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עמוד בית
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March 2020
Hussein Sliman MD, Moshe Y. Flugelman MD, Idit Lavi MsC, Barak Zafrir MD, Avinoam Shiran MD, Amnon Eitan MD and Ronen Jaffe MD

Background: The impact of revascularization of coronary chronic total occlusion (CTO) on survival is unknown. Several studies, which included subjects with varied coronary anatomy, suggested that CTO revascularization improved survival. However, the contribution of CTO revascularization to improved outcome is unclear since it was more commonly achieved in subjects with fewer co-morbidities and less extensive coronary disease.

Objectives: To study the association between CTO revascularization and survival in patients with uniform coronary anatomy consisting of isolated CTO of the right coronary artery (RCA).

Methods: A registry of 16,832 coronary angiograms was analyzed. We identified 278 patients (1.7%) with isolated CTO of the RCA who did not have lesions within the left coronary artery for which revascularization was indicated. Survival of 52 patients (19%) who underwent successful percutaneous coronary intervention was compared to those who did not receive revascularization.

Results: Revascularized patients were younger (60.2 vs. 66.3 years, P = 0.001), had higher creatinine clearance (106 vs. 83 ml/min, P < 0.0001), and had fewer co-morbidities than those who did not receive revascularization. Lack of CTO revascularization was a univariable predictor of mortality (hazard ratio [HR] = 2.65, 95% confidence interval [95%CI] 1.06–6.4) over 4.3 ± 2.5 years of follow-up. On multivariable analysis, the only predictors of mortality were increased age (HR 1.04, 95%CI 1.01–1.07), reduced creatinine clearance (HR 1.02, 95%CI 1.01–1.03), and ejection fraction below 55% (HR 2.24, 95%CI 1.22–4.11).

Conclusions: Among patients with isolated RCA CTO who underwent extended follow-up, revascularization was not an independent predictor of increased survival.

May 2019
Hussein Sliman MD, Avinoam Shiran MD, Dallit Mannheim MD, Eyal Avraham MD, Ron Karmeli MD, Nader Khader MD, Barak Zafrir MD, Ronen Rubinshtein MD and Ronen Jaffe MD

Background: Access-site bleeding is a common complication of transfemoral transcatheter aortic valve implantation (TAVI). Percutaneous stent-graft implantation within the femoral artery may achieve hemostasis and avert the need for more invasive surgical vascular repair; however, failure to advance a guidewire antegradely via the injured vessel may preclude stent delivery. While retrograde stent-graft delivery from the distal vasculature may potentially enable percutaneous control of bleeding, this approach has not been reported.

Objectives: To assess the feasibility of a retrograde approach for stent-graft implantation in the treatment of access-site bleeding following transfemoral TAVI.

Methods: A prospective TAVI registry was analyzed. Of 349 patients who underwent TAVI, transfemoral access was used in 332 (95%). Access-site injury requiring stent-graft implantation occurred in 56 (17%). In four patients (7%), antegrade wiring across the site of vascular injury was not possible and a retrograde approach for stent delivery was used.

Results: Distal vascular access was achieved via the superficial femoral or profunda artery. Retrograde advancement of a polymer-coated 0.035” wire to the abdominal aorta, followed by stent-graft delivery to the common femoral artery, achieved hemostasis in all cases. During a median (interquartile range) follow-up period of 198 (618) days (range 46–2455) there were no deaths and no patient required additional vascular interventions.

Conclusions: A retrograde approach for stent-graft delivery is feasible and allows percutaneous treatment of a common femoral artery injury following TAVI in patients who are not suitable for the conventional antegrade approach.

October 2018
Ahmad Hassan MD, Ronen Jaffe MD, Ronen Rubinshtein MD, Basheer Karkabi MD, David A. Halon MB ChB, Moshe Y. Flugelman MD and Barak Zafrir MD

Background: Contemporary data on clinical profiles and long-term outcomes of young adults with coronary artery disease (CAD) are limited.

Objectives: To determine the risk profile, presentation, and outcomes of young adults undergoing coronary angiography.

