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עמוד בית
Thu, 21.11.24

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July 2022
Adnan Zaina MD, Ilan Shimon MD, Ali Abid MD,Eldad Arad MD,Elzbieta Baron MD, Elena Golden MD, Michal Gershinsky MD, Nariman Saba Khazen MD, Mohammed Abu Saleh MD, Noga Roguin Maor MD, Orit Bardicef MD, Yulia Pauker MD and Sameer Kassem MD

Background: National registries for acromegaly and population-based data make an important contribution to disease understanding and management. Data concerning the epidemiology of acromegaly in Israel is scanty.

Objectives: To evaluate the epidemiology of acromegaly in different industrial areas in northern Israel.

Methods: Data from adult patients diagnosed with acromegaly from 2000 to 2020, living in Haifa and the western Galilee District were collected using the electronic database and medical records from Clalit Health Services. The prevalence of acromegaly in three distinct areas and overall were reported. In addition, other epidemiological data including associated co-morbidities, pituitary tumor size, and treatment modalities were collected.

Results: We identified 77 patients with a confirmed diagnosis of acromegaly. The overall prevalence was 155 cases/106 inhabitants without statistically significant differences between the three areas. The mean age at diagnosis was 50 ± 1.8 years and the male to female ratio was 1.1. Macroadenoma and microadenoma were identified in 44 (57%) and 25 (33%), respectively. The frequency rate of acromegaly-associated co-morbidities such as diabetes, hypertension, carpal tunnel syndrome, and osteoporosis was similar to previously reported studies. The mean body mass index (BMI) was 29 ± 5.6 kg/m2 .Obesity, with a BMI ≥ of 30 kg/m2, was found in 29 patients (38%). The majority of patients underwent transsphenoidal surgery 67 (87%). Normalized insulin-like growth factor 1 was reported in 64 (83%).

Conclusions: A high prevalence of acromegaly was found in northern Israel. The pituitary microadenoma frequency rate is the highest reported.

April 2021
Adnan Zaina MD, Walid Tarabeih MD, Ali Abid MD, and Sameer Kassem MD

This year Ramadan occurs during the global coronavirus disease-2019 (COVID-19) pandemic. Data has shown that patients with type 2 diabetes mellitus (T2DM) are prone to severe disease with COVID-19 and with increased mortality. Acute complications such as dehydration, starvation ketosis, ketoacidosis, and the increased risk of coagulopathy and thrombosis should be considered particularly during this pandemic period. Fasting during Ramadan this year and the COVID-19 pandemic is more challenging, not only for patients with T2DM but also for healthcare providers. We present healthcare providers with important aspects to consider during the COVID-19 pandemic for patients with T2DM who intend to fast during Ramadan and other fasting days

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. 

 

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