One of its primary surgical treatments of tricuspid regurgitation is tricuspid valve biological valve replacement. Catheter tricuspid valve-in-valve implantation is a novel interventional alternative for biological valve failure. The non-invasive lung fluid measuring device remote dielectric sensing (ReDSTM) has been increasingly incorporated into clinical practice as a means of monitoring chronic heart failure in recent years. This report describes the process and outcomes of the first instance of perioperative lung fluid volume evaluation following transcatheter tricuspid valve implantation utilizing ReDSTM technology. The patient has a short-term, substantial increase in postoperative lung fluid volume as compared to baseline.
Biological valves can lead to structural valve degeneration (SVD) over time and due to various factors, reducing their durability. SVD patients need to undergo valve replacement surgery again, while traditional open chest surgery can cause significant trauma and patients often give up treatment due to intolerance. Research has shown that as an alternative treatment option for reoperation of thoracic valve replacement surgery, redo-transcatheter aortic valve replacement for SVD is safe and effective, but still faces many challenges, including prosthesis-patient mismatch, high cross valve pressure difference, and coronary obstruction. This article aims to review the strategies, clinical research status and progress of redo-transcatheter aortic valve replacement in SVD patients.
Surgical bioprosthetic valve in the mitral position typically degenerates in 10-15 years, when intervention is required again. In the past, redo surgical mitral valve replacement has been the only treatment choice for such patients suffering from bioprosthetic valve failure, despite the even higher risk associated with redo open-heart surgery. In recent years, transcatheter valve-in-valve implantation in the mitral position has evolved as an reasonable alternative to redo surgery for the treatment of surgical mitral bioprosthetic valve failure. Here we report an 81-year-old female patient with surgical mitral bioprosthetic valve failure, who successfully underwent valve-in-valve transcatheter mitral valve replacement via the transfemoral-transseptal approach. The procedure was successful owing to comprehensive CT imaging work-up, despite the technical challenges associated with bilateral giant atria and small left ventricle.
“Valve-in-valve” technique is an effective method to treat the bioprosthesis structural valve degeneration. In this paper, an 82-year-old male patient with severe aortic valve regurgitation had underwent surgical aortic valve replacement. He had a bioprosthesis structural valve degeneration which caused severe aortic stenosis more than 3 years after surgery. His symptoms of chest distress and short breath were aggravated progressively, and not relieved by conventional treatment. As the deterioration in his unstabled circulation system, an emergency transcatheter aortic valve replacement was conducted for him. The operation was finally successful, the symptoms were relived significantly after operation, and then the follow-up indicated that he had a good recovery.
In recent years, the field of cardiovascular surgery has undergone revolutionary changes and made rapid progress in various aspects, bringing more hope and possibilities for the health and well-being of patients. The constant emergence of new technologies brings new opportunities and hope, as well as constant challenges to past concepts. This article aims to provide a comprehensive overview of the latest developments in cardiovascular surgery in recent years, especially since 2023. It introduces cutting-edge knowledge and technologies in the field of cardiovascular surgery, including lifelong management of aortic valve disease, artificial valves, mitral valves, treatment options for hypertrophic obstructive cardiomyopathy, heart transplantation, left ventricular assist, coronary artery surgery, cardiac structural interventions for chronic heart failure, aortic dissection, and comprehensive surgical treatment of atrial fibrillation. It also analyzes and explores future development directions in depth, aiming to provide useful references and inspiration for cardiovascular doctors and jointly promote the continuous progress of cardiovascular surgery in China.
Objective To summarize the short-term results of valve-in-valve transcatheter aortic valve implantation (ViV-TAVI) in the treatment of bioprosthetic valve failure after aortic valve replacement. Methods We reviewed the clinical data of patients who underwent ViV-TAVI from 2021 to 2022 in the First Affiliated Hospital of Zhengzhou University. The valve function was evaluated by echocardiography before operation, immediately after operation and 3 months after operation. The all-cause death and main complications during hospitalization were analyzed. Results A total of 13 patients were enrolled, including 8 males and 5 females with a mean age of (65.9±8.5) years, and the interval time between aortic valve replacement and ViV-TAVI was (8.5±3.4) years. The Society of Thoracic Surgeons mortality risk score was 10.3%±3.2%. None of the 13 patients had abnormal valve function after operation. The mean transvalvular pressure gradient of aortic valve was decreased (P<0.001), the peak flow velocity of aortic valve was decreased (P<0.001), and the left ventricular ejection fraction was not changed significantly (P=0.480). There were slight perivalvular leakage in 2 patients and slight valve regurgitation in 3 patients. Three months after operation, the mean transvalvular pressure difference and peak flow velocity of aortic valve in 12 patients were significantly decreased compared with those before operation (P≤0.001). Conclusion This study demonstrates that ViV-TAVI for the treatment of bioprosthetic valve failure after aortic valve replacement is associated with favorable clinical and functional cardiovascular benefits, the short-term results are satisfactory.
