Abstract
Objective: To study the dosimetric effect on special reconstruction images obtained from an electrocardiograph-gated four-dimensional computed tomography (ECG 4D-CT) series and compare it with the accumulation dose assessment of ECG 4D-CT.Methods: Fifteen patients underwent ECG 4D-CT scans to obtain a 4D-CT series. The 20 phase images of 0–95% were reconstructed at intervals of 5% of the cardiac cycle by the 4D-CT series. The 4D-CT series was specially reconstructed, and the maximum intensity projection (MIP), minimum intensity projection (MinIP), average intensity projection (AIP), and sum intensity projection (SIP) were obtained. The left ventricular muscle (LV) and the anterior descending branch of the left coronary artery (LAD) were delineated on all series. The intensity-modulated radiation therapy (IMRT) plan for left breast cancer was designed on the basis of the 0% phase, and the accumulative dose (Dose−acc) of 20 phases was obtained by deformation registration. The dose-volume indexes of the LV and LAD were compared based on different CT series.Results: The dose-volume indices of V5, V30, V40, Dmax, and Dmean of the LV on MIP images were 3.8, 2.0, 0.9, 3.8, and 1.7%, respectively (relative to the Dose−acc). There was no significant difference in V5 or Dmax between the MIP and Dose−acc (P > 0.05). The change rates of Dmax on the MinIP, SIP, and AIP images were 2.5, 3.1, and 1.5%, respectively (relative to the Dose−acc) (P < 0.05).Conclusion: In the dose-volume evaluation of the LV, V30, V40, and Dmean obtained by MIP were essentially the same as those obtained by the Dose−acc and can be used instead of the 4D-CT series to evaluate dose-volume indexes.
Highlights
Breast cancer accounts for 24.2% of new cancer cases and 15.0% of cancer-related deaths in females
In the dosimetric comparison of the left ventricular muscle (LV), the results showed that regardless of the kind of special reconstruction method, half of the dose-volume indexes were not statistically significant compared with the Dose−acc (P > 0.05)
In minimum intensity projection (MinIP) and sum intensity projection (SIP) images, the change rates were larger than those in the maximum intensity projection (MIP) and average intensity projection (AIP) images (2.5– 19.9% on MinIP images and 3.1–14.0% on SIP images), and only V10 and V20 were not statistically significant compared with the Dose−acc (P > 0.05)
Summary
The 20 phase images of 0–95% were reconstructed at intervals of 5% of the cardiac cycle by the 4D-CT series. The 4D-CT series was specially reconstructed, and the maximum intensity projection (MIP), minimum intensity projection (MinIP), average intensity projection (AIP), and sum intensity projection (SIP) were obtained. The intensity-modulated radiation therapy (IMRT) plan for left breast cancer was designed on the basis of the 0% phase, and the accumulative dose (Dose−acc) of 20 phases was obtained by deformation registration. The dose of the remaining 19 phases was deformed to that of the 0% phase, and the cumulative dose of the 4D-CT series was obtained, which was named the accumulative dose (Dose-acc). The dose deformation of the 0% phase was registered into MIP, MinIP, SIP and AIP images.
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