The present invention discloses a radiotherapy patient-positioning shell, which comprises a low-temperature thermoplastic board fabricated to have different positioning zones for different regions of the human body. Each positioning zone has holes. Different positioning zones respectively have different layout densities of the holes. The radiotherapy patient-positioning shell of the present invention has optimized structure and superior usability. The layout densities of different positioning zones of the radiotherapy patient-positioning shell are varied according to requirements of different regions of the human body. Thereby, different positioning zones will have different degrees of contraction and apply different intensities of fixing force to the related body regions. Thus is promoted the comfort of the user and prolonged the service life of the radiotherapy patient-positioning shell without affecting the fixing force thereof.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a radiotherapy technology, particularly to a radiotherapy patient-positioning shell.

2. Description of the Related Art

The radiotherapy patient-positioning shell is normally made of a low-temperature thermoplastic board. The low-temperature thermoplastic board is placed in hot water having a temperature of 65° C. for about 1 minute to completely soften the low-temperature thermoplastic board. The completely-softened low-temperature thermoplastic board features transparency. Fully softening low-temperature thermoplastic board favors molding and fixing of the material and decreases uncomfortableness of patients during molding. The low-temperature thermoplastic board not only can memorize the shape but also can be molded repeatedly. While the low-temperature thermoplastic board, which has been stretched in molding, is not molded or fixed well, it can be softened again in 65° C. hot water. Thus, the frozen internal stress is released, and the stretched material contracts and assumes its original shape. During radiotherapy, the patient lies on a special seat, and a low-temperature thermoplastic board is used to fix the patient on the seat. The low-temperature thermoplastic board would contract for a given extent after molding, which will make the patient feel uncomfortable. In order to relieve patient's uncomfortableness, the low-temperature thermoplastic board is usually perforated to reduce the contraction thereof. At present, the commercially-available low-temperature thermoplastic board has a uniform thickness and a fixed pore diameter. The perimeter of the softened low-temperature thermoplastic board is much more easily stretched because no barrier exists in the perimeter. However, the regions where the low-temperature thermoplastic board touches the body are less likely to stretch because there are resistances existing. Thus, the low-temperature thermoplastic board experiences uneven stretch with central holes enlarged more obviously than the peripheral holes. Therefore, the fixing effect is poor, and the patient feels uncomfortable. Further, uneven hole diameters would shorten the service life of the low-temperature thermoplastic board.

SUMMARY OF THE INVENTION

The present invention is to provide a radiotherapy patient-positioning shell, which can solve the technical problems of the conventional technology and overcome the poor fixing effect caused by uneven stretch of the low-temperature thermoplastic board.

The present invention proposes a radiotherapy patient-positioning shell, which comprises a low-temperature thermoplastic board where different positioning zones are established for different regions of the human body, wherein each positioning zone has holes, and wherein different positioning zones respectively have different layout densities of holes.

In one embodiment, the low-temperature thermoplastic board has a face positioning zone and a forehead positioning zone in addition to an auxiliary positioning zone.

In one embodiment, the low-temperature thermoplastic board has a neck positioning zone.

In one embodiment, the low-temperature thermoplastic board has shoulder positioning zones.

In one embodiment, each one of the face positioning zone and the neck positioning zone has a higher layout density of holes than the auxiliary positioning zone.

In one embodiment, the distance between two adjacent holes of each one of the face positioning zone and the neck positioning zone is smaller than that of the auxiliary positioning zone. The diameter of the holes of each one of the face positioning zone and the neck positioning zone is greater than that of the auxiliary positioning zone.

In one embodiment, the forehead positioning zone has a lower layout density of holes than the auxiliary positioning zone. The distance between two adjacent holes of the forehead positioning zone is greater than that of the auxiliary positioning zone. The diameter of the holes on the forehead positioning zone is smaller than that of the auxiliary positioning zone.

In one embodiment, the shoulder positioning zone has a lower layout density of holes than the auxiliary positioning zone.

The radiotherapy patient-positioning shell of the present invention has optimized structure and superior usability. The layout densities of different positioning zones of the radiotherapy patient-positioning shell are varied according to requirements of different regions of the human body. Thereby, different positioning zones will have different degrees of contraction and apply different intensities of fixing force to the related regions. Thus is promoted the comfort of the user and prolonged the service life of the radiotherapy patient-positioning shell without affecting the fixing force thereof.

DETAILED DESCRIPTION OF THE INVENTION

The radiotherapy patient-positioning shell of the present invention comprises a low-temperature thermoplastic board1where different positioning zones are established for different regions of the human body. Each positioning zone has holes2. Different positioning zones respectively have different layout densities of holes2. The layout densities of the holes2are varied with respect to the regions where the holes2exist. Thereby, different positioning zones will respectively contract to different extents and apply different fixing forces to the related body regions. Therefore, the present invention can guarantee the strength of the radiotherapy patient-positioning shell, simultaneously promoting the comfort of the person fixed by the positioning board and prolonging the service life of the radiotherapy patient-positioning shell.

Embodiment I

Refer toFIG. 1for Embodiment I. Embodiment I involves a triangular head positioning shell. In Embodiment I, the low-temperature thermoplastic board1has a face positioning zone3and a forehead positioning zone5in addition to an auxiliary positioning zone6.

Embodiment II

Refer toFIG. 2for Embodiment II. Embodiment II involves an S-type perforated head positioning shell. In Embodiment II, the low-temperature thermoplastic board1has a neck positioning zone4.

Embodiment III

In one preferred embodiment, the layout density of holes2of each one of the face positioning zone3and the neck positioning zone4is higher than that of the auxiliary positioning zone6.

In one preferred embodiment, the distance between two adjacent holes2of each one of the face positioning zone3and the neck positioning zone4is smaller than that of the auxiliary positioning zone6. The diameter of the holes2of each one of the face positioning zone3and the neck positioning zone4is greater than that of the auxiliary positioning zone6.

In one preferred embodiment, the layout density of holes2of the forehead positioning zone5is lower than that of the auxiliary positioning zone6. The distance between two adjacent holes2of the forehead positioning zone5is greater than that of the auxiliary positioning zone6. The diameter of the holes2of the forehead positioning zone5is smaller than that of the auxiliary positioning zone6.

In one preferred embodiment, the layout density of holes2of the shoulder positioning zone7is lower than that of the auxiliary positioning zone6.

The auxiliary positioning zone6of the low-temperature thermoplastic board1can provide basic fixing strength. As the face positioning zone3and the neck positioning zone4need to cover the nose, the mouth and the Adam's apple, the face positioning zone3and the neck positioning zone4should apply less constraint force to the abovementioned regions. Patient's comfort will be promoted by increasing the layout density of the holes2in the face positioning zone3and the neck positioning zone4, which can be realized via reducing the distance between two adjacent holes2and/or increasing the diameter of the holes2. As there are bones in the forehead and the shoulders, the forehead positioning zone5and the shoulder positioning zone7may apply slightly higher pressure to the forehead and the shoulder without affecting patient's comfort obviously. Decreasing the layout density of the holes2in the forehead positioning zone5and the shoulder positioning zone7will apply higher pressure to the forehead and the shoulder. Decreasing the layout density of the holes2in the forehead positioning zone5and the shoulder positioning zone7can be realized via increasing the distance between two adjacent holes2and/or decreasing the diameter of the holes2. According to requirement, ventilation holes8, which have a diameter greater than the holes2, may be formed on the nasal region of the face positioning zone3.