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A proposed integrated systems approach to the radiation biology of cosmic interest: Biophysics and molecular characterization of tissues irradiated with 14 MeV neutrons

TitoloA proposed integrated systems approach to the radiation biology of cosmic interest: Biophysics and molecular characterization of tissues irradiated with 14 MeV neutrons
Tipo di pubblicazioneArticolo su Rivista peer-reviewed
Anno di Pubblicazione2014
AutoriLicursi, V., Fratini Emiliano, Benassi Barbara, Cestelli-Guidi M., Consales Claudia, Marcelli A., Mirri C., Negri R., and Amendola R.
RivistaRendiconti Lincei
Volume25
IssueS1
Paginaziones23-s27
Data di pubblicazioneJan-03-2014
ISSN20374631
Parole chiaveCell-to-cell communication, Cells, Chemical analysis, Cosmic rays, Cosmology, cytology, Damage detection, Deep-space exploration, histology, Hormones, infrared spectroscopy, Integrated control, Ionizing radiation, Leptin, Low-dose exposures, Molecular characterization, Molecular profiling, Neutron irradiation, Neutrons, Radiation effects, Radiation exposure, radiotherapy, Systemic approach, Tissue, tissue engineering
Abstract

Low-dose exposure of ionizing radiation triggers cell-to-cell communications and tissue interplay alterations. These alterations may play a fundamental role in non-cancer effects, overwhelming the theory of the DNA centric approach. Neither the mechanisms of these effects are fully understood nor is it possible to dissect the real incidence of quality and quantity of incident radiation during in vivo exposure, overall for particulate high-linear energy transfer (LET) radiation. Moreover, the knowledge of particulate high-LET radiation is mandatory for the human deep space exploration and to gain efficiency in the dose/effect ratio for radiotherapy. The aim of this minireview was to describe an integrated system approach to the radiation biology of cosmic interest which could be set up in the framework of a future Sino-Italy cooperation among participating laboratories. We propose, in particular, to deliver X-rays and neutron irradiation at ENEAFNG (Frascati, Italy) and heavy ion irradiation at IMPCAS (Lanzhou, China) to in vivo models. The integrated system approach will focus on the correlation between the quality and quantity of radiation exposure and its in vivo biological effects. Wide range molecular profiling will analyze mainly cell and DNA damages and cell-to-cell and tissues interplay, meanwhile biochemical and chemical specific composition will be detected by infrared spectroscopy. The recently characterized alteration of leptin metabolism is discussed in more detail to present a successful example of systemic approach to cosmic radiation biology. © Accademia Nazionale dei Lincei 2013.

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URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-84899442680&doi=10.1007%2fs12210-013-0272-y&partnerID=40&md5=b41b3d8ec795e7aa600cf72335efe99e
DOI10.1007/s12210-013-0272-y
Titolo breveRend. Fis. Acc. Lincei
Citation KeyLicursi2014