Improved sparing of liver and lung tissue: DIBH for right breast irradiation
OC-0949
Abstract
Improved sparing of liver and lung tissue: DIBH for right breast irradiation
Authors: Rachel Pace1, Rui T. Boucas da Silva1, Lukas E. J. Adam1, Gabriela Näf1, Christopher Winter1, Mania M. Aspradakis2, Stefanie Hayoz3, Brigitta G. Baumert1
1Kantonsspital Graubünden, Institute of Radiation Oncology, Chur, Switzerland; 2Kantonsspital Grabünden, Institute of Radiation Oncology, Chur, Switzerland; 3Swiss Group for Clinical Cancer Research (SAKK), Statistics, Bern, Switzerland
Show Affiliations
Hide Affiliations
Purpose or Objective
To
reduce liver and lung dose during right breast irradiation while maintaining
optimal dose to the target volume. This dose reduction has the potential to
decrease acute side effects and long-term toxicity.
Material and Methods
Sixteen patients treated with radiation therapy for localized carcinoma
of the right breast were included. Six patients were evaluated retrospectively
and 10 prospectively. For the planning CT, each patient was immobilised on an indexed board with the arms
placed above the head. CT scans were acquired in free-breathing (FB) as well as with deep inspiration breath hold (DIBH). Both
scans were acquired with the same length. Planning target volumes (PTV's) were created with a 5mm margin
from the respective clinical target volumes (CTV's) on both CT datasets. The liver
was outlined as scanned. Dose
metrics evaluated were as follows:
differences in PTV coverage, dose to the liver (max, mean, V90%, V50%, V30%),
dose to lung (mean, V20Gy, relative electron density) and dose to heart (max). The
p-values were calculated using Wilcoxon signed-rank tests. A p-value was
significant < 0.05.
Results
Differences in PTV
coverage between plans under FB and DIBH were less than 2%. Maximum liver dose
was significantly less using DIBH: 40.3Gy versus FB 17.5 Gy (p < 0.001). Dose metrics are summarized in Table 1. The
volume of the liver receiving 10% of the dose was significantly less using DIBH
with 72.2ccm versus 1.88ccm under FB (p < 0.001). The absolute volume receiving
20Gy in the right lung was larger using DIBH: 291ccm versus 230ccm under FB (p
< 0.001), and the relative lung volume was less with DIBH: 11.5% versus 14% in
FB (p = 0.007). The relative electron density was less with DIBH: 0.59 versus
0.62 with FB, (p < 0.001). This additionally suggests that the lung tissue receives
less dose due to lesser dense lung tissue when using DIBH.
Table 1 - Dose metrics for liver and right lung
| FB
| DIBH
|
(DIBH-FB) (%)
|
(DIBH-FB)
| p-value
|
Liver - Max Dose (Gy)
| 40.3
| 17.54
| -48.01
| -19.25 | <0.001
|
Liver - V10% Isodose (ccm)
| 72.22
| 1.88
| -96.22
| -54.65
| <0.001
|
Right Lung - V20Gy (ccm)
| 230.45
| 291.35
| 34.64
| 76.75
| <0.001
|
Right Lung - V20Gy (%)
| 14.02
| 11.5
| -15.8
| -1.95
| 0.007
|
Right Lung V20Gy - relative electron
density
| 0.62
| 0.59
| -4.87
| -0.03
| <0.001
|
Conclusion
Radiation of
the right breast using DIBH spares liver and lung tissue significantly and thus
carries the potential of a new best practice for localized right
sided breast cancer.