Anthropomorphic film phantom for three-dimensional dosimetry
First Claim
1. An anthropomorphic phantom system for recording and verifying three-dimensional dose distributions administered during radiation treatment, the phantom system comprising:
- a hollow shell made of tissue equivalent material and filled with a fluid tissue-equivalent material;
a box made of tissue-equivalent material mounted within the hollow shell, the box being adapted to be adjustably securable within the hollow shell; and
multiple layers of film separated by multiple spacers having tissue-equivalent characteristics, the film and spacers being adapted to be loaded into the box, wherein the box is vertically adjustable within the hollow shell.
1 Assignment
0 Petitions
Accused Products
Abstract
A method and system for recording and verifying three-dimensional dose distributions administered during stereotactic radiosurgery using an anthropomorphic film phantom are provided. The method provides a phantom (11) including a head-shaped hollow shell (12), which mounts a cassettebox therein (14), which in turn may contain a simulated lesion (16) similar to the lesion to be treated. An image is taken of the head-shaped shell including the cassettebox and the simulated lesion using, for example, a CT or MRI scanner. The image is used to develop a stereotactic radiosurgery plan, which includes creating an intended three-dimensional dose distribution map to “treat” the simulated lesion. Thereafter, the simulated lesion is removed from the cassettebox and the cassettebox is loaded with multiple layers of film (42) separated by spacers (44) having tissue-equivalent characteristics. Then, the three-dimensional radiation dose described by the stereotactic radiosurgery plan is delivered to the head-shaped shell including the cassettebox loaded with the film. Next, the multiple layers of film are removed from the cassettebox, and multiple dose images are obtained based on the film. Thereafter, based on the multiple dose images, a measured three-dimensional dose distribution map is obtained. The measured three-dimensional dose distribution map is coregistered in software with the intended three-dimensional dose distribution map that was previously developed, to ascertain any discrepancies therebetween to determine inaccuracies included in the original stereotactic radiosurgery plan.
21 Citations
24 Claims
-
1. An anthropomorphic phantom system for recording and verifying three-dimensional dose distributions administered during radiation treatment, the phantom system comprising:
-
a hollow shell made of tissue equivalent material and filled with a fluid tissue-equivalent material;
a box made of tissue-equivalent material mounted within the hollow shell, the box being adapted to be adjustably securable within the hollow shell; and
multiple layers of film separated by multiple spacers having tissue-equivalent characteristics, the film and spacers being adapted to be loaded into the box, wherein the box is vertically adjustable within the hollow shell. - View Dependent Claims (2, 3, 4, 5, 6, 7)
-
-
8. An anthropomorohic phantom system for recording and verifying three-dimensional dose distributions administered during radiation treatment, the phantom system comprising:
-
a hollow shell made of tissue equivalent material and filled with a fluid tissue-equivalent material;
a box made of tissue-equivalent material mounted within the hollow shell, the box being adapted to be adiustably securable within the hollow shell; and
multiple layers of film separated by multiple spacers having tissue-equivalent characteristics, the film and spacers being adapted to be loaded into the box, and a simulated lesion replaceably positionable within the box.
-
-
9. An anthropomoric phantom system for recording and verifying three-dimensional dose distributions administered during radiation treatment, the phantom system comprising:
-
a hollow shell made of tissue equivalent material and filled with a fluid tissue-equivalent material;
a box made of tissue-equivalent material mounted within the hollow shell, the box being adapted to be adjustably securable within the hollow shell; and
multiple layers of film separated by multiple spacers having tissue-equivalent characteristics, the film and spacers being adapted to be loaded onto the box, wherein the box is made of material opaque to visible light except for a diagonal strip that is made of material translucent to visible light.
-
-
10. An anthropomorphic phantom system for recording and verifying three-dimensional dose distributions administered during radiation treatment, the phantom system comprising:
-
a hollow shell made of tissue equivalent material and filled with a fluid tissue-equivalent material;
a bow made of tissue-equivalent material mounted within the hollow shell, the box being adapted to be adjustably securable within the hollow shell; and
multiple layers of film separated by multiple spacers having tissue-equivalent characteristics, the film and spacers being adapted to be loaded into the box, wherein the box is horizontally adjustable within the hollow shell.
-
-
11. An anthropomorphic phantom system for recording and verifying three-dimensional dose distributions administered during radiation treatment, the phantom system comprising:
-
a hollow shell made of tissue equivalent material and filled with a fluid tissue-equivalent material;
a box made of tissue-equivalent material mounted within the hollow shell, the box being adapted to be adjustably securable within the hollow shell; and
multiple layers of film separated by multiple spacers having tissue-equivalent characteristics, the film and spacers being adapted to be loaded into the box, wherein the box is adjustable so as to vary its angular orientation with respect to the hollow shell.
