Shadi Khoei scite author profile

In this study, the feasibility of difference imaging for improving the contrast of electronic portal imaging device (EPID) images is investigated. The difference imaging technique consists of the acquisition of two EPID images (with and without the placement of an additional layer of attenuating medium on the surface of the EPID) and the subtraction of one of these images from the other. The resulting difference image shows improved contrast, compared to a standard EPID image, since it is generated by lower-energy photons. Results of this study show that, firstly, this method can produce images exhibiting greater contrast than is seen in standard megavoltage EPID images and secondly, the optimal thickness of attenuating material for producing a maximum contrast enhancement may vary with phantom thickness and composition. Further studies of the possibilities and limitations of the difference imaging technique, and the physics behind it, are therefore recommended.

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Ultrasound attenuation computed tomography assessment of PAGAT gel dose

Khoei

Trapp²,

Langton

2014

Phys. Med. Biol.

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Ultrasound has been previously investigated as an alternative readout method for irradiated polymer gel dosimeters, with authors reporting varying dose responses. We extend previous work utilizing a new computed tomography ultrasound scanner comprising of two identical 5 MHz, 128-element linear-array ultrasound transducers, co-axially aligned and submerged in water as a coupling agent, with rotational of the gel dosimeter between the transducers facilitated by a robotic arm. We have investigated the dose-dependence of both ultrasound bulk attenuation and broadband ultrasound attenuation (BUA) for the PAGAT gel dosimeter. The ultrasound bulk attenuation dose sensitivity was found to be 1.46 ± 0.04 dB m( -1) Gy( -1), being in agreement with previously published results for PAG and MAGIC gels. BUA was also found to be dose dependent and was measured to be 0.024 ± 0.003 dB MHz( -1) Gy( -1); the advantage of BUA being its insensitivity to frequency-independent attenuation mechanisms including reflection and refraction, thereby minimizing image reconstruction artefacts.

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Quantitative evaluation of polymer gel dosimeters by broadband ultrasound attenuation

Khoei

Trapp

Langton

2013

J. Phys.: Conf. Ser.

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Po-0804 3d Quantitative Ultrasound Computed Tomography Imaging of Radiation Dosimetry Gels

Khoei¹,

Langton²,

Trapp³

2012

Radiotherapy and Oncology

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Shadi Khoei

An investigation of the pre-irradiation temporal stability of PAGAT gel dosimeter

Contrast enhancement of EPID images via difference imaging: a feasibility study

Ultrasound attenuation computed tomography assessment of PAGAT gel dose

Quantitative evaluation of polymer gel dosimeters by broadband ultrasound attenuation

Po-0804 3d Quantitative Ultrasound Computed Tomography Imaging of Radiation Dosimetry Gels

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