Patents by Inventor Alexandre Debatty
Alexandre Debatty has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 11511135Abstract: A radiotherapy apparatus for the delivery of an energetic beam to a target tissue in a treatment zone, including: a rotatable gantry for rotating the end of a beam delivery system about a circle centered on an isocentre and normal to an axis of rotation Z1 of the gantry, the path between the end of the beam delivery system and the isocentre defining a central beam axis Z2 at every rotation angle of the gantry about the axis of rotation Z1; an imaging ring having a central bore and an imaging system for acquiring images of a patient in an imaging zone of the imaging system, wherein the imaging ring is located in the radiotherapy apparatus such that its imaging zone intersects the axis of rotation Z1 of the gantry, and wherein the imaging ring is mechanically coupled to the rotatable gantry through a mechanical structure.Type: GrantFiled: October 29, 2020Date of Patent: November 29, 2022Assignee: Ion Beam ApplicationsInventors: Alexandre Debatty, Frédéric Dessy, Yves Claereboudt
-
Publication number: 20220347494Abstract: A radiotherapy apparatus for the delivery of an energetic beam to a target tissue in a treatment zone, including: a rotatable gantry for rotating the end of a beam delivery system about a circle centered on an isocentre and normal to an axis of rotation Z1 of the gantry, the path between the end of the beam delivery system and the isocentre defining a central beam axis Z2 at every rotation angle of the gantry about the axis of rotation Z1; an imaging ring having a central bore and an imaging system for acquiring images of a patient in an imaging zone of the imaging system, wherein the imaging ring is located in the radiotherapy apparatus such that its imaging zone intersects the axis of rotation Z1 of the gantry, and wherein the imaging ring is mechanically coupled to the rotatable gantry through a mechanical structure.Type: ApplicationFiled: October 29, 2020Publication date: November 3, 2022Applicant: ION BEAM APPLICATIONSInventors: Alexandre DEBATTY, Frédéric DESSY, Yves CLAEREBOUDT
-
Patent number: 10124191Abstract: The invention relates to a hadron therapy installation that comprises an irradiation unit (1) supported by a rotary support structure, so as to be able to rotate around a target volume (15) centered on the axis of rotation (22), to deliver a treatment beam (17) from different angles on the target volume (15). An imaging device (3, 4) is secured in rotation with the irradiation unit (1) and translatable relative to the irradiation unit (1) between a retracted position at the irradiation unit (1) and a lateral deployed position relative to the target volume (15), such that in its deployed position, the imaging device (3, 4) can rotate around the target volume (15) together with the irradiation unit (1). Such an installation can be used for a cone beam computed tomography method and/or a fluoroscopic imaging method on a patient to be treated in the hadron therapy installation.Type: GrantFiled: September 10, 2013Date of Patent: November 13, 2018Assignee: Ion Beam Applications S.A.Inventors: Alexandre Debatty, Jean-Claude Amélia, Sébastien De Neuter
-
Publication number: 20170229205Abstract: Embodiments disclose an energy degrader for attenuating the energy of a charged particle beam, comprising a first energy attenuation member presenting a beam entry face having the shape of a part of a first helical surface, a second energy attenuation member presenting a beam exit face having the shape of a part of a second helical surface, the beam exit face being positioned downstream of said beam entry face with respect to the beam direction, and a drive assembly for rotating the first and/or the second energy attenuation members about respectively a first and/or a second rotation axis while crossed by the particle beam. The first and second helical surfaces are continuous surfaces and have the same handedness, to enable a more compact degrader with a smaller moment of inertia.Type: ApplicationFiled: September 14, 2016Publication date: August 10, 2017Inventors: Alexandre DEBATTY, Nicolas GÉRARD
-
Publication number: 20160242981Abstract: A device for supporting and positioning a patient in a medical equipment comprises a positioning mechanism supporting a patient support unit. The positioning mechanism comprises a motorized rotary joint member for positioning the patient support unit using a motorized pivoting motion about a pivot axis. A rotational release unit associated with the motorized rotary joint member comprises an override bearing arranged adjacent to or in the motorized rotary joint member configured to be substantially coaxial with the pivot axis, and allow a free pivoting motion of the positioning mechanism about the pivot axis. A rotation locking mechanism cooperates with the override bearing. This rotation locking mechanism switches between a locked state, in which it locks the override bearing in a mechanically defined angular position, and an unlocked state, in which the override bearing is unlocked and the positioning mechanism can freely pivot about the pivot axis.Type: ApplicationFiled: February 23, 2016Publication date: August 25, 2016Inventors: Alexandre DEBATTY, David WIKLER, Paul-François DOUBLIEZ
