SYSTEM AND METHOD FOR PATIENT-SPECIFIC RADIOTHERAPY TREATMENT VERIFICATION AND QUALITY ASSURANCE Russian patent published in 2019 - IPC A61N5/10 

Abstract RU 2682455 C2

FIELD: medicine.

SUBSTANCE: group of inventions relates to medical technology, specifically to means of monitoring treatment with radiation therapy. Method of monitoring a patient’s personalised treatment with radiation therapy includes receiving medical images of one patient, creating a personalised three-dimensional model of a part of one patient based only on said medical images, inserting a dosimeter into a personalised three-dimensional patient model, the dosimeter being configured to measure radiation exposure, scanning the personalised three-dimensional model of the patient containing a dosimeter to provide at least one readable image representing a personalised three-dimensional model of the patient, irradiating at least part of a personalised three-dimensional model of the patient, which contains a dosimeter, in accordance with the patient's personalised treatment plan with radiation therapy to obtain an irradiated personalised three-dimensional model of the patient, scanning the irradiated personalised three-dimensional patient model to provide at least one readable image after irradiation, representing the distribution of the radiation dose inside the irradiated personalised three-dimensional patient model, wherein the at least one readable image after irradiation is a three-dimensional image. In the second embodiment, the monitoring method includes scanning an irradiated personalised three-dimensional patient model to provide at least one readable image after irradiation, which represents the distribution of the radiation dose within the irradiated personalised three-dimensional patient model, wherein the at least one readable image after irradiation is a three-dimensional image.

EFFECT: use of inventions allows to measure the effectiveness of the planned field of treatment with high accuracy.

18 cl, 11 dwg

Similar patents RU2682455C2

Title Year Author Number
RADIOTHERAPY SYSTEM PROVIDED WITH A PROGRAM FOR CALCULATION OF THE INTENSITY OF AN ELECTRON BEAM 2014
  • Benassi Marcello
  • Strigari Lidia
  • Carpino Sandro
  • D'Andrea Marco
  • Soriani Antonella
  • Iaccarino Giuseppe
RU2655070C2
METHOD FOR DETERMINING ABSORBED DOSE OF PROTON RADIATION 2019
  • Troshina Marina Vyacheslavovna
  • Chernukha Aleksandr Evgenevich
  • Potetnya Vladimir Ivanovich
  • Dyuzhenko Sergej Sergeevich
  • Golovanova Olga Yurevna
  • Koryakina Ekaterina Vladimirovna
  • Saburov Vyacheslav Olegovich
  • Lychagin Anatolij Aleksandrovich
  • Koryakin Sergej Nikolaevich
  • Gulidov Igor Aleksandrovich
RU2723055C2
DOSEMETER, THERAPEUTIC APPARATUS AND COMPUTER SOFTWARE PRODUCT FOR MEASUREMENT OF SUBJECT RADIATION DOSE DURING MAGNETIC RESONANCE IMAGING 2011
  • Ulemann Falk
RU2594431C2
STUDYING DOSIMETRIC IMPACT OF MOTION TO GENERATE ADAPTIVE PATIENT-SPECIFIC MARGINS IN EBRT PLANNING 2012
  • Bkharat Shijam
  • Bzdusek Karl Antonin
  • Parikkh Parag Dzhitendra
  • Noel Kamill Elizabet
RU2603606C2
SYSTEM AND METHOD OF HYBRID SURFACE RADIOTHERAPY WITH ULTRASOUND CONTROL 2013
  • Fishmen Kalman
RU2633322C2
SYSTEMS AND METHODS FOR GENERATING IMAGES IN REAL TIME 2017
  • Lachaine, Martin Emile
RU2719024C1
SYSTEM AND METHOD FOR LEARNING MODELS OF PLANS OF RADIOTHERAPEUTIC TREATMENT WITH PREDICTION OF DOSE DISTRIBUTION OF RADIOTHERAPY 2017
  • Hibbard, Lyndon S.
RU2719028C1
METHOD FOR RECONSTRUCTIVE DOSIMETRIC CONTROL OF PROTON THERAPY BY SCANNING BEAM 2018
  • Chernukha Aleksandr Evgenevich
  • Lepilina Olga Gennadevna
  • Ulyanenko Stepan Evgenevich
  • Solovev Aleksej Nikolaevich
  • Koryakin Sergej Nikolaevich
  • Golovanova Olga Yurevna
  • Troshina Marina Vyacheslavovna
  • Kaprin Andrej Dmitrievich
RU2684567C2
DOSE CALCULATION AT BEAM SEGMENTS LEVEL AND MOTION TRACKING IN TIME FOR ADAPTIVE PLANNING OF TREATMENT 2012
  • Bkharat Shiyam
  • Parikkh Parag Dzhitendra
  • Chzhu Minyao
  • Bzdusek Karl Antonin
RU2629235C2
SYSTEM AND METHOD FOR AUTOMATIC TREATMENT PLANNING 2015
  • Shelund Jens Olof
  • Khan Syao
RU2684173C2

RU 2 682 455 C2

Authors

Pappas Evangelos T.

Maris Tomas G.

Dates

2019-03-19Published

2014-09-09Filed