This article reports a case of a 70-year-old female patient who developed bioprosthetic mitral valve deterioration 4 months after her initial valve replacement surgery, manifesting as severe regurgitation and New York Heart Association Class Ⅲ. Due to the high risk of a redo open-heart surgery, she underwent a transapical transcatheter mitral valve-in-valve procedure. Intraoperatively, a J-Valve prosthesis was successfully implanted under echocardiographic and fluoroscopic guidance. Immediate transesophageal echocardiography confirmed an optimal valve position, complete resolution of regurgitation, and no significant paravalvular leak or left ventricular outflow tract obstruction. The patient's postoperative course was uneventful. She was extubated 16 hours post-procedure with significant improvement in cardiac function. Follow-up echocardiography showed normal prosthetic valve function.
Abstract: Objective To investigate the early and mid-term outcomes of morphologic tricuspid valve replacement by means of intravalvular implantation in corrected transposition of great arteries(cTGA). Methods From January 2009 to January 2012,11 patients with cTGA were surgically treated in Fu Wai Hospital. There were 9 male patients and 2 female patients with their mean of age of(37.8±11.7)years and mean body weight of(73.0±11.3)kg. All the patients underwent morphologic tricuspid valve replacement with preservation of the entire valvular and subvalvular apparatus. Simultaneous surgical procedures included repair of ventricular septal defect in 2 patients,repair of atrial septal defect in 4 patients,pulmonary valvuloplasty in 1 patient,reconstruction of functional right ventricular outflow tract in 4 patients and repair of coronary-pulmonary artery fistula in 1 patient. Postoperative New York Heart Association (NYHA) classification, cardiothoracic ratio, morphological right ventricle ejection fraction, end-diastolic dimension of morphological right ventricle and left atrium were evaluated during follow-up. Results All the 11 patients were successfully surgically treated and followed up for an average duration of(13.0±10.6)months. There was no statistical difference between postoperative and preoperative average cardiothoracic ratio (0.54±0.06 vs. 0.57±0.09,t=1.581,P>0.05),morphologic right ventricle ejection fraction (52.8%±9.0% vs. 54.9%±9.5%, t =0.712,P>0.05),and end-diastolic dimension of . morphological right ventricle (54.3±7.5 mm vs. 56.9±9.2 mm,t =0.988,P>0.05). There was statistical difference between postoperative and preoperative average end-diastolic dimension of left atrium(42.1±8.9 mm vs. 53.4±11.1 mm,t =3.286,P<0.05)and NYHA classification(Z = -2.640,P<0.05). Conclusion Intravalvular implantation of morphologic tricuspid prosthesis can protect the physiological structure of morphologic right ventricular and prevent furtherdamage to its function caused by morphologic tricuspid valve insufficiency. Postoperative dimension of morphologic left atrium and cardiac function are significantly improved. The early and mid-term outcomes are satisfactory.
ObjectiveTo discuss the operation skill and clinical effects of using domestic balloon-expandable Prizvalve® transcatheter "valve-in-valve" to treat the degenerated bioprosthesis in the tricuspid position.MethodsAll the admitted surgical tricuspid valve bioprosthetic valve replacement patients were evaluated by computerized tomography angiography (CTA), ultrasound, and 3D printing technology, and 2 patients with a degenerated bioprosthesis were selected for tricuspid valve "valve-in-valve" operation. Under general anesthesia, the retro-preset Prizvalve® system was implanted into degenerated tricuspid bioprosthesis via the femoral vein approach under the guidance of transesophageal echocardiographic and fluoroscopic guidance.ResultsTranscatheter tricuspid valve implantation was successfully performed in both high-risk patients, and tricuspid regurgitation disappeared immediately. The operation time was 1.25 h and 2.43 h, respectively. There was no serious complication in both patients, and they were discharged from the hospital 7 days after the operation.ConclusionThe clinical effect of the degenerated tricuspid bioprosthetic valve implantation with domestic balloon-expandable valve via femoral vein approach "valve-in-valve" is good. Multimodality imaging and 3D printing technology can safely and effectively guide the implementation of this innovative technique.