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עמוד בית
Thu, 21.11.24

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February 2016
Amjad Shalabi MD, Ehud Raanani MD, Amihai Shinfeld MD, Rafael Kuperstein MD, Alexander Kogan MD, Alexander Lipey MD, Eyal Nachum MD and Dan Spiegelstein MD

Background: Prolonged life expectancy has increased the number of elderly high risk patients referred for surgical aortic valve replacement (AVR). These referred high risk patients may benefit from sutureless bioprosthesis procedures which reduce mortality and morbidity.

Objectives: To present our initial experience with sutureless aortic bioprotheses, including clinical and echocardiographic results, in elderly high risk patients referred for AVR. 

Methods: Forty patients (15 males, mean age 78 ± 7 years) with symptomatic severe aortic stenosis underwent AVR with the 3F Enable™ or Perceval™ sutureless bioprosthesis during the period December 2012 to May 2014. Mean logistic EuroScore was 10 ± 3%. Echocardiography was performed preoperatively, intraoperatively, at discharge and at follow-up.

Results: There was no in-hospital mortality. Nine patients (22%) underwent minimally invasive AVR via a right anterior mini-thoracotomy and one patient via a J-incision. Four patients underwent concomitant coronary aortic bypass graft, two needed intraoperative repositioning of the valve, one underwent valve exchange due to inappropriate sizing, three (7.5%) had a perioperative stroke with complete resolution of neurologic symptoms, and one patient (2.5%) required permanent pacemaker implantation due to complete atrioventricular block. Mean preoperative and postoperative gradients were 44 ± 14 and 13 ± 5 mmHg, respectively. At follow-up, 82% of patients were in New York Heart Association functional class I and II.

Conclusions: Sutureless AVR can be used safely in elderly high risk patients with relatively low morbidity and mortality. The device can be safely implanted via a minimally invasive incision. Mid-term hemodynamic results are satisfactory, demonstrating significant clinical improvement.

 

December 2015
Orly Goitein MD, Elio Di Segni MD, Yael Eshet MD, Victor Guetta MD, Amit Segev MD, Eyal Nahum MD, Ehud Raanani MD, Eli Konen MD and Ashraf Hamdan MD

Background: Trans-catheter valve implantation (TAVI) is a non-surgical alternative for patients with severe aortic stenosis (AS). Pre-procedural computed tomography angiography (CTA) allows accurate “road mapping,” aortic annulus sizing and the detection of incidental findings.

Objectives: To document the prevalence of non-valvular extra-cardiac findings on CTA prior to TAVI and the impact of these findings on the procedure.  

Methods: Ninety AS patients underwent CTA as part of pre-TAVI planning. Scans extended from the clavicles to the groin. Non-vascular non-valvular findings were documented and graded as follows: (A) significant findings causing TAVI cancellation or postponement, (B) significant findings leading to a change in the TAVI procedure approach, (C) non-significant findings not affecting the TAVI procedure. 

Results: TAVI was planned for 90 patients; their average age was 80.2 ± 7.5 years, 53% were females. Overall, non-valvular cardiac, extra-cardiac and extra-vascular significant and non-significant incidental findings were documented in 97% of scans (87/90). Significant pathologies causing TAVI cancellation or postponement (category A) were documented in 8%. Significant findings affecting the TAVI procedure (category B) were found in 16% of patients. 

Conclusions: Pre-TAVI CTA detected non-valvular extra-vascular pathologies leading to procedure cancellation/postponement or procedure modification in 8% and 16%, respectively. Comprehensive CTA evaluation that acknowledges the importance of such findings is of major importance since it might alter the TAVI procedure or even render it inappropriate. 

 

September 2013
S. Schwartzenberg, V. Meledin, L. Zilberman, S. Goland, J. George and S. Shimoni

Background: The pathophysiology of aortic stenosis (AS) involves inflammatory features including infiltration of the aortic valve (AV) by activated macrophages and T cells, deposition of lipids, and heterotopic calcification.

Objectives: To evaluate the correlation between white blood cell (WBC) differential count and the occurrence and progression of AS.

Methods: We identified in our institutional registry 150 patients with AS who underwent two repeated echo studies at least 6 months apart. We evaluated the association between the average of repeated WBC differential counts sampled during the previous 3 years and subsequent echocardiographic AS indices.

Results: There was no significant difference in total WBC, lymphocyte or eosinophil count among mild, moderate or severe AS groups. There was a progressive decrease in monocyte count with increasing AS severity (P = 0.046), more prominent when comparing the mild and severe groups. There was a negative correlation between AV peak velocity or peak or mean gradient and monocyte count in the entire group (r = -0.31, -0.24, and -0.25 respectively, all P ≤ 0.01). Similar partial correlations controlling for age, gender, hypertension, smoking, dyslipidemia and ejection fraction remained significant. The median changes over time in peak velocity and peak gradients in AS patients were 0.44 (0–1.3) m/sec/year and 12 (0–39) mmHg/year, respectively. There was no correlation between any of the WBC differential counts and the change in peak velocity or peak gradient per year.

Conclusions: Severe AS is associated with decreased total monocyte count. These findings may provide further clues to the mechanism underlying the pathogenesis of aortic stenosis.

August 2010
H. Danenberg, A. Finkelstein, R. Kornowski, A. Segev, D. Dvir, D. Gilon, G. Keren, A. Sagie, M. Feinberg, E. Schwammenthal, S. Banai, C. Lotan and V. Guetta

Background: The prevalence of aortic stenosis increases with advancing age. Once symptoms occur the prognosis in patients with severe aortic stenosis is poor. The current and recommended treatment of choice for these patients is surgical aortic valve replacement. However, many patients, mainly the very elderly and those with major comorbidities, are considered to be at high surgical risk and are therefore denied treatment. Recently, a transcatheter alternative to surgical AVR[1] has emerged.

Objectives: To describe the first year experience and 30 day outcome of transcatheter aortic self-expandable CoreValve implantation in Israel.

Methods: Transcatheter aortic valve implantation using the CoreValve system has been performed in Israel since September 2008. In the following year 55 patients underwent CoreValve TAVI[2] in four Israeli centers.

Results: Patients' mean age was 81.7 ± 7.1 years; there were 35 females and 20 males. The mean valve area by echocardiogram was 0.63 ± 0.16 cm2. The calculated mean logistic Euroscore was 19.3 ± 8%. Following TAVI, mean transvalvular gradient decreased from baseline levels of 51 ± 13 to 9 ± 3 mmHg. The rate of procedural success was 98%. One patient died on the first day post-procedure (1.8%) and all-cause 30 day mortality was 5.5% (3 of 55 patients). One patient had a significant post-procedural aortic regurgitation of > grade 2. Symptomatic improvement was evident in most patients, with reduction in functional capacity grade from 3.2 ± 0.6 at baseline to 1.4 ± 0.7. The most common post-procedural complication was complete heart block, which necessitated permanent pacemaker implantation in 37% of patients.

Conclusions: The Israeli first year experience of transcatheter aortic valve implantation using the CoreValve self-expandable system demonstrates an effective and safe procedure for the treatment of severe aortic stenosis in patients at high surgical risk.






[1] AVR = aortic valve replacement



[2] TAVI = transcatheter aortic valve implantation


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