RU2732825C1 - Method for pre-radial preparation and irradiation and device for its implementation - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method for pre-radial preparation and irradiation in contact radiation therapy, consisting in patient placing on medical-diagnostic table, introduction into irradiated cavity of hollow applicators fixed on tripod, monitoring their position relative to the anatomical structures using a diagnostic apparatus selected from one of the X-ray apparatus with a C-arm, CT or MRI, exporting the obtained information to a dosimetry planning system for drawing up a radiation dosimetry plan, guide tube applicators are connected to the applicators to supply the radiation source, and an irradiation plan exported from the dosimetry planning system is implemented. At that, on the diagnostic table, a removable tabletop-top box is placed, equipped with wheels with brakes and a sliding panel for the patient's legs, support of which is made with six degrees of freedom for movement and fixation of applicators introduced into the irradiated cavity. Patient's legs are lowered on foot panel. Thereafter, the tabletop attachment with the patient is moved to the diagnostic installation table and after receiving information on the position of applicators relative to anatomical structures, the table top-attachment with the patient on the therapeutic-diagnostic table is moved to the radiation therapy room to implement the radiation plan. Diagnostic table for pre-radial preparation and radiation, comprising detachable tabletop attachment, having wheels with brakes for movement on medical-diagnostic table, flat spring-loaded roller, made with possibility of tabletop-attachment orientation relative to axial line of diagnostic installation table, support with six degrees of freedom for movement and fixation of applicators introduced into irradiated cavity, including horizontal bar made with possibility of moving left and right relative to tabletop-attachment in guide, fixed on end of tabletop-attachment, and fixing position of horizontal bar by retainer, vertical rail guide is attached perpendicularly to end of horizontal rod, equipped with retainer, wherein the vertical bar is configured to move up and down and fix it in the vertical bar guide, and also has forward-backward inclination, wherein the upper end of the rod is equipped with a ball bearing, on which a clamp for an applicator is made, made in the form of two halves equipped with a compensating spring and a retainer.

EFFECT: using the given group of inventions enables providing higher quality assurance of radiation therapy and therapeutic effectiveness.

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Description

The proposed invention relates to methods of treating patients with malignant tumors using sources of ionizing radiation and can be used in contact (intracavitary and interstitial) radiation therapy.

Contact radiation therapy is carried out in two stages - pre-radiation preparation and direct radiation.

Pre-radiation preparation includes the introduction of hollow applicators into the irradiated cavity (tissue), the introduction of simulators of radiation sources into the applicators, control of the position of the applicators relative to the irradiated target, determination of the coordinates of the spatial location of the sources (simulators) relative to anatomical structures, calculation of the dosimetric irradiation plan and implementation of the plan using an apparatus for contact radiation therapy.

The known method of pre-radiation preparation and irradiation with contact radiation therapy using known treatment and diagnostic tables (surgical, operating).

The disadvantage of this method is the impossibility of X-ray control of the position of the applicators introduced into the irradiated cavity of the patient due to the occupation of the under-panel space of the table by the lifting mechanism and other structural elements. In this regard, the position of the applicators is monitored by transporting the patient to the stationary X-ray unit, transferring the patient to the table of the X-ray unit, placing a separate plate with a stand for fixing the applicator under the patient, obtaining diagnostic information and exporting information to the control system of the radiotherapy device, transferring the patient to a gurney, placing a separate plate under the patient with a stand for fixing the applicator, transporting it to the radiation therapy room and performing the irradiation procedure. In all of the above operations, an uncontrolled displacement of the applicators relative to the target can occur, therefore, an uncontrolled deviation of the implemented irradiation plan from the prescribed one, which can lead to radiation complications in adjacent healthy tissues, under-irradiation or overexposure of the target.

