Mitral Subvalvular Apparatus Research Articles

A rare presentation of an accessory mitral valve chordae.

The mitral subvalvular apparatus can exhibit complex and unique anatomical variations. Accessory mitral valve chordae (AMVC) typically present as additional thin strands in the left ventricle. Their appearance in the atrium is rare. In the clinical case described, the AMVC was an incidental and intriguing finding during a routine transthoracic echocardiography.

CASE-FA-06 - Cardiac Magnetic Resonance (CMR) in the Evaluation of Mitral Subvalvular Apparatus on a Patient with Dilated Cardiomyopathy

CASE-FA-06 - Cardiac Magnetic Resonance (CMR) in the Evaluation of Mitral Subvalvular Apparatus on a Patient with Dilated Cardiomyopathy

P130 FINGER ISCHEMIA IN A YOUNG LADY: EXPECT THE UNEXPECTED FROM A PAPILLARY FIBRO–ELASTOMA

Abstract Case presentation: In December 2022, A 32–y old women presented to the emergency department of our institution for pain and acrocyanosis of the 3rd and 4th finger of the right hand, compared abruptly 10 hours before. Physical examination was otherwise normal, she was apyretic. Her previous medical history was unremarkable, she did not take any medication and was a light smoker. Blood samples including blood count, platelets, coagulation tests, liver and kidney function, and inflammatory markers were normal. An echocardiogram was prescribed to rule out significant cardiovascular disease. The exam showed: normal left and right ventricular dimensions and systolic function, and absence of significant valvular disease. A highly mobile, iso–echoic mass was noted inside the left ventricle, with a major diameter of 8 mm; it was attached to the antero–lateral papillary muscle, not involving the mitral valve leaflets, and it had a frond–like appearance. Findings were consistent with a fibroelastoma (PFE; figure 1, 2). Doppler examination excluded pathology of ascending aorta, right subclavian artery, and demonstrated patency of arteries of the right arm and right hand. The case was compatible with peripheral embolization from the cardiac mass. A cardiac CT scan confirmed the echo findings and ruled out significant coronary disease. The patient underwent cardiac surgery two days later. With median sternotomy and cardiopulmonary bypass, the left ventricle was reached through aortotomy. A multilobular yellowish mass was seen attached to the antero–lateral papillary muscle, and was completely resected (figure 3); chordae tendineae were preserved. Macroscopic examination (figure 3) and histological findings confirmed the diagnosis of PFE. Post operative course was unremarkable. Discussion PFEs are benign tumors most commonly involving aortic valve, followed by mitral valve; atypical origins including mitral subvalvular apparatus, as in our case, has seldom been described. Most cases of PFE are asymptomatic, limited in dimensions and discovered incidentally. Interestingly, Raynaud phenomenon was at first suspected as cause of acrocyanosis in our patient, but it was inconsistent with biochemical findings, so that an echocardiogram was prescribed. Echo and CT aspects of the mass were typical for PFE, and it appeared at high embolic risk being pedunculated and highly mobile. Given the peripheral ischemic event occurred, prompt surgical resection was performed successfully.

Lost and found: late embolization of an atrial septal occluder device.

A 66-year-old male with a history of percutaneously closed atrial septal defect (ASD) with a Cera™ occluder four years earlier underwent transthoracic echocardiography. Device migration into the left ventricular outflow tract and moderate mitral regurgitation (MR) were found (Panel A). The previous follow-up 12 months echocardiogram was unremarkable. Periprocedural imaging showed a 30 × 17 mm ASD, a borderline anterior rim (5 mm), and a thin posterior rim, considered adequate according to current guidelines. The expanded balloon diameter was 31 mm and a 36 device was selected. During the procedure final device position was satisfactory and the device was stable after the tug test. After the heart team reviewed the case interventional retrieval of the device was attempted. Using a snare catheter and a double tool retrieval technique, the attempts were unsuccessful (Panel E). The patient was sent for cardiac surgery. Pre-operative transoesophageal echocardiogram showed entrapment of the device in the mitral subvalvular apparatus and chordae tendineae rupture causing eccentric severe MR (Panel B, C, and D). Surgical removal of the device (Panel F), ASD closure, and mitral valve replacement were performed.

