468 research outputs found

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    Замена электродвигателя ПЭН турбоприводом на Кемеровской ТЭЦ

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    В данной работе рассматривается возможность замены электродвигателя ПЭН турбоприводом на Кемеровской ТЭЦ, с установкой турбопривода на существующий фундамент. Целью работы является оценка возможности увеличения отпуска электроэнергии от станции в результате уменьшения затрат на собственные нужды и повышение маневренности ТЭЦ.In this paper we consider the possibility of replacing the turbine drive motor PEN to Kemerovo CHP , with the installation of turbine drive on the existing foundation. The aim is to assess the possibility of increasing the supply of electric power from the plant by reducing the costs of their own needs and improving maneuverability CHP

    Defining aggressive or early progressing nononcogene-addicted non-small-cell lung cancer: a separate disease entity?

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    A substantial proportion of patients with nononcogene-addicted non-small-cell lung cancer (NSCLC) has 'aggressive disease', as reflected in short time to progression or lack of disease control with initial platinum-based chemotherapy. Recently, clinical correlates of aggressive disease behavior during first-line therapy have been shown to predict greater benefit from addition of nintedanib to second-line docetaxel in adenocarcinoma NSCLC. Positive predictive effects of aggressive disease have since been reported with other anti-angiogenic agents (ramucirumab and bevacizumab), while such features may negatively impact on outcomes with nivolumab in nonsquamous NSCLC with low PD-L1 expression. Based on a review of the clinical data, we recommend aggressive nonsquamous NSCLC should be defined by progression within <6-9 months of first-line treatment initiation

    Third CECOG consensus on the systemic treatment of non-small-cell lung cancer

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    The current third consensus on the systemic treatment of non-small-cell lung cancer (NSCLC) builds upon and updates similar publications on the subject by the Central European Cooperative Oncology Group (CECOG), which has published such consensus statements in the years 2002 and 2005 (Zielinski CC, Beinert T, Crawford J et al. Consensus on medical treatment of non-small-cell lung cancer—update 2004. Lung Cancer 2005; 50: 129-137). The principle of all CECOG consensus is such that evidence-based recommendations for state-of-the-art treatment are given upon which all participants and authors of the manuscript have to agree (Beslija S, Bonneterre J, Burstein HJ et al. Third consensus on medical treatment of metastatic breast cancer. Ann Oncol 2009; 20 (11): 1771-1785). This is of particular importance in diseases in which treatment options depend on very particular clinical and biologic variables (Zielinski CC, Beinert T, Crawford J et al. Consensus on medical treatment of non-small-cell lung cancer—update 2004. Lung Cancer 2005; 50: 129-137; Beslija S, Bonneterre J, Burstein HJ et al. Third consensus on medical treatment of metastatic breast cancer. Ann Oncol 2009; 20 (11): 1771-1785). Since the publication of the last CECOG consensus on the medical treatment of NSCLC, a series of diagnostic tools for the characterization of biomarkers for personalized therapy for NSCLC as well as therapeutic options including adjuvant treatment, targeted therapy, and maintenance treatment have emerged and strongly influenced the field. Thus, the present third consensus was generated that not only readdresses previous disease-related issues but also expands toward recent developments in the management of NSCLC. It is the aim of the present consensus to summarize minimal quality-oriented requirements for individual patients with NSCLC in its various stages based upon levels of evidence in the light of a rapidly expanding array of individual therapeutic option

    Single-agent gemcitabine versus cisplatin-etoposide: Early results of a randomised phase II study in locally advanced or metastatic non-small-cell lung cancer

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    Background This randomised study was designed to determine the response rate, survival and toxicity of single-agent gemcitabine and cisplatin-etoposide in chemo-naïve patients with locally advanced or metastatic non-small-cell lung cancer. Patients and methods Gemcitabine 1,000 mg/m2 was given as a 30 min intravenous infusion on days 1, 8, 15 of a 28-day cycle, cisplatin 100 mg/m2 on day 1, and etoposide 100 mg/m2 on days 1 (following cisplatin), 2 and 3. Major eligibility criteria included histologically confirmed non-small-cell lung cancer, measurable disease, Zubrod PS 0-2; no prior chemotherapy, no prior radiation of the measured lesion, and no CNS metastases. Results 146 patients were enrolled, 71 patients on gemcitabine and 75 patients on cisplatin-etoposide. Patient characteristics were well matched across both arms. Sixty-six gemcitabine patients and 72 cisplatin-etoposide patients were evaluable. Partial responses were seen in 12 gemcitabine patients (18.2%; 95% CI: 9.8-30) and 11 cisplatin-etoposide patients (15.3%; 95% CI: 7.9-25.7). Early indications show no statistical differences between the two treatments with respect to time to disease progression or survival. Haematological and laboratory toxicity were moderate and manageable. However, hospitalisation because of neutropenic fever was required for 6 (8%) cisplatin-etoposide patients but not for any gemcitabine patients. Non-haematological toxicity was more pronounced with significant differences in nausea and vomiting (grade 3 and 4: 11% gemcitabine vs. 29% cisplatin-etoposide; despite the allowance for 5-HT3 antiemetics during the first cycle of cisplatin-etoposide), and alopecia (grade 3 and 4: 3% gemcitabine vs. 62% cisplatin-etoposide). Conclusions In this randomised study, single-agent gemcitabine was at least as active but better tolerated than the combination cisplatin-etoposid
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