[HTML][HTML] Quantitative molecular positron emission tomography imaging using advanced deep learning techniques
The widespread availability of high-performance computing and the popularity of artificial
intelligence (AI) with machine learning and deep learning (ML/DL) algorithms at the helm …
intelligence (AI) with machine learning and deep learning (ML/DL) algorithms at the helm …
Microfluidic radiobioassays: a radiometric detection tool for understanding cellular physiology and pharmacokinetics
Z Liu, X Lan - Lab on a Chip, 2019 - pubs.rsc.org
The investigation of molecular uptake and its kinetics in cells is valuable for understanding
the cellular physiological status, the observation of drug interventions, and the development …
the cellular physiological status, the observation of drug interventions, and the development …
[HTML][HTML] Surgical radioguidance with beta-emitting radionuclides; challenges and possibilities: a position paper by the EANM
Radioguidance that makes use of β-emitting radionuclides is gaining in popularity and could
have potential to strengthen the range of existing radioguidance techniques. While there is a …
have potential to strengthen the range of existing radioguidance techniques. While there is a …
A mini-panel PET scanner-based microfluidic radiobioassay system allowing high-throughput imaging of real-time cellular pharmacokinetics
On-chip radiometric detection of biological samples using radiotracers has become an
emerging research field known as microfluidic radiobioassays. Performing parallel …
emerging research field known as microfluidic radiobioassays. Performing parallel …
Overview of current applications of the Timepix detector in spectroscopy, radiation and medical physics
With the current developments in medical physics and radiotherapy, there is a renewed
interest in novel microdosimetry detectors. The Timepix detector, developed at CERN as an …
interest in novel microdosimetry detectors. The Timepix detector, developed at CERN as an …
Performance evaluation of 18F radioluminescence microscopy using computational simulation
Purpose Radioluminescence microscopy can visualize the distribution of beta‐emitting
radiotracers in live single cells with high resolution. Here, we perform a computational …
radiotracers in live single cells with high resolution. Here, we perform a computational …
[HTML][HTML] Proof of concept of a multimodal intravital molecular imaging system for tumour transpathology investigation
Z Liu, T Cheng, S Düwel, Z Jian, GJ Topping… - European journal of …, 2021 - Springer
Background Transpathology highlights the interpretation of the underlying physiology
behind molecular imaging. However, it remains challenging due to the discrepancies …
behind molecular imaging. However, it remains challenging due to the discrepancies …
In silico optimization of radioluminescence microscopy
Radioluminescence microscopy (RLM) is a high‐resolution method for imaging radionuclide
uptake in live cells within a fluorescence microscopy environment. Although RLM currently …
uptake in live cells within a fluorescence microscopy environment. Although RLM currently …
18F autoradiography With the Mimosa-28: Characterization and Application
TN Pham, P Marchand, C Finck… - … on Radiation and …, 2020 - ieeexplore.ieee.org
Autoradiography (AR) is a technique used to record the spatial distribution of a radiotracer
into an ex-vivo tissue slice. Within the section, the radioactive molecules emit charged …
into an ex-vivo tissue slice. Within the section, the radioactive molecules emit charged …
High-resolution radioluminescence microscopy image reconstruction via ionization track analysis
Radioluminescence microscopy (RLM) is a newly developed paradigm for visualizing
radiotracer uptake in live cells. High-resolution images are obtained by capturing the …
radiotracer uptake in live cells. High-resolution images are obtained by capturing the …