Leaflet length and left main coronary artery occlusion following transcatheter aortic valve replacement

Coronary artery occlusion during transcatheter aortic valve replacement is a rare complication. However, it is a very severe and life‐threatening event. Although there are some possible causes of this phenomenon, definite etiologies and predictors are unknown because of the small number. We describe one case of left main coronary artery occlusion immediately after deployment of a prosthetic valve. The patient became hypotensive and developed cardiopulmonary arrest. However, the coronary artery was successfully stented with a help of cardiopulmonary bypass and he recovered well. In this case, pre‐procedural computed tomography (CT) showed the adequately high coronary height and no other significant conventional predictor for coronary occlusion. The examinations were retrospectively reviewed and the CT showed a long leaflet compared to the coronary sinus complex. The fluoroscopy appeared to show the long leaflet covering the left main coronary artery ostium immediately after the valve deployment. The height of the coronary artery ostium from the aortic annulus appeared sufficiently high in this case and did not explain the coronary compromise; leaflet length in relation to the coronary sinus dimension seemed more relevant. The ratio between leaflet length and curved coronary sinus height (L/C) may be one novel predictor for coronary artery occlusion. © 2013 Wiley Periodicals, Inc.     

Left main occlusion secondary to aortic root rupture following transcatheter aortic valve replacement managed by left main stenting

Acute left main coronary occlusion secondary to a periaortic root hematoma secondary to annular rupture during transcatheter heart valve deployment is reported. © 2013 Wiley Periodicals, Inc.     

Stenting of acute left main coronary artery occlusion using balloon anchoring technique after transcatheter aortic valve implantation

We describe a case of acute left main stem occlusion complicating a transcatheter transfemoral aortic valve implantation. We treated this emergency using the balloon anchoring technique to insert and implant a stent in the left main stem. Transcatheter transfemoral or transapical aortic valve implantation (TAVI) is a promising treatment in patients with severe, symptomatic surgically nonamenable patients. Registries have reported 3-month mortality rates between 10 and 20%. (1) Most of the fatalities have been caused by the general poor patient condition because of advanced age or severe co-morbidities. However, TAVI has also been associated with new types of procedure-related complications such as valve embolization and cardiac perforation. Here, we describe a case of acute occlusion of the left coronary main stem following transfemoral TAVI. We treated this emergency using the balloon anchoring technique to insert and implant a stent in the left main stem.     

Infective endocarditis following transcatheter aortic valve implantation

Trans-catheter aortic valve implantation (TAVI) has recently emerged as a less invasive alternative to surgical aortic valve replacement (SAVR) in high risk patients. Although several procedures have been performed worldwide, infective endocarditis (IE) has been reported to be a rare TAVI complication, nevertheless if IE occurs it represents a life-threatening condition and treatment is challenging. TAVI-IE are thus normally treated conservatively by targeted antibiotic therapy with a high reported mortality (40%). Surgical explant represent the definitive strategy but, the intervention is at a high risk (risk of complication 87%, with an in hospital mortality of about 47%). In the present paper, we report the case of a 71-year-old patient affected by an early endocarditis after TAVI (TAVI-IE) treated at our Institution by surgical explant. The case highlights a paradox: if TAVI procedures are indicated over traditional surgical valve replacement in treatment of high surgical risk patients, what should be the best management when TAVI-IE occurs in these same population of patients?     

Trans‐apical aortic valve implantation complicated by left main occlusion

Transcatheter aortic valve implantation (TAVI) is a highly effective procedure for selected patients who are at high risk for aortic valve replacement; however, the incidence of severe complications is still relevant. Coronary occlusion during TAVI is a life‐threatening complication that requires immediate diagnosis and treatment. We report the case of an 87‐years‐old woman affected by severe aortic stenosis, symptomatic for refractory heart failure, who underwent urgent balloon aortic valvuloplasty and subsequent elective transapical aortic valve implantation. Valve deployment was complicated by cardiac arrest and hemodynamic collapse, and left main coronary artery occlusion was recognized and successfully recovered by balloon angioplasty and stent implantation. Patient is alive and well 6 months after procedure. © 2011 Wiley‐Liss, Inc.     

Aortic valve cusp shearing and migration into the left main coronary artery during transcatheter aortic valve implantation

In inoperable or high-risk patients with severe aortic stenosis, transcatheter aortic valve implantation (TAVI) provides an efficacious and safe alternative to surgical aortic valve replacement. In this case report, TAVI resulted in aortic valve cusp shearing and migration into the left main coronary artery, resulting in occlusion of coronary blood flow and cardiac arrest. The patient underwent immediate cardiopulmonary support and surgical intervention with a favourable outcome. With this case report, we illustrate the etiology and management of this complication, which can be recognized nonsurgically only if a high index of suspicion exists.     

