Different approaches for minimally invasive closure of atrial septal defects

HOME

HELP

FEEDBACK

SUBSCRIPTIONS

Original Articles

Different approaches for minimally invasive closure of atrial septal defects

Jochen T. Cremer, MD^a, Andreas Böning, MD^a, Marcel B. Anssar, MD^a, Peter Y. Kim, MD^a, Klaus Pethig, MD^a, Wolfgang Harringer, MD^a, Axel Haverich, MD^a

^a Division of Thoracic and Cardiovascular Surgery, Surgical Center, Hannover Medical School, Hannover, Germany

Accepted for publication November 24, 1998.

Address reprint requests to Dr Cremer, Department of Cardiac and Vascular Surgery, Christian-Albrechts-University, D-24105 Kiel, Germany

Abstract

Top
Abstract
Introduction
Material and methods
Results
Comment
Acknowledgments
References

Background. To improve the acceptance of cosmetic results afterclosure of atrial septal defects, anterior or lateral thoracotomiesare preferred rather than median sternotomies. Along with theavailability of minimally invasive techniques, a further reductionin incision length appeared feasible while preserving thoracicstability.

Methods. Various minimally invasive approaches differing inthe type of incision and mode of cannulation have been appliedunder conditions of normothermic ventricular fibrillation. Intechnique 1 (n = 5), a right parasternal mini-incision was combinedwith a central aortic and bicaval cannulation. Technique 2 (n= 2) was composed of an anterior submammary mini-incision withfemoral arterial and central bicaval cannulation. To optimizethe surgical access, the transincisional cannulation of thesuperior vena cava was replaced by a percutaneous cervical cannulation(technique 3, n = 17).

Results. Effective atrial septal defect closure assessed byintraoperative echocardiography was achieved in all patients.Central neurologic complications were completely absent. Besidestemporary atrial fibrillation in one case, no other cardiaccomplications occurred. There were no cases with complicatedwound healing.

Conclusions. Along with modified cannulation techniques andintraoperative echocardiography, minimally invasive techniquescan be safely applied for atrial septal defect closure. Submammaryincisions were highly accepted and allowed for adequate surgicalexposure.

Introduction

Top
Abstract
Introduction
Material and methods
Results
Comment
Acknowledgments
References

Several attempts have been made to alleviate the psychologicsequelae of atrial septal defect (ASD) closure by unsatisfactorycosmetic results when applying conventional complete sternotomyapproaches in otherwise absolutely healthy individuals. Thus,right thoracotomies have been considered for several years,especially for female patients [1–4]. The incision maybe located more anterior [5] or more lateral [6], allowing foradequate opening of the fourth intercostal space. Dependingon the approach, aortic or femoral-iliac arterial cannulationmay be applied under ventricular fibrillation or cardioplegicarrest. Even a combination of bilateral submammary skin incisionsand median sternotomy [7] requiring extensive mobilization ofthe subcutaneous tissue has been attempted to gain cosmeticallyacceptable results. With the aid of new retractors designedfor minithoracotomies and specially adapted cannula designs,minimally invasive techniques have become applicable for thisdiagnosis.

Material and methods

Top
Abstract
Introduction
Material and methods
Results
Comment
Acknowledgments
References

Since October 1996, three different surgical approaches withincisional lengths between 6 and 8 cm were evaluated in 24 individuals(13 men, 11 women; 35 ± 11 years) with uncomplicatedASD (Table 1). Significant atrial shunts were present in 23patients, and 6 patients had previous neurologic events fromparadoxic embolization through a patent foramen ovale. Preoperativepulmonary artery pressure was elevated in 1 patient.

View this table:
[in this window]
[in a new window]

Table 1. Patients and Procedure-Related Data

The principal differences among these techniques involve differentincisions and different modes of cannulation. All procedureswere performed under normothermic (33° to 35°C) electricallyinduced ventricular fibrillation with conventional anesthesia(etomidate, fentanyl, pancuronium bromide) and double-lumenintubation. Patients were positioned with 30° elevationof the right hemithorax and draped to allow conversion to sternotomyas well as bilateral exposure of groin vessels. External defibrillationpads were placed and intraoperative transesophageal echocardiography(TEE) served for assessment of complete removal of air and effectiveASD closure. The different procedures were limited to adolescentsor adults, whereas a subxiphoidal approach was used in childrenby another team.

