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    Wyświetlanie 1-4 z 4
    Autorzy:
    Sverdlov, A.L.
    Zamorano, P.
    Aktaa, S.
    Tocchetti, C. G.
    Parrini, I.
    Pudil, R.
    Farmakis, D.
    Badimon, L.
    Szmit, S.
    Barac, A.
    Garrido Lopez, P.
    Curigliano, G.
    Lee, G.A.
    Cohen-Solal, A.
    Gulati, G.
    Jurczak, Wojciech
    Abdin, A.
    Stephens, R.
    Lyon, A.R
    Yaseen, Israa F.
    Gale, C.P.
    Kirby, A.M.
    Blaes, A.H.
    Asteggiano, R.
    Lopez-Fernandez, T.
    Iakobishvili, Z.
    Opis:
    Aims: To develop quality indicators (QIs) for the evaluation of the prevention and management of cancer therapy-related cardiovascular toxicity. Methods and results: We followed the European Society of Cardiology (ESC) methodology for QI development which comprises (i) identifying the key domains of care for the prevention and management of cancer therapy-related cardiovascular toxicity in patients on cancer treatment, (ii) performing a systematic review of the literature to develop candidate QIs, and (iii) selecting of the final set of QIs using a modified Delphi process. Work was undertaken in parallel with the writing of the 2022 ESC Guidelines on Cardio-Oncology and in collaboration with the European Haematology Association, the European Society for Therapeutic Radiology and Oncology and the International Cardio-Oncology Society. In total, 5 main and 9 secondary QIs were selected across five domains of care: (i) Structural framework, (ii) Baseline cardiovascular risk assessment, (iii) Cancer therapy related cardiovascular toxicity, (iv) Predictors of outcomes, and (v) Monitoring of cardiovascular complications during cancer therapy. Conclusion: We present the ESC Cardio-Oncology QIs with their development process and provide an overview of the scientific rationale for their selection. These indicators are aimed at quantifying and improving the adherence to guideline-recommended clinical practice and improving patient outcomes.
    Dostawca treści:
    Repozytorium Uniwersytetu Jagiellońskiego
    Artykuł
    Tytuł:
    Safer and efficient base editing and prime editing via ribonucleoproteins delivered through optimized lipid-nanoparticle formulations
    Autorzy:
    Palczewski, Krzysztof
    Chen, Paul Z.
    Kiser, Philip D.
    Risalit,i Eleonora
    Rodrigues Menezes, Carolline
    Hołubowicz, Rafał
    Smidak, Roman
    Griffo Alessandra
    Caprettini Valeria
    Felgner, Philip L.
    Dong, Zhiqian
    Liu, David R.
    Almeida Filipe
    Lyon, David C.
    Cheifet Barbara
    Salom, David
    Felgner, Jiin
    Choi, Elliot H.
    Palczewska, Grazyna
    Bassetto, Marco
    Du, Samuel W.
    Haskell Jennifer
    Gao, Fangyuan
    Medani, Omar
    Yan, Alexander L.
    Hołubowicz, Maria W.
    Newby, Gregory A.
    Foik, Andrzej T.
    Workman, J. Noah
    Współwytwórcy:
    Caprettini Valeria
    Almeida Filipe
    Cheifet Barbara
    Griffo Alessandra
    Haskell Jennifer
    Wydawca:
    Nature Portfolio
    Cytata wydawnicza:
    Hołubowicz, R., Du, S.W., Felgner, J. et al. Safer and efficient base editing and prime editing via ribonucleoproteins delivered through optimized lipid-nanoparticle formulations. Nat. Biomed. Eng 9, 57–78 (2025). https://doi.org/10.1038/s41551-024-01296-2
    Opis:
    Delivering ribonucleoproteins (RNPs) for in vivo genome editing is safer than using viruses encoding for Cas9 and its respective guide RNA. However, transient RNP activity does not typically lead to optimal editing outcomes. Here we show that the efficiency of delivering RNPs can be enhanced by cell-penetrating peptides (covalently fused to the protein or as excipients) and that lipid nanoparticles (LNPs) encapsulating RNPs can be optimized for enhanced RNP stability, delivery efficiency and editing potency. Specifically, after screening for suitable ionizable cationic lipids and by optimizing the concentration of the synthetic lipid DMG-PEG 2000, we show that the encapsulation, via microfluidic mixing, of adenine base editor and prime editor RNPs within LNPs using the ionizable lipid SM102 can result in in vivo editing-efficiency enhancements larger than 300-fold (with respect to the delivery of the naked RNP) without detectable off-target edits. We believe that chemically defined LNP formulations optimized for RNP-encapsulation stability and delivery efficiency will lead to safer genome editing.
