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Table of Contents
Year : 2015  |  Volume : 18  |  Issue : 1  |  Page : 87-90
Left ventricular rupture postmitral valve replacement: Surviving a catastrophe

1 Department of Cardiac Anesthesiology, Apollo Hospitals, Bhubaneswar, Odisha, India
2 Department of Cardiothoracic and Vascular Surgery, Apollo Hospitals, Bhubaneswar, Odisha, India

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Date of Web Publication1-Jan-2015


One of the dreaded mechanical complications of mitral valve replacement (MVR) is rupture of the left ventricle (LV). This report describes the early diagnosis and successful repair of rupture of posterior wall of LV in an elderly patient who underwent MVR. We have discussed the risk factors and perioperative issues implicated in such complication. The anesthesiologist as an intra-operative echocardiographer can aid in identifying the patient at risk. Though important surgical steps are necessary to prevent the complication; nonetheless, the anesthesiologist needs to take key measures in the perioperative period.

Keywords: Left ventricular rupture, mitral valve replacement, risk factors

How to cite this article:
Bisoyi S, Mohanty J, Mohapatra R, Nayak D. Left ventricular rupture postmitral valve replacement: Surviving a catastrophe. Ann Card Anaesth 2015;18:87-90

How to cite this URL:
Bisoyi S, Mohanty J, Mohapatra R, Nayak D. Left ventricular rupture postmitral valve replacement: Surviving a catastrophe. Ann Card Anaesth [serial online] 2015 [cited 2021 Aug 4];18:87-90. Available from:

   Introduction Top

Rupture of the left ventricle (LV) following mitral valve replacement (MVR) is infrequent but a highly lethal complication. It was first reported by Roberts and Morrow in 1967. [1] The reported incidence is 0.5-2%. [2],[3],[4] Rapid exsanguinating hemorrhage results in high mortality which varies between 50% and 93% with or without the use of cardiopulmonary bypass (CPB). [5] Hence, insights into its prevention and management are important. In this case report, we share and discuss our experience of a repair of posterior LV rupture following MVR for rheumatic severe calcific mitral stenosis (MS).

   Case Report Top

We operated on a 64-year-old female patient of chronic rheumatic heart disease with severe calcific MS, mild tricuspid regurgitation, and moderate pulmonary arterial hypertension. She had undergone closed mitral valvotomy (CMV) 22 years back for rheumatic MS. She had frail built, normal LV size but with a large left atrium. The preoperative profile of the patient is given in [Table 1].
Table 1: Preoperative profile of the patient

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The patient underwent MVR (with 31 mm, St. Jude Biocor stented porcine bioprosthetic valve) with standard monitoring and transesophageal echocardiography (TEE). Intra-operative TEE revealed severe calcification of the mitral valve (MV), mitral annular calcification, and severe subvalvular calcification. Surgically, dense pericardial adhesions (due to previous CMV) were also encountered and adequate adhesiolysis was done with diathermy. Posterior mitral leaflet (PML) had to be resected because of severe calcification. Tricuspid valve was inspected and found to be competent. The CPB and aortic cross-clamp (ACC) times were 82 and 56 min respectively. Eight hours after completion of surgery, while contemplating to start weaning off ventilation, an abrupt massive bleeding (1,200 ml over 10 min) was noticed from the mediastinal chest tube. The patient became hemodynamically unstable (BP = 56/30 mmHg) and was resuscitated with one liter of colloid (6% hydroxy-ethyl starch) and 500 ml of ringer's lactate. While resuscitation was going on, the sternum was reopened immediately. The blood in the pericardial cavity was suctioned out. Source of bleeding was found to be from the posterior aspect of LV. However, the heart was not mobilized as a large clot was noticed over the back of the LV. Surprisingly, bleeding had come down significantly by the tamponading effect of the clot covering the posterior wall of LV. With fluid resuscitation going on, the patient was shifted carefully from the ICU to the operation room (OR).

In the OR, the patient was emergently put on CPB. For the fear of disturbing the clot and aggravating bleeding, the heart was not handled until CPB was instituted. Once on CPB, the heart was lifted up, and a type III LV rupture [Table 2] was detected on the posterior wall. [6],[7] On inspection of the LV rupture site, it was found that the external and the internal disruption sites were lying close to each other, and the tear did not involve the suture line of the MV prosthesis. Repair was done through an external approach using buttresses of strips of Teflon reinforced with prolene sutures. Definite damage to the circumflex coronary artery was excluded after the repair. The patient came off CPB with intravenous infusion adrenaline 0.08 μg/kg/min and dobutamine 7.5 μg/kg/min as inotropic supports. Before going on CPB, we could not insert the TEE probe as the emergency demanded subjecting the patient on CPB urgently. We used the TEE after coming off CPB. TEE revealed hypokinesia of the inferior wall of LV and moderate LV dysfunction. The CPB and ACC times were 63 and 40 min, respectively. There were impairments of liver and renal function during the postoperative course which recovered with medical management. The patient was discharged from the hospital on the fourteenth postoperative day of surgery. She has been on follow-up for the last 2 years. The recent echocardiography shows normally functioning prosthetic valve but mild LV dysfunction with hypokinetic inferior wall [Figure 1].
Figure 1: Transthoracic short axis view of posterolateral left ventricle (LV) during the follow-up echocardiography of the patient. The arrow mark showing the site of LV repair on the posterior wall

