Minimally invasive Port-Access repair of a left ventricular pseudoaneurysm

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Minimally invasive Port-Access repair of a left ventricular pseudoaneurysm

Jerome Sepic, MD, Sari F. Aranki, MD, Lawrence H. Cohn, MD Boston, Mass

From the Division of Cardiac Surgery, Brigham and Women's Hospital, Harvard Medical School, Boston, Mass.

Received for publication Feb 11, 2002. Accepted for publication April 1, 2002. Address for reprints: Lawrence H. Cohn, MD, Division of Cardiac Surgery, Brigham and Women's Hospital, 75 Francis St, Boston, MA 02115 (E-mail: lcohn{at}partners.org).

Despite being relatively rare, ventricular pseudoaneurysms mightresult from a number of different causes and present in numerouslocations. Recent advances in minimally invasive cardiac surgerytechniques include the use of minithoracotomy exposures andperipheral cannulation, providing closed-chest cardiac arrest(Port-Access; Heartport, Inc, Redwood City, Calif). We reporta case in which minimally invasive Port-Access technology wasused to perform a repair of a chronic left ventricular pseudoaneurysmcaused by previous penetrating trauma.

Clinical summary

A 41-year-old man was referred to our institution for electiverepair of a suspected left ventricular pseudoaneurysm. He hadundergone an emergency left anterior thoracotomy at anotherhospital 23 years earlier after a stab wound to the chest. Atthat time, a 1-cm laceration in the anterolateral left ventriclewas repaired with interrupted 2-0 silk sutures. His immediatepostoperative course and 3-month follow-up were unremarkable.

More than 2 decades later, the patient was found to have a 5-cmround opacity at the left heart border on routine chest radiography.On physical examination, an apical grade 3/6 systolic murmurwas heard. His vital signs and electrocardiographic resultswere within normal limits.

The patient underwent cardiac magnetic resonance imaging tofurther define these abnormal findings, which demonstrated a7 x 5-cm left ventricular pseudoaneurysm with a narrow neckand mild expansion during systole. Computed tomography suggesteda calcified ventricular wall aneurysm with minimal left pleuralthickening (Figure 1). Both transthoracic echocardiography andangiography revealed preserved ventricular function and a leftventricular pseudoaneurysm, with systolic filling through anarrow neck.

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Fig. 1. Preoperative computed tomographic scan of the chest showing a pseudoaneurysm at the anterolateral portion of the left ventricle. Note the calcification in the pseudoaneurysm causing increased attenuation.

Given the potential risk of pseudoaneurysm rupture over timeand the patient's wishes for a cosmetically appealing incisionwithout a sternotomy, a minimally invasive resection of theleft ventricular pseudoaneurysm on cardiopulmonary bypass (CPB)was planned. With the patient supine, a 6-cm left anterior thoracotomywas made through the previous incision scar at the fourth intercostalspace. On administration of heparin, the femoral vessels werecannulated with a 21F Heartport arterial cannula and a 24F Heartportvenous cannula. CPB was initiated, and the patient was cooledto 32°C. The Heartport EndoClamp catheter was positionedin the ascending aorta with transesophageal echocardiographicguidance. The heart was briefly fibrillated, and the balloonwas then inflated to occlude the aorta. At this point, cardioplegicsolution was then administered through the proximal port ofthe EndoClamp catheter in the usual fashion. The pseudoaneurysmwas in close proximity to a diagonal branch of the left anteriordescending coronary artery but was carefully dissected freefrom surrounding tissue. Once isolated, the blood-filled aneurysmwas opened to reveal a small thrombus and an approximately 2-cmorifice communicating with the left ventricular cavity. Theaneurysm was resected, and the orifice was closed with a seriesof 2-0 Ethibond mattress sutures (Ethicon, Inc, Somerville,NJ). Several minor lung leaks, resulting from our dissectionof the pseudoaneurysm, were repaired with running polypropylenesutures. After the patient was weaned off CPB and decannulated,the minithoracotomy was closed. The patient was discharged homeon postoperative day 5 after an uncomplicated hospital stay.The patient made a complete recovery, with no evidence of pseudoaneurysmrecurrence at 3 years' follow-up (Figure 2).

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Fig. 2. Three-year follow-up computed tomographic scan of the chest showing no left ventricular pseudoaneurysm recurrence.

Comment

Although rare, ventricular pseudoaneurysms can develop afterblunt or penetrating chest trauma and might be asymptomaticand incidentally diagnosed. ¹ Once suspected, various imagingstudies, including 2-dimensional echocardiography, computedtomography, and ventricular angiography, might help determinethe pseudoaneurysm's specific characteristics. ² In this caseall imaging studies suggested an approximately 5-cm chronicpseudoaneurysm in the anterolateral left ventricle. Despitea potential risk of rupture, some reports suggest that chronicventricular pseudoaneurysms might remain stable over time withnonoperative management. ^3,4 Although this patient was asymptomatic,elective repair of the pseudoaneurysm was indicated becauseof its large size and the otherwise good health of the patient.

A repeat left anterior thoracotomy approach was used to accessthe pseudoaneurysm because it coincided with the old incisionscar and the anterolateral location of the pseudoaneurysm. Magneticresonance imaging and computed tomographic imaging providedaccurate information regarding the best intercostal space toaccess the pseudoaneurysm. Port-Access instruments were usedfor CPB cannulation and endoaortic occlusion to minimize incisionsize and mediastinal dissection. Therefore initiation of CPBwas safely possible in this redo operation without isolationof the aorta for crossclamping and before dissection of thepseudoaneurysm off of the surrounding structures. Port-Accesstechniques allowed a less invasive and more efficient repairof this large left ventricular pseudoaneurysm by limiting mediastinaldissection before CPB.

References

Yeo TC, Malouf JF, Oh JK, Seward JB. Clinical profile and outcomes in 52 patients with cardiac pseudoaneurysm. Ann Intern Med. 1998;128:299-305.[Abstract/Free Full Text]
Brown SL, Gropler RJ, Harris KM. Distinguishing left ventricular aneurysm from pseudoaneurysm: a review of the literature. Chest. 1997;111:1403-9.[Abstract/Free Full Text]
Frances C, Romero A, Grady D. Left ventricular pseudoaneurysm. J Am Coll Cardiol. 1998;32:557-61.[Abstract/Free Full Text]
Sakai K, Nakamura K, Ishizuka N, Nakagawa M, Hosoda S. Echocardiographic findings and clinical features of left ventricular pseudoaneurysm after mitral valve replacement. Am Heart J. 1992;124:975-82.[Medline]

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Minimally invasive Port-Access repair of a left ventricular pseudoaneurysm