opera-
patch was always fenestrated with a 4-mm punch. The
tions in LT group and EC group was 2.1 and 1.9 respec-
divided superior vena cava was anastomosed to pulmonary
tively (P>0.05).
artery in an end-to-side fashion.
All patients underwent preoperative invasive assess-
The size of the PTFE conduit used in EC technique for
ment. Pulmonary arterial pressure (PAP) and oxygen
82 patients was 19 or 20 mm, 15 to 17 mm for 13 patients.
saturation (SaO2) were measured during cardiac cathe-
Transoesophageal echocardiography was routinely per-
terization. Atrioventricular valvar regurgitation was as-
formed.
sessed by echocardiography. Valve regurgitation was classified as one, two and three degrees, and equal or
Definition of postoperative outcomes
more than two degrees as “significant”. The features of
Early mortality was defined as death during the initial
the regurgitant flow were identified by pulsed wave
hospitalization or within the first 30 days after operation.
Doppler and color Doppler in the parasternal short-axis
Late mortality was defined as death after discharge of the
view and apical view. The patients were also divided into
hospital.
those with sinus rhythm, atrioventricular block, arrhythmia,
Table 1. Cardiac morphology of patients undergoing univentricular repair Group
n
LT group 19
AV-
HLHS
channel
2(10.5%)
EC group 95 26(27.3%)
*
DORV
PA with
DILV
TAT
VSD
1(5.9%)
2(10.5%) 3(15.7%)
3(15.7%)
7(7.4%)
*
*
6(6.3%)
9(9.4%)
7(7.4%)
All above
PA with
HRV
IVS
5(26.3%) 2(10.5%)
With a LV
With TGA
With a RV
1(5.9%) 11(57.8%) 8(42.1%)
26(27.3%) 7(7.4%)
8(42.1%)
7(7.4%) 59(62.1%) 36(37.8%) 29(30.5%)
LT: lateral tunnel; EC: extracardiac conduit; HLHS: hypoplastic left heart syndrome; AV: atrioventricular; DORV: double-outlet right ventricle; DILV: double inlet left ventricle; PA: pulmonary atresia; VSD: ventricular septal defect; TAT: tricuspid atresia; HRV: hypoplastic right ventricle; IVS: intact ventricular septum; With a LV: with a dominant left ventricle; With a RV: with a dominant right ventricle; TGA: transposition of the great arteries * P<0.05, compared with LT group
Table 2. Procedure before total cavopulmonary connection Group
n
Shunt
Banding
Glenn
PDA stent
LT group
19
11(57.8%)
4(21.0%)
11(57.8%)
2(10.5%)
EC group
95
94(98.9%)*
11(11.6%)
35(36.8%)*
15(15.8%)
Giessen-procedure
Norwood-procedure
0
2(10.5%)
13(13.7%)
24(25.3%)
*
P<0.05, compared with LT group
Table 3. Preoperative conditions of patients in two groups ( x Group
n Age(mon) Height(cm)
± s)
Valve regurgitation*
Weight(kg) PAP(mm Hg) SaO2(%)
MV
TV
Rhythm
AV
Sinus
Arrhythmia
LT group 19 61.5±41.2
116±29.2
25.4±17.4
10.2±2.2
82.2±6.0
0
0
1(5.2%)
16(84.2%)
3(15.7%)
EC group 95 50.8±31.6
101±18
16.4± 8
10.3±2.4
82.9±5.5
1(1.0%)
3(3.1%) 3(3.1%)
76(80.0%)
15(15.7%)
PAP: pulmonary arterial pressure; SaO2: oxygen saturation; MV: mitral valve regurgitation; TV: tricuspid valve regurgitation; AV: aortic valve regurgitation *
Systemic atrioventricular valve regurgitation and aortic valve regurgitation equal or more than two degrees are considered as significant
78
CHINESE MEDICAL SCIENCES JOURNAL
June 2009 RESULTS
We preoperatively measured PAP and SaO2 to see if there was a correlation of PAP and SaO2 with operative outcomes. Any pleural effusion that lasted for more than 10 days after operation came under the category of “significance”. If there was any recurrence of effusion after the removal of chest tubes, it was also included in the list of significant pleural effusions. The effusion rate and effusion time of two groups were analyzed. Any new onset of atrial flutter or fibrillation or need for pacemaker implantation was defined as arrhythmia. The occurrence of arrhythmia in LT and EC groups was assayed. Echocardiographic studies were performed as routine follow-up protocol either in our clinic or by referring cardiologists. Other complications, such as thrombosis in the conduit, gastroenteric and neural complications, were observed postoperatively.
