• IMA sites
  • IMAJ services
  • IMA journals
  • Follow us
  • Alternate Text Alternate Text
עמוד בית
Fri, 22.11.24

Search results


December 2020
Michael Peled MD, Jair Bar MD, Liat Avni MD, Sumit Chatterji MD, Dafna Somech MD, Addie Dvir MD, Lior Soussan-Gutman MD, and Amir Onn MD

Background: Guidelines recommend testing for multiple biomarkers in non-small cell lung cancer (NSCLC) tumors. Blood-based liquid biopsy analyzing cell-free DNA (cfDNA) could be used in addition to tumor biopsy genotyping, especially if tissue/time are limiting.

Objectives: To investigate the clinical utility of early cfDNA analysis (Guardant360® CDx) in treatment-naïve NSCLC patients.

Methods: A prospective cohort of treatment-naïve patients with metastatic NSCLC who underwent tumor and cfDNA analysis between 12/2018 and 2/2019 were included.

Results: Ten patients were included: 6 males, median age 70.5 years (range 48–87), 8 prior smokers. Liquid biopsy was sent when cancer cells were detected in the biopsy specimen. Median time from diagnosis to receiving the report on the last biomarker from the tumor biopsy was 20 days (range 9–34); median time from blood draw to receiving the cfDNA findings was 9 days (range 7–12). The median difference between the cfDNA and the tumor analysis reports was 20 days (range 9–28). Actionable biomarkers were identified in four patients by both the biopsy analysis and the cfDNA analysis (2cases with EGFR mutations, one with ROS1 fusion, and one with EML4-ALK fusion for whom the biopsy analysis also identified an EGFR mutation not detected in the cfDNA analysis). Overall, eight patients received treatment (2 died before treatment initiation). Three patients received biomarker-based treatment (1 osimertinib, 1 alectinib, and 1 crizotinib).

Conclusions: These findings suggest that cfDNA analysis should be ordered by the pulmonologists early in the evaluation of patients with NSCLC, which might complement the tumor biopsy.

Jair Bar MD PhD, Marina Perelman MD, Damien Urban MD, Maya Gottfried MD, Mor Moskovitz MD, Hovav Nechushtan MD PhD, Julia Dudnik MD, Alona Zer MD, Elizabeth Dudnik MD, Ofer Merimsky MD, Amir Onn MD, Barbara Silverman MD

Background: Lung cancer is the most common cause of cancer-related death.

Objectives: To identify changing patterns of lung cancer and its histologic subtypes among different population groups in Israel over a 25 year period.

Methods: Primary lung cancers, all types and all stages, diagnosed during 1990–2014 were recorded in the Israel National Cancer Registry database. Demographic information was retrieved from the National Population Register. Age-standardized rates for the different subgroups were calculated for each year. Joinpoint software was used to analyze trends in incidence.

Results: We identified 42,672 lung cancer cases. The most common histology was adenocarcinoma (34%), followed by squamous cell carcinoma (19%), large cell/not-otherwise-specified (19%), other histologies (15%), and small cell lung cancer (11%). The adenocarcinoma incidence rose from 25.7% to 48.2% during the examined period. Large cell/not-otherwise-specified incidence peaked around 2005–2006 and declined after. Lung cancer incidence increased significantly for the population overall and specifically in Arab females, followed by Jewish females and by Arab males. Adenocarcinoma and small cell lung cancer increased in Jewish females and in Arab males. A younger age of diagnosis was seen in Arab compared to Jewish patients.

Conclusions: Jewish females and Arab males and females living in Israel demonstrated a constant increase in lung cancer incidence, mostly in adenocarcinoma and small cell lung cancer incidence. In addition, a younger age of diagnosis in Arabs was noted. Smoking reduction interventions and screening should be implemented in those populations.

April 2020
Sarit Appel MD, Orit Kaidar-Person MD, Yaacov Richard Lawrence MD MBBS MA MRCP, Maoz Ben-Ayun PhD, Tamar Katzman MPH BASc, Jair Bar MD PhD, Anat Mansano BA and Zvi Symon MD
October 2017
Sarit Appel MD, Jeffry Goldstein MD, Marina Perelman MD, Tatiana Rabin MD, Damien Urban MBBS MD, Amir Onn MD, Tiberiu R. Shulimzon MD, Ilana Weiss MA, Sivan Lieberman MD, Edith M. Marom MD, Nir Golan MD, David Simansky MD, Alon Ben-Nun MD PhD, Yaacov Richard Lawrence MBBS MRCP, Jair Bar MD PhD and Zvi Symon MD PhD

Background: Neoadjuvant chemo-radiation therapy (CRT) dosages in locally advanced non-small cell lung cancer (NSCLC) were traditionally limited to 45 Gray (Gy).

Objectives: To retrospectively analyze outcomes of patients treated with 60 Gy CRT followed by surgery.

Methods: A retrospective chart review identified patients selected for CRT to 60 Gy followed by surgery between August 2012 and April 2016. Selection for surgery was based on the extent of disease, cardiopulmonary function, and response to treatment. Pathological response after neoadjuvant CRT was scored using the modified tumor regression grading. Local control (LC), disease free survival (DFS), and overall survival (OS) were estimated by the Kaplan–Meier method.