Methods: A retrospective analysis (2000–2017) of patients aged ≤ 35 years undergoing angiography for evaluation and/or treatment of CAD was conducted.

Results: Coronary angiography was performed in 108 patients (88% males): 67 acute coronary syndrome (ACS) and 41 non-ACS chest pain syndromes. Risk factors were similar: dyslipidemia (69%), positive family history (64%), smoking (61%), obesity (39%), hypertension (32%), and diabetes (22%). Eight of the ACS patients (12%) and 29 of the non-ACS (71%) had normal coronary arteries without subsequent cardiac events. Of the 71 with angiographic evidence of CAD, long-term outcomes (114 ± 60 months) were similar in ACS compared to non-ACS presentations: revascularization 41% vs. 58%, myocardial infarction 32% vs. 33%, and all-cause death 8.5% vs. 8.3%. Familial hypercholesterolemia (FH) was diagnosed in 25% of those with CAD, with higher rates of myocardial infarction (adjusted hazard ratio [HR] 2.62, 95% confidence interval [95%CI] 1.15–5.99) and revascularization (HR 4.30, 95%CI 2.01–9.18) during follow-up. Only 17% of patients with CAD attained a low-density lipoprotein cholesterol treatment goal < 70 mg/dl.

Conclusions: CAD in young adults is associated with marked burden of traditional risk factors and high rates of future adverse cardiac events, regardless of acuity of presentation, especially in patients with FH, emphasizing the importance of detecting cardiovascular risk factors and addressing atherosclerosis at young age.

September 2017
Basheer Karkabi MD, Ronen Jaffe MD, David A. Halon MD, Amnon Merdler MD, Nader Khader MD, Ronen Rubinshtein MD, Jacob Goldstein MD, Barak Zafrir MD, Keren Zissman MD, Nissan Ben-Dov MD, Michael Gabrielly MD, Alex Fuks MD, Avinoam Shiran MD, Salim Adawi MD, Yaron Hellman MD, Johny Shahla, Salim Halabi MD, Shai Cohen MD, Irina Bergman MD, Sameer Kassem MD PhD MPH, Chen Shapira MD and Moshe Y. Flugelman MD

Background: Outcomes of patients with acute ST-elevation myocardial infarction (STEMI) are strongly correlated to the time interval from hospital entry to primary percutaneous coronary intervention (PPCI). Current guidelines recommend a door to balloon time of < 90 minutes. 

Objectives: To reduce the time from hospital admission to PPCI and to increase the proportion of patients treated within 90 minutes. 

Methods: In March 2013 the authors launched a seven-component intervention program: 


  1. Direct patient evacuation by out-of-hospital emergency medical services to the coronary intensive care unit or catheterization laboratory

  2. Education program for the emergency department staff

  3. Dissemination of information regarding the urgency of the PPCI decision

  4. Activation of the catheterization team by a single phone call

  5. Reimbursement for transportation costs to on-call staff who use their own cars

  6. Improvement in the quality of medical records

  7. Investigation of failed cases and feedback 



Results: During the 14 months prior to the intervention, initiation of catheterization occurred within 90 minutes of hospital arrival in 88/133 patients(65%); during the 18 months following the start of the intervention, the rate was 181/200 (90%) (P < 0.01). The respective mean/median times to treatment were 126/67 minutes and 52/47 minutes (P < 0.01). Intervention also resulted in shortening of the time interval from hospital entry to PPCI on nights and weekends. 

Conclusions: Following implementation of a comprehensive intervention, the time from hospital admission to PPCI of STEMI patients shortened significantly, as did the proportion of patients treated within 90 minutes of hospital arrival. 

 

May 2016
Dan Levin, Salim Adawi MD, David A Halon MBChB, Avinoam Shiran MD, Ihab Asmer, Ronen Rubinshtein MD and Ronen Jaffe MD

Background: Radial artery occlusion (RAO) may occur following transradial catheterization, precluding future use of the vessel for vascular access or as a coronary bypass graft. Recanalization of RAO may occur; however, long-term radial artery patency when revascularization is more likely to be required has not been investigated. Transradial catheterization is usually performed via 5-Fr or 6-Fr catheters. Insertion of 7-Fr sheaths into the radial artery enables complex coronary interventions but may increase the risk of RAO. 

