Deep Learning Reconstruction (DLR) in CT is a promising application of artifi cial intelligence in radiology because it has the potential to improve image quality and radiological preference, as well as reduce patient radiation dose.
The review article of McLeavy et al. discusses the clinical advantages of DLR over conventional image reconstruction techniques such as the Hybrid Iterative Reconstruction (HIR). The authors are affi liated with Leighton Hospital in Crewe which was one of the fi rst institutions in the UK to use Advanced intelligent Clear-IQ Engine (AiCE) in a clinical setting. In this institution, DLR was used to develop specifi c protocols that achieve either ultra-low dose scans without a penalty in image quality or ultra-high image quality without increasing radiation dose.
Examples shown in this article:
- Volume CT pulmonary angiography with AiCE on pregnant women results in an eff ective dose of only 0.2 mSv. This is equivalent to 10 chest radiographs.
- A dual-phase and pelvis CT performed on pediatric trauma patients results in only 0.8 mSv without a compromise in the signal and contrast-to-noise ratio. A case illustration from this institution is provided in Figure 1.
- A CT scan of the urinary tract (kidney, ureter, and bladder (KUB)) using DLR with additional metal artifact reduction software reduced beam hardening in the pelvis. This exam resulted in an eff ective dose of only 1 mSv, an 84% dose reduction compared to HIR, without degrading image quality.
- Whereas a plain radiograph of the abdomen and pelvis has an eff ective dose of 1.4 mSv, the dose from CT scans of the entire urinary tract performed in this institution using DLR was only 1.2 mSv. This corresponds to 83% less radiation dose than the national dose levels.
Other examples of dose reductions in COVID-19, coronary artery disease, bariatric and oncology patients were also demonstrated.
In addition to ultra-low-dose protocols, DLR can be used to produce ultra-high-quality images, while still achieving dose reductions when compared to traditional reconstruction methods. In both cases, DLR off ers a high reconstruction speed.
In conclusion, DLR is the future in CT reconstruction as it provides the elusive triad of low dose, high quality, and high speed.