In the field of radiobiology, damage to nuclear DNA is extensively studied since it is considered as a sensitive target inside cells. Mitochondria are starting to get some attention as sensitive targets as well since they control many functions important to the cell’s survival. They are double membraned organelles mainly in charge of energy production as well as reactive oxygen species regulation, cell signaling and apoptosis control. Some experiments have shown that after exposure to ionizing radiation the mitochondrial contents are altered and their functions are affected. That is why we are interested in studying the effects of ionizing radiation on mitochondria. At the microscopic scale, Monte Carlo simulations are helpful in reproducin...
DNA/RNA sequencing methods have undergone swift technological progress and are now major analysis to...
Gold nanoparticles (GNPs) have shown potential as dose enhancers for radiation therapy. Since damage...
Une approche thérapeutique innovante utilisant l'adjonction d'éléments de numéro atomique élevé à un...
In the field of radiobiology, damage to nuclear DNA is extensively studied since it is considered as...
Dans le domaine de la radiobiologie, les dommages causés à l'ADN nucléaire sont largement étudiés pu...
An innovative approach using X-ray interactions with heavy elements seems to open a promising way of...
Radiation therapies are used to treat most of the cancer cases. One major limitation is the damage i...
This paper presents a Monte-Carlo study focusing on the effects of gold nanoparticles on the energy ...
Ionizing radiations are known to induce critical damages on biological matter and especially on DNA....
This PhD thesis was done in the " interaction ion-matière " group of " laboratoire collision agrégat...
The interaction of charged particles with matter leads to a very localized energy deposits in sub-mi...
Few years ago, the paradigm of radiation biology was that the biological effects of ionizing radiati...
This thesis work is part of a fundamental research aimed at improving the understanding of the mecha...
DNA/RNA sequencing methods have undergone swift technological progress and are now major analysis to...
Gold nanoparticles (GNPs) have shown potential as dose enhancers for radiation therapy. Since damage...
Une approche thérapeutique innovante utilisant l'adjonction d'éléments de numéro atomique élevé à un...
In the field of radiobiology, damage to nuclear DNA is extensively studied since it is considered as...
Dans le domaine de la radiobiologie, les dommages causés à l'ADN nucléaire sont largement étudiés pu...
An innovative approach using X-ray interactions with heavy elements seems to open a promising way of...
Radiation therapies are used to treat most of the cancer cases. One major limitation is the damage i...
This paper presents a Monte-Carlo study focusing on the effects of gold nanoparticles on the energy ...
Ionizing radiations are known to induce critical damages on biological matter and especially on DNA....
This PhD thesis was done in the " interaction ion-matière " group of " laboratoire collision agrégat...
The interaction of charged particles with matter leads to a very localized energy deposits in sub-mi...
Few years ago, the paradigm of radiation biology was that the biological effects of ionizing radiati...
This thesis work is part of a fundamental research aimed at improving the understanding of the mecha...
DNA/RNA sequencing methods have undergone swift technological progress and are now major analysis to...
Gold nanoparticles (GNPs) have shown potential as dose enhancers for radiation therapy. Since damage...
Une approche thérapeutique innovante utilisant l'adjonction d'éléments de numéro atomique élevé à un...