Objective To summarize surgical techniques,advantages and clinical outcomes of mitral valvuloplasty for anterior mitral leaflet prolapse with looped artificial chordae. Methods Clinical data of 13 patients with anteriormitral leaflet prolapse and severe mitral regurgitation (MR) who underwent mitral valvuloplasty with looped artificial chordaefrom January 2009 to December 2011 in Beijing Anzhen Hospital were retrospectively analyzed. There were 8 male and 5 female patients with their age of 21-61 (39.5±12.9) years. There were 10 patients with anterior mitral leaflet chordal rupture and 3 patients with anterior mitral leaflet elongation. Preoperative left ventricular end-diastolic diameter (LVEDD) was 52-65 (58.3±1.7) mm,and left ventricular ejection fraction (LVEF) was 53%-65% (58.8%±2.8%). All the patients underwent mitral valvuloplasty. We measured the neighboring normal chordae with a caliper for reference and constructed the artificial chordal loops on the caliper with expended polytetrafluoroethylene(ePTFE) CV4 Gore-Tex suture lines. Three to five loops were made and fixed to the papillary muscle with a Gore-Tex suture line and the free edge of the prolapsedanterior mitral leaflet with another Gore-Tex suture line,with the intervals between the loops of 5 mm. Left ventricular watertesting was performed to evaluate MR status,annuloplasty ring implantation or “edge to edge” technique was used if nece-ssary,and left ventricular water testing was performed again to confirm satisfactory closure of the mitral valve. Patientsreceived re-warming on cardiopulmonary bypass and the heart incision was closed. The effect of mitral annuloplasty was alsoassessed by transesophageal echocardiography (TEE) after heart rebeating. Warfarin anticoagulation was routinely used for 3 months after discharge. Results There was no perioperative death in this group. Twelve patients received satisfactory outcomes after 1-stage mitral valvuloplasty with looped artificial chordae and annuloplasty ring implantation. One patient didn’t receive satisfactory outcomes in the left ventricular water testing after mitral valvuloplasty with looped artificial chordae,but satisfactory outcome was achieve after “edge to edge” technique was used,and annuloplasty ring was not used for this patient. Postoperative echocardiography showed trivial to mild MR in all the patients,their LVEDD was significantly reducedthan preoperative LVEDD (47.5±2.1 mm vs. 58.3±1.7 mm,P<0.05),and there was no statistical difference between postoperative and preoperative LVEF(58.5%±2.6% vs. 58.8%±2.8%,P>0.05). All the patients were followed up for 3-36 (19.5±3.7) months. Echocardiography showed mild MR in 4 patients and none or trivial MR in 9 patients during follow-up.Conclusion Mitral valvuloplasty with looped artificial chordae is an effective surgical technique for the treatment of anterior mitral leaflet prolapse with satisfactory clinical outcomes,and this technique is also easy to perform.
Objective To analyze early and midterm outcomes and summarize clinical experience of mitral valve repair with artificial chordae for degenerative mitral regurgitation (MR). Methods Clinical data of 78 patients with degenerative MR who underwent mitral valve repair with Gore-Tex artificial chordae from October 2008 to December 2011 in General Hospita1 of Shenyang Military Command were retrospectively analyzed. There were 47 male patients and 31female patients with their age of 52.7±9.6 years,who all had degenerative MR. Operation techniques included simple GoreTex artificial chordae replacement in 15 patients,artificial chordae replacement plus quadrangular resection of the posterior leaflet in 58 patients,artificial chordae replacement plus quadrangular resection of the posterior leaflet and Sliding technique in 5 patients. One to three (2.15±1.05) Gore-Tex artificial chordae were used for each patient,and annuloplasty ring was used for all the patients. Thirty-nine patients underwent concomitant tricuspid valvuloplasty. Intraoperative transesophagealechocardiography showed none obvious MR in 62 patients,trivial MR in 13 patients and mild MR in 3 patients. All thepatients were followed up after discharge. Echocardiography was used to evaluate heart function and MR degree duringfollow-up. Results There was no in-hospital death in this group. Postoperative complications included sinus bradycardiain 5 patients,supraventricular tachycardia in 8 patients,late cardiac tamponade in 1 patient,and permanent pacemakerimplantation in 1 patient. Seventy patients were followed up for 1-2 years with the follow-up rate of 89.74% (70/78). Duringfollow-up,1 patient died of cerebral embolism 13 months after discharge,and all the other patients remained alive. There were 60 patients with NYHA classⅠand 9 patients with NYHA classⅡ. Echocardiography at 1 year after dischargeshowed that left atrial diameter,left ventricular end-diastolic diameter,left ventricular end-systolic diameter,and pulmonary artery systolic pressure were significantly smaller or lower than preoperative values (P<0.05),left ventricular ejection fraction (68.00%±7.00% vs. 55.00%±6.00%) and cardiac output were significantly higher than preoperative values(P<0.05),and MR degree (ratio of regurgitation beam area and left atrial area) was significantly reduced compared with preoperative MR degree (3.45%±5.56% vs. 39.55%±9.86%,P<0.05). No artificial chordae rupture was found. There were47 patients without MR and 22 patients with trivial MR during follow-up. Conclusion Gore-Tex artificial chordae replacement is a safe and effective surgical technique for the treatment of degenerative MR.