-
-
12. A method of recording and verifying three-dimensional dose distributions administered during radiation treatment, the method comprising:
-
(a) providing a phantom including a hollow shell made of a tissue equivalent material and filled with a fluid tissue-equivalent material, the hollow shell being adapted to simulate a human head, the hollow shell including a box made of tissue-equivalent material, the box being adjustably securable within the hollow shell;
(b) registering an image of a lesion to be treated including its position with respect to the hollow shell in software;
(c) in the software, developing a radiation treatment plan based on the image of the lesion, the radiation treatment plan including an intended three-dimensional dose distribution man;
(d) loading multiple layers of film separated by multiple spacers having tissue-equivalent characteristics into the box;
(e) delivering radiation according to the radiation treatment plan to the hollow shell including the box containing the multiple layers of film;
(f) removing the multiple layers of film from the box;
(g) obtaining multiple dose images based on the multiple layers of film;
(h) forming a three-dimensional map of a measured dose distribution using the multiple dose images; and
(i) coregistering the three-dimensional map of the measured dose distribution with the intended three-dimensional dose distribution map in the software to ascertain any inaccuracies included in the radiation treatment plan, wherein steps (d) through (f) are repeated for a prescribed number of times, with each repetition varying an angular orientation of the box with respect to the hollow shell, to obtain plural sets of multiple layers of film, to which the radiation is delivered. - View Dependent Claims (13, 14, 15, 16, 17)
(i) placing a simulated lesion that models the lesion to be treated within the box, filling the box with tissue-equivalent material, and securing the box at a predetermined position with respect to the hollow shell;
(ii) taking an image of the hollow shell including the box containing the simulated lesion;
(iii) removing the box from the hollow shell and removing the simulated lesion from the box.
-
-
14. The method of claim 13, wherein step (ii) further comprises placing a head ring on the hollow shell and coupling a localizer box to the head ring.
-
15. The method of claim 12, wherein step (e) further comprises placing a head ring on the hollow shell and coupling a target-positioner box to the head ring.
-
16. The method of claim 12, wherein the hollow shell is formed in the shape of a human head.
-
17. A method of claim 12, wherein step (h) further comprises interpolating the multiple dose images to generate a series of computed tomography-format dose images.
-
18. A method of recording and verifying three-dimensional dose distributions administered during radiation treatment, the method comprising:
-
(a) providing a phantom including a hollow shell made of a tissue equivalent material and filled with a fluid tissue-equivalent material, the hollow shell being adapted to simulate a human head, the hollow shell including a box made of tissue-equivalent material, the box being adjustably securable within the hollow shell;
(b) registering an image of a lesion to be treated including its position with respect to the hollow shell in software;
(c) in the software, developing a radiation treatment plan based on the image of the lesion, the radiation treatment plan including an intended three-dimensional dose distribution map;
(d) loading multiple layers of film separated by multiple spacers having tissue-equivalent characteristics into the box;
(e) delivering radiation according to the radiation treatment plan to the hollow shell including the box containing the multiple layers of film;
(f) removing the multiple layers of film from the box;
(g) obtaining multiple dose images based on the multiple layers of film;
(h) forming a three-dimensional man of a measured dose distribution using the multiple dose images; and
(i) coregistering the three-dimensional map of the measured dose distribution with the intended three-dimensional dose distribution man in the software to ascertain any inaccuracies included in the radiation treatment plan wherein the box is opaque to visible light except for a diagonal strip that is made of a material translucent to visible light, and step (g) further comprises automatically ordering and orienting the multiple layers of film based upon an indexing mark uniquely recorded on an edge of each of the multiple layers of film by light passing through the diagonal strip.
-
-
19. An anthropomorphic film phantom system for recording and verifying three-dimensional dose distributions administered during radiation treatment, the film phantom system being adapted to be replaceably mounted inside a hollow shell that is made of a tissue-equivalent material and filled with a fluid tissue-equivalent material to simulate a human head;
- the film phantom system comprising;
a box made of tissue-equivalent material adapted to be adjustably securable within the hollow shell; and
multiple layers of film separated by multiple spacers having tissue-equivalent characteristics, the film and spacers being adapted to be loaded into the box;
wherein the box is opaque to visible light except for a diagonal strip that is made of material translucent to visible light. - View Dependent Claims (20, 21, 22)
- the film phantom system comprising;
-
23. A film phantom system for recording and verifying three-dimensional dose distributions, the film phantom system comprising:
-
a box made of tissue-equivalent material; and
multiple spacers having tissue-equivalent characteristics, the spacers being adapted to be loaded into the box together with multiple layers of film separated by the spacers;
wherein the box is opaque to visible light except for a diagonal strip that is translucent to visible light. - View Dependent Claims (24)
-
Specification