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Table 2: Types of left ventricular rupture post - MVR

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   Discussion Top

Roberts and Morrow were the first to report LV rupture post-MVR on autopsy in two patients in 1976. [1] The reported incidence has varied between 0.5% and 2% and may be more as some cases may not be reported at all. However, now it is being seen less often than 15-20 years back. [2],[3],[4] None the less, high mortality (50-93%) warrants new insights into its prevention and management. [4],[5]

The LV ruptures after MVR have been classified into 3 types. In 1974, Treasure et al. proposed 2 types according to the location of the epicardial tear and later on in 1977 Miller et al. supplemented it with the type III rupture [Table 2]. [8],[9] Sometimes, the ventricular tear progresses and becomes a mixed type, that is, combination of any of the three types. Depending on the time of tear following MVR, LV rupture has been further categorized as immediate, delayed, and chronic. "Immediate/early" tears occur in the operating room before or after weaning from CPB; hence, early resuscitation and better survival. "Delayed" tears present hours to days after leaving the operating theatre. Clinically, these present with massive bleeding into the drainage tubes and hypotension. "Chronic" tears occur days to years after MVR and present as LV pseudoaneurysm. [10],[11] The "early" rupture constitutes 2/3 rd of the LV ruptures following MVR, and its resultant mortality may reach up to 50% despite immediate intervention. [12]

Patient factors implicated in the pathogenesis are chronic rheumatic heart disease, excessive calcification of the MV apparatus, old age, female sex, myocardial ischemia, infective endocarditis with MV annular abscess, myocardial disease, hemodialysis and small LV size (end-diastolic diameter <50 mm). [2],[10],[13]

Anesthesiologists can play an important role in identifying the patient at high-risk with the help of the intra-operative TEE. TEE can reveal the valvular and annular calcification, severe subvalvular fusion, small LV cavity and mitral annular abscess, etc. Features of LV rupture on TEE may appear in the form of air in the LV cavity (pathognomonic sign), hematoma lying adhered to the inferior wall and associated with regional wall motion abnormalities.

Intra-operative maneuvers blamed for precipitating the rupture are mechanical causes, such as excessive resection of the mitral leaflets, annulus and/or papillary muscle; redo MVR (adhesions from a previous operation), oversized prosthesis, deep sutures in the myocardium, forceful retraction on the mitral annulus and LV. Perforation of the ventricular wall in the region of the papillary muscles may occur during removal of the MV particularly if this is being done under conditions of ischemic arrest with a flaccid heart. [7],[8],[14]

The risk factors we found in our patient were advanced age, female sex, previous CMV; and dense calcification of the valvular and subvalvular apparatus.

Intra-operative precautions may, therefore, help to minimize the risk: (i) The PML in whole or part should be preserved in the high-risk patients, (ii) the integrity of the MV annulus should be maintained by avoiding excessive debridement of the calcified annulus; this supports the MV on the LV posterior wall, (iii) judicious and limited papillary muscle excision is useful, (iv) proper sizing of the MV prevents mechanical injury from an oversized prosthesis, (v) excessive traction on the ventricle should be avoided to prevent injury to the root of the papillary muscle (vii) complete adhesiolysis of adhesions from previous surgery help in preventing excess traction on the LV during surgery (vii) systemic hypertension after MVR should be prevented to reduce LV workload, (viii) in the high-risk patients, a pacemaker should be used to increase postoperative heart rate as it shortens diastole and avoids ventricular over-dilation. [10],[13],[15],[16],[17] The potential harmful effects of abrupt intra-operative and postoperative hypertension especially that arising with the use of bolus doses of inotropes may precipitate an incipient rupture. [15],[18] Hence, the anesthesiologist role is to make judicious use of inotropes and prevent acute hypertension and vigorous LV contractions in the immediate postbypass period. Katske et al. opined that the elongation of the LV, which occurs when the valve is detached from the papillary muscles, might expose an area of weakness. [18] Rupture probably occurs after endocardial damage to a thin myocardium that has lost the internal buttress of the subvalvular apparatus. With the rise in intraventricular pressure at the end of bypass blood dissects into the myocardium, resulting in a large hematoma and eventual rupture. This phenomenon was termed as "untethering" of the LV by Cobbs et al. [6] Miller et al. noted that leaving part of the PML in situ prevents weakening of the LV wall. [9]

It may not be possible to define the actual cause of the LV rupture in every case. At our center, we avoid excessive traction on the ventricle and practice preserving the PML with its attached chordae. However, in this case due to excessive calcification of the MV with the subvalvular fusion, PML with its attached chordae had to be excised. Appropriate sizing of the valve was done while replacing the valve. Probably, the excessive resection of the calcified valve and subvalvular structures triggered the posterior wall LV rupture.

