Zobrazeno 1 - 10
of 12
pro vyhledávání: '"K N, Shipulin"'
Autor:
A. V. Rzyanina, G. V. Mitsyn, S. V. Shvidkij, A. G. Molokanov, K. N. Shipulin, A. V. Agapov, V. N. Gaevsky, I. Khassenova
Publikováno v:
Meditsinskaya Fizika. 96:21-29
Purpose: To study was to study the effect of GNP nanoparticles on tumor cells of human lung carcinoma A 549 when irradiated with protons. Materials and methods: Cell culture: Human lung carcinoma cells A 549. Gold nanoparticles Au/PEG 6000/W 200/30 n
Autor:
M. Tseytlina, Ya. Kurgansky, A. G. Molokanov, E. I. Luchin, E. Kizhaev, G. V. Mitsyn, A. V. Agapov, V. N. Gaevsky, S. Shvidkiy, K. N. Shipulin
Publikováno v:
Medical Radiology and radiation safety. :61-69
First experiments on using proton beams for radiotherapy of malignant tumours at the 680 MeV proton synchrocyclotron of the V.P. Dzhelepov Laboratory of Nuclear Problems of the Joint Institute for Nuclear Research (DLNP JINR) have been initiated by P
Publikováno v:
Biomedical Engineering. 50:266-269
This article considers an automated range shifter of variable thickness intended to adjust the proton beam energy in the 3D conformal proton radiotherapy of oncological diseases of the head and the neck. The range shifter was developed at the medico-
Publikováno v:
Physics of Particles and Nuclei Letters. 12:190-194
To ensure the conformal depth-dose distribution of a proton beam within a target volume, complex shaped range shifters (so-called boluses), which account for the heterogeneous structure of patient tissue and organs in the beam path, were calculated a
Publikováno v:
Biomedical Engineering. 47:253-256
A medico-technical system for hadron radiotherapy of cancer patients based on a 660-MeV proton phasotron was constructed. It is now used at the Joint Institute for Nuclear Research (Dubna, Russia). Upgrade of methods, hardware, and software for radio
Publikováno v:
Physics of Particles and Nuclei Letters. 10:85-89
Publikováno v:
Physics of Particles and Nuclei Letters. 9:571-577
A therapeutic proton beam for an actual irradiation procedure is shaped using customized collimator leaves made out of Cerrobend, while to make the proton-beam depth-dose distribution conformal to the target volume, so-called boluses (compensators) w
Autor:
V. G. Elkin, A. G. Molokanov, Z.Ya. Sadygov, G. V. Mitsyn, O. P. Tolbanov, N. Anfimov, A. G. Olshevsky, A. V. Tyazhev, N. N. Khovansky, Galina Karamysheva, G. A. Chelkov, V. M. Romanov, E. V. Samsonov, Yves Jongen, Sergey Kostromin, V. N. Gaevsky, V. A. Novikov, Nikolay Morozov, V. G. Kruchonok, M.Yu. Kazarinov, A Zhemchugov, K. N. Shipulin, A. Selyunin, A. V. Agapov, N. G. Shakun, S. V. Shvidky, Grigori Shirkov, Evgeny Syresin, E. I. Luchin, Z. Krumshtein
Publikováno v:
Physics of Particles and Nuclei Letters. 8:379-385
The Dzhelepov Laboratory of Nuclear Problems’ activity is aimed at developing three directions in radiation medicine: 3D conformal proton therapy, accelerator techniques for proton and carbon treatment of tumors, and new types of detector systems f
Publikováno v:
AIP Conference Proceedings.
The use of fundamental Nuclear Physics in Nuclear Medicine has a significant impact in the fight against cancer. Hadrontherapy is an innovative cancer radiotherapy method using nuclear particles (protons, neutrons and ions) for the treatment of early
Autor:
M A, Tseĭtlina, E V, Kizhaev, E I, Luchin, A V, Agapov, V N, Gaevskiĭ, I A, Gulidov, G V, Mitsyn, A V, Molokanov, D K, Sobolev, S V, Shvidkiĭ, K N, Shipulin
Publikováno v:
Zhurnal voprosy neirokhirurgii imeni N. N. Burdenko. 77(4)
The proton beam radiosurgery was performed to 65 patients with brain AVM since December, 2001 till February, 2012, in Joint Institute for Nuclear Research, Dubna, Russia. We have analyzed data for 56 patients. The follow up time varied from 24 to 109