Septal Thickness Does Not Impact Outcome After Hypertrophic Obstructive Cardiomyopathy Surgery (Septal Myectomy and Subvalvular Mitral Apparatus Remodeling): A 15-Years of Experience.

BackgroundThe aim of this study was to assess the impact of septal thickness on long-term outcomes of surgical treatment for hypertrophic obstructive cardiomyopathy (HOCM) and correction of mitral subvalvular anomalies.MethodsSixty-six consecutive patients (58 ± 12 years, 56% female) undergoing extended septal myectomy and subvalvular mitral apparatus remodeling from 2007 to 2021 were retrospectively reviewed. Patients were divided into 2 groups according to septal thickness: moderate [< 18 mm, 29 patients (44%)] and severe [≥ 18 mm, 37 patients (56%)]. End points included survival, symptom improvement, reduction of left ventricle outflow tract (LVOT) gradient, resolution of mitral regurgitation (MR), and reoperation.ResultsThe mean interventricular septal thickness was 19 ± 3 mm, 15.8 ± 0.8 mm in patients with moderate and 21.4 ± 3.2 mm in those with severe hypertrophy. Preoperative data, intraoperative variables, postoperative complication rates, pre-discharge echocardiographic and clinical parameters did not differ between the two study groups [except for procedures involving the posterior mitral leaflet (p = 0.033) and septal thickness after myectomy (p = 0.0001)]. Subvalvular apparatus remodeling (secondary chordae of mitral valve resection and papillary muscle and muscularis trabecula procedures including resection, splitting, and elongation) was invariably added to septal myectomy (100%). Four (6%) procedures involved the posterior mitral leaflets. Mitral valve replacement was carried out in two patients (3%, p = 0.4). Reoperation for persistent MR was necessary in one patient (1%, p = 0.4). Neither iatrogenic ventricular septal defect nor in-hospital mortality occurred. During follow-up (mean 4.8 ± 3.8 years), two deaths occurred. NYHA class was reduced from 2.9 ± 0.7 to 1.6 ± 0.6 (p < 0.0001), the LVOT gradient from 89.7 ± 34.5 to 16.3 ± 8.8 mmHg (p < 0.0001), mitral valve regurgitation grade from 2.5 ± 1 to 1.2 ± 0.5 (p < 0.0001), and septal thickness from 18.9 ± 3.7 to 13.9 ± 2.7 mm (p < 0.0001).ConclusionsRegardless of septal thickness, subvalvular apparatus remodeling with concomitant septal myectomy can provide satisfactory long-term outcomes in terms of symptom improvement, LVOT obstruction relief, and MR resolution (without mitral valve replacement in most cases) in patients with HOCM.

A Surgical Technique to Preserve the Subvalvular Apparatus in Patients Undergoing Mitral Valve Replacement for Severe Ischemic Regurgitation.

Severe functional mitral valve regurgitation should be treated in patients undergoing myocardial revascularization. When replacement is considered the best therapeutic option, preservation of the mitral subvalvular apparatus is crucial, especially in the emergency setting, because of its primary role in preserving geometry and function of left and right ventricles. Here we present a simple and quick technique, where subvalvular apparatus is preserved in toto in patients undergoing mitral valve replacement with a bioprosthesis.

Anatomical Similarities Between Mitral and Tricuspid Valves in Sheep, Ovis aries, Hearts

With the recent rapid growth in transcatheter mitral and tricuspid valve interventions, it has become increasingly important to understand detailed anatomy of the valves. In this study, we investigated the similarities, differences, and associations between the dimensions of the atrioventricular valves in a sheep model, as sheep heart valves have a similar morphology to human valves. A systematic dissection of twenty-five sheep hearts was performed, with annular circumference measurement, and sub-valvular anatomy documentation. There was a significant association (r=0.865; p=0.007) between the circumference of the mitral and tricuspid annuli. Authors also identified significantly more chordae tendinea in the subvalvular mitral apparatus compared to the tricuspid valve (15.8±1.2 vs. 13.9±1.5; p&lt;0.001). In conclusion, there is a significant association between the size of mitral and tricuspid valve annuli, and the morphology of leaflets and subvalvular apparatus is different between the two valves. These findings could have important implications in transcatheter device design, sizing, and optimal intervention timing.