Clinical and silent stroke following aortic valve surgery and transcatheter aortic valve implantation

Transcatheter aortic valve implantation (TAVI) has been introduced as an alternative to conventional surgery for high-risk patients with aortic stenosis. A recently published randomized clinical trial demonstrated reduction of mortality in high-risk or inoperable patients when compared to medical treatment or balloon aortic valvuloplasty. Despite this evidence of superiority, the rate of TAVI complications is high, and perhaps the most devastating of the nonfatal complications is cerebral injury. This review will compare the incidence of stroke and “silent” cerebral injury after surgical aortic valve replacement and after TAVI and will discuss mechanisms that can lead to cerebral injury during these procedures and subsequently how to prevent this with new protection devices.     

Native aortic leaflets and permanent pacemaker implantation risk following balloon-expandable transcatheter aortic valve implantation

ObjectivePermanent pacemaker implantation (PPI) risk is higher following transcatheter aortic valve implantation (TAVI) than surgical valve replacement. Native aortic leaflets are retained in patients undergoing TAVI, unlike in surgical valve replacement. Whether the retained leaflets influence PPI risk because of their proximity to the conduction system is unknown. The study sought to determine the association between infra-annular extension of native right coronary cusp/noncoronary cusp (RCC/NCC) post balloon-expandable TAVI and PPI risk.MethodsWe performed a retrospective analysis of 190 patients undergoing balloon-expandable TAVI at a single center. Manifestation of infra-annular extension of RCC/NCC was considered to be present when part of leaflet extended below aortic–annular plane on post-implantation aortic-root angiography.ResultsInfra-annular extension of RCC/NCC was observed in 33 patients (17.37%). PPI incidence post-TAVI was higher in patients with infra-annular extension of RCC/NCC than in those without (36.36% versus 8.92%, relative-risk: 4.08, p˂0.0001). On logistic-regression analysis, preexisting right bundle-branch block (RBBB) (odds-ratio: 12.73, 95% confidence-interval: 2.16–74.93, p = 0.005), and infra-annular extension of RCC/NCC (odds-ratio: 5.63, 95% confidence-interval: 2.17–14.58, p < 0.0001) were independently associated with PPI risk. Preexisting RBBB (φ = +0.25, p = 0.001) and infra-annular extension of RCC/NCC (φ = +0.30, p < 0.0001) showed a positive-correlation with PPI risk. Infra-annular extension of RCC/NCC was a significant predictor of PPI risk on receiver-operating-characteristic curve analysis (area under-the-curve 0.67; 95% confidence-interval: 0.54–0.79, p = 0.006).ConclusionThe retained native aortic leaflets play a significant role in PPI risk following balloon-expandable TAVI. Infra-annular extension of RCC/NCC is a novel predictor, and is associated with a four-fold higher risk of PPI.     

经导管主动脉瓣置换术的新进展

近年来,经导管主动脉瓣置换(TAVI)术发展迅猛。对于外科手术风险很高的严重主动脉瓣狭窄患者,TAVI术已成为一种替代治疗。随着器械的不断改进和临床经验的积累,一些新的技术开始应用于TAVI领域,如非传统的支架输送途径、新材料的带瓣膜支架、局部麻醉下的TAVI术、经导管"瓣中瓣"技术等等。本文将TAVI领域近年来出现的一些新技术作一介绍。     

Location and severity of aortic valve calcium and implications for aortic regurgitation after transcatheter aortic valve implantation

Location of aortic valve calcium (AVC) can be better visualized on contrast-enhanced multidetector row computed tomography. The present evaluation examined whether AVC severity and its location could influence paravalvular aortic regurgitation (AR) after transcatheter aortic valve implantation. A total of 79 patients (age 80 ± 7 years, 49% men) with preprocedural multidetector row computed tomography were included. Volumetric AVC quantification and its location were assessed. Transesophageal echocardiography was performed to assess the presence and site of AR after transcatheter aortic valve implantation. Receiver operating characteristic curves were generated to evaluate the usefulness of AVC in determining paravalvular AR at a specific site. Postprocedural AR of grade 1 or more was observed in 63 patients. In most patients (n = 56, 71%), AR was of paravalvular origin. Calcium at the aortic wall of each valve cusp had the largest area under the curve (0.93, p <0.001) in predicting paravalvular AR at the aortic wall site compared to calcium at the valvular edge or body (area under the curve 0.58 and 0.67, respectively). Calcium at the valvular commissure was better than calcium at the valvular edge (area under the curve 0.94 vs 0.71) in predicting paravavular AR originating from the corresponding commissure. In conclusion, contrast-enhanced multidetector row computed tomography can be performed to quantify AVC. Both AVC severity and its exact location are important in determining paravalvular AR after transcatheter aortic valve implantation.     