    Dostawca treści:
    Repozytorium Centrum Otwartej Nauki
    Artykuł
    Tytuł:
    Multiplicity and net-electric charge fluctuations in central Ar+Sc interactions at 13A, 19A, 30A, 40A, 75A, and 150A GeV/c beam momenta measured by NA61/SHINE at the CERN SPS
    Autorzy:
    Rozpłochowski, Ł..
    Bryliński, W.
    Koshio, Y.
    Paolone, V.
    Shukla, A.
    Świderski, Ł..
    Golubeva, M.
    Turko, L.
    Amin, N.
    Dalmazzone, C.
    Kuchowicz, M.
    Friend, M.
    Maksiak, B.
    Grebieszkow, K.
    Buryakov, M.
    Krasnoperov, A.
    Hurh, P. G.
    Seyboth, P.
    Kiełbowicz, M.
    Wyszyński, O.
    Bhosale, S.
    Malakhov, A. I.
    Bajda, Mateusz
    Mik, Ł..
    Ivashkin, A.
    Tsenov, R.
    Dumarchez, J.
    Matveev, V.
    Witek, K.
    Golovatyuk, V.
    Olivier, A.
    Nagai, Y.
    Maćkowiak-Pawłowska, M.
    Popov, B. A.
    Rybczynski, M.
    Balkova, Y.
    Bondar, Y.
    Allison, K. K.
    Melkumov, G. L.
    Andronov, E. V.
    Gaździcki, M.
    Dominik, W.
    Ilieva, S.
    Płaneta, Roman
    Rustamov, A.
    Słodkowski, M.
    Rumyantsev, M.
    Szukiewicz, R.
    Röhrich, D.
    Csanád, M.
    Bogomilov, M.
    Kolesnikov, R.
    Tefelski, D.
    Kuich, M.
    Ortiz, V. Z. Reyna
    Adhikary, H.
    Golosov, O.
    Engel, R.
    Podlaski, P.
    Dmitriev, A.
    Marino, A. D.
    Nishimori, S.
    Panova, O.
    Fodor, Z.
    Kozłowski, B.
    Tefelska, A.
    Guber, F.
    Bazgir, A.
    Bielewicz, M.
    Battaglia, D.
    Chandak, Y. D.
    Cybowska, J.
    Marcinek, A.
    Zviagina, A.
    Wickremasinghe, A.
    Schmidt, K.
    Szewiński, J.
    Gollwitzer, K. E.
    Stepaniak, J.
    Urbaniak, M.
    Kireyeu, V. A.
    Kucewicz, W.
    Mathes, H.-J.
    Tereshchenko, V.
    Pszczel, D.
    Czopowicz, T.
    Tveter, T. S.
    Adrich, P.
    Veberič, D.
    László, A.
    Prokhorova, D. S.
    Zimmerman, E. D.
    Davis, N.
    Ćirković, M.
    Wójcik, K.
    Kowalski, S.
    Feofilov, G. A.
    Ozvenchuk, V.
    Ren, L.
    Fields, L.
    Zaitsev, A.
    Stefanek, G.
    Merzlaya, A.
    Pórfy, B.
    Arsene, I.-C.
    Rybka, D.
    Puławski, S.
    Rybicki, A.
    Karpushkin, N.
    Kolev, D.
    Doetinchem, P. von
    Sakashita, K.
    Roth, M.
    Vitiuk, O.
    Taranenko, A.
    Zherebtsova, E.
    Camino, A. F.
    Shah, U. A.
    Nakadaira, T.
    Staszel, Paweł
    Unger, M.
    Lyubushkin, V. V.
    Matulewicz, T.
    Lyon, J. R.
    Brzychczyk, Janusz
    Morozov, S.
    Lykasov, G.
    Pidhurskyi, I.
    Shiraishi, Y.
    Lewicki, M.
    Blondel, A.
    Opis:
    This paper presents results on multiplicity fluctuations of positively and negatively charged hadrons as well as net-electric charge fluctuations measured in central Ar+Sc interactions at beam momenta 13A, 19A, 30A, 40A, 75A, and 150A GeV/c. The fluctuation analysis is one of the tools to search for the predicted critical point of strongly interacting matter. Results are corrected for the experimental biases and quantified using cumulant ratios. In most instances, multiplicity and net-charge distributions appear narrower than the corresponding Poisson or Skellam distributions. Cumulant ratios are compared with the Epos1.99 model predictions, which provide a qualitative description that aligns with observations for positively and negatively charged particles. The obtained results are also compared to earlier NA61/SHINE results from inelastic p+p interactions in the same analysis acceptance.
    Dostawca treści:
    Repozytorium Uniwersytetu Jagiellońskiego
    Artykuł
      Wyświetlanie 1-4 z 4

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