Metallic Nanoparticles: A Useful Prompt Gamma Emitter for Range Monitoring in Proton Therapy?

Sebastien Penninckx; Felicien Hespeels; Julien Smeets; Julien Colaux; Stephane Lucas; Anne-Catherine Heuskin

doi:10.3390/radiation1040025

Metallic Nanoparticles: A Useful Prompt Gamma Emitter for Range Monitoring in Proton Therapy?

Sebastien Penninckx, Felicien Hespeels, Julien Smeets, Julien Colaux, Stephane Lucas, Anne-Catherine Heuskin

Résultats de recherche: Contribution à un journal/une revue › Article › Revue par des pairs

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Résumé

In clinical practice, dose delivery in proton therapy treatment is affected by uncertainties related to the range of the beam in the patient, which requires medical physicists to introduce safety margins on the penetration depth of the beam. Although this ensures an irradiation of the entire clinical target volume with the prescribed dose, these safety margins also lead to the exposure of nearby healthy tissues and a subsequent risk of side effects. Therefore, non-invasive techniques that allow for margin reduction through online monitoring of prompt gammas emitted along the proton tracks in the patient are currently under development. This study provides the proof-of-concept of metal-based nanoparticles, injected into the tumor, as a prompt gamma enhancer, helping in the beam range verification. It identifies the limitations of this application, suggesting a low feasibility in a realistic clinical scenario but opens some avenues for improvement.

langue originale	Anglais
Pages (de - à)	305-316
journal	Radiation
Volume	1
Numéro de publication	4
Les DOIs	https://doi.org/10.3390/radiation1040025
Etat de la publication	Publié - 2021

SDG des Nations Unies

Ce résultat contribue à ou aux Objectifs de développement durable suivants

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10.3390/radiation1040025

radiation-01-00025-1

1 Poster
1 Article

Advances in the Mechanistic Understanding of Iron Oxide Nanoparticles' Radiosensitizing Properties
Ternad, I., Penninckx, S., Lecomte, V., Vangijzegem, T., Conrard, L., Lucas, S., Heuskin, A-C., Michiels, C., Muller, R. N., Stanicki, D. & Laurent, S., 2 janv. 2023, Dans: Nanomaterials. 13, 1, 201.
Résultats de recherche: Contribution à un journal/une revue › Article › Revue par des pairs

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Metallic nanoparticles as proton beam range monitor
Penninckx, S., Hespeels, F., Smeets, J., Colaux, J., Lucas, S. & Heuskin, A-C., 2022.
Résultats de recherche: Contribution à un événement scientifique (non publié) › Poster › Revue par des pairs

1 Terminé
1 Actif

PROTHER-WAL: Proton Therapy Research in Wallonia
MICHIELS, C., Lucas, S., Heuskin, A., Golli, E., Coos, R., Cini, N., Penninckx, S., Cardinal, M. & Henrotin, S.
1/01/19 → 31/07/26
Projet: Recherche
INSPIRE: INfraStructure in Proton International REsearch
Lucas, S., Heuskin, A., Biela, E. M. & Hespeels, F.
1/03/18 → 31/12/22
Projet: Recherche

1 Participation à une conférence, un congrès

68th Annual International Meeting of the Radiation Research Society
Anne-Catherine Heuskin (Poster)
16 oct. 2022 → 19 oct. 2022
Activité: Participation ou organisation d'un événement › Participation à une conférence, un congrès

INSPIRE UNamur WP10 dataset
Heuskin, A. (Créateur), Hespeels, F. (Contributeur) & Penninckx, S. (Contributeur), Zenodo, 28 avr. 2021
DOI: 10.5281/zenodo.4724698, https://zenodo.org/record/4724698
Ensemble de données