-
Publication number: 20160172067Abstract: Disclosed embodiments include an energy degrader for attenuating the energy of a charged particle beam. The energy degrader may include a first energy attenuation member presenting a annular beam entry face and a continuous helical beam exit face, a second energy attenuation member presenting a continuous helical beam entry face and an annular beam exit face. The first and second helical surfaces may face each other. The energy degrader may also include a drive assembly configured for rotating the first and the second energy attenuation members around respectively a first axis and a second axis which are parallel to each other. The degrader may have a small moment of inertia, allowing more accurate and faster variation of the beam energy.Type: ApplicationFiled: December 16, 2015Publication date: June 16, 2016Inventors: Yves CLAEREBOUDT, Alexandre DEBATTY, Nicolas GERARD
-
Patent number: 9358406Abstract: The invention is related to a method and apparatus for verifying the beam range in a target irradiated with a charged hadron beam, such as a proton beam. The beam range is the location of the Bragg peak in the target, being the location where the largest portion of the dose is delivered. The method utilizes a prompt gamma camera provided with a slit-shaped opening, so as to be able to produced a 1-dimensional profile of the dose distribution along the beam line. The camera is mounted with the slit oriented perpendicularly to the beam line. The method comprises the steps of calculating a position of the camera with respect to a target, for a plurality of beam energies and spots to be irradiated. The method further comprises the steps of verifying the beam range for said plurality of spots, and delivering a value representative of the difference between the estimated beam range and the actual beam range. The apparatus of the invention is provided with a positioning module for positioning the camera.Type: GrantFiled: May 11, 2012Date of Patent: June 7, 2016Assignee: Ion Beam Applications S.A.Inventors: Damien Prieels, Alexandre Debatty
-
Publication number: 20150246245Abstract: The invention relates to a hadron therapy installation that comprises an irradiation unit (1) supported by a rotary support structure, so as to be able to rotate around a target volume (15) centered on the axis of rotation (22), to deliver a treatment beam (17) from different angles on the target volume (15). An imaging device (3, 4) is secured in rotation with the irradiation unit (1) and translatable relative to the irradiation unit (1) between a retracted position at the irradiation unit (1) and a lateral deployed position relative to the target volume (15), such that in its deployed position, the imaging device (3, 4) can rotate around the target volume (15) together with the irradiation unit (1). Such an installation can be used for a cone beam computed tomography method and/or a fluoroscopic imaging method on a patient to be treated in the hadron therapy installation.Type: ApplicationFiled: September 10, 2013Publication date: September 3, 2015Inventors: Alexandre Debatty, Jean-Claude Amélia, Sébastien De Neuter
-
Publication number: 20140145088Abstract: The invention is related to a method and apparatus for verifying the beam range in a target irradiated with a charged hadron beam, such as a proton beam. The beam range is the location of the Bragg peak in the target, being the location where the largest portion of the dose is delivered. The method utilizes a prompt gamma camera provided with a slit-shaped opening, so as to be able to produced a 1-dimensional profile of the dose distribution along the beam line. The camera is mounted with the slit oriented perpendicularly to the beam line. The method comprises the steps of calculating a position of the camera with respect to a target, for a plurality of beam energies and spots to be irradiated. The method further comprises the steps of verifying the beam range for said plurality of spots, and delivering a value representative of the difference between the estimated beam range and the actual beam range. The apparatus of the invention is provided with a positioning module for positioning the camera.Type: ApplicationFiled: May 11, 2012Publication date: May 29, 2014Inventors: Damien Prieels, Alexandre Debatty