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| ID | Type | Description | Link |
|---|---|---|---|
| 13/SW/0065 | Other Identifier | NRES (UK) |
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The recently introduced Computed tomography (CT) scanner, Discovery CT750 HD (GE Healthcare, Milwaukee), incorporates a battery of innovations aimed at improving diagnostic image quality, evaluating perfusion and assessing for scar, in an effort to address the current shortcomings of Computed tomographic coronary angiography (CTCA) in patients with significant coronary artery disease. The new scanner will use a novel method of scanning (Cardiac Gemstone Spectral Imaging - Cardiac GSI) and image reconstruction (Adaptive Statistical Iterative Reconstruction- ASIR) as opposed to standard definition 64-slice CT Multi-detector row computed tomography(MDCT)and Filtered Back Projection (FBP) used by the conventional CT scanners. The Cardiac GSI protocol enables the scanner to acquire images at two different x-ray energies almost simultaneously, which can be post-processed to selectively reduce beam hardening artefacts and delete materials with specific attenuating properties from the images, such as coronary calcium. ASIR offsets the potential increase in radiation dose required for Cardiac GSI scanning. This will potentially result in images of higher diagnostic quality with an equivalent or perhaps lower dose of radiation compared to present technology.
Furthermore, it is hypothesised that dual-energy acquisition may improve the accuracy of the assessment of perfusion.
Although initial in-vitro results are encouraging, this technology has not been rigorously assessed with regards to its feasibility and diagnostic quality, limiting its applicability in routine clinical practice. This assessment will require a trial comparing the accuracy of Cardiac GSI CTCA with that of Invasive coronary angiography (ICA) for anatomical assessment of stenosis, Myocardial Perfusion Imaging with Single Photon Emission Computed Tomography (MPI-SPECT) for assessment of perfusion and Cardiac Magnetic Resonance (CMR) for assessment of myocardial scar. We have designed a pilot study in this regard which will help us assess the feasibility of the scan protocol and provide data to power a larger study to assess the diagnostic remit of Cardiac GSI scanning in the assessment of patients with high-risk of significant coronary artery disease and myocardial scar.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Anatomical accuracy Cardiac GSI vs ICA | Experimental | The identification and quantification of coronary artery stenoses using Cardiac in comparison to ICA. |
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| Stress perfusion Cardiac GSI vs MPI-SPECT | Experimental | Assessment of the functional impact of coronary stenoses using Cardiac GSI in comparison to MPI-SPECT |
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| Delayed enhancement Cardiac GSI vs CMR | Experimental | Assessment of abnormal myocardial tissue characteristics representing ischaemic or scarred tissue using Cardiac GSI in comparison to CMR. |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Cardiac GSI | Device | A novel method of computed tomography scanning (Cardiac Gemstone Spectral Imaging - Cardiac GSI) and image reconstruction (Adaptive Statistical Iterative Reconstruction- ASIR. |
| Measure | Description | Time Frame |
|---|---|---|
| Feasibility - Assessment of rates of recruitment, acceptability of the procedure to patients, ease of CT acquisition | Assessment of rates of recruitment, acceptability of the procedure to patients, ease of CT acquisition. This pilot study will add to this assessment with specific information about the diagnostic performance of the novel scanning technique:
| 4 months |
| Measure | Description | Time Frame |
|---|---|---|
| radiation burden of the Cardiac GSI techniques | The Discovery CT750 HD scanner uses a new image reconstruction technique called Adaptive Statistical Iterative Reconstruction (ASIR). ASIR uses more complex mathematical modelling for image reconstruction, thus reducing the need for statistical assumptions and reducing image noise and artefact. It also requires the less raw data and thus significantly less radiation dose. Studies suggest that using ASIR can achieve up to 40% dose reduction compared to Filtered Back Projection (FBP). However, the effect of ASIR and radiation dose reducing algorithms on image quality and accuracy has not been assessed and the difference in image quality and artefact suppression using the new technology remains to be established before its widespread dissemination into clinical practice. |
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Inclusion Criteria:
Accuracy arm
Stress perfusion arm
Delayed enhancement arm
Exclusion Criteria:
Accuracy arm
Stress perfusion arm
Delayed enhancement arm
- As for Accuracy arm
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| Name | Affiliation | Role |
|---|---|---|
| Ben Clayton, MBBS | Plymouth Hospitals NHS Trust (UK) | Principal Investigator |
| Gareth Morgan-Hughes, MBBS | Plymouth Hospitals NHS Trust (UK) | Principal Investigator |
| Franchesca Wotton, MBBS | Plymouth Hospitals NHS Trust (UK) | Study Director |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Plymouth Hospitals NHS Trust | Plymouth | Devon | PL6 8DH | United Kingdom |
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| ID | Term |
|---|---|
| D003327 | Coronary Disease |
| ID | Term |
|---|---|
| D017202 | Myocardial Ischemia |
| D006331 | Heart Diseases |
| D002318 | Cardiovascular Diseases |
| D014652 | Vascular Diseases |
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| 4 months |