A total of 114 patients were operated with LT or EC Fontan procedure. The overall mortality was 3.5% (4/114). The mortalities of LT group and EC group were 5.3% (1/19) and 3.2% (3/95), respectively. There was no significant difference in mortality between two groups (P>0.05) (Table 4). The postoperative PAP and SaO2 significantly increased compared with the preoperative ones in both groups (P<0.001). But there was no significant difference in postoperative PAP or SaO2 between two groups (P>0.05) (Table 4). Every patient postoperatively suffered from effusion. Both effusion rate and effusion time of two groups had no significant difference (P>0.05). In LT group, 5 patients suffered from arrhythmia after operation, and 19 patients in EC group. There was not significant difference (P>0.05) (Table 4). A total of 11 patients showed a thrombosis in the
Statistical analysis The SPSS software version 10.0.0 for Windows (SPSS Inc., Chicago, IL, USA) was used for data analysis. Initially, all numerical data were tested for normality using the Kolmogorov-Smirnov test. The unpaired Student´s t-test and Mann-Whitney test were used to compare the difference of numeric data between two groups. For categorical data, the Fisher´s exact test was used. Numerical data were shown as x ± s . Statistical significance was defined as P
conduit postoperatively, and all of them belonged to EC group. But the difference between the two groups was not of significance (P>0.05) (Table 4). An enteropathy appeared in 2 patient receiving LT and 1 receiving EC. Neural complications appeared in 8 patients. Three of them belonged to the LT group and five to the EC group. Besides of two, other patients only suffered the transient symptoms.
value less than 0.05. Table 4. Outcomes of univentricular heart patients undergoing LT operation and EC operation ( x Early mortality
Late mortality
PAP
SaO2
Occurrence of
Thrombosis
(%)
(%)
(mm Hg)
(%)
(d)
(%)
arrhythmia (%)
rate (%)
19
5.3
0
14.0±6.6
90.4±5.3
12.8±12.0
31.5
26.3
0
95
2.1
1.1
13.2±4.1
90.9±4.6
10.0± 9.2
32.6
20.0
Group
n
LT group EC group
Effusion time Effusion rate
± s)
11.5
The second step, the so-called TCPC consists either of a
DISCUSSION
LT or an EC. We performed LT operation on a group of 19 patients totally and found no difference in mortality and
Numerous technical modifications of the Fontan op-
hemodynamics examining between LT and EC Fontan pa-
eration have been introduced, many of which have had an
tients, and it was the same as Gaynor and co-workers’
impact on the outcome of the operation. The mortality rate
results.2
of the Fontan operation has been reduced by dividing the
LT operation directs inferior vena cava blood in a
procedure into two stages. The hemi-Fontan or bidirec-
laminar fashion along the lateral free wall of right atrium to
tional Glenn procedure is performed as the first step and
right pulmonary artery. A patch is placed from the inferior
allows early reduction of the work volume of the single
vena cava to the superior vena cava, which is divided and
ventricle and a gradual remodeling of ventricular geometry
each end sewn end-to-side to the right pulmonary artery,
before completion of the Fontan operation. Using this ap-
thereby excluding a large part of the right atrium from the
proach, the mortality has decreased from 16% for a pri-
tunnel. Growth potential of the tunnel is maintained by
mary Fontan operation to 8%.