Early Clinical Experience with Impella 5.5 at a Large Tertiary Care Center

<h3>Purpose</h3> The Impella 5.5 system is the newest temporary left ventricular assist device (LVAD) for the treatment of cardiogenic shock (CS). Impella 5.5 aims to improve deliverability and durability over Impella 5.0, but real-world experience with this device is limited. We aimed to report our clinical experience with Impella 5.5. <h3>Methods</h3> Clinical and outcome data of all patients treated with Impella 5.5 at our center between Feb and Oct 2020 were collected. AKI was defined as per KDIGO criteria, vascular complications as per VARC-2 criteria and severe thrombocytopenia as <50k. <h3>Results</h3> 13 patients with Impella 5.5 were managed at our center (9 (69%) male, median age 58y (IQR 52, 67). 5 patients were transitioned to Impella 5.5 from VA-ECMO, 2 from Impella CP, 2 from IABP, and 4 from inotropes. Etiology of CS was AMI in 6 cases, decompensated chronic HF in 5, suspected acute myocarditis in 1 and post-cardiotomy CS in 1 case. Median duration of Impella 5.5 support was 12 days (IQR 7-28). 2 patients required device removal due to complications: 1 with entanglement in the mitral subvalvular apparatus, 1 with migration into the ascending aorta. Device-related complications were hemolysis in 4 (30%) patients, severe thrombocytopenia in 1, axillary hematoma (minor as per VARC-2 criteria) in 3 (23%), and AKI in 2 patients (15%). No stroke, valve injury or limb complications occurred. Survival to device explant was 85%. 2 patients who were not candidates for durable LVAD or transplant died on support of refractory CS. Of the survivors, 2 required surgically implanted biventricular support for refractory ventricular arrhythmia, 4 were bridged to durable VAD, 2 were bridged to OHT, and 3 achieved ventricular recovery. At the time of analysis, 3 patients remain hospitalized (1 surgical BIVAD, 1 early post-durable LVAD, 1 recovered after device explant). <h3>Conclusion</h3> All patients supported with Impella 5.5 were critically ill in profound CS. Rates of procedural and device-related complications were favorable, and survival was high in this critically ill cohort.

Surgery for Anomalous Papillary Muscle Directly Into the Anterior Mitral Leaflet

The anomalous insertion of papillary muscle directly into the anterior mitral leaflet is a rare congenital anomaly concomitant with hypertrophic cardiomyopathy. We herein report our surgical technique, which is designed to relieve left ventricular obstruction and preserve the mitral valve and subvalvular apparatus. Among 38 patients who underwent septal myectomy from 2007 to 2020, 4 had an anomalous mitral subvalvular apparatus with papillary muscle with direct insertion into the anterior mitral leaflets. In all cases, mitral valve repair was accomplished with excision and reconstruction of all anomalous papillary muscles, concomitant with septal myectomy. In another 34 patients, 20 cases needed mitral valve repair with regard to systolic anterior motion by hypertrophic cardiomyopathy. The comparison study was conducted between the anomalous papillary muscle group (group A) and the others (group B). There was no early or late death in group A, and there were 3 early deaths and 2 late deaths in group B. The mean peak gradient in the left ventricle was significantly decreased in both groups. Mitral valve regurgitation grade was also significantly decreased from 3 to 0.5 without valve replacement in group A, and from 2 to 0.6 in group B. Six patients needed mitral valve replacement because of the thickness of anterior mitral leaflet in group B. Hypertrophic obstructive cardiomyopathy associated with the anomalous insertion of papillary muscle can be successfully treated without mitral valve replacement. Excision and reconstruction with the anomalous papillary muscle seems to be a feasible operation to reduce mitral regurgitation and relieve outflow tract obstruction.

