E. V. Artemieva scite author profile

E. V. Artemieva

5Publications

8Citation Statements Received

86Citation Statements Given

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Affiliations

City Clinical Oncology Center, State Budget Institution of Health St. Petersburg Clinical Research Center Specialized Types of Medical Care, Institute of Experimental Physics

Publications

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Lack of Response to Vemurafenib in Melanoma Carrying BRAF K601E Mutation

Moiseyenko¹,

Egorenkov²,

Kramchaninov³

et al. 2019

Case Rep Oncol

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Vemurafenib has been developed to target common BRAF mutation V600E. It also exerts activity towards some but not all rare BRAF substitutions. Proper cataloguing of drug-sensitive and -insensitive rare mutations remains a challenge, due to low occurrence of these events and inability of commercial PCR-based diagnostic kits to detect the full spectrum of BRAF gene lesions. We considered the results of BRAF exon 15 testing in 1872 consecutive melanoma patients. BRAF mutation was identified in 1,090 (58.2%) cases. While drug-sensitive codon 600 substitutions constituted the majority of BRAF gene lesions (V600E: 962 [51.4%]; V600K: 86 [4.6%]; V600R: 17 [0.9%]), the fourth common BRAF allele was K601E accounting for 9 (0.5%) melanoma cases. The data on BRAF inhibitor sensitivity of tumors with K601E substitution are scarce. We administered single-agent vemurafenib to a melanoma patient carrying BRAF K601E mutation as the first-line treatment. Unfortunately, this therapy did not result in a tumor response. Taken together with already published data, this report indicates lack of benefit from conventional BRAF inhibitors in patients with BRAF K601E mutated melanoma.

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Investigation of the mechanisms of resistance to osimertinib in patients with T790M-associated NSCLC

et al. 2019

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Changes in the concentration of EGFR-mutated plasma DNA in the first hours of targeted therapy allow the prediction of tumor response in patients with EGFR-driven lung cancer

et al. 2022

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Purpose This study aimed to analyze changes in the plasma concentration of EGFR-mutated circulating tumor DNA (ctDNA) occurring immediately after the start of therapy with EGFR tyrosine kinase inhibitors (TKIs). Methods Serial plasma samples were collected from 30 patients with EGFR-driven non-small cell lung cancer before intake of the first tablet and at 0.5, 1, 2, 3, 6, 12, 24, 36 and 48 h after the start of the therapy. The content of EGFR alleles (exon 19 deletions or L858R) in ctDNA was measured by ddPCR. Results ctDNA was detected at base-line in 25/30 (83%) subjects. Twelve (50%) out of 24 informative patients showed > 25% reduction of the ctDNA content at 48 h time point; all these patients demonstrated disease control after 4 and 8-12 weeks of therapy. The remaining 12 individuals showed either stable content of EGFR-mutated ctDNA (n = 5) or the elevation of ctDNA concentration (n = 7). 10 of 12 patients with elevated or stable ctDNA level achieved an objective response at 4 weeks, but only 5 of 10 evaluable patients still demonstrated disease control at 8-12 weeks (p = 0.032, when compared to the group with ctDNA decrease). The decline of the amount of circulating EGFR mutant copies at 48 h also correlated with longer progression-free survival (14.7 months vs. 8.5 months, p = 0.013). Conclusion Comparison of concentration of EGFR-mutated ctDNA at base-line and at 48 h after the start of therapy is predictive for the duration of TKI efficacy.

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Monitoring of the presence of EGFR-mutated DNA during EGFR-targeted therapy may assist in the prediction of treatment outcome

Moiseenko

Volkov

Жабина

et al. 2022

Cancer Treatment and Research Communications

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Prognostic significance of longitudinal evaluation on egfr mutant ctdna during tki treatment in nsclc

Моисеенко¹,

Volkov²,

Жабина³

et al. 2020

Practical oncology

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Detection of EGFR mutations in tumor tissue is the gold standard for prescribing tyrosine kinase inhibitor therapy.However even in the same molecularly defined population effect of the treatment, response duration and survival might differ significantly. We did a prospective clinical trial to assess ctDNA-based EGFR mutations as a prognostic marker for patients with lung adenocarcinoma receiving TKI as first-line treatment.

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E. V. Artemieva

Lack of Response to Vemurafenib in Melanoma Carrying BRAF K601E Mutation

Investigation of the mechanisms of resistance to osimertinib in patients with T790M-associated NSCLC

Changes in the concentration of EGFR-mutated plasma DNA in the first hours of targeted therapy allow the prediction of tumor response in patients with EGFR-driven lung cancer

Monitoring of the presence of EGFR-mutated DNA during EGFR-targeted therapy may assist in the prediction of treatment outcome

Prognostic significance of longitudinal evaluation on egfr mutant ctdna during tki treatment in nsclc

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