1
including a portion of the lateral or back wall of the right
Vol. 24, No.2
CHINESE MEDICAL SCIENCES JOURNAL
79
atrium along one side.1 Besides a maybe generally deci-
to have some advantages, especially in the onset of ar-
sion for this technique, the LT is the favored technique
rhythmias.9 Azakie and co-workers9 also found a lower
usually in very young patients or in cases of different
level of atrial natriuretic peptide in patients with EC tech-
anatomy as dextrocardia. This is also reported by other
nique compared to LT patients demonstrating less pressure
groups, like from Kumar and co-workers.3 However, al-
load in the atrium.
though the postoperative PAP of LT was no significant
Routine fenestration is controversially discussed.12-14
statistical difference with that of EC, the damage would be
In our study, intraoperative fenestration was applied in 68
made to the cardiac muscle because of aortic cross-
of 114 (LT group: 10, 52.6%; EC group: 58, 61%), who
clamping, which perhaps would be the reason of heart
have been classified as higher risk patients, according to
failure postoperatively. As mentioned before, in cases of
the recommendation of other groups.15 And 46 of 114 (LT
intracardiac procedures antegrade crystalloid cardioplegia
group: 9, 47.3%; EC group: 37, 38.9%) was not fenes-
(Bretschneider) was once 2.5-3 hours applied. It is better
trated because they seemed to be in such a good preop-
than Thomas’ that was once applied in 20 minutes. And
erative status, that a routine fenestration appeared un-
another, in the procedure, whether LT or EC, a special kind
necessary. Due to that inconspicuous preoperative data, a
of bicaval cannulation (8-10F, 330 mm, PUN0026-0028,
secondary fenestration was needed in 35% of the un-
Stockert Company, Munich, Germany) was used. It could
fenestrated patients, because of a clinically failing Fontan
provide with more space for the operating by reason of the
circulation. Our fenestrated patients showed significant
diameter being much smaller in the same flux than that of
lower PAPs (which is always a predictor of hemodynamic
other bicaval cannulation.
situation in Fontan circulation) than the non-fenestrated
The extracardiac approach for completion of the Fontan
and none of the fenestrated patients showed signs of a
procedure, in which a PTFE-prosthesis is placed between
failing Fontan in the immediate postoperative time.
the inferior vena cava and the pulmonary artery, has many
Bowman and co-workers16 found that absence of a fenes-
potential advantages, simplifying the procedure of com-
tration was the only significant predicting factor of Fontan
pletion by avoidance of aortic cross-clamping and giving a
failure.
shorter duration of cardiopulmonary bypass.4,
5
Further-
In conclusion, there seems no difference between LT
more, it possibly provides a more streamlined hydrody-
and EC in the clinical result on early and middle postop-
namic connection6-8 and is associated with a decreased
erative stage; and the combination of a previous Glenn
frequency of arrhythmia at midterm.
4, 9
The procedure is
widely recognized as the approach with the greatest potential for optimizing postoperative results.5,
9-11
anastomosis followed by an EC seems to have some advantages.
Hemo-
dynamically, it offers the most efficient design for pre-
REFERENCES
serving mechanical energy of laminar blood flow and avoiding turbulence and stasis in the Fontan circulation .
1.
modifications on morbidity and mortality. Ann Thorac
We perform this kind of operation now routinely, if no
Surg 1994; 58:945-52.
technical considerations force us to perform a lateral conduit. In our recent study of a total of 114 patients, 95
2.
heart syndrome still a risk factor? J Thorac Cardiovasc
key factors for us to choose the patients accepted the TCPC pressure of left pulmonary. Fontan et al12 thought that
Surg 2002; 123:237-45. 3.
our cohort, a PTFE conduit in the size of 15 to 17 mm was
rent comparison. Ann Thorac Surg 2003; 76:1389-96. 4.
Cardiovasc Surg 2004; 4:218-24. 5.
cording to the result of 1-10 years’ routine follow-up. Al-
discussed controversy in literature. The combination of a previous Glenn anastomosis followed by an EC is reported
Tokunaga S, Kado H, Imoto Y, et al. Total cavopulmonary connection with an extracardiac conduit: experience with 100 patients. Ann Thorac Surg 2002; 73:76-80.
though the onset of postoperative arrhythmia was not considered statistically significant in two groups, it was
Alexi-meskishvili V, Ovroutski S, Ewert P, et al. Mid-term follow-up after extracardiac Fontan operation. Thorac
applied according to the weight and the size of the patients (13 patients) in EC technique, and it was satisfied ac-
Kumar SP, Rubinstein CS, Simsic JM, et al. Lateral tunnel versus extracardiac conduit fontan procedure: a concur-
diameter of EC should be ≥18 mm in case of EC relative stenosis with the development of the body. However, in
Gaynor JW, Bridges ND, Cohen MI, et al. Predictors of outcome after the Fontan operation: is hypoplastic left
patients have got an EC. In our center, maybe it is one of that the pressure of central vein should be more than the
Jacobs ML, Norwood WI. Fontan operation: influence of
6.
