Anne Talsma scite author profile

PurposeThe objective of this study was to explore the feasibility of harmonising performance for PET/CT systems equipped with time-of-flight (ToF) and resolution modelling/point spread function (PSF) technologies. A second aim was producing a working prototype of new harmonising criteria with higher contrast recoveries than current EARL standards using various SUV metrics.MethodsFour PET/CT systems with both ToF and PSF capabilities from three major vendors were used to acquire and reconstruct images of the NEMA NU2–2007 body phantom filled conforming EANM EARL guidelines. A total of 15 reconstruction parameter sets of varying pixel size, post filtering and reconstruction type, with three different acquisition durations were used to compare the quantitative performance of the systems. A target range for recovery curves was established such that it would accommodate the highest matching recoveries from all investigated systems. These updated criteria were validated on 18 additional scanners from 16 sites in order to demonstrate the scanners’ ability to meet the new target range.ResultsEach of the four systems was found to be capable of producing harmonising reconstructions with similar recovery curves. The five reconstruction parameter sets producing harmonising results significantly increased SUVmean (25%) and SUVmax (26%) contrast recoveries compared with current EARL specifications. Additional prospective validation performed on 18 scanners from 16 EARL accredited sites demonstrated the feasibility of updated harmonising specifications. SUVpeak was found to significantly reduce the variability in quantitative results while producing lower recoveries in smaller (≤17 mm diameter) sphere sizes.ConclusionsHarmonising PET/CT systems with ToF and PSF technologies from different vendors was found to be feasible. The harmonisation of such systems would require an update to the current multicentre accreditation program EARL in order to accommodate higher recoveries. SUVpeak should be further investigated as a noise resistant alternative quantitative metric to SUVmax.Electronic supplementary materialThe online version of this article (10.1007/s00259-018-3977-4) contains supplementary material, which is available to authorized users.

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Corrections for inhomogeneities in biological tissue caused by blood vessels

Talsma

Chance

Graaff

2001

J. Opt. Soc. Am. A

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In tissue optics, the assumption that blood is homogeneously distributed in tissue can give rise to miscalculations because blood is found only in blood vessels. In our paper randomly oriented blood vessels are treated as particles for which we obtained apparent absorption and scattering coefficients by means of the Monte Carlo method. Apart from this correction for the contribution of blood properties in tissue, a correction for the contribution of the surrounding tissue proved to be needed as well. The results found with our model were compared with available results from the literature.

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A Virtual Environment For Surgical Image Guidance in Intraoperative MRI

Samset

Talsma

Kintel

et al. 2002

Computer Aided Surgery

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Intraoperative MRI has recently entered the operating room as a new imaging modality. Customized visualization systems might further facilitate the use of this imaging technology. A visualization system for use in the interventional MRI has been developed, providing a virtual environment for surgical navigation using real-time images and for controlling the scanner. The visualization system has customized features for certain clinical applications. A training and testing facility has also been established. The introduction of the visualization system in the interventional MRI overcame several ambiguities and inconsistencies that were previously present, and resulted in a more transparent man-machine interface approach. A pilot study using the software to place cryoprobes in an animal liver showed promising results. Augmentation of real-time MR images with 3D rendering and customized navigation features opens new possibilities in intraoperative MRI. The described system can also be extended to other intraoperative imaging modalities.

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A virtual environment for surgical image guidance in intraoperative MRI

Samset

Talsma

Kintel

et al. 2002

Comput. Aided Surg.

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A Three Wavelength Study on Arterial Occlusion in Skin Tissue

Graaff

Talsma

Folkerts³

et al. 1999

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Anne Talsma

Feasibility of state of the art PET/CT systems performance harmonisation

Corrections for inhomogeneities in biological tissue caused by blood vessels

A Virtual Environment For Surgical Image Guidance in Intraoperative MRI

A virtual environment for surgical image guidance in intraoperative MRI

A Three Wavelength Study on Arterial Occlusion in Skin Tissue

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