Tatiana N. Obukhova scite author profile

Context.-Echinoderm microtubule-associated proteinlike 4 gene (EML4) and anaplastic lymphoma kinase gene (ALK) fusion was shown to be the driver of tumorigenesis in approximately 3% to 5% of patients with non-small cell lung cancer (NSCLC) and is associated with response to inhibition with crizotinib. However, no complete agreement regarding the best diagnostic test for identification of ALK rearrangements has been achieved yet.Objective.-To investigate the concordance, sensitivity, and specificity of immunohistochemistry (IHC), fluorescence in situ hybridization (FISH), and reverse transcription-polymerase chain reaction (RT-PCR) for detection of ALK rearrangements.Design.-Thirty-six prospectively tested patients with NSCLC who had adenocarcinoma and 10 ALK-positive samples were included in the study. All samples were tested by IHC (ALK1 clone, 5A4 clone, D5F3 clone), FISH (LSI ALK Break Apart and ALK FISH Probe), and multiplexed RT-PCR.Results.-Immunohistochemistry staining was successful in all samples. Clone D5F3 showed the best sensitivity and specificity of 100%; clones ALK1 and 5A4 showed sensitivities of 91% with specificity of 100%. Both FISH probes showed concordance with sensitivity and specificity of 100%. Hybridization and RT-PCR were successful in 98% and 93.4% of samples, respectively, with sensitivity of 88% and specificity of 100%. Frequent artifacts leading to misinterpretation were observed with all 3 methodologies.Conclusions.-All 3 methodologies showed good sensitivity, specificity, and concordance, when artifacts were characterized and excluded. However, all ambiguous cases have to be confirmed as ALK rearranged by at least 2 of the 3 methods.

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Visual Gamma Oscillations Predict Sensory Sensitivity in Females as they do in Males

Manyukhina

Rostovtseva

Prokofyev

et al. 2021

Preprint

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Gamma oscillations are driven by local cortical excitatory (E) - inhibitory (I) loops and may help to characterize neural processing involving excitatory-inhibitory interactions. In the visual cortex reliable gamma oscillations can be recorded with magnetoencephalography (MEG) in the majority of individuals, which makes visual gamma an attractive candidate for biomarkers of brain disorders associated with E/I imbalance. Little is known, however, about if/how these oscillations reflect individual differences in neural excitability and associated sensory/perceptual phenomena. The power of visual gamma response (GR) changes nonlinearly with increasing stimulation intensity: it increases with transition from static to slowly drifting high-contrast grating and then attenuates with further increase in the drift rate. In a recent MEG study we found that the GR attenuation predicted sensitivity to sensory stimuli in everyday life in neurotypical adult men and in men with autism spectrum disorders. Here, we replicated these results in neurotypical female participants. The GR enhancement with transition from static to slowly drifting grating did not correlate significantly with the sensory sensitivity measures. These findings suggest that weak velocity-related attenuation of the GR is a reliable neural concomitant of visual hypersensitivity and that the degree of GR attenuation may provide useful information about E/I balance in the visual cortex.

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Blinatumomab + Tyrosine Kinase Inhibitors in the Treatment of Relapsed Philadelphia Chromosome Positive Acute Lymphoblastic Leukemia Patients - Clinical Efficacy and Peripheral Blood Lymphocytes Subpopulations Kinetics

