Aristotelis Panos1, Sylvio Vlad2, Fotios Milas2, Patrick O Myers3. 1. Center for Minimally Invasive Cardiac Surgery, Geneva, Switzerland Cardiovascular Surgery, Geneva University Hospitals & School of Medicine, Geneva, Switzerland Clinic for Cardiac Surgery, Hygeia Hospital, Athens, Greece a.panos@bluewin.ch. 2. Clinic for Cardiac Surgery, Hygeia Hospital, Athens, Greece. 3. Cardiovascular Surgery, Geneva University Hospitals & School of Medicine, Geneva, Switzerland.
Abstract
OBJECTIVES: Traditional resectional techniques and chordal transfer are difficult to apply in video-assisted mitral valve repair. Using artificial chords appears easier in this setting. The purpose of this study was to review the effectiveness and reproducibility of neochordal repair as a routine approach to minimally invasive mitral repair, and to assess the stability of neochord implantation using the figure-of-eight suture without pledgets in this setting. METHODS: This is a retrospective review of all patients who underwent minimally invasive video-assisted mitral valve repair from 2008 to 2013. The primary endpoints were recurrent mitral regurgitation and reoperation. RESULTS: A total of 426 consecutive patients were included during the study period, with a mean age of 55 ± 18 years. Neochords were used in all patients, and in association with leaflet resection in 47 patients. One patient was not repairable and underwent valve replacement (repair rate, 99.8%). Fifteen patients had Grade I (3.5%) regurgitation, whereas the remainder had none. Patients were fast-tracked, with 25% extubated in the operation theatre and the remainder within 6 h. There were 5 deaths within 30 days (1.2%). Follow-up ranged 3-60 months, during which all of the patients remained with no or trace mitral regurgitation. No de-insertion or rupture of any neochords was found, and no patients required a reoperation. CONCLUSIONS: Minimally invasive mitral valve repair using neochords provided a high rate of repair, reproducible results in a routine cardiac surgery setting and stable repair during follow-up. This has become our preferred technique for mitral valve surgery.
OBJECTIVES: Traditional resectional techniques and chordal transfer are difficult to apply in video-assisted mitral valve repair. Using artificial chords appears easier in this setting. The purpose of this study was to review the effectiveness and reproducibility of neochordal repair as a routine approach to minimally invasive mitral repair, and to assess the stability of neochord implantation using the figure-of-eight suture without pledgets in this setting. METHODS: This is a retrospective review of all patients who underwent minimally invasive video-assisted mitral valve repair from 2008 to 2013. The primary endpoints were recurrent mitral regurgitation and reoperation. RESULTS: A total of 426 consecutive patients were included during the study period, with a mean age of 55 ± 18 years. Neochords were used in all patients, and in association with leaflet resection in 47 patients. One patient was not repairable and underwent valve replacement (repair rate, 99.8%). Fifteen patients had Grade I (3.5%) regurgitation, whereas the remainder had none. Patients were fast-tracked, with 25% extubated in the operation theatre and the remainder within 6 h. There were 5 deaths within 30 days (1.2%). Follow-up ranged 3-60 months, during which all of the patients remained with no or trace mitral regurgitation. No de-insertion or rupture of any neochords was found, and no patients required a reoperation. CONCLUSIONS: Minimally invasive mitral valve repair using neochords provided a high rate of repair, reproducible results in a routine cardiac surgery setting and stable repair during follow-up. This has become our preferred technique for mitral valve surgery.