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162 results on '"Benlloch, J M"'

156. Expectation maximization (EM) algorithms using polar symmetries for computed tomography (CT) image reconstruction.

Author

Rodríguez-Alvarez, M. J., Soriano, A., Iborra, A., Sánchez, F., González, A. J., Conde, P., Hernández, L., Moliner, L., Orero, A., Vidal, L. F., and Benlloch, J. M.

Subjects
*TOMOGRAPHY, *GEOMETRY, *IMAGE reconstruction, *ALGORITHMS, *IMAGE processing
Abstract

We suggest a symmetric-polar pixellation scheme which makes possible a reduction of the computational cost for expectation maximization (EM) iterative algorithms. The proposed symmetric-polar pixellation allows us to deal with 3D images as a whole problem without dividing the 3D problem into 2D slices approach. Performance evaluation of each approach in terms of stability and image quality is presented. Exhaustive comparisons between all approaches were conducted in a 2D based image reconstruction model. From these 2D approaches, that showing the best performances were finally implemented and evaluated in a 3D based image reconstruction model. Comparison to 3D images reconstructed with FBP is also presented. Although the algorithm is presented in the context of computed tomography (CT) image reconstruction, it can be applied to any other tomographic technique as well, due to the fact that the only requirement is a scanning geometry involving measurements of an object under different projection angles. Real data have been acquired with a small animal (CT) scanner to verify the proposed mathematical description of the CT system. [ABSTRACT FROM AUTHOR]

Published
2013
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157. The MINDView brain PET detector, feasibility study based on SiPM arrays

Author

Carl Jackson, L. F. Vidal, Filomeno Sanchez, Marco Bettiol, Kevin O'Neill, Antonio González, Dimitris Visvikis, Andrea Fabbri, Stan Majewski, Liczandro Hernandez, Albert Aguilar, John W. Murphy, Julien Bert, Sebastian Aussenhofer, Roberto Pani, Pablo Conde, Jose M. Benlloch, Gonzalez, A. J., Majewski, S., Sanchez, F., Aussenhofer, S., Aguilar, A., Conde, P., Hernandez, L., Vidal, L. F., Pani, R., Bettiol, M., Fabbri, A., Bert, J., Visvikis, D., Jackson, C., Murphy, J., O'Neill, K., and Benlloch, J. M.

Subjects
Nuclear and High Energy Physics, Scanner, Aperture, brain PET, gamma ray detectors, positron emission tomography, radio frequency MRI coils, SiPM array, nuclear and high energy physics, instrumentation, Scintillator, 01 natural sciences, Lyso, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Nuclear magnetic resonance, Silicon photomultiplier, Optics, 0103 physical sciences, Instrumentation, Physics, Pixel, 010308 nuclear & particles physics, business.industry, Detector, Brain PET, Electromagnetic coil, Radio Frequency MRI coil, business, Gamma ray detector, Positron Emission Tomography
Abstract

The Multimodal Imaging of Neurological Disorders (MINDView) project aims to develop a dedicated brain Positron Emission Tomography (PET) scanner with sufficient resolution and sensitivity to visualize neurotransmitter pathways and their disruptions in mental disorders for diagnosis and follow-up treatment. The PET system should be compact and fully compatible with a Magnetic Resonance Imaging (MRI) device in order to allow its operation as a PET brain insert in a hybrid imaging setup with most MRI scanners. The proposed design will enable the currently-installed MRI base to be easily upgraded to PET/MRI systems. The current design for the PET insert consists of a 3-ring configuration with 20 modules per ring and an axial field of view of ~15 cm and a geometrical aperture of ~33 cm in diameter. When coupled to the new head Radio Frequency (RF) coil, the inner usable diameter of the complete PET-RF coil insert is reduced to 26 cm. Two scintillator configurations have been tested, namely a 3-layer staggered array of LYSO with 1.5 mm pixel size, with 35×35 elements (6 mm thickness each) and a black-painted monolithic LYSO block also covering about 50×50 mm 2 active area with 20 mm thickness. Laboratory test results associated with the current MINDView PET module concept are presented in terms of key parameters׳ optimization, such as spatial and energy resolution, sensitivity and Depth of Interaction (DOI) capability. It was possible to resolve all pixel elements from the three scintillator layers with energy resolutions as good as 10%. The monolithic scintillator showed average detector resolutions varying from 3.5 mm in the entrance layer to better than 1.5 mm near the photosensor, with average energy resolutions of about 17%.

