Radiation and Environmental Biophysics 
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This is an RSS file. You can use it to subscribe to this data in your favourite RSS reader or to display this data on your own website or blog.Mapping in a radon-prone area in Adamawa region, Cameroon, by measurement of radon activity concentration in soil
Radiat Environ Biophys. 2023 Aug 3. doi: 10.1007/s00411-023-01042-3. Online ahead of print.ABSTRACTThe radon-prone area of the Adamawa region in Cameroon is characterized by high natural radiation background resulting from the high concentrations of radium-226, thorium-232, and indoor radon. To produce a radon-risk map, radon measurements in soil were carried out in the city of Ngaoundere. The radon activity concentration in soil gas ranged from 256 to 166 kBq m-3 with a mean of 80 kBq m-3 and a standard deviation of 38 kBq m-3. The area is mostly classified as high risk (80%) according to the Swedish classification, and 2...
Source: Radiation and Environmental Biophysics - August 3, 2023 Category: Physics Authors: Soumayah Bachirou None Sa ïdou Chutima Kranrod Joseph Emmanuel Ndjana Nkoulou Ii Daniel Bongue Hamadou Yerima Abba Masahiro Hosoda Moise Godfroy Kwato Njock Shinji Tokonami Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
Superparamagnetic iron oxide nanoparticles induce persistent large foci of DNA damage in human melanoma cells post-irradiation
In conclusion, these nanoparticles show the potential to radiosensitize melanoma cells by the induction of unrepairable DNA damage.PMID:37452828 | DOI:10.1007/s00411-023-01037-0 (Source: Radiation and Environmental Biophysics)
Source: Radiation and Environmental Biophysics - July 15, 2023 Category: Physics Authors: Cecilia Grissi Marisa Taverna Porro Marina Perona Mariel Atia Lara Negrin M Sergio Moreno Joaqu ín Sacanell Mar ía Silvina Olivera Mariela Del Grosso Hebe Dur án Irene L Iba ñez Source Type: research
