Dual-Energy Computed Tomography for Detection and Characterization of Monosodium Urate, Calcium Pyrophosphate, and Hydroxyapatite

Døssing, Anna; Müller, F.; Becce, Fabio; Stamp, Lisa K.; Bliddal, Henning; Boesen, Mikael

doi:10.1097/rli.0000000000000756

Cited by 21 publications

(10 citation statements)

References 38 publications

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“…Switching from DEI to DER would provide similar results with similar caveats, except for adapted reference ranges. Importantly, the reference ranges for DER and DEI must take into account both the DECT systems and acquisition protocols used (i.e., radiograph beam spectral separation), in addition to relying on crystal calibration phantoms, as recently demonstrated in a phantom study (23). The absolute number of HUs was removed and the density of cortical bone was added as a reference point, as for conventional CT.…”

Section: Resultsmentioning

confidence: 99%

Imaging Features of Calcium Pyrophosphate Deposition Disease: Consensus Definitions From an International Multidisciplinary Working Group

Tedeschi

Becce

Pascart

et al. 2022

Arthritis Care & Research

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Objective. To develop definitions for imaging features being considered as potential classification criteria for calcium pyrophosphate deposition (CPPD) disease, additional to clinical and laboratory criteria, and to compile example images of CPPD on different imaging modalities.Methods. The American College of Rheumatology and European Alliance of Associations for Rheumatology CPPD classification criteria Imaging Advisory Group (IAG) and Steering Committee drafted definitions of imaging features that are characteristic of CPPD on conventional radiography (CR), conventional computed tomography (CT), dual-energy CT (DECT), and magnetic resonance imaging (MRI). An anonymous expert survey was undertaken by a 35-member Combined Expert Committee, including all IAG members. The IAG and 5 external musculoskeletal radiologists with expertise in CPPD convened virtually to further refine item definitions and voted on example images illustrating CR, CT, and DECT item definitions, with ≥90% agreement required to deem them acceptable.Results. The Combined Expert Committee survey indicated consensus on all CR definitions. The IAG and external radiologists reached consensus on CT and DECT item definitions, which specify that calcium pyrophosphate deposits appear less dense than cortical bone. The group developed an MRI definition and acknowledged limitations of this modality for CPPD. Ten example images for CPPD were voted acceptable (4 CR, 4 CT, and 2 DECT), and 3 images of basic calcium phosphate deposition were voted acceptable to serve as contrast against imaging features of CPPD.Conclusion. An international group of rheumatologists and musculoskeletal radiologists defined imaging features characteristic of CPPD on CR, CT, and DECT and assembled a set of example images as a reference for future clinical research studies.

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Section: Resultsmentioning

confidence: 99%

Imaging Features of Calcium Pyrophosphate Deposition Disease: Consensus Definitions From an International Multidisciplinary Working Group

Tedeschi

Becce

Pascart

et al. 2022

Arthritis Care & Research

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“…Minimum cross-sectional diameter of MSU crystal deposits of approximately 0.8 mm was reported for 2 different dual-source DECT systems and different tube voltage combinations. 124 Comparable performance of crystal differentiation (MSU and HA) was reported for DE-EICT and PCCT. 125 Tse et al 126 reported 3-material decomposition with virtual monochromatic images that may be superior to commercially available 2-material decomposition and dual-thresholding in differentiating MSU and HA at low concentrations (lower limits for MSU detection 3.4 mg/dL, 13.3 mg/dL, and 65.2 mg/dL; rapid kV switching DECT).…”

Section: Musculoskeletal Ctmentioning

confidence: 90%

“…Only few studies focused on cross-platform conformity. Minimum cross-sectional diameter of MSU crystal deposits of approximately 0.8 mm was reported for 2 different dual-source DECT systems and different tube voltage combinations 124 . Comparable performance of crystal differentiation (MSU and HA) was reported for DE-EICT and PCCT 125 …”

