Target Volume Delineation Using Diffusion-weighted Imaging for MR-guided Radiotherapy: A Case Series of Laryngeal Cancer Validated by Pathology

Publication date

2018-04-11

Authors

Ligtenberg, Hans
Schakel, TimORCID 0000-0002-1234-3479
Dankbaar, Jan WillemISNI 0000000392895296
Ruiter, Lilian N.
Peltenburg, Boris
Willems, S. M.ISNI 0000000387897385
Kasperts, NicolienISNI 0000000388312609
Terhaard, Chris H.J.ORCID 0000-0001-6062-5457ISNI 0000000388691821
Raaijmakers, C. P JORCID 0000-0002-9462-9277ISNI 0000000395945906
Philippens, Mariëlle E PORCID 0000-0003-0205-3459ISNI 0000000387302804

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Abstract

In radiotherapy treatment planning, tumor delineation based on diffusion-weighted imaging (DWI) by magnetic resonance imaging (MRI) is a promising technique. MR-only-based target definition becomes important with the recent development of MRI integrated radiotherapy treatment modalities. In this case series, DWI-based gross tumor volume (GTV) was validated using pathology and compared with a clinical GTV based on computed tomography (CT) imaging and MRI. This case series includes three patients with a laryngeal tumor. Prior to total laryngectomy (TLE), imaging was performed on CT and MRI, including a DWI scan. After TLE, the surgical specimen was processed and cut into 3-mm thick slices. The tumor was delineated on hematoxylin-eosin (HE) stained sections by a pathologist (tumorHE). This pathological imaging, including the tumorHE delineation, was three-dimensionally reconstructed and registered to the imaging. The GTV was delineated by a radiation oncologist based on CT and MR imaging (GTVclinical) and semi-automatically delineated based on DWI (GTVDWI). The microscopic tumor extent outside the GTVDWI contour was 3.0 mm, 2.7 mm, and 11.3 mm for cases I, II, and III, respectively. The microscopic tumor extent outside the GTVclinical was 7.5 mm, 2.1 mm, and 1.5 mm for cases I, II, and III, respectively. The tumor, on histology, was covered by the GTVs for 80%, 74%, and 31% (GTVDWI) and 73%, 72%, and 89% (GTVclinical) for the three subsequent cases, respectively. The GTVDWI resembled the tumorHE more than the GTVclinical in case I and case II. In case III, GTVDWI missed the caudal part of the tumor that was included in the clinical delineation due to a lack of contrast and the heterogeneous signal intensity of the tumor in DWI. In this case series, we showed the potential of DWI for MR-guided radiotherapy treatment if a clear contrast is visible. DWI-based GTV delineation might be a fast alternative to manual delineation, which could speed up the on-table target definition using an MRI-linac system. A larger case series is needed to verify these results.

Keywords

dwi, radiotherapy, larynx, validation, pathology, gtv, target declination

Citation

Ligtenberg, H, Schakel, T, Dankbaar, J W, Ruiter, L N, Peltenburg, B, Willems, S M, Kasperts, N, Terhaard, C H J, Raaijmakers, C P J & Philippens, M E P 2018, 'Target Volume Delineation Using Diffusion-weighted Imaging for MR-guided Radiotherapy : A Case Series of Laryngeal Cancer Validated by Pathology', Curēus, vol. 10, no. 4, e2465. https://doi.org/10.7759/cureus.2465