There is also known a method of pre-radiation preparation and irradiation, in which applicators are introduced into the irradiated cavity, the patient is transferred to a gurney and transported to the diagnostic department (X-ray room, computer room (CT) or magnetic resonance imaging (MRI)), the patient is transferred from the gurney to the table of the diagnostic installation (C-arm, CT, MRI), receive information about the position of the applicator relative to the irradiated organ, transfer the patient to the gurney again, place a separate plate with a stand for fixing the applicator under the patient (Fig. 3), the patient is transported to the radiation therapy room, diagnostic information on an electronic carrier, they are transferred to the dosimetric planning system, a dosimetric plan is calculated, which is entered into the apparatus control system and the irradiation procedure is performed.

The disadvantages of the known method are the possibility of uncontrolled displacement of the applicators during the transfer and transportation of the patient, placing a plate with a tripod under the patient [2] (the patient may weigh up to 160 kg), which creates significant inconvenience for the patient and staff and can become the main reason for the danger of displacement of the applicators from the prescribed position, especially after controlling their position and, consequently, the possibility of deviation of the implemented irradiation plan from the prescribed one, which can lead to radiation complications in healthy organs and tissues adjacent to the tumor, under-irradiation or incorrect irradiation of the tumor, to a decrease in therapeutic efficiency.

The closest analogue (prototype) is a method of pre-radiation preparation and irradiation with a treatment and diagnostic table for its implementation [3], the table contains a frame, two support posts with a cantilever radiolucent tabletop mounted on them, consisting of a pelvic-dorsal and two sliding leg sections, connected to the pelvic-dorsal section by double hinges. To fix the applicator, the table is equipped with a tripod with 6 degrees of freedom of movement. Cantilever placement provides free space under the tabletop along the entire length for working with a C-arm X-ray machine. When X-ray control of the position of the applicators with a C-arm device, it is possible to irradiate in one place, directly at the device, without shifting and transporting the patient and thereby improving the quality of radiation therapy and therapeutic efficiency, convenience for the patient and staff, and reducing the duration of the pre-radiation preparation procedure.

The disadvantages of the prototype are the impossibility of using other diagnostic devices (CT, MRI) for diagnostic procedures, when using which it becomes necessary to transport the patient to the diagnostic department, transfer the patient to the table of the diagnostic device, obtain diagnostic information, transfer the patient to the treatment and diagnostic table, bring the patient under plates with a tripod for fixing the applicators, transportation to the radiation therapy room, while an uncontrolled displacement of the applicators relative to the target may occur, therefore, an uncontrolled deviation of the implemented irradiation plan from the prescribed one, which can lead to radiation complications in neighboring healthy tissues, under-irradiation or over-irradiation of the target.

The proposed technical solution eliminates the shortcomings of the prototype and provides a technical result - an increase in the quality assurance of radiation therapy and therapeutic efficiency by maintaining the stability of the position of the applicators introduced into the irradiated cavity and the compliance of the implemented irradiation plan with the prescribed plan.

This goal is achieved due to the fact that in the method of preradiation preparation and irradiation and the treatment and diagnostic table for its implementation, which consists in placing the patient on the treatment and diagnostic table, introducing hollow applicators fixed on a tripod into the irradiated cavity, monitoring their position relative to anatomical structures using a diagnostic unit selected from one of the X-ray units with a C-arm, CT or MRI, exporting the information obtained to the dosimetric planning system for drawing up a dosimetric exposure plan, connecting the ampoule line to the applicators for supplying a radiation source, and implementing the exposure plan exported from the dosimetric system planning.

Treatment and diagnostic table for pre-irradiation preparation and irradiation, containing a removable attachment tabletop, having wheels with brakes for moving along the treatment and diagnostic table, a flat spring-loaded roller made with the possibility of orienting the attachment tabletop relative to the centerline of the diagnostic unit table, a tripod with six degrees freedom to move and fix the applicators introduced into the irradiated cavity, including a horizontal bar made with the ability to move to the left and right relative to the table top attachment in a guide fixed at the end of the attachment table top and fixing the position of the horizontal bar with a lock, perpendicular to the end of the horizontal bar, a vertical guide is attached the rod, equipped with a lock, while the vertical rod is made with the possibility of moving up and down and fixing it in the guide of the vertical rod, and also has forward-backward tilts, while the upper end of the vertical rod ngi is equipped with a spherical support on which a clamp for the applicator is placed, made in the form of two halves, equipped with a compensating spring and a retainer.