P651 Left intraventricular mass. An exceptional finding

Abstract 74-year-old woman without cardiovascular risk factors. Se came to the out-paint clinic due to chest pain. Normal ECG. Spherical, pedunculated, mobile, slightly hyper-echogenic mass at the level of the posterior papillary muscle by transthoracic echocardiography. Cardiac MR (CMR) was performed for further evaluation: mobile mass of 4 x 5mm, located in the mitral subvalvular apparatus was confirmed, with similar intensity to the myocardium in the SSFP sequences. In T2 TSE sequences, the mass was hyperintense and in the perfusion sequences marked hypoperfusion was found. In early late gad enhancement the mass was hypointense and in the late phase, hyper-intense. According to these findings papillary fibroelastoma was our first diagnostic choice. The coronary angio showed a significant RCA stenosis. The tumor was surgically removed and aorto-coronary bypass was perfomed. Pathological anatomy confirmed the suspected diagnosis. Papillary fibroelastoma is the second most frequent benign primary cardiac tumor, originated mainly in the valvular endocardium. The most frequent localization of these tumors is in the aortic valve. The vast majority are asymptomatic and their diagnosis is usually incidental (as in the case described), although severe symptoms may appear secondary to embolic phenomena such as cerebrovascular event, acute myocardial infarction or even sudden death by coronary embolization. The initial diagnosis is usually made by echocardiography. CMR is a reference diagnostic technique in the study of cardiac tumors: provides a better location and tissue characterization. Regarding the treatment, it is recommended the exeresis, in symptomatic patients with embolic phenomenon or in asymptomatic patients with a high risk of embolization (tumors&amp;gt; 1cm or very mobile). This case is of special interest since the location of a fibroelastoma in the mitral subvalvular apparatus is exceptional (there are very few cases described in the literature). In addition, although in the study of cardiac tumors pathological anatomy remains the reference diagnostic method, this case shows how cardio-MRI can correctly guide diagnosis even in small and mobile tumors. Abstract P651 Figure. A.3D TOE B.Surgical image C.CMR D. PA

89 Simultaneous ocurrence of hammock mitral valve and no-compaction cardiomyopathy

Abstract We report a 62-year-old man with a past medical history of dyslipidemia, paranoid schizophrenia and permanent atrial fibrillation. A ATTE performed at his district hospital revealed rheumatic mitral valve disease with double lesion: severe regurgitation and mild stenosis, plus moderate tricuspid regurgitation and a mean PAP of 32mm Hg. Cardiac catheterization showed no abnormalities of the coronary arteries. He was transferred to our hospital and scheduled for mitral valve replacement and tricuspid ring valvuloplasty. Preoperative transesophageal echocardiography showed an abnormal subvalvular mitral apparatus, with false tendons and multiple papillary muscles, resembling a hammock mitral valve. Most cordae tendinae arose from a single dominant papillary muscle at a posterior medial region, which provoke severe mitral regurgitation due to coaptation defect and mild subvalvular mitral stenosis. It could also be appreciated hypertrabeculation in the lateral medial, basal and apical segments. This suggested no-compaction cardiomyopathy associated with hammock mitral valve. Left ventricular systolic function was preserved. No evidence of rheumatic mitral valve disease was found in transesophageal echocardiographic study performed at our hospital. On the 30th April 2019 he underwent mechanic mitral valve replacement (Bicarbon 29mm) and tricuspid ring valvuloplasty (Edwards Physio 32mm) surgery. Once the patient was weaned from cardiopulmonary bypass, severe left ventricle systolic dysfunction ensued, predominantly localized in the anterior, inferior septal, inferior lateral basal and medial segments. Apical segments had preserved mobility An adrenalin infusion prior weaning from CBP was initiated. Preserved mobility of the mitral prosthesis discs was observed. The patient developed cardiogenic shock in spite of high doses of dobutamin and adrenaline infused. IACB was implanted with 1:1 assistance. The patient was transfered to the hemodynamic room in order to rule out coronary complications. Cardiac catheterization showed no significant angiographic lesions. During the first postoperative hours, the patient was stabilized allowing progressive lowering of the drugs (adrenaline, dobutamine). TTE showed normally functioning prosthetic mitral valve and preserved left ventricle systolic function. An MRI was performed demostrating no-compaction cardiomyopathy Conclusion This case report describes a rare presentation of simultaneous ocurrence of hammock mitral valve and no-compaction cardiomyopathy. Perioperative left ventricle dysfunction in no-compaction cardiomyopathy is related to subendocardial ischemia caused during extracorporeal circulation in the multiple prominent ventricular trabeculations with deep intertrabecular recesses corresponding to non-compacted myocardium .This must be taken account in those patients with no-compaction cardiomyopathy scheduled for cardiac surgery in order to take preventive measures. Abstract 89 Figure. non - compacted myocardium