Technique 1: right parasternal mini-incision, aortic and central venous cannulation
Thoracic access was achieved by a right parasternal incisionabove the third and fourth ribs (Fig 1). In the first 2 patients,a small cartilaginous part of both ribs was removed before insertingthe retractor (Cardiothoracic Systems, Cupertino, CA). Ligationof the right internal mammary artery was not necessary. Afterexposure and longitudinal incision of the pericardium, pledgetedtraction sutures were placed to displace intrapericardial structuresmore anteriorly and laterally, allowing for better access tothe aorta and right atrium. After encircling the inferior venacava (IVC) and superior vena cava (SVC), full heparinized cardiopulmonarybypass was instituted by direct cannulation of the aorta (21For 24F, Jostra, Hirrlingen, Germany) and SVC (V122, Stöckert,Munich, Germany). The IVC cannula (28F or 32F, Polystan, Vaerlose,Denmark) was guided through a separate lateral incision, whichwas used later for placement of a single drainage tube. On totalbypass, the right atrium was entered through a conventionalincision, and direct or patch closure was performed with over-and-over(4-0 polypropylene) sutures with superficial suction throughthe defect and continuous coronary sinus suction. Before tyingthe suture, air was removed from the left atrium under TEE guidance.Decannulation was performed after defibrillation using eitherexternal or internal pediatric pads. The pericardial edges werethen reapproximated. In cases without removal of the cartilaginousparts, the ribs were repositioned with absorbable sutures beforeregular wound closure.

View larger version (119K):
[in this window]
[in a new window]

Fig 1. Technique 1: right parasternal mini-incision, aortic and central venous cannulation.

Technique 2: right submammary mini-incision, femoral arterial cannulation, and central venous cannulation
An anterior submammary 6- to 8-cm-long incision served for thoracicaccess through the fourth interspace (Fig 2). An additionaloblique 3-cm groin incision within the inguinal fold allowedadequate exposure and subsequent cannulation (A252, Stöckert)of the common femoral artery. After longitudinal pericardialincision (about 3 cm above the phrenic nerve) and positioningof stay sutures, the SVC was encircled, which occasionally wasa difficult maneuver. In contrast, encircling of the IVC wasusually easy. Both venae cavae (V122, Stöckert, or inflatable37F, DLP, Grand Rapids, MI) were cannulated through the rightatrium, and again the IVC cannula (Polystan) was guided througha different port incision. Closure of the ASD, removal of air,and decannulation were similar to technique 1. Wound closurewas performed in the regular fashion.

View larger version (109K):
[in this window]
[in a new window]

Fig 2. Technique 2: right submammary mini-incision, femoral arterial and central venous cannulation.

Technique 3: right submammary mini-incision, femoral arterial cannulation, right atrial cannulation, and percutaneous jugular vein cannulation
The thoracic and inguinal incisions were the same as in technique2. In contrast, a previously placed central venous catheterthrough the right jugular vein was used to cannulate the SVC(15F Medtronic percutaneous Biomedicus Cannula, Minneapolis,MN) by the Seldinger technique (Figs 3, 4). Thus, encirclingthe SVC was avoided, and instead a suitable vascular clamp wasplaced when going on total bypass. To improve venous returnfrom the SVC through the small 15F cannula, an additional centrifugalpump was added to the routine heart-lung machine set. This allowedactive venous suction, thereby increasing venous drainage upto 2 to 3 L/min through the applied 15F cannula. For drainageof the IVC a newly designed, flat, low-profile, right-angledcannula (34F single-stage venous cannula oval, DLP) became availableand was introduced through the incision itself. Atrial incisionand ASD closure were similar to technique 1. After heparin reversalthe jugular vein was decannulated, and local compression wasapplied until the bleeding stopped. Wound closure was similarto technique 2.

View larger version (104K):
[in this window]
[in a new window]

Fig 3. Technique 3: right submammary mini-incision, femoral arterial cannulation, right atrial cannulation, and percutaneous jugular vein cannulation.

View larger version (98K):
[in this window]
[in a new window]

Fig 4. Surgeon’s view in technique 3.