Published
2016

158. A proof-of-concept of cross-luminescent metascintillators: testing results on a BGO:BaF 2 metapixel.

Author

Konstantinou G, Latella R, Moliner L, Zhang L, Benlloch JM, Gonzalez AJ, and Lecoq P

Subjects
Positron-Emission Tomography methods, Ultraviolet Rays, Algorithms, Scintillation Counting methods, Luminescence, Photons
Abstract

Objective : Time-of-flight positron emission tomography (PET) is the next frontier in improving the effective sensitivity. To achieve superior timing for time-of-flight PET, combined with high detection efficiency and cost-effectiveness, we have studied the applicability of BaF2 in metascintillators driven by the timing of cross-luminescence photon production. Approach : Based on previous simulation studies of energy sharing and analytic multi-exponential scintillation pulse, as well as sensitivity characteristics, we have experimentally tested a pixel of 3 × 3 × 15 mm3 based on 300 μ m BGO and 300 μ m BaF2 layers. To harness the deep ultraviolet cross-luminescent light component, which carries improved timing, we use the FBK VUV SiPM. Metascintillator energy sharing is addressed through a double integration approach. Main results : We reach an energy resolution of 22%, comparable to an 18% resolution of simple BGO pixels using the same readout, through the optimized use of the integrals of the metascintillator pulse in energy sharing calculation. We measure the energy sharing extent of each pulse with a resolution of 25% and demonstrate that experimental and simulation results agree well. Based on the energy sharing, a timewalk correction is applied, exhibiting significant improvements for both the coincidence time resolution (CTR) and the shape of the timing histogram. We reach 242 ps CTR for the entire photopeak, while for a subset of 13% of the most shared events, the CTR value improves to 108 ps, comparable to the 3 × 3 × 5 mm3 LYSO:Ce:Ca reference crystal. Significance : While we are considering different ways to improve further these results, this proof-of-concept demonstrates the applicability of cross-luminescence for metascintillator designs through the application of VUV compatible SiPM coupling, and easily implementable digital algorithms. This is the first test of BaF 2 -based metascintillators of sufficient stoppng power to be included in a PET scanner, demonstrating the industrial applicability of such cross-luminescent metascintillators., (Creative Commons Attribution license.)

Published
2023
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159. Beamforming for large-area scan and improved SNR in array-based photoacoustic microscopy.

Author

Cebrecos A, García-Garrigós JJ, Descals A, Jiménez N, Benlloch JM, and Camarena F

Abstract

Beamforming enhances the performance of array-based photoacoustic microscopy (PAM) systems for large-area scan. In this study, we quantify the imaging performance of a large field-of-view optical-resolution photoacoustic-microscopy system using an phased-array detector. The system combines a low-cost pulsed-laser diode with a 128-element linear ultrasound probe. Signal-to-noise ratio (SNR) and generalized contrast-to-noise ratio (gCNR) are quantified using the phased-array detector and applying three beamforming strategies: a no-beamforming method equivalent to a single-element flat transducer, a fixed focus beamforming method that mimics a single-element focused transducer, and a dynamic focus beamforming using a delay-and-sum (DAS) algorithm. The imaging capabilities of the system are demonstrated generating high-resolution images of tissue-mimicking phantoms containing sub-millimetre ink tubes and an ex vivo rabbit's ear. The results show that dynamic focus DAS beamforming increases and homogenizes SNR along 1-cm 2 images, reaching values up to 15 dB compared to an unfocused detector and up to 30 dB compared to out-of-focus regions of the fixed focus configuration. Moreover, the obtained values of gCNR using the DAS beamformer indicate an excellent target visibility, both on phantoms and ex vivo. This strategy makes it possible to scan larger surfaces compared to standard configurations using single-element detectors, paving the way for advanced array-based PAM systems., (Copyright © 2020. Published by Elsevier B.V.)

Published
2021
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160. PADC nuclear track detector for ion spectroscopy in laser-plasma acceleration.

