Habib Zaidi
University Medical Center Groningen
640 Papers
2.9K Citations
Habib Zaidi is an academic researcher from University Medical Center Groningen. The author has contributed to research in topics: Imaging phantom & Medicine. The author has an hindex of 62, co-authored 513 publications. Previous affiliations of Habib Zaidi include Johns Hopkins University & University of Southern Denmark.
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Papers
Assessment of uncertainties associated with Monte Carlo-based personalized dosimetry in clinical CT examinations.
TL;DR: A Monte Carlo-based CT simulator for personalized organ level dose calculations, in which the CT source model, patient-specific computational model and personalized scanning protocol were integrated, is developed and validated to produce an accurate MC simulation model with a reduced computational burden.
Strategies for Motion Tracking and Correction in PET
TL;DR: The authors review advanced correction methods for unwanted patient motion and for motion due to cardiac and respiratory cycles by using increasingly sophisticated software to make use of existing advanced hardware.
Automatic Segmentation of Prostate and its Anatomical Sub-regions from MR Images using a Novel ResUnet Model
Qazal Mehrbanpajouh,Alireza Kamali-Asl,Hossein Arabi,Habib Zaidi +3 more
- 05 Nov 2022
TL;DR: This work will present a ResUnet model for accurate regional segmentation of the prostate zones from magnetic resonance (MR) images, with focus on the segmentation of the whole prostate gland, central gland, and peripheral zone from T2-weighted MR images, where PZ+CG=WG.
Is radionuclide transmission scanning obsolete for dual-modality PET/CT systems?
TL;DR: It is the role of medical physicists providing physics support to clinical PET facilities and involved in today's biomedical imaging research enterprise to debate important issues related to design aspects of this technology and optimal data acquisition and processing protocols with the aim of improving image quality and obtaining accurate quantitative measures.
Achieving 10 ps coincidence time resolution in TOF-PET is an impossible dream.
TL;DR: A number of hardware and software developments in PET instrumentation during the last two decades have enabled improved localization of the position of annihilation along the line of response through precise measurement of the difference between the arrival times of the two annihilation photons.