Effect of metal artifact removal modes on the accuracy of linear measurement around titanium implants by applying different voltages: an original article

Goodarzi Pour, Daryoush; Emami Meybodi, Elham; Sodagar, Kosar; Emami Meybodi, Zahra Alsadat; Safari, Sanaz

doi:10.1186/s12880-023-01025-2

BMC Med Imaging

2023

DOI: 10.1186/s12880-023-01025-2

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Effect of metal artifact removal modes on the accuracy of linear measurement around titanium implants by applying different voltages: an original article

Daryoush Goodarzi Pour,

Elham Emami Meybodi,

Kosar Sodagar

et al.

Abstract: Background This study aims to evaluate the effects of the artifact removal algorithm on linear measurements of the buccal cortical plate by altering the voltage. Methods Ten titanium fixtures were inserted at the site of central, lateral, canine, premolars and molars of dry human mandibles. Vertical height of buccal plate was measured using a digital caliper as a gold standard. Mandibles were scanned with 54 and 58 kVp. Other parameters were consta… Show more

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2024

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Assessment of material identification and quantification in the presence of metals using spectral photon counting CT

Tariq,

Sikander,

Francis

et al. 2024

PLoS ONE

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Spectral Photon Counting Computed Tomography (SPCCT), a ground-breaking development in CT technology, has immense potential to address the persistent problem of metal artefacts in CT images. This study aims to evaluate the potential of Mars photon-counting CT technology in reducing metal artefacts. It focuses on identifying and quantifying clinically significant materials in the presence of metal objects. A multi-material phantom was used, containing inserts of varying concentrations of hydroxyapatite (a mineral present in teeth, bones, and calcified plaque), iodine (used as a contrast agent), CT water (to mimic soft tissue), and adipose (as a fat substitute). Three sets of scans were acquired: with aluminium, with stainless steel, and without a metal insert as a reference dataset. Data acquisition was performed using a Mars SPCCT scanner (Microlab 5×120); operated at 118 kVp and 80 μA. The images were subsequently reconstructed into five energy bins: 7-40, 40-50, 50-60, 60-79, and 79-118 keV. Evaluation metrics including signal-to-noise ratio (SNR), linearity of attenuation profiles, root mean square error (RMSE), and area under the curve (AUC) were employed to assess the energy and material-density images with and without metal inserts. Results show decreased metal artefacts and a better signal-to-noise ratio (up to 25%) with increased energy bins as compared to reference data. The attenuation profile also demonstrated high linearity (R2 >0.95) and lower RMSE across all material concentrations, even in the presence of aluminium and steel. Material identification accuracy for iodine and hydroxyapatite (with and without metal inserts) remained consistent, minimally impacting AUC values. For demonstration purposes, the biological sample was also scanned with the stainless steel volar implant and cortical bone screw, and the images were objectively assessed to indicate the potential effectiveness of SPCCT in replicating real-world clinical scenarios.

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Assessment of material identification and quantification in the presence of metals using spectral photon counting CT

Tariq,

Sikander,

Francis

et al. 2024

PLoS ONE

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Effect of metal artifact removal modes on the accuracy of linear measurement around titanium implants by applying different voltages: an original article

Cited by 1 publication

References 29 publications

Assessment of material identification and quantification in the presence of metals using spectral photon counting CT

Assessment of material identification and quantification in the presence of metals using spectral photon counting CT

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