Schreiber C, Kostolny M, Weipert J, et al. What was the impact of the introduction of extracardiac completion for a single center performing total cavopulmonary connection?
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12. Fontan F, Kirklin JW, Fernandez G, et al. Outcome after a
by computerized numeric modelling of energy losses in
“perfect” Fontan operation. Circulation 1990; 81:1520-
II322-6.
36. 13. Pizarro C. Surgical variations and flow dynamics in ca-
De leval MR, Dubini G, Wessel DL, et al. Use of computa-
vopulmonary connections: a historical review. Semin
tional fluid dynamics in the desing of surgical procedures:
Thorac Cardiovasc Surg Pediatr Card Surg Annu 1998; 1:
application to the study of competitive flows in cavopulmonary connections. J Thorac Cardiovasc Surg 1996; 111: 9.
Curr Opin Cardiol 1997; 12:51-62.
Van haesdonck JM, Mertens L, Sizaire R, et al. Comparison different Fontan connections. Circulation 1995; 92:
8.
June 2009
53-9. 14. Petrossian E, Reddy VM, McElhinney DB, et al. Early re-
502-13.
sults of the extraccardiac conduit Fontan operation. J
Azakie A, McCrindle BW, Van Arsdell G, et al. Extracardiac
Thorac Cardiovasc Surg 1999; 117:688-96.
conduit versus lateral tunnel cavopulmonary connections
15. Stamm C, Friehs I, Mayer JE, et al. Long-term results of
at a single institution: impact on outcomes. J Thorac
the lateral tunnel Fontan operation. J Thorac Cardiovasc
Cardiovasc Surg 2001; 122:1219-28. 10. de Leval MR. The Fontan circulation: what have we
Surg 2001; 121:28-41. 16. Bowman FO, Malm JR, Hayes CJ, et al. Physiologic ap-
learned? What to expect? Pediatr Cardiol 1998;19:316-
proach to surgery for tricuspid atresia. Circulation 1978;
22.
58:83-6.
11. Geggel RL. Update on the modified Fontan procedure.
Vol. 24, No. 2 P. 76-80
CHINESE MEDICAL SCIENCES JOURNAL ORIGINAL ARTICLE
Total Cavopulmonary Connection: Lateral Tunnel Anastomosis or Extracardiac Conduit? –– an Analysis of 114 Consecutive Patients Song Fu1, Klaus Valeske2, Matia Muller2, Dietmer Schranz2*, and Hakan Akinturk2 1
Children’s Heart Center, Bayi Children’s Hospital, the Military General Hospital of Beijing People’s Liberation Army, Beijing 100026, China 2 Children’s Heart Center, University Hospital Giessen and Marburg GmbH, Giessen 35385, Germany
Key word: univentricular heart; total cavopulmonary connection; extracardiac conduit; lateral tunnel anastomosis Objective To compare the postoperative outcomes of patients with the diagnostic univentricular heart undergoing lateral tunnel (LT) operation with extracardiac conduit (EC) operation. Methods From June 1996 to July 2007, 114 consecutive patients with a single ventricle underwent total cavopulmonary connection (TCPC) in Children’s Heart Center, University Hospital Giessen and Marburg GmbH, Germany. A LT was performed in 19 (16.7%) patients, and an EC in 95 (83.3%) patients. The mean age of EC group was 50.8±31.6 (ranging from 22 to 212) months, and that of LT group was 61.5±41.2 (ranging from 30 to 168) months. Early and midterm outcomes of two groups were analyzed. Results One died in LT group (5.3%) and three in EC group (3.2%). The overall mortality was 3.5%. There was no significant difference in mortality between EC and LT groups (P>0.05). The postoperative pulmonary arterial pressure, oxygen saturation, and effusion time of two groups had no significant difference (all P>0.05). No significant difference in the occurrences of complications (arrhythmias, enteropathy, and thrombosis) was found between two groups after operation (P>0.05). Conclusions There seems no difference between LT and EC in the clinical results in the early and middle postoperative stage. Glenn anastomosis followed by an EC seems to have some advantages.
