Abstract: Objective To summarize the experiences and analyze the efficacy of mitral valvuloplasty in treating anterior leaflet prolapse. Methods A total of 152 consecutive nonrheumatic heart disease patients including 96 males and 56 females with anterior leaflet prolapse who underwent mitral valvuloplasty from February 1997 to March 2007 were analyzed retrospectively. The age of these patients ranged from 10 to 73 years old (38.54±17.22 years). There were 119 cases of mitral degenerative prolapse or chordae rupture, 24 of ongenital heart disease, 3 of ischemic mitral insufficiency, and 6 of native valve endocarditis. Echocardiography before operation showed the degree of mitral regurgitation was severe in 19, moderate to severe in 63, and moderate in 70 patients. Among the patients, 87 had anterior prolapse and 65 had bilateral prolapse. All patients underwent mitral valve repair under standard cardiopulmonary bypass. Results During the operation, transesophageal echocardiography and saline injection test showed satisfying results in all the patients. No early death occurred after operation. Followup was done to 135 patients for 3 months to 8.5 years with a followup rate of 88.82%. During the follow up, 93 patients were in New Yoke Heart Association(NYHA)class Ⅰ, 35 in Class Ⅱ, 3 in class Ⅲ and 4 in class Ⅳ. The Echocardiography showed that postoperative left atrium diameter (41.09±10.40 mm vs. 45.32±10.07 mm, t=4.186, P=0.000) and left ventricular enddiastolic dimension (52.04±7.74 mm vs. 60.70±7.72 mm,t=9.676, P=0.000) were significantly smaller than that before operation. No or trace mitral regurgitation (MR) was found in 36 patients, mild MR in 45 patients, mild to moderate MR in 38 patients, moderate MR in 9 patients, and moderate to severe MR in 7 patients. Mitral valve replacement was performed in 5 patients after valvuloplasty. Three died during the follow-up. Two of them died of heart failure and one of unknown cause. Conclusion In spite of the complexity, the longterm results of mitral valve repair for anterior leaflet prolapse are satisfactory if the best surgery method is chosen.
ObjectiveTo report the short-term outcomes of a standardized, simplified and reproducible strategy of mitral valvuloplasty (MVP), which was focused on leaflet foldoplasty and anatomic anomalies of congenital mitral regurgitation (MR).MethodsConsecutive 74 patients who underwent MVP by our standardized strategy in our institution from 2016 to 2018 were included retrospectively. There were 30 males and 44 females with a median age of 18.5 (6-146) months and weight of 15.4 (7-51) kg.ResultsAnatomic anomalies of MR included: (1) subvalvular apparatus: 72 (97.3%) patients with mal-connected chordae tendineae, 31 (41.9%) with absent chordae tendineae and 14 (18.9%) with fused or dysplastic papillary muscle; (2) leaflet: 10 (13.5%) patients with cleft of anterior leaflet, 61 (82.4%) with leaflet prolapse including 56 (91.8%) with anterior leaflet prolapse; (3) annulus: 71 (95.9%) patients with annular dilatation. Leaflet foldoplasty was performed in 61 (82.4%) patients with leaflet prolapse. All patients were successfully discharged and 4 (5.4%) patients were with moderate MR. The follow-up time was 22.0 (9.1-41.8) months. During the follow-up period, 3 patients had moderate MR and 1 patient had reoperation for severe MR. All patients were in normal cardiac function with a mean left ventricular ejection fraction of 66.0%±6.1%. In addition, the mean left ventricular end-diastolic dimension was 31.8±6.0 mm, which was significant smaller than that before the operation (t=6.090, P<0.000 1).ConclusionThe standardized leaflet foldoplasty with resection of mal-connected chordae tendineae and posterior annuloplasty technique is safe and feasible with favorable short-term outcomes in MR patients.
Minimally invasive cardiac surgeries are the trend in the future. Among them, robotic cardiac surgery is the latest iteration with several key-hole incision, 3-dimentional visualization, and articulated instrumentation of 7 degree of ergonomic freedom for those complex procedures in the heart. In particular, robotic mitral valve surgery, as well as coronary artery bypass grafting, has evolved over the last decade and become the preferred method at certain specialized centers worldwide because of excellent results. Other cardiac procedures are in various stages of evolution. Stepwise innovation of robotic technology will continue to make robotic operations simpler, more efficient, and less invasive, which will encourage more surgeons to take up this technology and extend the benefits of robotic surgery to a larger patient population.