	Results

Top Abstract Introduction Material and methods Results Comment Acknowledgments References

Complete ASD closure without the presence of residual shuntswas assessed by TEE before coming off bypass. Tension-free directclosure was possible in 18 patients, whereas patch closure becamenecessary in the remaining 6 patients, implanting pericardial(n = 3) or prosthetic patches (n = 3, Table 1). The requiredperiod of ventricular fibrillation varied between 10 and 43minutes (26.1 ± 8.6 minutes) (Table 1). Levels of creatinekinase and its myocardial isoform creatine kinase-MB peakedat 540 ± 344 U/L and 20.8 ± 7.1 U/L, respectively,whereas maximal creatine kinase-MB level represents 3.9% oftotal creatine kinase release. All patients maintained sinusrhythm and neither cardiac nor neurologic complications occurred.Local femoral artery dissection required conversion to a conventionalmidsternotomy approach and a femoral vascular repair in 1 patient.Rupture of a breast implant occurred in 1 woman after submammaryincision. Thoracic wall herniation was not observed in any ofthe patients regardless of the type of incision. Cases of wounddehiscence or infections were completely absent. None of thepatients presented with arteriosclerotic femoral lesions. Becauseof the maintained standard anesthesia protocol, the averagepostoperative ventilation had to be extended to 8.2 ±2.8 hours, and patients were kept in the intensive care unitfor 1 day and were discharged after 8.7 ± 2.9 days, whichappears to be a relatively short period in terms of usual policiesin our current health system. Intermittent atrial fibrillationoccurred in 1 patient. All patients were satisfied with thecosmetic result, especially when applying technique 3 (Fig 5).

View larger version (122K):
[in this window]
[in a new window]

Fig 5. Cosmetic postoperative result in a 28-year-old woman after atrial septal defect patch closure applying technique 3.

	Comment

Top Abstract Introduction Material and methods Results Comment Acknowledgments References

Various attempts have been made to correspond to the desireof especially younger and otherwise healthy individuals withASDs for cosmetically satisfying incisions. Until recently,submammary anterior or lateral thoracotomies have been favoredin this situation. Along with the introduction of new minimallyinvasive concepts in the field of coronary and valvular surgery,reduced incisional lengths have also been discussed for ASDclosure.

Respecting that surgical ASD closure requires total cardiopulmonarybypass, the mode of cannulation and the access to the SVC andIVC represents one key issue of minimally invasive ASD closures.Because femoral venous cannulation is associated with the riskof iliofemoral vein thrombosis, central cannulation of the IVCwas preferred. Among different cannula types, a specially designedlow-profile right-angled prototype cannula (DLP), introducedthrough the incision itself, appeared to be superior in handlingand presentation of the surgical field. Cannulas inserted throughseparate port holes (technique 1) did not perform better andimpaired the efficacy of pericardial traction sutures. Additionalcannulation of the SVC through the same incision limited operativeexposure and was technically difficult, even when using cannulaswith an inflatable cuff (DLP 91037). In this situation, a high-flowsmall-diameter cannula (Biomedicus percutaneous cannula, Medtronic),placed through the jugular vein by Seldinger’s technique,represented the most attractive option. The potential risk oflocal thrombosis was estimated to be acceptably low secondaryto the extensive experience and proved safety of regular centralvenous catheterization. This was confirmed by postoperativeDoppler sonography of the jugular vein in our patients.

Preferring a submammary mini-incision over a right parasternalminithoracotomy, direct aortic cannulation appeared to be hazardousand femoral arterial cannulation was used instead. However,as in one of our patients, small vessel size may complicatethe procedure but the risk of sclerotic embolization shouldbe negligible in patients with ASDs. Complete aortic dissection,as reported in minimally invasive mitral valve operations [8],using specially designed transfemoral arterial cannulas functioningadditionally as endoclamps (Heartport Inc, Redwood City, CA),has not been observed thus far.

The different procedures have not been applied on an alternatingbasis but rather represent a continuous development of approachesin discussion with advancing minimally invasive techniques andinstrumentation.