T
OTAL cavopulmonary connection (TCPC) includes
tricular heart underwent TCPC in Children’s Heart Center,
lateral tunnel anastomosis (LT) and extracardiac
University Hospital Giessen and Marburg GmbH, Germany.
conduit (EC). In the past ten years, 114 con-
The purpose of this report was to compare the outcomes of
secutive patients with the diagnostic univen-
univentricular heart patients receiving lateral tunnel anastomosis (LT) operation with those of receiving extracardiac conduit (EC) operation at a single institution
Received for publication June 16, 2008. *Corresponding author Tel: 49-641-99-43461, E-mail: Dietmar. [email protected]
over the same duration.
Vol. 24, No.2
CHINESE MEDICAL SCIENCES JOURNAL
PATIENTS AND METHODS
77
pacemaker-dependent rhythm or other rhythm according to a 12-lead electrocardiogram (Table 3).
Patients From June 1996 to July 2007, 114 consecutive patients
Operative technique
with the diagnostic univentricular heart underwent TCPC in
During intracardiac surgical procedures, antegrade crys-
Children’s Heart Center, University Hospital Giessen and
talloid cardioplegia solution (30 ml/kg, Bretschneider) was
Marburg GmbH, Germany. A LT was performed in 19
applied. For the lateral technique, a 0.4-mm thickness
(16.7%) patients, and 95 (83.3%) patients were treated
PTFE cardiovascular patch was used to create an access
with an EC using PTFE conduits. The cardiac morphology of
between inferior and superior vena cava to avoid injury to
patients is shown in Table 1. Most patients had been op-
either the pulmonary veins or the sinoatrial node. The
erated before (Table 2). Mean number of previous opera-
patch was always fenestrated with a 4-mm punch. The
tions in LT group and EC group was 2.1 and 1.9 respec-
divided superior vena cava was anastomosed to pulmonary
tively (P>0.05).
artery in an end-to-side fashion.
All patients underwent preoperative invasive assess-
The size of the PTFE conduit used in EC technique for
ment. Pulmonary arterial pressure (PAP) and oxygen
82 patients was 19 or 20 mm, 15 to 17 mm for 13 patients.
saturation (SaO2) were measured during cardiac cathe-
Transoesophageal echocardiography was routinely per-
terization. Atrioventricular valvar regurgitation was as-
formed.
sessed by echocardiography. Valve regurgitation was classified as one, two and three degrees, and equal or
Definition of postoperative outcomes
more than two degrees as “significant”. The features of
Early mortality was defined as death during the initial
the regurgitant flow were identified by pulsed wave
hospitalization or within the first 30 days after operation.
Doppler and color Doppler in the parasternal short-axis
Late mortality was defined as death after discharge of the
view and apical view. The patients were also divided into
hospital.
those with sinus rhythm, atrioventricular block, arrhythmia,
Table 1. Cardiac morphology of patients undergoing univentricular repair Group
n
LT group 19
AV-
HLHS
channel
2(10.5%)
EC group 95 26(27.3%)
*
DORV
PA with
DILV
TAT
VSD
1(5.9%)
2(10.5%) 3(15.7%)
3(15.7%)
7(7.4%)
*
*
6(6.3%)
9(9.4%)
7(7.4%)
All above
PA with
HRV
IVS
5(26.3%) 2(10.5%)
With a LV
With TGA
With a RV
1(5.9%) 11(57.8%) 8(42.1%)
26(27.3%) 7(7.4%)
8(42.1%)
7(7.4%) 59(62.1%) 36(37.8%) 29(30.5%)
LT: lateral tunnel; EC: extracardiac conduit; HLHS: hypoplastic left heart syndrome; AV: atrioventricular; DORV: double-outlet right ventricle; DILV: double inlet left ventricle; PA: pulmonary atresia; VSD: ventricular septal defect; TAT: tricuspid atresia; HRV: hypoplastic right ventricle; IVS: intact ventricular septum; With a LV: with a dominant left ventricle; With a RV: with a dominant right ventricle; TGA: transposition of the great arteries * P<0.05, compared with LT group