New genetic tracks in mitral valve prolapse

Mitral valve prolapse (MVP) is a frequent and heterogeneous valve desease. To date, mutations of only DCSH1 and FLNA have been identified in non-syndromic MVP but account for a small subset of cases. Our study aims to identify new genetic variants in non syndromic MVP. We performed whole-exome sequencing in a family including a one year-old female patient with a severe mitral regurgitation due to a complex MVP and her unaffected parents. We identified a missense mutation in a gene known to be involved in cardiomyopathies but not in MVP. No mutation was found in DCSH1 and FLNA. The unaffected mother carried the same mutation as the index case. Functional studies on a mouse model showed that this gene is expressed in cells contributing to the mitral subvalvular apparatus development. Among thirteen patients with cardiomyopathy associated with mutation of the same gene, four had concomitant MVP. Our study identified a candidate gene for MVP potentially associated with cardiomyopathy.

Ischemic mitral regurgitation: modern evidence based echocardiography diagnosis, quantification and risks stratification review

Ischemic mitral regurgitation (IMR) is a frequent complication in the patients after acute myocardial infarction (AMI) or in ischemic cardiomyopathy (ICM), associated with significant prognosis worsening. Mitral valve (MV) involvement may be primary (organic MR) or secondary (functional MR). Primary MR develops because of mitral subvalvular apparatus rupture as an AMI complication. Secondary IMR develops in the conditions of normal MV cusps and chords structure because of balance impairment between MV closure and tension forces secondary to left ventricle (LV) geometry alterations. According to evidence data both scenarios of IMR are associated with at least one major coronary artery critical stenosis (&gt;70%). Secondary IMR is the most frequent consequence of ischemic cardiomyopathy. IMR diagnosis is associated with elevated patients mortality compared to those without it. It has been shown, that survival within patients with IMR after AMI down to 40% in case of moderate-to-severe IMR, compared to 62% in the patients with mild IMR or 84% in the patients without IMR at all. Pathophysiological mechanisms of IMR are not fully understood, but it is well known, that IMR is a complex entity, having left chambers, especially left ventricle (LV) remodeling as a key cause. Echocardiography (EchoCG) significantly contributes to understanding the underlying mechanisms of IMR. The aim of this review is to summarize modern evidence based data about IMR mechanisms and analysis of contemporary EchoCG indices for diagnosis, evaluation and risks stratification in the patients with IMR. IMR develops in approximately 20% of patients after AMI with increasing occurrence over past years, significantly influencing patients’ prognosis. IMR is a complex and dynamic entity, where LV remodeling is the main factor of MV dysfunction. EchoCG plays the clue role in IMR diagnosis giving the detailed information about its mechanisms and severity grading. Comprehensive EchoCG in the patients with coronary arteries disease (CAD) allows a better and comprehensive approach in risks stratification and optimal surgical IMR treatment planning.