The fundamental requirements for successful repair of LV tear are closure of the full extent of the tear, placement of sutures into the healthy myocardium avoiding the adjacent inflamed edematous tissue, and sparing the left circumflex coronary artery and its marginal branches. Repair, particularly of a tear in the atrio-ventricular groove, is likely to compromise the circumflex coronary artery circulation. [15] Involvement of the coronary artery requires bypass graft. Wherever needed the valve prosthesis may have to be removed for proper visualization of the site of the tear. Conceivably, the repair of the tear is easier under CPB. [5],[11] Due to an injury to LV, the LV dysfunction often demands high inotropic support and intra-aortic balloon pump support. In view of the high-risk surgery and LV dysfunction, these patients may require prolonged postoperative elective ventilation under sedation to stabilize.

Rupture of the LV wall after MVR is a rare event which may accompany MVR. Factors resulting in a fragile myocardium clubbed with operative trauma appear to precipitate an incipient rupture. High degree of suspicion of the catastrophe, immediate resuscitation; and repair of the tear on a decompressed heart under CPB may salvage the patient.

   References Top

Spencer FC, Galloway AC, Colvin SB. A clinical evaluation of the hypothesis that rupture of the left ventricle following mitral valve replacement can be prevented by preservation of the chordae of the mural leaflet. Ann Surg 1985;202:673-80.  Back to cited text no. 1
Karlson KJ, Ashraf MM, Berger RL. Rupture of left ventricle following mitral valve replacement. Ann Thorac Surg 1988;46:590-7.  Back to cited text no. 2
Schuetz A, Schulze C, Wildhirt SM. Off-pump epicardial tissue sealing - A novel method for atrioventricular disruption complicating mitral valve procedures. Ann Thorac Surg 2004;78:569-73.  Back to cited text no. 3
Wei J, Wu C, Hong G, Tung DY, Chang CY, Chuang YC. Autotransplantation of heart for repair of left ventricular rupture after mitral valve replacement. Transplant Proc 2001;33:3553-4.  Back to cited text no. 4
Izzat MB, Smith GH. Rupture of left ventricle after mitral valve repair: Case report and new technique of repair. Br Heart J 1993;69:366-7.  Back to cited text no. 5
Cobbs BW Jr, Hatcher CR Jr, Craver JM, Jones EL, Sewell CW. Transverse midventricular disruption after mitral valve replacement. Am Heart J 1980;99:33-50.  Back to cited text no. 6
de la Fuente A, Agudo O, Sánchez R, Fernández JL, Moriones I. Repair of left ventricular rupture after mitral valve replacement: Use of a Teflon patch and glue. Ann Thorac Surg 1999;67:1802-3.  Back to cited text no. 7
Treasure RL, Rainer WG, Strevey TE, Sadler TR. Intraoperative left ventricular rupture associated with mitral valve replacement. Chest 1974;66:511-4.  Back to cited text no. 8
Miller DW Jr, Johnson DD, Ivey TD. Does preservation of the posterior chordae tendineae enhance survival during mitral valve replacement? Ann Thorac Surg 1979;28:22-7.  Back to cited text no. 9
Zhang HJ, Ma WG, Xu JP, Hu SS, Zhu XD. Left ventricular rupture after mitral valve replacement: A report of 13 cases. Asian Cardiovasc Thorac Ann 2006;14:26-9.  Back to cited text no. 10
Sersar SI, Jamjoom AA. Left ventricular rupture post mitral valve replacement. Clin Med Cardiol 2009;3:101-13.  Back to cited text no. 11
Björk VO, Henze A, Rodriguez L. Left ventricular rupture as a complication of mitral valve replacement. J Thorac Cardiovasc Surg 1977;73:14-22.  Back to cited text no. 12
Otaki M, Kitamura N. Left ventricular rupture following mitral valve replacement. Chest 1993;104:1431-5.  Back to cited text no. 13
Zacharias A. Repair of spontaneous rupture of the posterior wall of the left ventricle after mitral valve replacement. Oper Tech Thorac Cardiovasc Surg 2003;8:36-41.  Back to cited text no. 14
Dark JH, Bain WH. Rupture of posterior wall of left ventricle after mitral valve replacement. Thorax 1984;39:905-11.  Back to cited text no. 15
Reardon MJ, Letsou GV, Reardon PR, Baldwin JC. Left ventricular rupture following mitral valve replacement. J Heart Valve Dis 1996;5:10-15.  Back to cited text no. 16
Lijoi A, Parodi E, Passerone GC, Scarano F, Caruso D, Iannetti MV. Unruptured aneurysm of the left sinus of valsalva causing coronary insufficiency: Case report and review of the literature. Tex Heart Inst J 2002;29:40-4.  Back to cited text no. 17
Katske G, Golding LR, Tubbs RR, Loop FD. Posterior midventricular rupture after mitral valve replacement. Ann Thorac Surg 1979;27:130-2.  Back to cited text no. 18

Correspondence Address:
Samarjit Bisoyi
Department of Cardiac Anesthesiology, Apollo Hospitals, Sainik School Road, Unit 15, Bhubaneswar 751 005, Odisha
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Source of Support: None, Conflict of Interest: None

DOI: 10.4103/0971-9784.148327

Clinical trial registration J-3675-2012

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  [Table 1], [Table 2]