Table 2. Procedure before total cavopulmonary connection Group
n
Shunt
Banding
Glenn
PDA stent
LT group
19
11(57.8%)
4(21.0%)
11(57.8%)
2(10.5%)
EC group
95
94(98.9%)*
11(11.6%)
35(36.8%)*
15(15.8%)
Giessen-procedure
Norwood-procedure
0
2(10.5%)
13(13.7%)
24(25.3%)
*
P<0.05, compared with LT group
Table 3. Preoperative conditions of patients in two groups ( x Group
n Age(mon) Height(cm)
± s)
Valve regurgitation*
Weight(kg) PAP(mm Hg) SaO2(%)
MV
TV
Rhythm
AV
Sinus
Arrhythmia
LT group 19 61.5±41.2
116±29.2
25.4±17.4
10.2±2.2
82.2±6.0
0
0
1(5.2%)
16(84.2%)
3(15.7%)
EC group 95 50.8±31.6
101±18
16.4± 8
10.3±2.4
82.9±5.5
1(1.0%)
3(3.1%) 3(3.1%)
76(80.0%)
15(15.7%)
PAP: pulmonary arterial pressure; SaO2: oxygen saturation; MV: mitral valve regurgitation; TV: tricuspid valve regurgitation; AV: aortic valve regurgitation *
Systemic atrioventricular valve regurgitation and aortic valve regurgitation equal or more than two degrees are considered as significant
78
CHINESE MEDICAL SCIENCES JOURNAL
June 2009 RESULTS
We preoperatively measured PAP and SaO2 to see if there was a correlation of PAP and SaO2 with operative outcomes. Any pleural effusion that lasted for more than 10 days after operation came under the category of “significance”. If there was any recurrence of effusion after the removal of chest tubes, it was also included in the list of significant pleural effusions. The effusion rate and effusion time of two groups were analyzed. Any new onset of atrial flutter or fibrillation or need for pacemaker implantation was defined as arrhythmia. The occurrence of arrhythmia in LT and EC groups was assayed. Echocardiographic studies were performed as routine follow-up protocol either in our clinic or by referring cardiologists. Other complications, such as thrombosis in the conduit, gastroenteric and neural complications, were observed postoperatively.
A total of 114 patients were operated with LT or EC Fontan procedure. The overall mortality was 3.5% (4/114). The mortalities of LT group and EC group were 5.3% (1/19) and 3.2% (3/95), respectively. There was no significant difference in mortality between two groups (P>0.05) (Table 4). The postoperative PAP and SaO2 significantly increased compared with the preoperative ones in both groups (P<0.001). But there was no significant difference in postoperative PAP or SaO2 between two groups (P>0.05) (Table 4). Every patient postoperatively suffered from effusion. Both effusion rate and effusion time of two groups had no significant difference (P>0.05). In LT group, 5 patients suffered from arrhythmia after operation, and 19 patients in EC group. There was not significant difference (P>0.05) (Table 4). A total of 11 patients showed a thrombosis in the
Statistical analysis The SPSS software version 10.0.0 for Windows (SPSS Inc., Chicago, IL, USA) was used for data analysis. Initially, all numerical data were tested for normality using the Kolmogorov-Smirnov test. The unpaired Student´s t-test and Mann-Whitney test were used to compare the difference of numeric data between two groups. For categorical data, the Fisher´s exact test was used. Numerical data were shown as x ± s . Statistical significance was defined as P
conduit postoperatively, and all of them belonged to EC group. But the difference between the two groups was not of significance (P>0.05) (Table 4). An enteropathy appeared in 2 patient receiving LT and 1 receiving EC. Neural complications appeared in 8 patients. Three of them belonged to the LT group and five to the EC group. Besides of two, other patients only suffered the transient symptoms.