Contient cette citation

@article{0d4ce78297c6485195076455a528447b,

title = "Metallic Nanoparticles: A Useful Prompt Gamma Emitter for Range Monitoring in Proton Therapy?",

abstract = "In clinical practice, dose delivery in proton therapy treatment is affected by uncertainties related to the range of the beam in the patient, which requires medical physicists to introduce safety margins on the penetration depth of the beam. Although this ensures an irradiation of the entire clinical target volume with the prescribed dose, these safety margins also lead to the exposure of nearby healthy tissues and a subsequent risk of side effects. Therefore, non-invasive techniques that allow for margin reduction through online monitoring of prompt gammas emitted along the proton tracks in the patient are currently under development. This study provides the proof-of-concept of metal-based nanoparticles, injected into the tumor, as a prompt gamma enhancer, helping in the beam range verification. It identifies the limitations of this application, suggesting a low feasibility in a realistic clinical scenario but opens some avenues for improvement.",

author = "Sebastien Penninckx and Felicien Hespeels and Julien Smeets and Julien Colaux and Stephane Lucas and Anne-Catherine Heuskin",

year = "2021",

doi = "10.3390/radiation1040025",

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volume = "1",

pages = "305--316",

journal = "Radiation",

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TY - JOUR

T1 - Metallic Nanoparticles

T2 - A Useful Prompt Gamma Emitter for Range Monitoring in Proton Therapy?

AU - Penninckx, Sebastien

AU - Hespeels, Felicien

AU - Smeets, Julien

AU - Colaux, Julien

AU - Lucas, Stephane

AU - Heuskin, Anne-Catherine

PY - 2021

Y1 - 2021

N2 - In clinical practice, dose delivery in proton therapy treatment is affected by uncertainties related to the range of the beam in the patient, which requires medical physicists to introduce safety margins on the penetration depth of the beam. Although this ensures an irradiation of the entire clinical target volume with the prescribed dose, these safety margins also lead to the exposure of nearby healthy tissues and a subsequent risk of side effects. Therefore, non-invasive techniques that allow for margin reduction through online monitoring of prompt gammas emitted along the proton tracks in the patient are currently under development. This study provides the proof-of-concept of metal-based nanoparticles, injected into the tumor, as a prompt gamma enhancer, helping in the beam range verification. It identifies the limitations of this application, suggesting a low feasibility in a realistic clinical scenario but opens some avenues for improvement.

AB - In clinical practice, dose delivery in proton therapy treatment is affected by uncertainties related to the range of the beam in the patient, which requires medical physicists to introduce safety margins on the penetration depth of the beam. Although this ensures an irradiation of the entire clinical target volume with the prescribed dose, these safety margins also lead to the exposure of nearby healthy tissues and a subsequent risk of side effects. Therefore, non-invasive techniques that allow for margin reduction through online monitoring of prompt gammas emitted along the proton tracks in the patient are currently under development. This study provides the proof-of-concept of metal-based nanoparticles, injected into the tumor, as a prompt gamma enhancer, helping in the beam range verification. It identifies the limitations of this application, suggesting a low feasibility in a realistic clinical scenario but opens some avenues for improvement.

U2 - 10.3390/radiation1040025

DO - 10.3390/radiation1040025

M3 - Article

SN - 2673-592X

VL - 1

SP - 305

EP - 316

JO - Radiation

JF - Radiation

IS - 4

ER -

Metallic Nanoparticles: A Useful Prompt Gamma Emitter for Range Monitoring in Proton Therapy?

Résumé

SDG des Nations Unies

Accès au document

Empreinte digitale

Résultat de recherche

Advances in the Mechanistic Understanding of Iron Oxide Nanoparticles' Radiosensitizing Properties

Metallic nanoparticles as proton beam range monitor

Projets

PROTHER-WAL: Proton Therapy Research in Wallonia

INSPIRE: INfraStructure in Proton International REsearch

Activités

68th Annual International Meeting of the Radiation Research Society

Ensembles de données

INSPIRE UNamur WP10 dataset

Contient cette citation