L I P

Laboratório de Instrumentação e Física Experimental de Partículas

L I P

L I P [PARTICLES AND TECHNOLOGY]

/

ORimag

Orthogonal Ray Imaging for Radiotherapy Improvement


// Instruments and methods for biomedical applications

Instrumentos e Métodos para Aplicações Biomédicas

These are LIP’s core projects in instrumentation for radiation therapy, and they are developed in partnership with one Portuguese Oncology Institute, the Hospital Center of the University of Coimbra, and several international medical research centers. The aim is to improve radiotherapy by optimizing the treatment in near real time, so that the irradiation can better accommodate the tumor and spare surrounding healthy tissue. To do this, we use X- or gamma-rays emitted orthogonally to the treatment beam, and/or in-beam positron emission tomography (in-beam PET).

The OR Imaging technique may be divided into three main branches: (1) OrthoCT (orthogonal computer tomography) for monitoring radiotherapy (high-energy x-rays); (2) O-PGI (orthogonal prompt-gamma imaging) for monitoring proton therapy; and (3) in-beam PET also for monitoring proton therapy treatments.

As an example of recent progress, the results of the analysis of a cavity irradiated inside an acrylic, cylindrical phantom using a small-scale OrthoCT system recently proved for the first time that it is possible to obtain images of the interior of an object without rotating neither the object nor the X-ray source. As for O-PGI studies, a multi-leaf collimator has been fully optimized using Geant4 simulation and our own reconstruction routines. The optimization was based on the analysis of images obtained after the irradiation of the NCAT phantom (cardiac-torso anthropomorphic phantom) with realistic, therapeutic proton beams. The most difficult of the three scenarios considered was the irradiation of the pituitary gland. Here, edematous tissue may account for a Bragg peak shift as small as 2 mm, which the O-PGI system was able to discriminate clearly. Work is now ongoing in order to devise an optimum crystal granularity and positioning so that the 2-mm resolving power is maintained with a realistic O-PGI system. Organ motion (e.g. lung) and vertebra motion in pediatric total body irradiation will also be analyzed via Monte Carlo simulations, ans submitted to both optimized systems of O-PGI and in-beam PET.

// Research Area
Física Experimental de Partículas com aceleradores
Contacts
Group Leader:  
Paulo Crespo

crespo@lip.pt


 

  • The first PET glimpse of a proton FLASH beam
  • Author(s):  F. Abouzahr, J.P. Cesar, P. Crespo, M.J. Gajda, Z. Hu , W. Kaye, K. Klein, A. Kuo, S. Majewski, O.R. Mawlawi, A. Morozov, A. Ojha, F. Poenisch, J.C. Polf, M. Proga, N. Sahoo, J. Seco, T. Takaoka, S. Tavernier, U. Titt, X. Wang, X.R. Zhu, K. Lang
  • Submission:  2023-06-21, Acceptance:  2023-06-21, Publication:  2023-06-21
  • Reference:  Phys. Med. Biol. 68 (2023) 125001   View publication

  • Distal edge determination precision for a multi-slat prompt-gamma camera: A comprehensive simulation and optimization of the detection system
  • Author(s):  A. Morozov, H. Simoes, P. Crespo
  • Submission:  2021-04-01, Acceptance:  2021-04-01, Publication:  2021-04-01
  • Reference:  Phys. Medica 84 (2021) 85-100  

  • Rotation-free scattered-radiation imaging with a radiotherapy X-ray linac
  • Author(s):  H. Simões, R. Ferreira Marques, P.J.B.M. Rachinhas, A. Wagner, P. Crespo
  • Publication:  2018-11-10
  • Reference:  2018 IEEE Nucl. Sci. Symp. & Med. Imag. Conf. (NSS/MIC), Nov. 10–17, 2018, Sydney, Australia  

  • Simulation of proton range monitoring in an anthropomorphic phantom using multi-slat collimators and time-of-flight detection of prompt-gamma quanta
  • Author(s):  Patricia Cambraia Lopes, Paulo Crespo, Hugo Simoes, Rui Ferreira Marques, Katia Parodi, Dennis R. Schaart
  • Submission:  2018-10-01, Acceptance:  2018-10-01, Publication:  2018-10-01
  • Reference:  Phys. Medica 54 (2018) 1-14  

View all the group publications


  • ANTS
  •  Anger camera-type detector simulation and experimental data processing tools.
  •     website


View all the group publications



Andrey Morozov
Coimbra
Researcher

Duarte Guerreiro
Lisboa
PhD student

Francisco Miguéis
Coimbra
Master student

Hugo Simões
Coimbra
Researcher

João Costa Silva
Coimbra
PhD student

João Gentil
Lisboa
Researcher

Jorge Sampaio
Lisboa
Researcher

José Patuleia Venâncio
Lisboa
PhD student

Patrícia Gonçalves
Lisboa
Researcher

Paulo Crespo
Coimbra
Researcher

Pedro Assis
Lisboa
Researcher

 
 

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Laboratório de Instrumentação e Física Experimental de Partículas   LIP.PT

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