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עמוד בית
Sun, 24.11.24

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April 2009
O. Sadan, N. Shemesh, Y. Cohen, E. Melamed and D. Offen

Background: Stem cell-based therapy is a promising approach for the treatment of neurodegenerative disease. In our laboratory, a novel protocol has been developed to induce bone marrow-derived mesenchymal stem cells into neurotrophic factor-secreting cells. These cells produce and secrete factors such as BDNF (brain-derived neurotrophic factor) and GDNF (glial-derived neurotrophic factor).

Objectives: To evaluate the migratory capacity and efficacy of NTF-SC[1] in animal models of Parkinson's disease and Huntington's disease.

Methods: MSCs[2] underwent two-phase medium-based induction. An efficacy study was conducted on the 6-hydroxydopamine-induced lesion, a rat model for Parkinson's disease. Cells were transplanted on the day of 6-OHDA[3] administration, and amphetamine-induced rotations were measured as a primary behavioral index. In a second experiment, migratory behavior was examined by transplanting cells a distance from a quinolinic acid-induced striatal lesion, a rat model for Huntington's disease. Migration, in vivo, was monitored using longitudinal magnetic resonance imaging scans followed by histology.

Results: NTF-SCs attenuated amphetamine-induced rotations by 45%. HPLC analysis demonstrated a marked decrease in dopamine depletion, post-cellular treatment. Moreover, histological assessments revealed that the engrafted cells migrated and acted to regenerate the damaged striatal dopaminergic nerve terminal network. In a preliminary work on an animal model for Huntington's disease, we demonstrated by high resolution MR images and correlating histology that induced cells migrated along the internal capsule towards the QA[4]-induced lesion.

Conclusions: The induced MSCs are a potential therapy for neurodegenerative diseases, due both to their NTF secretion and their ability to migrate towards the diseased tissue.






[1] NTF-SC = neurotrophic factor-secreting cells



[2] MSCs = mesenchymal stem cells



[3] 6-OHDA = 6-hydroxydopamine



[4] QA = quinolinic acid



 
March 2002
Konstantin Lavrenkov, MD, PhD, Sofia Man, MD, David B. Geffen, MD and Yoram Cohen, MD

Background: Recent years have brought significant progress to the development of hormonal therapies for the treatment of breast cancer. Several new agents have been approved for the treatment of breast cancer in the metastatic setting, among which is the new non-steroidal aromatase inhibitor, anastrozole, introduced for clinical use in Israel in March 1997.

Objectives: To evaluate the response rate and survival duration of patients treated with anastrozole for metastatic breast cancer, who had previously received at least one line of hormonal therapy.

Methods: Anastrozole was administered to 37 patients with metastatic breast cancer. The median age was 64 years. Estrogen receptor was positive in 20 patients, negative in 10 and unknown in 7. All patients were previously treated with tamoxifen in the adjuvant setting or as first-line hormonal therapy for metastatic disease. Anastrozole was given orally, 1 mg/day. Response was evaluated 2 months after the initiation of treatment and reevaluated every 2 months. Therapy was given until disease progression. Ten ER[1]-negative patients were excluded from the final analysis.

Results: Twenty-seven patients were eligible for response and toxicity analysis. The median follow-up was 20 months. One patient (3.7%) achieved complete response and remains free of disease 28 months after start of therapy. No partial responses were seen. Twenty patients (74%) had stable disease. Two year actuarial survival was 57%. Median survival was 26.5 months after starting therapy and median progression free survival was 11 months. The toxicity was mild: one patient (3.7%) complained of weight gain and one patient (3.7%) had mild fatigue.

Conclusion: Although the response rate was low, hormonal therapy with anastrozole seems to be beneficial in terms of disease stabilization, freedom from progression, and overall survival without serious toxicity.  






[1] ER = estrogen receptor


April 2000
Arnon D. Cohen MD, Yoram Cohen MD, Maximo Maislos MD and Dan Buskila PhD

Background: Previous studies have suggested that prolactin may serve as an indicator of disease progression in breast cancer.

Objectives: To evaluate the use of PRL as a serum tumor marker in patients with breast cancer.

Methods: PRL serum level was determined in 99 breast cancer patients and compared with CA 15-3 serum level.

Results: Elevated serum level of PRL (>20 ng/ml) was found in 8 of 99 patients (8.1%). A stratified analysis of prolactin levels according to therapy revealed that PRL levels was increased in 8 of 55 untreated patients (14.5%), but not in patients who received hormonal or chemotherapy in the 3 months preceding the test (0/42 patients, P=0.009). However, mean PRL level was similar in patients with no evidence of disease activity and in patients with active disease (10.2 vs. 8.2 ng/ml, NS). In comparison, CA 15-3 mean level was significantly lower in patients with no evidence of disease as compared to patients with active disease (18.2 vs. 144.7 units/ml, P<0.001). PRL level was increased in 6 of 60 patients (10%) with no evidence of disease and in 2 of 39 (5.2%) with active disease (NS). In comparison, CA 15-3 level was increased in 3 of 60 patients (5%) with no evidence of disease and in 24 of 39 (61.5%) with active disease (P<0.001).

Conclusions: PRL levels are decreased following hormonal or chemotherapy in patients with breast cancer and there is no correlation between PRL serum level and the state of disease. Further studies are needed to clarify a possible clinical significance of hyperprolactinemia in a subset of patients with breast cancer.

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PRL = prolactin

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