value less than 0.05. Table 4. Outcomes of univentricular heart patients undergoing LT operation and EC operation ( x Early mortality
Late mortality
PAP
SaO2
Occurrence of
Thrombosis
(%)
(%)
(mm Hg)
(%)
(d)
(%)
arrhythmia (%)
rate (%)
19
5.3
0
14.0±6.6
90.4±5.3
12.8±12.0
31.5
26.3
0
95
2.1
1.1
13.2±4.1
90.9±4.6
10.0± 9.2
32.6
20.0
Group
n
LT group EC group
Effusion time Effusion rate
± s)
11.5
The second step, the so-called TCPC consists either of a
DISCUSSION
LT or an EC. We performed LT operation on a group of 19 patients totally and found no difference in mortality and
Numerous technical modifications of the Fontan op-
hemodynamics examining between LT and EC Fontan pa-
eration have been introduced, many of which have had an
tients, and it was the same as Gaynor and co-workers’
impact on the outcome of the operation. The mortality rate
results.2
of the Fontan operation has been reduced by dividing the
LT operation directs inferior vena cava blood in a
procedure into two stages. The hemi-Fontan or bidirec-
laminar fashion along the lateral free wall of right atrium to
tional Glenn procedure is performed as the first step and
right pulmonary artery. A patch is placed from the inferior
allows early reduction of the work volume of the single
vena cava to the superior vena cava, which is divided and
ventricle and a gradual remodeling of ventricular geometry
each end sewn end-to-side to the right pulmonary artery,
before completion of the Fontan operation. Using this ap-
thereby excluding a large part of the right atrium from the
proach, the mortality has decreased from 16% for a pri-
tunnel. Growth potential of the tunnel is maintained by
mary Fontan operation to 8%.
1
including a portion of the lateral or back wall of the right
Vol. 24, No.2
CHINESE MEDICAL SCIENCES JOURNAL
79
atrium along one side.1 Besides a maybe generally deci-
to have some advantages, especially in the onset of ar-
sion for this technique, the LT is the favored technique
rhythmias.9 Azakie and co-workers9 also found a lower
usually in very young patients or in cases of different
level of atrial natriuretic peptide in patients with EC tech-
anatomy as dextrocardia. This is also reported by other
nique compared to LT patients demonstrating less pressure
groups, like from Kumar and co-workers.3 However, al-
load in the atrium.
though the postoperative PAP of LT was no significant
Routine fenestration is controversially discussed.12-14
statistical difference with that of EC, the damage would be
In our study, intraoperative fenestration was applied in 68
made to the cardiac muscle because of aortic cross-
of 114 (LT group: 10, 52.6%; EC group: 58, 61%), who
clamping, which perhaps would be the reason of heart
have been classified as higher risk patients, according to
failure postoperatively. As mentioned before, in cases of
the recommendation of other groups.15 And 46 of 114 (LT
intracardiac procedures antegrade crystalloid cardioplegia
group: 9, 47.3%; EC group: 37, 38.9%) was not fenes-
(Bretschneider) was once 2.5-3 hours applied. It is better
trated because they seemed to be in such a good preop-
than Thomas’ that was once applied in 20 minutes. And
erative status, that a routine fenestration appeared un-
another, in the procedure, whether LT or EC, a special kind
necessary. Due to that inconspicuous preoperative data, a
of bicaval cannulation (8-10F, 330 mm, PUN0026-0028,
secondary fenestration was needed in 35% of the un-
Stockert Company, Munich, Germany) was used. It could
fenestrated patients, because of a clinically failing Fontan
provide with more space for the operating by reason of the
circulation. Our fenestrated patients showed significant
diameter being much smaller in the same flux than that of
lower PAPs (which is always a predictor of hemodynamic
other bicaval cannulation.
situation in Fontan circulation) than the non-fenestrated
The extracardiac approach for completion of the Fontan
and none of the fenestrated patients showed signs of a
procedure, in which a PTFE-prosthesis is placed between
failing Fontan in the immediate postoperative time.
the inferior vena cava and the pulmonary artery, has many
Bowman and co-workers16 found that absence of a fenes-
potential advantages, simplifying the procedure of com-
tration was the only significant predicting factor of Fontan
pletion by avoidance of aortic cross-clamping and giving a
failure.
shorter duration of cardiopulmonary bypass.4,
5
Further-
In conclusion, there seems no difference between LT
more, it possibly provides a more streamlined hydrody-
and EC in the clinical result on early and middle postop-
namic connection6-8 and is associated with a decreased
erative stage; and the combination of a previous Glenn
frequency of arrhythmia at midterm.
4, 9
The procedure is
widely recognized as the approach with the greatest potential for optimizing postoperative results.5,
9-11
anastomosis followed by an EC seems to have some advantages.
Hemo-
dynamically, it offers the most efficient design for pre-
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