Objective: To assess the long-term radial artery patency following transradial catheterization via 7-Fr sheaths.

Methods: Antegrade radial artery blood flow was assessed by duplex-ultrasound in 43 patients who had undergone transradial catheterization via a 7-Fr sheath. 

Results: All patients had received intravenous unfractionated heparin with a mean activated clotting time (ACT) of 247 ± 56 seconds. Twenty-four patients (56%) had received a glycoprotein IIbIIIa inhibitor and no vascular site complications had occurred. Mean time interval from catheterization to duplex-ultrasound was 507 ± 317 days. Asymptomatic RAO was documented in 8 subjects (19%). Reduced body weight was the only significant univariate predictor of RAO (78 ± 11 vs. 89 ± 13 kg, P = 0.031). In a bivariate model using receiver operator characteristic (ROC) curves, the combination of lower weight and shorter ACT offered best prediction of RAO (area under the ROC curve 0.813). 

Conclusions: Asymptomatic RAO was found at late follow-up in approximately 1 of 5 patients undergoing transradial catheterization via a 7-Fr sheath and was associated with lower body weight and shorter ACT. 

 

May 2006
R. Rubinshtein, D.A. Halon, A. Kogan, R. Jaffe, B. Karkabi, T. Gaspar, M.Y. Flugelman, R. Shapira, A. Merdler and B.S. Lewis

Background: Emergency room triage of patients presenting with chest pain syndromes may be difficult. Under-diagnosis may be dangerous, while over0diagnosis may be costly.

Objectives: To report our initial experience with an emergency room cardiologist-based chest pain unit in Israel.

Methods: During a 5 week pilot study, we examined resource utilization and ER [1] diagnosis in 124 patients with chest pain of uncertain etiology or non-high risk acute coronary syndrome. First assessment was performed by the ER physicians and was followed by a second assessment by the CPU[2] team. Assessment was based on the following parameters: medical history and examination, serial electrocardiography, hematology, biochemistry and biomarkers for ACS[3], exercise stress testing and/or 64-slice multi-detector cardiac computed tomography angiography. Changes in decision between initial assessment and final CPU assessment with regard to hospitalization and utilization of resources were recorded.

Results: All patients had at least two cardiac troponin T measurements, 19 underwent EST[4], 9 echocardiography and 29 cardiac MDCT[5]. Fourteen patients were referred for early cardiac catheterization (same/next day). Specific working diagnosis was reached in 71/84 patients hospitalized, including unstable angina in 39 (31%) and non-ST elevation myocardial infarction in 12 (10%). Following CPU assessment, 40/124 patients (32%) were discharged, 49 (39%) were admitted to Internal Medicine and 35 (28%) to the Cardiology departments. CPU assessment and extended resources allowed discharge of 30/101 patients (30%) who were initially identified as candidates for hospitalization after ER assessment. Furthermore, 13/23 (56%) of patients who were candidates for discharge after initial ER assessment were eventually hospitalized. Use of non-invasive tests was significantly greater in patients discharged from the ER (85% vs. 38% patients hospitalized) (P < 0.0001). The mean ER stay tended to be longer (14.9 ± 8.6 hours vs. 12.9 ± 11, P = NS) for patients discharged. At 30 days follow-up, there were no adverse events (myocardial infarction or death) in any of the 40 patients discharged from the ER after CPU assessment. One patient returned to the ER because of chest pain and was discharged after re-assessment. 

Conclusions: Our initial experience showed that an ER cardiologist-based chest pain unit improved assessment of patients presenting to the ER with chest pain, and enhanced appropriate use of diagnostic tests prior to decision regarding admission/discharge from the ER.


 




[1] ER = emergency room

[2] CPU = chest pain unit

[3] ACS = acute coronary syndrome

[4] EST = exercise stress testing

[5] MDCT = multi-detector cardiac computed tomography angiography


June 2000
Ronen Jaffe, MD, David A. Halon, MBChB, Giora Weisz, MD and Basil S. Lewis, MD
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