Reducing the lateral dose penumbra in IMPT by incorporating transmission pencil beams

W. Kong; M. Huiskes; S. J.M. Habraken; E. Astreinidou; C. R.N. Rasch; B. J.M. Heijmen; S. Breedveld

doi:10.1016/j.radonc.2024.110388

Reducing the lateral dose penumbra in IMPT by incorporating transmission pencil beams

W. Kong^*
, M. Huiskes
, S. J.M. Habraken
, E. Astreinidou
, C. R.N. Rasch
, B. J.M. Heijmen
, S. Breedveld

^*Corresponding author for this work

Radiotherapy

Leiden University
Leiden University Medical Centre
HollandPTC

Research output: Contribution to journal › Article › Academic › peer-review

5 Citations (Scopus)

32 Downloads (Pure)

Abstract

Objective:

In intensity-modulated proton therapy (IMPT), Bragg peaks result in steep distal dose fall-offs, while the lateral IMPT dose fall-off is often less steep than in photon therapy. High-energy pristine transmission (‘shoot through’) pencil beams have no Bragg peak in the patient, but show a sharp lateral penumbra at the target level. We investigated whether combining Bragg peaks with Transmission pencil beams (‘IMPT&TPB’) could improve head-and-neck plans by exploiting the steep lateral dose fall-off of transmission pencil beams.

Approach:

Our system for automated multi-criteria IMPT plan optimisation was extended for combined optimisation of BPs and TPBs. The system generates for each patient a Pareto-optimal plan using a generic ‘wish-list’ with prioritised planning objectives and hard constraints. For eight nasopharynx cancer patients (NPC) and eight oropharynx cancer (OPC) patients, the IMPT&TPB plan was compared to the competing conventional IMPT plan with only Bragg peaks, which was generated with the same optimiser, but without transmission pencil beams.

Main results:

Clinical OAR and target constraints were met in all plans. By allowing transmission pencil beams in the optimisation, on average 14 of the 25 investigated OAR plan parameters significantly improved for NPC, and 9 of the 17 for OPC, while only one OPC parameter showed small but significant deterioration. Non-significant differences were found in the remaining parameters. In NPC, cochlea D_mean reduced by up to 17.5 Gy and optic nerve D_2% by up to 11.1 Gy.

Conclusion:

Compared to IMPT, IMPT&TPB resulted in comparable target coverage with overall superior OAR sparing, the latter originating from steeper dose fall-offs close to OARs.

Original language	English
Article number	110388
Journal	Radiotherapy and Oncology
Volume	198
DOIs	https://doi.org/10.1016/j.radonc.2024.110388
Publication status	Published - Sept 2024

Bibliographical note

Publisher Copyright:
© 2024 The Author(s)

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

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Reducing the lateral dose penumbra in IMPT by incorporating transmission pencil beamsFinal published version, 7.11 MBLicence: CC BY

Cite this

@article{24becdc1cb6b43d0b9254703baf09d50,

title = "Reducing the lateral dose penumbra in IMPT by incorporating transmission pencil beams",

abstract = "Objective: In intensity-modulated proton therapy (IMPT), Bragg peaks result in steep distal dose fall-offs, while the lateral IMPT dose fall-off is often less steep than in photon therapy. High-energy pristine transmission ({\textquoteleft}shoot through{\textquoteright}) pencil beams have no Bragg peak in the patient, but show a sharp lateral penumbra at the target level. We investigated whether combining Bragg peaks with Transmission pencil beams ({\textquoteleft}IMPT\&TPB{\textquoteright}) could improve head-and-neck plans by exploiting the steep lateral dose fall-off of transmission pencil beams. Approach: Our system for automated multi-criteria IMPT plan optimisation was extended for combined optimisation of BPs and TPBs. The system generates for each patient a Pareto-optimal plan using a generic {\textquoteleft}wish-list{\textquoteright} with prioritised planning objectives and hard constraints. For eight nasopharynx cancer patients (NPC) and eight oropharynx cancer (OPC) patients, the IMPT\&TPB plan was compared to the competing conventional IMPT plan with only Bragg peaks, which was generated with the same optimiser, but without transmission pencil beams. Main results: Clinical OAR and target constraints were met in all plans. By allowing transmission pencil beams in the optimisation, on average 14 of the 25 investigated OAR plan parameters significantly improved for NPC, and 9 of the 17 for OPC, while only one OPC parameter showed small but significant deterioration. Non-significant differences were found in the remaining parameters. In NPC, cochlea Dmean reduced by up to 17.5 Gy and optic nerve D2\% by up to 11.1 Gy. Conclusion: Compared to IMPT, IMPT\&TPB resulted in comparable target coverage with overall superior OAR sparing, the latter originating from steeper dose fall-offs close to OARs.",

author = "W. Kong and M. Huiskes and Habraken, \{S. J.M.\} and E. Astreinidou and Rasch, \{C. R.N.\} and Heijmen, \{B. J.M.\} and S. Breedveld",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s)",

year = "2024",

month = sep,

doi = "10.1016/j.radonc.2024.110388",

language = "English",

volume = "198",

journal = "Radiotherapy and Oncology",

issn = "0167-8140",

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T1 - Reducing the lateral dose penumbra in IMPT by incorporating transmission pencil beams

AU - Kong, W.

