Tehran University of Medical Sciences

Science Communicator Platform

Stay connected! Follow us on X network (Twitter):
Share this content! On (X network) By
Towards Quantitative Small-Animal Imaging on Hybrid Pet/Ct and Pet/Mri Systems Publisher



Amirrashedi M1, 2 ; Zaidi H3, 4, 5, 6 ; Ay MR1, 2
Authors
Show Affiliations
Authors Affiliations
  1. 1. Department of Medical Physics and Biomedical Engineering, Tehran University of Medical Sciences, Tehran, Iran
  2. 2. Research Center for Molecular and Cellular Imaging, Tehran University of Medical Sciences, Tehran, Iran
  3. 3. Division of Nuclear Medicine and Molecular Imaging, Geneva University Hospital, Geneva, 1211, Switzerland
  4. 4. Geneva University Neurocenter, Geneva University, Geneva, 1205, Switzerland
  5. 5. Department of Nuclear Medicine and Molecular Imaging, University of Groningen, University Medical Center Groningen, Groningen, 9700 RB, Netherlands
  6. 6. Department of Nuclear Medicine, University of Southern Denmark, Odense, 500, Denmark

Source: Clinical and Translational Imaging Published:2020


Abstract

Aim: Over the past two decades, innovations in small-animal positron emission tomography (PET) have reached an impressive level, which has brought countless opportunities to explore the major puzzles in biomedical research. It is a given that pairing information coming from different imaging modalities renders unprecedented knowledge and provides a great insight into various facets of biological systems, such as anatomy, function, physiology, and metabolism in animal models of human diseases, which are difficult to be beaten by standalone PET scanners. The development of bimodal and tri-modal imaging platforms with advanced software solutions dedicated for quantitative studies in small-animals has spurred academic and industrial interest. However, it is undisputed that the potential success of these scanners in filling the translational gap between human and animal findings, hinges to a great extent upon optimization and standardization of relevant parameters and acquisition protocols, which is often overlooked. Methods: This article reviews the trends till 2020 in the field of preclinical PET imaging with emphasize on image reconstruction and quantitative corrections implemented on state-of-the-heart hybrid systems. First, the challenges, limitations, and benefits offered by multi-modality imaging systems are described and then, the most commonly used strategies, as well as novel techniques for image reconstruction and image corrections (attenuation, scattering, normalization, motion, and partial volume effect) are presented. The advantages and disadvantages of different methods are also discussed. We also briefly touch upon the factors that should be considered for reliable kinetic modeling and absolute quantitation in preclinical small animal research. Conclusions: Multi-modality imaging has attracted a lot of research, particularly in the preclinical portfolio. Nevertheless, more research is still needed to optimize the conceptual design, reach the limits of quantitative imaging and implement standardized protocols for small-animal studies. Without any doubt, exploring the potential advantages of combined imaging units providing optimal image quality and reliable tools for quantification of biological parameters through standardized imaging protocols is one of the goals of translational research. © 2020, Italian Association of Nuclear Medicine and Molecular Imaging.
Related Docs
View other Related Docs
1. Advances in Preclinical Pet Instrumentation, PET Clinics (2020)
2. Nema Nu-4 2008 Performance Evaluation of Xtrim-Pet: A Prototype Sipm-Based Preclinical Scanner, Medical Physics (2019)
3. Design and Implementation of Continuous Bed Motion (Cbm) in Xtrim Preclinical Pet Scanner for Whole-Body Imaging: Mc Simulation and Experimental Measurements, Physica Medica (2024)
4. Development and Preliminary Results of Xtrim-Pet, a Modular Cost-Effective Preclinical Scanner, Nuclear Instruments and Methods in Physics Research# Section A: Accelerators# Spectrometers# Detectors and Associated Equipment (2019)
5. Novel Preclinical Pet Geometrical Concept Using a Monolithic Scintillator Crystal Offering Concurrent Enhancement in Spatial Resolution and Detection Sensitivity: A Simulation Study, Physics in Medicine and Biology (2020)
6. Design and Performance Evaluation of High Resolution Small Animal Pet Scanner Based on Monolithic Crystal: A Simulation Study, Journal of Instrumentation (2019)
7. Development of a Preclinical Pet System Based on Pixelated Lyso Crystals and Sipm Arrays, 2017 IEEE Nuclear Science Symposium and Medical Imaging Conference# NSS/MIC 2017 - Conference Proceedings (2018)
8. Leveraging Deep Neural Networks to Improve Numerical and Perceptual Image Quality in Low-Dose Preclinical Pet Imaging, Computerized Medical Imaging and Graphics (2021)
Experts (# of related papers)
View all Related Experts
Mohammad Reza Ay (17)
Saeid Sarkar (8)
Other Related Docs
9. Compton Scatter Tomography in Tof-Pet, Physics in Medicine and Biology (2017)
10. The Impact of Iterative Reconstruction Protocol, Signal-To-Background Ratio and Background Activity on Measurement of Pet Spatial Resolution, Japanese Journal of Radiology (2020)
11. Impact of Image Reconstruction Methods on Quantitative Accuracy and Variability of Fdg-Pet Volumetric and Textural Measures in Solid Tumors, European Radiology (2019)
12. Reconstruction/Segmentation of Attenuation Map in Tof-Pet Based on Mixture Models, Annals of Nuclear Medicine (2018)
13. Utilizing Pix2pix Conditional Generative Adversarial Networks to Recover Missing Data in Preclinical Pet Scanner Sinogram Gaps, Physica Medica (2025)
14. Collimator-Detector Response Compensation in Molecular Spect Reconstruction Using Stir Framework, Iranian Journal of Nuclear Medicine (2017)
15. Quantification and Reduction of Respiratory Induced Artifacts in Positron Emission Tomography/Computed Tomography Using the Time-Of-Flight Technique, Nuclear Medicine Communications (2017)
16. Joint Compensation of Motion and Partial Volume Effects by Iterative Deconvolution Incorporating Wavelet-Based Denoising in Oncologic Pet/Ct Imaging, Physica Medica (2019)
17. Deep-Jasc: Joint Attenuation and Scatter Correction in Whole-Body 18F-Fdg Pet Using a Deep Residual Network, European Journal of Nuclear Medicine and Molecular Imaging (2020)
18. The Effect of Magnetic Field Strength on the Positron Range and Projected Annihilation Artifact in Integrated Pet/Mr Systems: A Gate Monte Carlo Study, Medical Physics (2021)
19. Standard-Dose Pet Reconstruction From Low-Dose Preclinical Images Using an Adopted All Convolutional U-Net, Progress in Biomedical Optics and Imaging - Proceedings of SPIE (2021)