Reducing beam hardening effects and metal artefacts in spectral CT using Medipix3RX

K Rajendran; M F Walsh; N J A de Ruiter; A I Chernoglazov; R K Panta; A P H Butler; P H Butler; S T Bell; N G Anderson; T B F Woodfield; S J Tredinnick; J L Healy; C J Bateman; R Aamir; R M N Doesburg; P F Renaud; S P Gieseg; D J Smithies; J L Mohr; V B H Mandalika; A M T Opie; N J Cook; J P Ronaldson; S J Nik; A Atharifard; M Clyne; P J Bones; C Bartneck; R Grasset; N Schleich; M Billinghurst

doi:10.1088/1748-0221/9/03/P03015

Journal of Instrumentation

The following article is Open access

Reducing beam hardening effects and metal artefacts in spectral CT using Medipix3RX

K Rajendran¹, M F Walsh¹, N J A de Ruiter¹, A I Chernoglazov², R K Panta¹, A P H Butler^1,2,3,4, P H Butler^2,3,4, S T Bell⁴, N G Anderson¹, T B F Woodfield^1,2, S J Tredinnick², J L Healy², C J Bateman¹, R Aamir¹, R M N Doesburg^2,3, P F Renaud², S P Gieseg², D J Smithies⁴, J L Mohr¹, V B H Mandalika², A M T Opie², N J Cook⁵, J P Ronaldson¹, S J Nik², A Atharifard¹, M Clyne⁶, P J Bones², C Bartneck², R Grasset², N Schleich⁷ and M Billinghurst²

Published 26 March 2014 • © CERN 2014
Journal of Instrumentation, Volume 9, March 2014 Citation K Rajendran et al 2014 JINST 9 P03015 DOI 10.1088/1748-0221/9/03/P03015

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¹ University of Otago, 2 Riccarton Ave, Christchurch 8140, New Zealand

² University of Canterbury, Private Bag 4800, Christchurch 8140, New Zealand

³ The European Organization for Nuclear Research (CERN), Geneva, Switzerland

⁴ MARS Bioimaging Ltd, 29a Clyde Rd, Christchurch, New Zealand

⁵ Canterbury District Health Board, Riccarton Avenue, PO Box 4710, Christchurch 8140, New Zealand

⁶ ILR, Christchurch, New Zealand

⁷ University of Otago, 23A Mein Street, Newtown, Wellington 6021, New Zealand

Dates

Received 21 November 2013
Accepted 11 February 2014
Published 26 March 2014

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Abstract

This paper discusses methods for reducing beam hardening effects and metal artefacts using spectral x-ray information in biomaterial samples. A small-animal spectral scanner was operated in the 15 to 80 keV x-ray energy range for this study. We use the photon-processing features of a CdTe-Medipix3RX ASIC in charge summing mode to reduce beam hardening and associated artefacts. We present spectral data collected for metal alloy samples, its analysis using algebraic 3D reconstruction software and volume visualisation using a custom volume rendering software. The cupping effect and streak artefacts are quantified in the spectral datasets. The results show reduction in beam hardening effects and metal artefacts in the narrow high energy range acquired using the spectroscopic detector. A post-reconstruction comparison between CdTe-Medipix3RX and Si-Medipix3.1 is discussed. The raw data and processed data are made available (http://hdl.handle.net/10092/8851) for testing with other software routines.

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Reducing beam hardening effects and metal artefacts in spectral CT using Medipix3RX

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