Determining the gross tumor volume for hepatocellular carcinoma radiotherapy based on multi-phase contrast-enhanced magnetic resonance imaging

Abstract

PurposeThe aim of this study was to quantitatively analyze of the differences in determining the gross tumor volume (GTV) for hepatocellular carcinoma (HCC) radiotherapy using multi-phase contrast-enhanced magnetic resonance imaging (CE-MRI) and provide a reference for determining the GTV for radiotherapy of HCC. MethodsThis retrospective study analyzed 99 HCC patients (145 lesions) who underwent MR simulation. T1-weighted imaging (T1WI), contrast-enhanced T1WI (CE-T1WI) at 15 s, 45 s, 75 s, 150 s, and 20 min after contrast agent injection were performed, comprising a total of six imaging sequences. The GTVs identified on different sequences were grouped and fused in various combinations. The internal GTV (IGTV), which was the reference structure, was obtained by the fusion of all six sequences. Mean signal intensity (SI), volume, shape, and fibrous capsule (FC) thickness among GTVs were compared. Results(1) The mean SI value of GTV-T1WI, GTV-15s-GTV-20min in patients with transarterial chemoembolization (TACE) was lower by 14.09 % (GTV-T1WI) to 31.31 % (GTV-15s) compared with that in patients without TACE. Except for GTV-T1WI, the differences in SI values between the two groups for other GTVs were statistically significant (p < 0.05). (2) The volumes of GTV-T1WI, GTV-15s-GTV-20min ranged from 32.66-34.99 cm3. The volume differences between GTV-45s and the other GTVs were statistically significant (p < 0.05), excluding the GTV-T1WI. (3) Compared with the IGTV, the change trend of GTV volume reduction rate is consistent with that of dice similarity coefficients (DSC). (4) In the CE-T1WI sequences (except for CE-T1WI-15s), FC measurement was possible in 39.31 % of lesions (57/145), with the largest mean thickness observed at 75 s. ConclusionAlthough single-phase CE-MRI introduces uncertainty in HCC GTV determination, combining different phases CE-MRI can enhance accuracy. The CE-T1WI-45s should be routinely included as a necessary scanning sequence