Author

Seimetz M, Peñas J, Llerena JJ, Benlliure J, García López J, Millán-Callado MA, and Benlloch JM

Subjects
Acceleration, Ions, Lasers, Spectrum Analysis, Polymers, Radiometry
Abstract

The transparent polymer polyallyl-diglycol-carbonate (PADC), also known as CR-39, is widely used as detector for heavy charged particles at low fluence. It allows for detection of single protons and ions via formation of microscopic tracks after etching in NaOH or KOH solutions. PADC combines a high sensitivity and high specificity with inertness towards electromagnetic noise. Present fields of application include laser-ion acceleration, inertial confinement fusion, radiobiological studies with cell cultures, and dosimetry of nuclear fragments in particle therapy. These require precise knowledge of the energy-dependent response of PADC to different ion species. We present calibration data for a new type of detector material, Radosys RS39, to protons (0.2-3 MeV) and carbon ions (0.6-12 MeV). RS39 is less sensitive to protons than other types of PADC. Its response to carbon ions, however, is similar to other materials. Our data indicate that RS39 allows for measuring carbon ion energies up to 10 MeV only from the track diameters. In addition, it can be used for discrimination between protons and carbon ions in a single etching process., (Copyright © 2020 Associazione Italiana di Fisica Medica. Published by Elsevier Ltd. All rights reserved.)

Published
2020
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161. Simulation Study for Designing a Dedicated Cardiac TOF-PET System.

Author

Oliver S, Moliner L, Ilisie V, Benlloch JM, and Rodríguez-Álvarez MJ

Subjects
Algorithms, Artifacts, Computer Simulation, Humans, Image Processing, Computer-Assisted methods, Monte Carlo Method, Phantoms, Imaging, Heart physiology, Positron-Emission Tomography methods
Abstract

The development of dedicated positron emission tomography scanners is an active area of research, especially aiming at the improvement of lesion detection and in support of cancer treatment and management. Recently, dedicated Positron Emission Tomography (PET) systems with different configurations for specific organs have been developed for improving detection effectiveness. Open geometries are always subject to distortion and artifacts in the reconstructed images. Therefore, the aim of this work is to determine the optimal geometry for a novel cardiac PET system that will be developed by our team, and determine the time resolution needed to achieve reasonable image quality for the chosen geometry. The proposed geometries consist of 36 modules. These modules are arranged in two sets of two plates, each one with different configurations. We performed Monte Carlo simulations with different TOF resolutions, in order to test the image quality improvement in each case. Our results show, as expected, that increasing TOF resolution reduces distortion and artifact effects. We can conclude that a TOF resolution of the order of 200 ps is needed to reduce the artifacts, to acceptable levels, generated in the simulated cardiac-PET open geometries.

Published
2020
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162. Development of a variable-radius pinhole SPECT system with a portable gamma camera.

Author

Pino F, Roé N, Orero A, Falcón C, Rojas S, Benlloch JM, Ros D, and Pavía J

Subjects
Animals, Brain diagnostic imaging, Calibration, Equipment Design, Image Processing, Computer-Assisted, Lung diagnostic imaging, Mice, Phantoms, Imaging, Radiopharmaceuticals, Technetium Tc 99m Aggregated Albumin, Technetium Tc 99m Exametazime, Tomography, Emission-Computed, Single-Photon veterinary, Gamma Cameras, Tomography, Emission-Computed, Single-Photon instrumentation
Abstract

Objective: To develop a small-animal SPECT system using a low cost commercial portable gamma camera equipped with a pinhole collimator, a continuous scintillation crystal and a position-sensitive photomultiplier tube., Material and Methods: The gamma camera was attached to a variable radius system, which enabled us to optimize sensitivity and resolution by adjusting the radius of rotation to the size of the object. To investigate the capability of the SPECT system for small animal imaging, the dependence of resolution and calibration parameters on radius was assessed and acquisitions of small phantoms and mice were carried out., Results: Resolution values, ranging from 1.0mm for a radius of 21.4mm and 1.4mm for a radius of 37.2mm were obtained, thereby justifying the interest of a variable radius SPECT system., Conclusions: The image quality of phantoms and animals were satisfactory, thus confirming the usefulness of the system for small animal SPECT imaging., (Copyright © 2011 Elsevier España, S.L. and SEMNIM. All rights reserved.)

Published
2011
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