An example of the implementation of the method

The proposed method can be carried out using a treatment and diagnostic table 1 (Fig. 1) with a tabletop attachment 2 placed on it with a tripod for fixing the applicator 3, wheels with brakes 4, a pull-out panel 5 for the patient's legs, a flat spring-loaded roller 6 made with the possibility of orientation of the attachment tabletop relative to the axial line of the diagnostic unit table, the applicator is introduced into the irradiated cavity and fixes it with a tripod 3 to the attachment tabletop. The tripod (Fig. 2) consists of a horizontal bar 1 with a guide 2 installed at the end of the table top attachment 3 and a lock 4, a vertical rod 5 with a guide 6 and a lock 7, and the horizontal rod 1 can move in guide 2 to the left and right, and the vertical bar 5 can move up and down in the guide 6 and has forward and backward slopes, while the upper end of the vertical bar is equipped with a clip 10 for an applicator of two halves 8 and 9 on a ball bearing 11 with a compensating spring 12 and a retainer 13, transport the patient to diagnostic room (X-ray machine, CT, MRI, ultrasound), the tabletop attachment with the patient is rolled onto the table of the diagnostic unit, an image of the applicator inserted into the irradiated cavity is obtained, the image is exported to the dosimetric planning system, the patient with the attachment tabletop is rolled onto the treatment and diagnostic table, transported to the radiation therapy room, an ampoule line is attached to the applicator for under Achieve the radiation source, calculate the dosimetric irradiation plan, export the plan to the control system of the radiation therapy apparatus and perform the irradiation procedure.

With the tabletop attachment removed, the treatment and diagnostic table with an X-ray diagnostic unit of the C-arc type can be used in the pre-radiation preparation and irradiation mode in one place, directly at the apparatus for contact radiation therapy.

Claims (2)

1. A method of pre-radiation preparation and irradiation during contact radiation therapy, which consists in placing the patient on a treatment and diagnostic table, introducing hollow applicators fixed on a tripod into the irradiated cavity, monitoring their position relative to anatomical structures using a diagnostic installation selected from one of the X-ray installation, with a C-arm, CT or MRI, exporting the obtained information to the dosimetric planning system for drawing up a dosimetric exposure plan, connecting the ampoule line to the applicators for supplying a radiation source, and implementing the exposure plan exported from the dosimetric planning system, which differs in that the treatment and diagnostic a removable tabletop attachment is placed on the table, equipped with wheels with brakes and a retractable panel for the patient's legs, the tripod of which is made with six degrees of freedom for moving and fixing the applicators introduced into the irradiated cavity, the patient's legs are lowered onto the panel for After receiving information about the position of the applicators with respect to the anatomical structures, the tabletop attachment with the patient on the treatment and diagnostic table is moved to the radiation therapy room to implement the irradiation plan. 2. Treatment and diagnostic table for pre-irradiation preparation and irradiation, containing a removable tabletop attachment, having wheels with brakes for moving along the treatment and diagnostic table, a flat spring-loaded roller made with the possibility of orienting the attachment tabletop relative to the axial line of the diagnostic unit table, a tripod with six degrees of freedom for moving and fixing the applicators introduced into the irradiated cavity, including a horizontal bar made with the ability to move to the left and right relative to the attachment table top in a guide fixed at the end of the attachment table top, and fixing the position of the horizontal bar with a lock, perpendicular to the end of the horizontal bar a vertical bar guide is attached, provided with a lock, while the vertical bar is made with the ability to move up and down and fix it in the vertical bar guide, and also has forward and backward tilts, while the upper end of the bar is supplied It has a ball bearing on which a clamp for the applicator is located, made in the form of two halves, equipped with a compensating spring and a retainer.

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