Object ive To summar ize recent advance in the appl icat ion and research of ar t i f icial chordae tendineae. Methods The cl inical and experimental research l iterature was extensively reviewed and analyzed. Results The follow-up results showed that artificial chordae tendineae replacement was superior to other operation methods in valve repair. But, it was compl icated and difficult-to-learn. In recent years with the development of many surgical skills and new techniques, good cl inical results were achieved. Conclusion With the development of surgical equi pment, chordae material, and implanting skills, artificial chordae tendineae implanting will be easier and the scope of appl ication will be larger.
ObjectiveTo summarize our clinical experience of artificial chordal replacement with loop technique for the treatment of mitral insufficiency (MI) due to mitral valve prolapse. MethodsFrom January 2008 to August 2011, pre-measured expanded polytetrafluoroethylene (ePTFE) loops were used for the treatment of MI in 22 patients in the Department of Cardiac Surgery,Beijing Anzhen Hospital. There were 15 males and 7 females with their age of 26-69(53.1±8.5) years. Six patients were in NYHA class Ⅱ and 16 patients were in NYHA class Ⅲ. There were 14 patients with anterior mitral leaflet chordal rupture,2 patients with anterior mitral leaflet chordal elongation,4 patients with both anterior and posterior mitral leaflet chordal rupture,and 2 patients with posterior mitral leaflet chordal rupture. All the patients had severe MI. One patient had concomitant cor triatriatum,and another patient had coronary heart disease. Left ventricular end-diastolic diameter (LVEDD) was 49-67 (58.1±3.9) mm,ejection fraction (EF) was 58%-69% (61.8±2.1%) and cardiothoracic ratio was 0.53±0.16. We measured the length of normal chordae adjacent to the ruptured or elongated chordae with a caliper for reference,and constructed the artificial chordal loops on the caliper with ePTFE suture according to the scope of mitral valve prolapse,then fixed the loops to the corresponding papillary muscles and free edge of the prolapsed mitral leaflets. Ring annuloplasty was routinely performed for all the patients. One patient received concomitant repair for cor triatriatum, and another patients underwent concomitant coronary artery bypass grafting. All the patients received oral anticoagulation with warfarin for 3 months after discharge. ResultsThere was no in-hospital death. Postoperatively,1 patient had hemoglobinuria and another patient had wound infection,both of whom were cured after treatment. Pre-discharge echocardiography showed mild or no MI in 1 patients and trivial MI in 21 patients. Postoperative LVEDD was 43-53 (48.1±2.1) mm and significantly smaller than preoperative LVEDD. All the patients were follow up for 4-39 (18.3±5.2) months after discharge. During follow-up,there were 5 patients with mild MI and 17 patients with none or trivial MI. Seventeen patients were in NYHA class Ⅰ,5 patients were in NYHA class Ⅱ,and their heart function was significantly improved than preoperative heart function. ConclusionArtificial chordal replacement with loop technique is easy to perform with satisfactory short-to mid-term results for the treatment of MI due to mitral valve prolapse.
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.