Results: Our cohort included 52 patients: 75% (39/52) were stage IIIA. A radiation dose of 60 Gy (range 50–62Gy) was delivered in 82.7%. Surgeries performed included: lobectomy, chest-wall resection, and pneumonectomy in 67.3%, 13.4%, and 19.2%, respectively. At median follow-up of 22.4 months, the 3 year OS was 74% (95% confidence interval [CI] 52–87%), LC was 84% (95%CI 65–93), and DFS 35% (95%CI 14–59). Grade 4–5 postoperative complications were observed in 17.3% of cases and included chest wall necrosis (5.7%), bronco-pleural fistula (7.7%), and death (3.8%). A major pathologic regression with < 10% residual tumor occurred in 68.7% of patients (36/52) and showed a trend to improved OS (P = 0.1). Pneumonectomy cases had statistically worse OS (P = 0.01).

Conclusions: Major pathologic regression was observed 68.7% with 60 Gy neoadjuvant CRT with a trend to improved survival. Pneumonectomy correlated with worse survival.

January 2017
Sarit Appel MD, Yaacov R. Lawrence MRCP, Jeffery Goldstein MD, Raphael M. Pfeffer MD, Ilana Weiss MA, Tatiana Rabin MD, Shira Felder MD, Maoz Ben-Ayun PhD, Lev Tzvang MSc, Dror Alezra PhD, David Simansky MD, Alon Ben-Nun MD PhD, Jair Bar MD PhD and Zvi Symon MD

Background: Stereotactic ablative radiation therapy (SABR) is the application of a very high radiation dose to a small treatment volume. It is the new standard of care in medically inoperable early-stage lung cancer. 

Objectives: To report the outcomes of SABR in stage I lung cancer at Sheba Medical Center since its introduction in 2009.

Methods: We conducted a retrospective chart review of patients with stage I lung cancer treated during the period 2009–2015. Survival status was retrieved from the electronic medical records and confirmed with the national registry. Local failure was defined as increased FDG uptake on PETCT scan within a 2 cm radius of the treated region. Toxicity was estimated from medical records and graded according to common toxicity criteria for adverse events (CTCAE) version 4.03. Overall survival and local control were estimated by the Kaplan-Meier method.

Results: During the study period 114 patients were treated for 122 stage I lung cancer lesions. Median follow-up time was 27 months (range 8.2–69.5 months), median age was 76 years. Eighty-two percent of the tumors were stage IA (size ≤ 3 cm). Median survival was 46 months; estimated 3 year overall survival was 59% (95%CI 47–69%) and local control was 88% (95%CI 78–94%). Toxicity included chest wall pain in 8.4% of patients, rib fracture in 0.9%, grade 1–2 pneumonitis in 12%, grade 3 in 12% and grade 5 (death) in 0.9%.

Conclusions: SABR has been successfully implemented at Sheba Medical Center for the treatment of stage I lung cancer in inoperable patients. It is associated with excellent local control, minor toxicity and an acceptable overall survival.

 

June 2010
A. Yosepovich, C. Avivi, J. Bar, S. Polak-Charcon, C. Mardoukh and I. Barshack

Background: HER2 is an important prognostic and predictive marker in invasive breast cancer. It is currently assessed by immunohistochemistry for protein over-expression and by fluorescence in situ hybridization for gene amplification. The immunohistochemistry-equivocal cases (2+) are currently retested by FISH[1] to determine eligibility for trastuzumab treatment. Retesting by FISH significantly raises the cost of patient management and sometimes delays treatment. The 4B5 is a new, FDA-approved, rabbit monoclonal antibody for HER2 testing.

Objectives: To examine the reliability of 4B5 IHC[2] HER2 testing in cases found to be HER2 status equivocal by CB11 IHC.

Methods: Twenty-eight invasive breast cancer cases, with an equivocal HER2 status by CB11 IHC, were retested by the 4B5 antibody as well as by FISH analysis. The scoring was performed using the same guidelines as HercepTest and was correlated with the FISH ratio. Results: Of the original 28 CB11 clone designated equivocal cases, 14 (50%) showed negative HER2 staining using the 4B5 clone (HercepTest score 0 and 1+). Five cases (18%) proved to be positive (HercepTest score 3+) and 9 cases (32%) remained equivocal (HercepTest score 2+). The corresponding FISH ratio results showed that all 4B5 negative cases were negative by FISH testing, with a negative predictive value of 100% 4 of 5 of the 4B5-positive cases were positive by FISH testing, with a positive predictive value of 80%. One 4B5-positive case was borderline-high (2.2 ratio) by FISH. The correlation between 4B5 IHC and FISH was statistically significant (P = 0.0013) by chi-square test.

Conclusions: Sequential testing by 4B5 IHC could greatly reduce the need for FISH testing in cases considered HER2 equivocal by CB11 IHC.

 

 
[1] FISH = fluorescence in situ hybridization

[2] IHC = immunohistochemistry

Legal Disclaimer: The information contained in this website is provided for informational purposes only, and should not be construed as legal or medical advice on any matter.
The IMA is not responsible for and expressly disclaims liability for damages of any kind arising from the use of or reliance on information contained within the site.
© All rights to information on this site are reserved and are the property of the Israeli Medical Association. Privacy policy

2 Twin Towers, 35 Jabotinsky, POB 4292, Ramat Gan 5251108 Israel