75-Year-Old Man With Chest Pain and Dyspnea

75-Year-Old Man With Chest Pain and Dyspnea

Transmitral Septal Myectomy for Hypertrophic Obstructive Cardiomyopathy

Intrinsic abnormalities of the mitral valve are common in patients with hypertrophic cardiomyopathy and may need to be addressed at operation. Consecutive patients undergoing transmitral septal myectomy were retrospectively reviewed. The ventricular septum was exposed through a left atriotomy, and the anterior leaflet of the mitral valve was detached from its annulus. An extended myectomy was performed to the base of the papillary muscles. After myectomy, the anterior leaflet was reattached and concomitant mitral valve repair or replacement was performed. In some cases, we performed a modified anterolateral commissural closure suture, which served to reposition the lateral aspect of the anterior leaflet out of the left ventricular outflow tract ("curtain stitch"). Twenty patients who underwent this procedure were identified (70% women; mean age 63 years). Mitral regurgitation was moderate in 55% and severe in 40%. Preoperative peak left ventricular outflow tract gradient was 92 ± 43 mm Hg. Mitral valve repair (n= 11) or replacement (n= 9) was performed. Predischarge transthoracic echocardiography demonstrated a left ventricular outflow tract gradient of 10 ± 5 mm Hg. There was no operative mortality. Follow-up was 100% complete and averaged 22 ± 25 months. No patient required reoperation, and there was no recurrence of left ventricular outflow tract obstruction or mitral regurgitation greater than mild. Potential advantages of transmitral myectomy include a panoramic view of the septum and mitral subvalvular apparatus and the ability to simultaneously address mitral valve pathology. Consideration should be given to using the transmitral approach to septal myectomy as the preferred approach for the surgical treatment of hypertrophic cardiomyopathy.

Mitral Subvalvular Apparatus Intervention In Patients With Obstructive Hypertrophic Cardiomyopathy: does it need?

Systolic anterior motion (SAM) and mitral regurgitation (MR) in patients with hypertrophic obstructive cardiomyopathy (HOCM) is associated with: Venturi effect and small LV cavity. According 2011 ACCF/AHA guideline extended myoectomy is gold standard in treatment patients with HOCM, however mitral subvalvular apparatus (MSA) intervention is still unclear.

Letter to the Editor Methamphetamine-induced cardiomyopathy causing severe mitral valve regurgitation

A 29-year-old woman with a history of methamphetamine abuse presented with acute pulmonary oedema, palpitations, dyspnoea and cough in the context of sinus tachycardia. Past medical history was unremarkable. On examination, a systolic murmur was elicited and trans-thoracic echocardiography demonstrated severe mitral valve regurgitation. In addition, moderate left ventricular dysfunction with significant dilatation was observed. Further assessment of the mitral valve showed marked restriction of the posterior leaflet, which, although not calcified, appeared almost rigid. In contrast, the anterior leaflet appeared entirely normal (Figure 1). An magnetic resonance imaging (MRI) cardiac scan confirmed a dilated left ventricle with increased trabeculation and reduced function. Furthermore, it revealed moderate rigidity of the mitral subvalvular apparatus beneath the posterior leaflet, which was thicker than normal. The mechanism of the regurgitation was postulated to be as a result of restricted posterior leaflet motion, with the previous methamphetamine abuse thought to be the cause of the left ventricle abnormality. Figure 1 Pre-operative 3-dimensional transthoracic echocardiography showing a restricted posterior mitral valve leaflet and a normal anterior leaflet The patient underwent prompt surgical mitral valve repair. The myocardial thickening involved the top of the posterior papillary muscle leading to posterior leaflet movement restriction. The free body of this leaflet had otherwise a normal appearance. A resection of the fibrotic primary chordae was performed and 4 couples of CV-4 Gore-Tex artificial chordae (W.L. Gore & Associates, Flagstaff – AZ) were inserted into the posterior leaflet. A pericardial ring was inserted into the posterior tract of the mitral valve annulus. The intra-operative trans-oesophageal echocardiography confirmed excellent results of the repair with no evidence of residual regurgitation (Figure 2). Surgery and postoperative recovery were uneventful and the patient was discharged home on postoperative day 6. Histopathological analysis of a fragment of the papillary muscle showed focal fibrosis, which in association with the dilated left ventricle supported the hypothesis of a methamphetamine-induced cardiomyopathy. Figure 2 Intra-operative trans-oesophageal echocardiography demonstrating severe mitral valve regurgitation (A) and no residual regurgitation after the surgical mitral valve repair (B) Methamphetamine is a synthetic stimulant that can have a strong effect on the cardiovascular system. The most common physical symptoms after acute intoxication are chest pain, arrhythmias, palpitations and hypertension [1]. Although more rarely, acute coronary syndrome, myocardial infarction, aortic dissection and sudden cardiac death [2] have also been described. The primary mechanism behind its cardiovascular effect is the action on the catecholamine in the peripheral nervous system that modulates heart rate and blood pressure [2]. The increased level of catecholamine can be responsible for cardiotoxicity due to coronary vasoconstriction, calcium overload and production of oxygen free radicals [3]. The long-term effect on the heart appears to be related to higher oxygen consumption due to an increased workload as well as the oxygen-wasting effect [4]. Several histological myocardial alterations have been demonstrated in autopsy studies including contraction band necrosis, eosinophilic degeneration, atrophy, hypertrophy, disarray, oedema, cellular infiltration, myolysis, granulation, vacuolization and fibrosis [4]. Most of these alterations could be reversed upon cessation, except for fibrosis, which can be irreversible in long-term methamphetamine use, with consequent deterioration of the cardiac tissue and function [4]. Hence, although less common than other illicit substances such as cocaine, an amphetamine-induced cardiomyopathy is possible [5]. In our case, the specific localized retraction of the posterior leaflet appeared mainly related to an abnormal left ventricle cavity that led to the deformity of the papillary muscle and mitral valve chordae. The fibrotic process was the cause of the restrictive motion of the posterior leaflet and the abnormal segmental wall motion; these features were severe enough to trigger the acute presentation. Our patient remains well 6 months after surgery with no residual mitral regurgitation on follow-up echocardiography. However, doubts remain regarding the risk of progressive degeneration of the left ventricular wall fibrosis and its consequent long-term prognosis.