AU - Huiskes, M.

AU - Habraken, S. J.M.

AU - Astreinidou, E.

AU - Rasch, C. R.N.

AU - Heijmen, B. J.M.

AU - Breedveld, S.

PY - 2024/9

Y1 - 2024/9

N2 - Objective: In intensity-modulated proton therapy (IMPT), Bragg peaks result in steep distal dose fall-offs, while the lateral IMPT dose fall-off is often less steep than in photon therapy. High-energy pristine transmission (‘shoot through’) pencil beams have no Bragg peak in the patient, but show a sharp lateral penumbra at the target level. We investigated whether combining Bragg peaks with Transmission pencil beams (‘IMPT&TPB’) could improve head-and-neck plans by exploiting the steep lateral dose fall-off of transmission pencil beams. Approach: Our system for automated multi-criteria IMPT plan optimisation was extended for combined optimisation of BPs and TPBs. The system generates for each patient a Pareto-optimal plan using a generic ‘wish-list’ with prioritised planning objectives and hard constraints. For eight nasopharynx cancer patients (NPC) and eight oropharynx cancer (OPC) patients, the IMPT&TPB plan was compared to the competing conventional IMPT plan with only Bragg peaks, which was generated with the same optimiser, but without transmission pencil beams. Main results: Clinical OAR and target constraints were met in all plans. By allowing transmission pencil beams in the optimisation, on average 14 of the 25 investigated OAR plan parameters significantly improved for NPC, and 9 of the 17 for OPC, while only one OPC parameter showed small but significant deterioration. Non-significant differences were found in the remaining parameters. In NPC, cochlea Dmean reduced by up to 17.5 Gy and optic nerve D2% by up to 11.1 Gy. Conclusion: Compared to IMPT, IMPT&TPB resulted in comparable target coverage with overall superior OAR sparing, the latter originating from steeper dose fall-offs close to OARs.

AB - Objective: In intensity-modulated proton therapy (IMPT), Bragg peaks result in steep distal dose fall-offs, while the lateral IMPT dose fall-off is often less steep than in photon therapy. High-energy pristine transmission (‘shoot through’) pencil beams have no Bragg peak in the patient, but show a sharp lateral penumbra at the target level. We investigated whether combining Bragg peaks with Transmission pencil beams (‘IMPT&TPB’) could improve head-and-neck plans by exploiting the steep lateral dose fall-off of transmission pencil beams. Approach: Our system for automated multi-criteria IMPT plan optimisation was extended for combined optimisation of BPs and TPBs. The system generates for each patient a Pareto-optimal plan using a generic ‘wish-list’ with prioritised planning objectives and hard constraints. For eight nasopharynx cancer patients (NPC) and eight oropharynx cancer (OPC) patients, the IMPT&TPB plan was compared to the competing conventional IMPT plan with only Bragg peaks, which was generated with the same optimiser, but without transmission pencil beams. Main results: Clinical OAR and target constraints were met in all plans. By allowing transmission pencil beams in the optimisation, on average 14 of the 25 investigated OAR plan parameters significantly improved for NPC, and 9 of the 17 for OPC, while only one OPC parameter showed small but significant deterioration. Non-significant differences were found in the remaining parameters. In NPC, cochlea Dmean reduced by up to 17.5 Gy and optic nerve D2% by up to 11.1 Gy. Conclusion: Compared to IMPT, IMPT&TPB resulted in comparable target coverage with overall superior OAR sparing, the latter originating from steeper dose fall-offs close to OARs.

UR - https://www.scopus.com/pages/publications/85198164067

U2 - 10.1016/j.radonc.2024.110388

DO - 10.1016/j.radonc.2024.110388

M3 - Article

C2 - 38897315

AN - SCOPUS:85198164067

SN - 0167-8140

VL - 198

JO - Radiotherapy and Oncology

JF - Radiotherapy and Oncology

M1 - 110388

ER -

Reducing the lateral dose penumbra in IMPT by incorporating transmission pencil beams

Abstract

Bibliographical note

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