The use of a right parasternal incision as in our first seriesof patients (group 1) requires dissection of at least two ribs,and possible ligation of the right internal mammary artery maybe required. As the incision is asymmetrical and easily visible,the cosmetic results may not be satisfying even though incisionlength is short. In contrast, a submammary incision avoids someprincipal disadvantages of parasternal incisions inasmuch asrib destruction and internal mammary artery injury are avoided.However, in adolescent patients the future breast developmenthas to be respected, just as in other anterior perimammary incisions[9].

The exposure of ASDs through mini-incisions with a fibrillatingheart is not absolutely easy but is manageable with superficialsuction that allows for direct or patch closure of the defect.Along with a left atrial suction, the completeness of air removalis a critical point of the procedure and should be controlledby intraoperative TEE as already described for other heart procedures[10]. None of our patients experienced neurologic complicationswith this technique. The completeness of the ASD closure wasalso assessed by TEE. Additional thoracic CO₂ insufflation wasnot applied.

In addition to these more technical problems, the question ariseswhether fibrillation times of up to more than 40 minutes aretolerable under normothermic conditions. In this context, theinvestigations of Cox and colleagues [11] indicate that normothermicfibrillation appears safe under comparable circumstances. Thus,a significant release of the myocardial isoform of creatinekinase or deterioration of ventricular function has not beenobserved in our groups.

After evaluating different surgical approaches using mini-incisionsfor ASD closure, a safe and effective method is feasible. Smallanterior submammary minithoracotomies are currently favored.Compared with conventional surgical procedures, a sophisticatedadaptation of cannulation techniques is required to gain optimalaccess through mini-incisions. Because of the restricted exposureand limited air-removing procedures, a reliable means of assessingoperative results is mandatory, preferably by TEE. Thus, adequatesurgical results at a low complication rate can be expected,associated with a major benefit for these usually younger individualsin terms of superior cosmetic appearance, accelerated postoperativerecovery, and improved exercise tolerance.

Acknowledgments

Top
Abstract
Introduction
Material and methods
Results
Comment
Acknowledgments
References

We sincerely appreciate the professional expertise of Mrs HanneloreLaue and Mrs Bärbel Bornholdt-Dudler in preparing the manuscript.In addition, we are especially grateful to Mr Helmut Kreczikand Mrs Susanne Czichos for contributing the drawings and illustrations.

References

Top
Abstract
Introduction
Material and methods
Results
Comment
Acknowledgments
References

Kirklin J.W., Barratt-Boyes B.G. Atrial septal defect and partial anomalous pulmonary venous connection. In: Kirklin J.W., Barratt-Boyes B.G., eds. Cardiac surgery, 1st ed. New York: Churchill Livingstone, 1988.
Lancaster L.L., Mavroudis C., Rees A.H., Slater A.D., Ganzel B.L., Gray L.A. Surgical approach to atrial septal defect in the female. Am Surg 1990;56:218-221.[Medline]
Rosengart T.K., Stark J.F. Repair of atrial septal defect through a right thoracotomy. Ann Thorac Surg 1993;55:1138-1140.[Abstract]
Grinda J.M., Folliguet T.A., Dervanian P., Macé L., Legault B., Neveux J.Y. Right anterolateral thoracotomy for repair of atrial septal defect. Ann Thorac Surg 1996;62:175-178.[Abstract/Free Full Text]
Massetti M., Babatasi G., Rossi A., et al. Operation for atrial septal defect through a right anterolateral thoracotomy: current outcome. Ann Thorac Surg 1996;62:1100-1103.[Abstract/Free Full Text]
Dietl C.A., Torres A.R., Favaloro R.G. Right submammarian thoracotomy in female patients with atrial septal defects and anomalous pulmonary venous connections. J Thorac Cardiovasc Surg 1992;104:723-727.[Abstract]
Laks H., Hammond G.L. A cosmetically acceptable incision for the median sternotomy. J Thorac Cardiovasc Surg 1980;79:146-149.[Abstract]
Mohr F.W., Falk V., Diegeler A., Walther T., van Son J.A.M., Autschbach R. Minimally invasive port-access. Mitral valve surgery. J Thorac Cardiovasc Surg 1998;115:567-576.[Abstract/Free Full Text]
Cherup L.L., Siewers R.D., Futrell J.W. Breast and pectoral muscle maldevelopment after anterolateral and posterolateral thoracotomies in children. Ann Thorac Surg 1986;41:492-497.[Abstract]
Falk V., Walther T., Diegeler A., et al. Echocardiographic monitoring of minimally invasive mitral valve surgery using an endoaortic clamp. J Heart Valve Dis 1996;5:630-637.[Medline]
Cox J.A., Anderson R.W., Pass H.A., et al. The safety of induced ventricular fibrillation during cardiopulmonary bypass in nonhypertrophied hearts. J Thorac Cardiovasc Surg 1977;74:423-432.[Medline]

