Spectral CT data acquisition with Medipix3.1
- NázevTitle
- Spectral CT data acquisition with Medipix3.1Spectral CT data acquisition with Medipix3.1
- Druh výsledkuResult type
- Článek v časopiseJournal article
- AutořiAuthors
- M. F. Walsh, S. J. Nik, S. Procz, M. Pichotka, S. T. Bell, C. J. Bateman, R. M. N. Doesburg, N. De Ruiter, A. I. Chernoglazov, R. K. Panta, A. P. H. Butler, P. H. Butler
- DOIDOI
- 10.1088/1748-0221/8/10/P10012
- Časopis / citaceJournal / citation
- Journal of Instrumentation. 2013, 8(10), ISSN 1748-0221.
- RokYear
- 2013
- JazykLanguage
- eng
- WoSWoS
- 000326930900036
- ScopusScopus
- 2-s2.0-84887117979
- RIVRIV
AbstraktAbstract
This paper describes the acquisition of spectral CT images using the Medipix3.1 in spectroscopic mode, in which the chip combines 2×2 pixel clusters to increase the number of energy thresholds and counters from 2 to 8. During preliminary measurements, it was observed that the temperature, DAC and equalisation stability of the Medipix3.1 outperformed the Medipix3.0, while maintaining similar imaging quality. In this paper, the Medipix3.1 chips were assembled in a quad (2×2) layout, with the four ASICs bump-bonded to a silicon semiconductor doped as an np-junction diode. To demonstrate the biological imaging quality that is possible with the Medipix3.1, an image of a mouse injected with gold nano-particle contrast agent was obtained. CT acquisition in spectroscopic mode was enabled and examined by imaging a customised phantom containing multiple contrast agents and biological materials. These acquisitions showed a limitation of imaging performance depending on the counter used. Despite this, identification of multiple materials in the phantom was demonstrated using an in-house material decomposition algorithm. Furthermore, gold nano-particles were separated from biological tissues and bones within the mouse by means of image rendering.
This paper describes the acquisition of spectral CT images using the Medipix3.1 in spectroscopic mode, in which the chip combines 2×2 pixel clusters to increase the number of energy thresholds and counters from 2 to 8. During preliminary measurements, it was observed that the temperature, DAC and equalisation stability of the Medipix3.1 outperformed the Medipix3.0, while maintaining similar imaging quality. In this paper, the Medipix3.1 chips were assembled in a quad (2×2) layout, with the four ASICs bump-bonded to a silicon semiconductor doped as an np-junction diode. To demonstrate the biological imaging quality that is possible with the Medipix3.1, an image of a mouse injected with gold nano-particle contrast agent was obtained. CT acquisition in spectroscopic mode was enabled and examined by imaging a customised phantom containing multiple contrast agents and biological materials. These acquisitions showed a limitation of imaging performance depending on the counter used. Despite this, identification of multiple materials in the phantom was demonstrated using an in-house material decomposition algorithm. Furthermore, gold nano-particles were separated from biological tissues and bones within the mouse by means of image rendering.