Objective To evaluate possibility and reliability of the technique of artificial pulmonary valve reconstruction in right ventricular outflow tract reconstruction. Methods We retrospectively analyzed the clinical data of 35 patients with artificial pulmonary valve reconstruction of right ventricular outflow tract reconstruction surgery in our hospital between February 2012 and December 2016. There were 35 patients with 19 males and 16 females at age of 10 years ranged 5 months to 42 years and body weight of 26 (8–62) kg. There were 21 patients with artificial moncusp valve, 6 patients with bicuspid technology, 8 patients with comprehensive forming method. Results Average extracorporeal circulation time was 75–251 (120±37) min. Aorta blocking time was 32–185 (72±28) min. ICU stay time was 14–225 (59±51) hours. Breathing machine auxiliary time was 6–68 (24±18) hours. There were 3 early postoperative deaths. There was no death during the long term following-up time. Thirty-two patients survived with heart function of class Ⅰ in 20 patients, class Ⅱ in 10 patients, class Ⅲ in 2 patients. Conclusion In right ventricular outflow tract reconstruction using the technique of artificial pulmonary valve reconstruction in the operation, it can reduce early postoperative right ventricular volume load. To smooth out perioperative patients, the surgical technique is simple, cheap, safe, but long-term follow-up still needs further observation.
Objective To analyze and summarize the early and medium-term outcomes of self-expanding interventional pulmonary valve stent (SalusTM) for right ventricular outflow tract dysfunction with severe pulmonary valve regurgitation. Methods We established strict enrollment and follow-up criteria. Patients who received interventional pulmonary valve in transthoracic implantation in Guangdong Provincial People’s Hospital from September 2, 2021 to July 18, 2023 were prospectively included, and all clinical data of patients were collected and analyzed. ResultsA total of 38 patients with severe pulmonary regurgitation were included, with 23 (60.5%) males and 15 (39.5%) females. The mean age was 24.08±8.12 years, and the mean weight was 57.66±13.54 kg. The preoperative mean right ventricular end-diastolic volume index (RVEDVI) and right ventricular end-systolic volume index (RVESVI) were 151.83±42.84 mL/m2 and 83.34±33.05 mL/m2, respectively. All patients successfully underwent transcatheter self-expandable pulmonary valve implantation, with 3 (7.9%) patients experiencing valve stent displacement during the procedure. Perioperative complications included 1 (2.6%) patient of postoperative inferior wall myocardial infarction and 1 (2.6%) patient of poor wound healing. The median follow-up time was 12.00 (6.00, 17.50) months. During the follow-up period, there were no deaths or reinterventions, and no patients had recurrent severe pulmonary regurgitation. Three (7.9%) patients experienced chest tightness and chest pain, and 1 (2.6%) patient developed frequent ventricular premature beats. Compared with preoperative values, the right atrial diameter, right ventricular diameter, and tricuspid annular plane systolic excursion were significantly reduced at 6 months and 1 year postoperatively, with improvement in the degree of pulmonary regurgitation (P<0.01). Compared with preoperative values, RVEDVI and RVESVI decreased to 109.51±17.13 mL/m2 and 55.88±15.66 mL/m2, respectively, at 1 year postoperatively (P<0.01). Conclusion Self-expanding interventional pulmonary valve in transthoracic implantation is safe and effective for severe pulmonary valve regurgitation and shows good clinical and hemodynamic results in one-year outcome.