Related Article

: Charles A. Dietl
Ann. Thorac. Surg. 1999 67: 1652. [Extract] [Full Text] [PDF]

This article has been cited by other articles:

K. Ak, T. Aybek, G. Wimmer-Greinecker, F. Ozaslan, F. Bakhtiary, A. Moritz, and S. Dogan
Evolution of surgical techniques for atrial septal defect repair in adults: A 10-year single-institution experience
J. Thorac. Cardiovasc. Surg., September 1, 2007; 134(3): 757 - 764.
[Abstract] [Full Text] [PDF]

M. Sundara Pandiyan, A. Mathew Kavunkal, V. T.K. Titus, and N. Pandarinathan
Successful repair of chronic instability of anterior chest wall following right parasternal approach for closure of atrial septal defect in a young female
Interactive CardioVascular and Thoracic Surgery, December 1, 2006; 5(6): 740 - 741.
[Abstract] [Full Text] [PDF]

C. Schreiber, S. Bleiziffer, M. Kostolny, J. Horer, A. Eicken, K. Holper, P. Tassani-Prell, and R. Lange
Minimally Invasive Midaxillary Muscle Sparing Thoracotomy for Atrial Septal Defect Closure in Prepubescent Patients
Ann. Thorac. Surg., August 1, 2005; 80(2): 673 - 676.
[Abstract] [Full Text] [PDF]

S. Bleiziffer, C. Schreiber, R. Burgkart, F. Regenfelder, M. Kostolny, P. Libera, K. Holper, and R. Lange
The influence of right anterolateral thoracotomy in prepubescent female patients on late breast development and on the incidence of scoliosis
J. Thorac. Cardiovasc. Surg., May 1, 2004; 127(5): 1474 - 1480.
[Abstract] [Full Text] [PDF]

G. Wimmer-Greinecker, S. Dogan, T. Aybek, M. F. Khan, S. Mierdl, C. Byhahn, and A. Moritz
Totally endoscopic atrial septal repair in adults with computer-enhanced telemanipulation
J. Thorac. Cardiovasc. Surg., August 1, 2003; 126(2): 465 - 468.
[Abstract] [Full Text] [PDF]

U. Abdel-Rahman, G. Wimmer-Greinecker, G. Matheis, A. Klesius, U. Seitz, R. Hofstetter, and A. Moritz
Correction of simple congenital heart defects in infants and children through a minithoracotomy
Ann. Thorac. Surg., November 1, 2001; 72(5): 1645 - 1649.
[Abstract] [Full Text] [PDF]

T. Walles, U. Klima, A. Lichtenberg, A. Ruhparwar, K. Shiraga, and A. Haverich
Minimally invasive removal of a dislocated stent from the right atrium after previous CABG
Ann. Thorac. Surg., October 1, 2001; 72(4): 1382 - 1384.
[Abstract] [Full Text] [PDF]

J. G LeBlanc, J. L Russell, J. E Potts, M. L Deagle, and S. S Sett
Surgical Closure of Secundum Atrial Septal Defects: the Cutting Edge?
Asian Cardiovasc Thorac Ann, September 1, 2001; 9(3): 192 - 195.
[Abstract] [Full Text] [PDF]

W. Luo
Lower ministernotomy for the repair of atrial septal defects
Ann. Thorac. Surg., March 1, 2001; 71(3): 1065 - 1066.
[Full Text] [PDF]

C. Hagl, U. Stock, A. Haverich, and G. Steinhoff
Evaluation of Different Minimally Invasive Techniques in Pediatric Cardiac Surgery : Is a Full Sternotomy Always a Necessity?
Chest, February 1, 2001; 119(2): 622 - 627.
[Abstract] [Full Text] [PDF]

