Damien J. Moulin scite author profile

Damien J. Moulin

2Publications

87Citation Statements Received

85Citation Statements Given

How they've been cited

137

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Affiliations

Normandie Université, Massachusetts Institute of Technology, Université de Caen Normandie

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M2 macrophages are more resistant than M1 macrophages following radiation therapy in the context of glioblastoma

et al. 2017

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In some highly inflammatory tumors, such as glioblastoma (GB), macrophages (MΦ) represent the most abundant population of reactive cells. MΦ, initially denoted as M0 MΦ, can be polarized into two further phenotypes: the antitumor M1 MΦ, and the protumor M2 MΦ. The three phenotypes can reside simultaneously in the tumor mass and various external factors may influence MΦ polarization. Radiotherapy is a common modality of cancer treatment aiming to target tumor cells. However, the specific effects of X-ray radiation on the inflammatory cells are, so far, controversial and not fully understood. In the present investigation, we have first analyzed, in vivo, the effect of X-ray radiation on MΦ present in GB tumors. We have observed a decrease in MΦ number paralleled by an increase in the proportion of M2 MΦ. To understand this phenomenon, we then evaluated, in vitro, the effects of X-rays on the MΦ phenotypes and survival. We have found that X-ray radiation failed to modify the phenotype of the different MΦ. However, M1 MΦ were more sensitive to ionizing radiation than M2 MΦ, both in normoxia and in hypoxia, which could explain the in vivo observations. To conclude, M2 MΦ are more radioresistant than M0 and M1 MΦ and the present study allows us to propose that X-ray radiotherapy could contribute, along with other phenomena, to the increased density in the protumor M2 MΦ in GB.

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Head phantoms for neutron capture therapy

et al. 1995

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A water-filled head phantom that is designed for use in boron neutron capture therapy is described. The shape of this ellipsoidal phantom, based on the Synder head model, and its composition are designed to simulate the neutron slowing down properties of the human skull and brain. Small ion chambers or activation foils can be placed in many locations within the phantom volume. This permits accurate three-dimensional mapping of all relevant dose components and use of these dose contours for beam development as well as for benchmarking of computer-based patient treatment codes.

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Damien J. Moulin

M2 macrophages are more resistant than M1 macrophages following radiation therapy in the context of glioblastoma

Head phantoms for neutron capture therapy

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