Maarten Callens scite author profile

Purpose: The aim of this work was to model the dose dependence of the darkening of GafChromic TM EBT3 films by combining the optical properties of the polydiacetylene polymer phases, and a modified version of the single-hit model, which will take the stick-like shape of the monomer microcrystals into account. Second, a comparison is made between the quantification of the film darkening by flatbed scanning and by UV-vis absorption spectroscopy. Method: GafChromic TM EBT3 films were irradiated with a 6 MV photon beam at dose levels between 0 and 50 Gy. The radiation-induced darkening of the films is quantified by a flatbed scanner, and by UV-vis absorption spectroscopy in the wavelength range of 220-750 nm. From the UV-vis absorption spectra, the contribution of each polymer phase to the absorbance was deduced. Next, the dose dependence of the polymer content is described by a modified single-hit model where the size distribution of polymerizable centers is approximated by way of the size distribution of the monomer microcrystals in the film. Results: The absorption properties of the film can be accurately quantified by UV-vis spectroscopy for dose levels between 0 and 10 Gy. Over 10 Gy, the absorption spectrum saturates due to the limited sensitivity of the spectrometer. The modified single-hit model was successful in describing the increasing polymer concentration with radiation dose, using a log-normal distribution for the length of the stick-like monomer microcrystals. The dose dependence of the polymer content, deduced from the UV-vis absorption spectrum, differs from that of the flatbed scanning method and is more sensitive to changes in dose. Conclusion: The dose dependence of the polymer concentration can be modeled by taking into account the distribution of active centers using the microstructure of the active layer for dose levels between 0 and 10 Gy. The dissimilar dose dependence of the polymer concentration and the absorbance must be accounted for when modeling darkening from the kinetics of the photopolymerization reaction.

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The role of Bcl-2 proteins in modulating neuronal Ca2+ signaling in health and in Alzheimer's disease

Callens

Kraskovskaya

Деревцова

et al. 2021

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Ultrasound based dosimetry for radiotherapy: In-vitro proof of principle

Verboven

D’Agostino

Callens

et al. 2014

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Advances in radiotherapeutic treatments and the ability to detect accidents due to equipment mishandling or malfunctioning require the development of on-line in-vivo dosimetry systems. Here, we propose to use ultrasound contrast agents (UCAs) as a possible candidate for such a system, based on the hypothesis that irradiation of UCAs will modify their viscoelastic and/or their geometric properties and consequently their ultrasonic response. The aim of this study is to provide a proof of principle in-vitro. Solutions of saline with several commercially available lipid-shelled UCAs were investigated and the agents were characterized using a through transmission set-up, before and after irradiation. Although the agents were not yet optimized for radiation sensitivity, Targestar-P showed a noticeable dose dependency of the magnitude of the jump in phase velocity and amplitude of the attenuation at resonance. These results confirm the hypothesis that the ultrasonic readout of UCAs can be correlated with the ionizing radiation dose delivered to the agents. This supports the concept of using ultrasound and UCAs as a potential tool for in-vivo dosimetry.

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Dysregulated Ca2+ Homeostasis as a Central Theme in Neurodegeneration: Lessons from Alzheimer’s Disease and Wolfram Syndrome

Callens

Loncke

Bultynck

2022

Cells

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Calcium ions (Ca2+) operate as important messengers in the cell, indispensable for signaling the underlying numerous cellular processes in all of the cell types in the human body. In neurons, Ca2+ signaling is crucial for regulating synaptic transmission and for the processes of learning and memory formation. Hence, the dysregulation of intracellular Ca2+ homeostasis results in a broad range of disorders, including cancer and neurodegeneration. A major source for intracellular Ca2+ is the endoplasmic reticulum (ER), which has close contacts with other organelles, including mitochondria. In this review, we focus on the emerging role of Ca2+ signaling at the ER–mitochondrial interface in two different neurodegenerative diseases, namely Alzheimer’s disease and Wolfram syndrome. Both of these diseases share some common hallmarks in the early stages, including alterations in the ER and mitochondrial Ca2+ handling, mitochondrial dysfunction and increased Reactive oxygen species (ROS) production. This indicates that similar mechanisms may underly these two disease pathologies and suggests that both research topics might benefit from complementary research.

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Maarten Callens

A spectroscopic study of the chromatic properties of GafChromic™EBT3 films

Modeling the dose dependence of the vis-absorption spectrum of EBT3 GafChromic™ films

The role of Bcl-2 proteins in modulating neuronal Ca2+ signaling in health and in Alzheimer's disease

Ultrasound based dosimetry for radiotherapy: In-vitro proof of principle

Dysregulated Ca2+ Homeostasis as a Central Theme in Neurodegeneration: Lessons from Alzheimer’s Disease and Wolfram Syndrome

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