ObjectiveTo summarize our clinical experience and improve clinical outcomes of chordal transfer and artificial chordae in mitral valvuloplasty (MVP). MethodsClinical data of 74 patients who received chordal transfer or artificial chordae in MVP for the treatment of anterior mitral leaflet prolapse[degenerative mitral regurgitation (MR)] from January 2008 to February 2013 were retrospectively analyzed. There were 34 male and 40 female patients with their age of 22-64 (48.00±6.40)years. According to different surgical techniques, all the 74 patients were divided into 2 groups. In the chordal transfer group, there were 42 patients who received chordal transfer with posterior leaflet chordae transferred to anterior leaflet. In the artificial chordae group, there were 32 patients who received artificial chordae with loop technique. Postoperative mortality, morbidity and MR were analyzed. Left ventricular ejection fraction (LVEF), left ventricular end-diastolic diameter (LVEDD)and end-systolic diameter (LVESD)were examined by echocardiography during follow-up. ResultsThere was no perioperative death in either group. Two patients underwent reexploration for postoperative bleeding. Nine patients had paroxysmal atrial fibrillation postoperatively, and were cured by intravenous administration of amiodarone. Echocardiography before discharge showed mild MR in 5 patients, trivial MR in 12 patients, and none MR in 25 patients in the chordal transfer group, and mild MR in 6 patients, trivial MR in 15 patients and none MR in 11 patients in the artificial chordae group. Seventy patients[94.59%(70/74)] were followed up after discharge. In both groups, LVEF at 6 months after MVP was significantly higher than that before discharge (chordal transfer group:64.00%±4.20% vs. 55.00%±5.10%; artificial chordae group:63.00%±3.50% vs. 56.00%±4.20%). LVEDD (chordal transfer group:47.00±2.20 mm vs. 58.00±6.90 mm; artificial chordae group:45.00±3.80 mm vs. 57.00±5.10 mm, P < 0.05)and LVESD at 6 months after MVP were significantly smaller than preoperative values. There was no statistical difference in LVEF, LVEDD or LVESD preop-eratively, before discharge and 6 months after MVP respectively between the chordal transfer group and artificial chordae group (P > 0.05). One patient in the chordal transfer group underwent mitral valve replacement for severe MR 14 months after MVP. One patient in the artificial choadae group underwent mitral valve replacement for persistent hemoglobinuria 6 months after MVP. ConclusionChordal transfer and artificial chordae technique are both suitable for the treatment of complex anterior leaflet prolapse. Artificial chordae has wider range of application, and chordae transfer needs advanced and flexible surgical skills. Both techniques have good short-term clinical outcomes and deserve clinical application.
Infective endocarditis is one of the severest valvar diseases, commonly affecting the mitral valve. Currently, valvuloplasty and replacement are the main surgical options for mitral infective endocarditis. However, the complexity of the infectious lesions has caused a raging debate on which surgical approach offers more benefits. With the development of surgical treatment for endocarditis, mitral valvuloplasty may be a superior solution. It can preserve the integrity of the valve structure, avoiding complications caused by replacement. However, there is a lack of evidence from randomized clinical trials and other evidence-based medical supports. Furthermore, issues regarding the timing of surgery, repair methods, and material choices for mitral valvuloplasty in these patients have not been standardized. Therefore, this article summarizes existing literature to assist clinicians in making appropriate treatment decisions.
ObjectiveTo evaluate the effectiveness of mitral valve repair for mitral regurgitation. MethodsWe retrospectively analyzed the clinical data of 47 patients underwent mitral repair in General Hospital of Ningxia Medical University between January 2010 and June 2014 year. There were 36 males and 11 females with age of 10 months to 65 years, mean age of 42.38±15.27 years. ResultsThere was no operative death within follow-up time of 18±7 months (ranged 14 to 1 586 days). Mitral valve function was normal or traces regurgitation in 33 patients (70.21%). Mild mitral regurgitation occurred in 11 patients (23.40%). Postoperative transesophageal echocardiography showed that 2 patients (4.26%) had moderate regurgitation. They underwent mitral valve repair again and cured. One patient (2.13%) underwent mitral valve replacement because of moderate to severe regurgitation. The dimensions of left atrium and left ventricle obviously decreased and heart function improved significantly compared with preoperative ones. ConclusionStrict control of surgical indications for different valve disease, the use of mitral valve repair technique, mitral surgery can get a good clinical efficacy. Preoperative diagnosis by transesophageal echocardiography, intraoperative monitoring, and immediate postoperative assessment for mitral valve repair results provide good technical support.
Objective To evaluate a score system to allow stratification of complexity in degenerative mitral valve repair. Methods We retrospectively reviewed the clinical data of 312 consecutive patients who underwent surgery for mitral valve repair and whose preoperative echocardiography was referable in our hospital from January 2012 to December 2013. A scoring system for surgical complexity was used based mainly on the preoperative echocardiography findings. Complexity of mitral valve repair was scored as 1 to 9, and patients were categorized into 3 groups based on the score for surgical complexity: a simple group (1 point), an intermediate group (2-4 points) and a complex group (≥5 points). There were 86 males and 35 females in the simple group (n=121) with an average age of 51.6±12.6 years, 105 males and 53 females in the intermediate group (n=158) with an average age of 51.1±12.8 years and 25 males and 8 females in the complex group (n=33) with an average age of 49.3±13.0 years. Results There was significant difference in surgical complexity in different groups. In the simple, intermediate and complex groups, the mean cardiopulmonary bypass time was 111.7±45.5 min, 117.7±40.4 min and 153.4±74.2 min (P<0.001), the mean cross-clamping time was 77.5±33.8 min, 83.2±29.9 min and 108.8±56.2 min (P<0.001), and the mean number of repair techniques utilized was 2.1±0.4, 2.4±0.6 and 2.8±0.8 (P<0.001). However, there was no significant difference in the early and late outcomes in different groups. Conclusion It is feasible to use echocardiography to quantitatively evaluate the difficulty of mitral valvuloplasty.