Sokolov

Паровичникова

Troitskaya

et al. 2016

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Blinatumomab is a bispecific anti-CD3/CD19 monoclonal antibody. It showed efficacy as a single agent in the treatment of relapsed/refractory Philadelphia chromosome positive acute lymphoblastic leukemia (Ph+ ALL). T-regulatory (T-reg) and T-helper cells can inhibit effector T-cells used by blinatumomab. Tyrosine-kinase inhibitors (TKI) are the basic treatment of the Ph+ ALL. To improve the long-term results of the relapsed Ph+ ALL treatment we combined blinatumomab with TKIs dasatinib or nilotinib or ponatinib. The aim of this study was to evaluate clinical efficacy of blinatumomab + TKI combination in relapsed Ph+ ALL patients and to study T-cell and NK subpopulations kinetics in R/R-ALL patients during the treatment. From Oct 2015 to June 2016 we treated 6 relapsed Ph+ ALL patients (5 overt hematological relapses and 1 cytogenetic relapse). Blinatumomab was administered in the dose 28 mcg/day by continuous IV infusion 28 days (4 week cycle) with 2 weeks intervals (up to 4 cycles). The dose of blinatumomab in the 1st week of the 1st cycle was 9 mcg/day. Dasatinib 140 mg/day PO started on 1 week and administered daily continuously. Nilotinib 400 mg bid PO was administered in the case of dasatinib toxicity. Ponatinib 45 mg /day PO was administered in the case of T315I ABL kinase domaine mutation. Lymphocytes subpopulations of the peripheral blood (T-helper CD3+/CD4+/CD8-, T-cytotoxic CD3+/CD4-/CD8+, T-reg CD3+/CD4+/CD25+, NK CD3-/CD56+) were studied by flow cytometry on the 1st day of every week during every blinatumomab cycle. Two pts received all 4 cycles of blinatomomab + TKI dasatinib (two MolCR after 2nd cycle). Two pts received 2 cycles of blinatumomab + TKI dasatinib (two MolCR) and are continuing treatment. 1 pt with T315I mutation received 1 cycle of blinatumomab + TKI ponatinib (MolCR). 1 pt progressed during 1st cycle of blinatumomab + dasatinib which were discontinued. AlloBMT was performed in 2 pts in MolCR and 3 pts in MolCR are awaiting alloBMT. All 6 pts are alive. The pt who progressed on the 1-st cycle of blinatumomab + dasatinib was later diagnosed with T315I mutation and CR was obtained on ponatinib + dexamethasone + vincristine. In 1 pt the dasatinib-related pleural effusions and lung infiltration observed which fully regressed after 2 weeks of dasatinib interruption. Dasatinib in that pt was later replaced with nilotinib during 4th cycle and so on. Hypogammaglobulinemia was common and corrected with intravenous human normal immunoglobulin replacement. No neurological toxicity observed. As a result, 5 MolCR were obtained in 6 pts who received blinatumomab + TKI except in 1 pt with T315I mutation who progressed on blinatumomab + dasatinib. In all pts T-helper population was about low limit of normal range or below it (Fig. 1). In 4 of 5 responded pts the restoration of cytotoxic T-cell subpopulation was observed (Fig. 2). In 4 of 5 responded pts the 2nd week T-reg dropping occurred (Fig. 3). In all of responded pts NK population returned to normal range. The blinatumomab + TKI combination is effective in relapsed Ph+ ALL. The MolCR obtaining is possible without glucocorticoid treatment. The combination has acceptable toxicity. The T-reg subpopulation depletion on 2 week and depleted pool of T-helper are correlated with MolCR obtaining during blinatumomab + TKI treatment. The T cell cytotoxic and NK lymphocyte subpopulation restoring possibly reflects normal hemopoiesis establishing in MolCR settings in effectively treated pts. Figure 1 T-helper subpopulation kinetics (Pt - patient; C - cycle; W - week; LLNR - lower limit of normal range). Figure 1. T-helper subpopulation kinetics (Pt - patient; C - cycle; W - week; LLNR - lower limit of normal range). Figure 2 T-cytotoxic subpopulation kinetics (Pt - patient; C - cycle; W - week; LLNR - lower limit of normal range). Figure 2. T-cytotoxic subpopulation kinetics (Pt - patient; C - cycle; W - week; LLNR - lower limit of normal range). Figure 3 T-regulatory subpopulation kinetics (Pt - patient; C - cycle; W - week; LLNR - lower limit of normal range). Figure 3. T-regulatory subpopulation kinetics (Pt - patient; C - cycle; W - week; LLNR - lower limit of normal range). Disclosures No relevant conflicts of interest to declare.

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Stable and unstable aberrations in lymphocytes of Chernobyl accident clearance workers carrying rogue cells

Ev¹,

Rivkind²,

Асеева³

et al. 2000

Applied Radiation and Isotopes

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