In vitro study of coronary flow occlusion in transcatheter aortic valve implantation

Background

Transcatheter aortic valve implantation (TAVI) has been developed recently for patients with high morbidities and who are believed to be not tolerate standard surgical aortic valve replacement. Nevertheless, the TAVI is associated with complications such as potential obstruction of coronary ostia, mitral valve insufficiency, and stent migration although it seems promising. Impairment of the coronary blood flow after TAVI is catastrophic and it was believed to be associated with the close position of the coronary orifice and the aortic leaflets and valve stent. However, few data was available as to the anatomic relationship between valve stent and aortic root anatomic structures including the coronary arterial ostia, aortic leaflets.

Methods

The aortic roots were observed in 40 hearts specimens. The width of aortic leaflet, height of aortic sinus annulus to the sinutubular junction (STJ), distance between aortic sinus annulus to its corresponding coronary ostia, and coronary arterial ostia to its corresponding STJ level were measured. Moreover, the relationships of valve stent, aortic leaflets and coronary ostia before/post stent implantation and after the open of aorta were evaluated respectively.

Results

Approximate three quarters of the coronary ostia were located below the STJ level. The mean distances from left, right and posterior aortic sinus annulus to the related STJ level was comparable, which was 18.5±2.7, 18.9±2.6, 18.7±2.6 mm, respectively. Meanwhile, the height of left and right aortic sinus annulus to its corresponding coronary ostia was 16.6±2.8 and 17.2±3.1 mm for left and right side respectively.

Conclusions

Most of the coronary ostia were located below the STJ level and could be covered by the leaflets. This highlights the need of modified stents to prevent occlusion of coronary flow after TAVI.     

Late subannular aortic root rupture following transcatheter aortic valve implantation presenting as ST elevation myocardial infarction

Transcatheter aortic valve implantation (TAVI) has transformed the treatment of severe aortic stenosis. Here, we present a case of late aortic root rupture presenting as ST‐elevation myocardial infarction five weeks following successful TAVI. Aortic root rupture is a rare complication of TAVI, which occurs in ～1% of procedures and usually arises during or soon after the procedure and is associated with high mortality (～50%). Early recognition of late‐presenting complications related to TAVI, including aortic root rupture, is essential for specialists and nonspecialists. © 2016 Wiley Periodicals, Inc.     

Transaortic transcatheter aortic valve implantation within a previous bioprosthetic aortic valve replacement

This report documents the first reported case of transaortic transcatheter aortic valve implantation (TAVI) using the CoreValve ReValving system (Medtronic CoreValve System, Luxembourg), within a previous bioprosthetic aortic valve replacement. TAVI has become a recognized percutaneous treatment for patients with severe native or bioprosthetic aortic valve stenosis. However, as the number of patients screened for TAVI increases, a number of patients are found with absolutely no option for peripheral arterial access, either from the femoral or subclavian routes. Transaortic CoreValve placement offers an alternate minimally invasive hybrid surgical/interventional technique when peripheral access is not possible. A CoreValve prosthesis was implanted via the transaortic route in an 81‐year‐old woman with severe bioprosthetic aortic valve stenosis (21 mm Mitroflow pericardial valve, peak instantaneous gradient of 99 mmHg, effective valve orifice area (EOA) of 0.3 cm², as ilio‐femoral and left subclavian angiography revealed small calibre vessels (<6 mm). Access was achieved via a mini thoracotomy via the left anterior second intercostal space. The procedure went without complication. Post procedure the patient was transferred directly to the Cardiac Care Unit for recuperation. Post procedure echocardiography showed that the TAVI was well positioned with no para‐valvular leak and a reduction in peak instantaneous gradient to 30 mmHg and an increase in EOA to 1.5 cm². She was discharged on the third post‐procedural day in sinus rhythm with a narrow QRS complex. CoreValve implantation within previous surgical bioprosthesis is now an established treatment. The transaortic approach to transcatheter implantation is a promising recent development, when due to anatomical reasons, transfemoral or subclavian TAVI is not feasible. © 2011 Wiley‐Liss, Inc.