Copenhagen, Denmark
Onsite/Online

ESTRO 2022

Session Item

Head and neck
Poster (digital)
Clinical
CECT vs. MRI: Impact of concordance index for gross target volume in IMRT of head and neck cancers
Pallavi Kalbande, India
PO-1082

Abstract

CECT vs. MRI: Impact of concordance index for gross target volume in IMRT of head and neck cancers
Authors:

Pallavi Kalbande1, Bharti Mahindrakar Jain2, Ashok Singh3, Nilavarasu Shanmugam4, Pournima Kale5, Zatin Mathi1, Bhagyashree Borikar6, Atul Tayde7, Niloy Ranjan Datta2

1Mahatma Gandhi Institute of Medical Sciences, Radiotherapy, Wardha, India; 2Mahatma Gandhi Institute of Medical Sciences , Radiotherapy, Wardha, India; 3Mahatma Gandhi Institute of Medical sciences , Radiotherapy, Wardha, India; 4Mahatma Gandhi Institute of Medical , Radiotherapy, Wardha, India; 5Mahatma Gandhi Institute of medical Sciences , Radiotherapy, Wardha, India; 6Mahatma Gandhi Institute of Medical Sciences , Radiology, Wardha, India; 7Mahatma Gandhi Institute of Medical Sciences, Radiology, Wardha, India

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Purpose or Objective

Radiotherapy (RT) forms an integral component of management in head and neck cancers. Accurate delineation of GTV is a key step of RT treatment planning. Target delineation is usually based on contrast enhanced computed tomography (CECT) images and RT doses in IMRT are usually prescribed to GTV of primary (GTVp) and nodes (GTVn). Magnetic resonance imaging (MRI) offers the best soft tissue contrast to define primary tumor and nodes when compared to CECT. As synthetic CECT from the MRI is usually unavailable in RTP (radiotherapy treatment planning systems), RT planning is mostly based on CECT volumes. We therefore, carried out this study to evaluate concordance between CECT and MRI defined target volumes and corresponding dose-volume histogram (DVH) parameters.

Material and Methods

10 consecutive unoperated patients of head and neck cancer were included. All patients underwent CECT for RT simulation. In addition, T1, T2 and T1C MRI images with similar slice thickness as of CECT were obtained. GTVp and GTVn were delineated independently by two radiation oncologists on CECT and MRI images and entire sets of contours. These were reviewed jointly by another group of two radiation oncologists and radiologist. GTVp and GTVn were included in high-risk volume, adjacent nodal levels were taken in intermediate-risk volumes, while prophylactic nodal levels were included in low-risk volume. Corresponding PTVs were generated and IMRT planning was done. Three dose levels of 70 Gy, 63 Gy, 56 in 35 fractions over 7wks at 98% of dose coverage of corresponding planning target volume (PTVs) were prescribed. The DVH parameters evaluated for PTV were D2, D95, D98, V95 and V100 for both CECT and MRI based target volumes. In addition, %differences of GTVp, GTVn, GTVpn were computed along with concordance index (ConI), conformity index (CI) and homogeneity index (HI). ConI was ideally taken as 1.

Results

GTVp and GTVpn delineated on MRI was found to be significantly higher than the corresponding GTVs delineated (Fig). This resulted in significant differences in the D2, D95, D98, V95, V100, CI and HI (Table). %differences of GTVp and GTVn of corresponding volumes delineated on CECT and MRI were significantly different. The mean ConI was 0.6 (±0.1) (p=0.01) and was inversely related to the %difference in GTVp (p=0.002) and GTVpn (p<0.001). For GTVn, a similar trend was observed. Concordance of GTVpn varied from good (ConI, ≥0.67, n=5), moderate (ConI 0.34-0.66, n=4) and poor (ConI ≤0.33, n=1).


Conclusion

The GTVs and corresponding PTVs were significantly larger on MRI than on CECT. This resulted in significant lack of concordance of these two volumes. Thus, IMRT plans based solely on CECT delineated target volumes could result in significant cold spots in the GTV/PTV, loss of conformity and homogeneity. Thus, target delineations for head and neck cancers should be ideally based on integration of CECT and MRI images to minimize these dose discrepancies that could result in unsatisfactory locoregional control.