Pencil beam scanning proton therapy for mediastinal lymphomas in deep inspiration breath-hold: a retrospective assessment of plan robustness.

in Acta oncologica (Stockholm, Sweden) by Filip Hörberger, Karin M Andersson, Marika Enmark, Ingrid Kristensen, Anna Flejmer, Anneli Edvardsson

TLDR

  • The study looked at how well a type of radiation therapy called pencil beam scanning (PBS) proton therapy (PT) worked for treating a type of cancer called mediastinal lymphoma. The study used a technique called deep inspiration breath-hold (DIBH) to help the radiation therapy target the cancer more accurately. The study found that the radiation therapy worked well and was able to target the cancer with high accuracy. However, the study also found that closely monitoring the DIBH-reproducibility during treatment is important to avoid underdosing the cancer and achieving sufficient dose-sparing of the organs at risk. The study suggests that PBS-PT in DIBH is a good option for treating mediastinal lymphoma, but it's important to closely monitor the DIBH-reproducibility during treatment to make sure the radiation therapy is working as well as it can.

Abstract

The aim of this study was to evaluate pencil beam scanning (PBS) proton therapy (PT) in deep inspiration breath-hold (DIBH) for mediastinal lymphoma patients, by retrospectively evaluating plan robustness to the clinical target volume (CTV) and organs at risk (OARs) on repeated CT images acquired throughout treatment.  Methods: Sixteen mediastinal lymphoma patients treated with PBS-PT in DIBH were included. Treatment plans (TPs) were robustly optimized on the CTV (7 mm/4.5%). Repeated verification CTs (vCT) were acquired during the treatment course, resulting in 52 images for the entire patient cohort. The CTV and OARs were transferred from the planning CT to the vCTs with deformable image registration and the TPs were recalculated on the vCTs. Target coverage and OAR doses at the vCTs were compared to the nominal plan. Deviation in lung volume was also calculated. The TPs demonstrated high robust target coverage throughout treatment with D98%,CTV deviations within 2% for 14 patients and above the desired requirement of 95% for 49/52 vCTs. However, two patients did not achieve a robust dose to CTV due to poor DIBH reproducibility, with D98%,CTV at 78 and 93% respectively, and replanning was performed for one patient. Adequate OAR sparing was achieved for all patients. Total lung volume variation was below 10% for 39/52 vCTs. PBS PT in DIBH is generally a robust technique for treatment of mediastinal lymphomas. However, closely monitoring the DIBH-reproducibility during treatment is important to avoid underdosing CTV and achieve sufficient dose-sparing of the OARs.

Overview

  • The study evaluated pencil beam scanning (PBS) proton therapy (PT) in deep inspiration breath-hold (DIBH) for mediastinal lymphoma patients, by retrospectively evaluating plan robustness to the clinical target volume (CTV) and organs at risk (OARs) on repeated CT images acquired throughout treatment. The hypothesis being tested was whether PBS-PT in DIBH is a robust technique for treatment of mediastinal lymphomas. The methodology used for the experiment included 16 mediastinal lymphoma patients treated with PBS-PT in DIBH. Treatment plans (TPs) were robustly optimized on the CTV (7 mm/4.5%). Repeated verification CTs (vCT) were acquired during the treatment course, resulting in 52 images for the entire patient cohort. The CTV and OARs were transferred from the planning CT to the vCTs with deformable image registration and the TPs were recalculated on the vCTs. Target coverage and OAR doses at the vCTs were compared to the nominal plan. Deviation in lung volume was also calculated. The primary objective of the study was to evaluate the robustness of PBS-PT in DIBH for mediastinal lymphoma treatment. The study aims to answer the question whether PBS-PT in DIBH is a robust technique for treatment of mediastinal lymphomas.

Comparative Analysis & Findings

  • The study compared the outcomes observed under different experimental conditions or interventions detailed in the study. The results showed that the treatment plans (TPs) demonstrated high robust target coverage throughout treatment with D98%,CTV deviations within 2% for 14 patients and above the desired requirement of 95% for 49/52 vCTs. However, two patients did not achieve a robust dose to CTV due to poor DIBH reproducibility, with D98%,CTV at 78 and 93% respectively, and replanning was performed for one patient. Adequate OAR sparing was achieved for all patients. Total lung volume variation was below 10% for 39/52 vCTs. The key findings of the study were that PBS-PT in DIBH is generally a robust technique for treatment of mediastinal lymphomas. However, closely monitoring the DIBH-reproducibility during treatment is important to avoid underdosing CTV and achieve sufficient dose-sparing of the OARs.

Implications and Future Directions

  • The study's findings have significant implications for the field of research or clinical practice. The study highlights the importance of closely monitoring the DIBH-reproducibility during treatment to avoid underdosing CTV and achieve sufficient dose-sparing of the OARs. The study also suggests that PBS-PT in DIBH is generally a robust technique for treatment of mediastinal lymphomas. Future research directions could include exploring the use of PBS-PT in DIBH for other types of cancer and evaluating the impact of different DIBH techniques on treatment outcomes. Additionally, further studies could investigate the use of machine learning algorithms to improve the robustness of treatment plans and reduce the need for replanning.
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