Surgical Technique: Papillary Muscle Sling for Functional Mitral Regurgitation during Minimally Invasive Valve Surgery

In patients with functional mitral regurgitation, the placement of a sling encircling both papillary muscles in conjunction with mitral annuloplasty appears to be a rational approach for surgical correction, because it addresses both the mitral valve and the deformities of the subvalvular mitral apparatus. Reports in the literature that describe the utilization of this technique are few, and mainly involve a median sternotomy approach. The purpose of this communication is to describe the technical details of performing this procedure via a minimally invasive approach.

Biatrial transeptal atriotomy approach to the mitral valve: V-atriotomy technique

Methods 61 patients undergoing valve surgery were managed with V-atriotomy incision because of inadequate exposure of the mitral valve and subvalvular apparatus. 37 patients were male (60.7%) and 24 patients were female (39,3%) with a mean age of 64.7±10,2. Standart left atriotomy incision was made primarily and in cases of bad exposure, caval snares were tightened for total perfusion. Right atriotomy incision was done as well followed by interatrial septum incision. Interatrial septostomy incision and left atriotomy incision were connected at 2 cm medial to inferior vena cava cannula. Suspensory sutures were placed to the free edges of right atriotomy and interatrial septostomy. This excellent visualisation of the mitral valve leaded us to perform valve repair or replacement procedures.

Acute Mitral Regurgitation during Transapical Aortic Valve Implantation: Usefulness of Intraprocedural Transesophageal Echocardiography

Mini‐AbstractWe report a case of acute mitral regurgitation due to a temporary distortion of the mitral valve apparatus during apical transcatheter aortic valve implantation (TAVI). A few minutes after penetrating the apex, the patient developed severe hypotension and cardiac arrest. A hemodynamic support with femoral–femoral extracorporeal circulation was immediately installed. Transesophageal echocardiography (TEE) revealed that the guidewire interfered with the subvalvular mitral apparatus generating severe acute mitral regurgitation. The patient's condition improved immediately after guidewire removal and there was no residual mitral regurgitation. This case clearly shows the importance and the usefulness of performing a thorough and complete TEE monitoring to prevent and identify complications.