M. Bauer, V. V. Alexi-Meskishvili, and R. Hetzer
Less invasive correction of atrial septal defects with transthoracic cannulation
Ann. Thorac. Surg., March 1, 2000; 69(3): 981 - 982.
[Full Text] [PDF]

This Article

Abstract

Full Text (PDF)

Alert me when this article is cited

Alert me if a correction is posted

Citation Map

Services

Email this article to a friend

Similar articles in this journal

Similar articles in PubMed

Alert me to new issues of the journal

Add to Personal Folders

Download to citation manager

Author home page(s):
Axel Haverich

Permission Requests

Citing Articles

Citing Articles via HighWire

Citing Articles via Google Scholar

Google Scholar

Articles by Cremer, J. T.

Articles by Haverich, A.

Search for Related Content

PubMed

PubMed Citation

Articles by Cremer, J. T.

Articles by Haverich, A.

Related Collections

Related Article

				M. Sundara Pandiyan, A. Mathew Kavunkal, V. T.K. Titus, and N. Pandarinathan Successful repair of chronic instability of anterior chest wall following right parasternal approach for closure of atrial septal defect in a young female Interactive CardioVascular and Thoracic Surgery, December 1, 2006; 5(6): 740 - 741. [Abstract] [Full Text] [PDF]

				C. Schreiber, S. Bleiziffer, M. Kostolny, J. Horer, A. Eicken, K. Holper, P. Tassani-Prell, and R. Lange Minimally Invasive Midaxillary Muscle Sparing Thoracotomy for Atrial Septal Defect Closure in Prepubescent Patients Ann. Thorac. Surg., August 1, 2005; 80(2): 673 - 676. [Abstract] [Full Text] [PDF]

				S. Bleiziffer, C. Schreiber, R. Burgkart, F. Regenfelder, M. Kostolny, P. Libera, K. Holper, and R. Lange The influence of right anterolateral thoracotomy in prepubescent female patients on late breast development and on the incidence of scoliosis J. Thorac. Cardiovasc. Surg., May 1, 2004; 127(5): 1474 - 1480. [Abstract] [Full Text] [PDF]

				G. Wimmer-Greinecker, S. Dogan, T. Aybek, M. F. Khan, S. Mierdl, C. Byhahn, and A. Moritz Totally endoscopic atrial septal repair in adults with computer-enhanced telemanipulation J. Thorac. Cardiovasc. Surg., August 1, 2003; 126(2): 465 - 468. [Abstract] [Full Text] [PDF]

				U. Abdel-Rahman, G. Wimmer-Greinecker, G. Matheis, A. Klesius, U. Seitz, R. Hofstetter, and A. Moritz Correction of simple congenital heart defects in infants and children through a minithoracotomy Ann. Thorac. Surg., November 1, 2001; 72(5): 1645 - 1649. [Abstract] [Full Text] [PDF]

				T. Walles, U. Klima, A. Lichtenberg, A. Ruhparwar, K. Shiraga, and A. Haverich Minimally invasive removal of a dislocated stent from the right atrium after previous CABG Ann. Thorac. Surg., October 1, 2001; 72(4): 1382 - 1384. [Abstract] [Full Text] [PDF]

				J. G LeBlanc, J. L Russell, J. E Potts, M. L Deagle, and S. S Sett Surgical Closure of Secundum Atrial Septal Defects: the Cutting Edge? Asian Cardiovasc Thorac Ann, September 1, 2001; 9(3): 192 - 195. [Abstract] [Full Text] [PDF]

				W. Luo Lower ministernotomy for the repair of atrial septal defects Ann. Thorac. Surg., March 1, 2001; 71(3): 1065 - 1066. [Full Text] [PDF]

				C. Hagl, U. Stock, A. Haverich, and G. Steinhoff Evaluation of Different Minimally Invasive Techniques in Pediatric Cardiac Surgery : Is a Full Sternotomy Always a Necessity? Chest, February 1, 2001; 119(2): 622 - 627. [Abstract] [Full Text] [PDF]

				M. Bauer, V. V. Alexi-Meskishvili, and R. Hetzer Less invasive correction of atrial septal defects with transthoracic cannulation Ann. Thorac. Surg., March 1, 2000; 69(3): 981 - 982. [Full Text] [PDF]