Section: Musculoskeletal Ctmentioning

confidence: 96%

Computed Tomography 2.0

Lell

Kachelrieß

2023

Invest Radiol

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Computed tomography (CT) dramatically improved the capabilities of diagnostic and interventional radiology. Starting in the early 1970s, this imaging modality is still evolving, although tremendous improvements in scan speed, volume coverage, spatial and soft tissue resolution, as well as dose reduction have been achieved. Tube current modulation, automated exposure control, anatomy-based tube voltage (kV) selection, advanced x-ray beam filtration, and iterative image reconstruction techniques improved image quality and decreased radiation exposure. Cardiac imaging triggered the demand for high temporal resolution, volume acquisition, and high pitch modes with electrocardiogram synchronization. Plaque imaging in cardiac CT as well as lung and bone imaging demand for high spatial resolution. Today, we see a transition of photon-counting detectors from experimental and research prototype setups into commercially available systems integrated in patient care. Moreover, with respect to CT technology and CT image formation, artificial intelligence is increasingly used in patient positioning, protocol adjustment, and image reconstruction, but also in image preprocessing or postprocessing. The aim of this article is to give an overview of the technical specifications of up-to-date available whole-body and dedicated CT systems, as well as hardware and software innovations for CT systems in the near future.

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“…Using dual thresholds (i.e. dual-energy ratios) during DECT post-processing, targeted at the crystal of interest, would have allowed a more accurate quantification of MSU deposition volumes, as recently demonstrated in a phantom study [ 14 ]. However, the default settings were considered acceptable here for measuring the percentage change in MSU volumes over time.…”

Section: Discussionmentioning

confidence: 99%

Dual-energy CT assessment of rapid monosodium urate depletion and bone erosion remodelling during pegloticase plus methotrexate co-therapy

et al. 2022

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Objectives Pegloticase rapidly lowers serum urate in uncontrolled/refractory gout patients, with ≥1 tophus resolution in 70% of pegloticase responders and 28% of non-responders. Dual-energy computed tomography (DECT) non-invasively detects monosodium urate (MSU) deposition, including subclinical deposition, quantifies MSU volumes, and depicts bone erosions. This report presents DECT findings in MIRROR open-label trial participants receiving pegloticase/methotrexate co-therapy. Methods Serial DECT scans were obtained during pegloticase (8 mg biweekly infusions)/oral methotrexate (15 mg/week) co-therapy. Bilateral hand/wrist, elbow, foot/ankle, and knee images were analysed with default post-processing settings. MSU volumes were quantified and bone erosions were identified and evaluated for remodelling (decreased size, sclerosis, new bone formation). DECT and physical examination findings were compared. Results Two patients underwent serial DECT. Patient 1 (44-year-old male) completed 52-weeks of pegloticase/methotrexate co-therapy (26 infusions). Baseline examination detected 4 tophus-affected joints while DECT identified 73 MSU-affected joints (total MSU volume: 128.76 cm3). At end-of-treatment, there were no clinically-affected joints and 4 joints with DECT-detected MSU deposition. MSU volume decreased by 99% and bone erosion remodelling was evident. Patient 2 (51-year-old male) had 10-weeks of therapy (5 infusions), discontinuing because of urate-lowering response loss. Baseline examination detected 7 tophus-affected joints while DECT identified 55 MSU-affected joints (total MSU volume: 59.20 cm3). At end-of-treatment, there were 5 clinically-affected joints and 42 joints with DECT-detected MSU deposition. MSU volume decreased by 58% and bone erosion remodelling was evident. Conclusion DECT detected subclinical MSU deposition and quantified changes over time. Rapid tophus resolution and bone erosion remodelling occurred during pegloticase/methotrexate co-therapy. Trial registration ClinicalTrials.gov, https://clinicaltrials.gov, NCT03635957

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Dual-Energy Computed Tomography for Detection and Characterization of Monosodium Urate, Calcium Pyrophosphate, and Hydroxyapatite

Cited by 21 publications

References 38 publications

Imaging Features of Calcium Pyrophosphate Deposition Disease: Consensus Definitions From an International Multidisciplinary Working Group

Imaging Features of Calcium Pyrophosphate Deposition Disease: Consensus Definitions From an International Multidisciplinary Working Group

Computed Tomography 2.0

Dual-energy CT assessment of rapid monosodium urate depletion and bone erosion remodelling during pegloticase plus methotrexate co-therapy

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