This application claims the benefit of DE 10 2010 023 033.2, filed Jun. 8, 2010.
The present embodiments relate to a medical table with a support board for supporting patients during medical examinations.
Medical tables may be used as patient support tables for supporting patients during medical examinations or during operative interventions. The patient support tables are known and used, for example, in connection with X-ray devices, computed tomography devices, magnetic resonance devices or angiography devices. In a computed tomography examination, the patient may be supported on a board that projects beyond the table (e.g., a height-adjustable table) and is adjustable in the longitudinal direction. The weight of the patient causes the support board to bend, which has an adverse effect on the precision of the imaging method demanded in radiation therapy. In order to adhere to the predetermined tolerance limits for the patient position, a known approach is to strengthen the support board. Such reinforcements additionally influence a beam path in an examination area in an X-ray system and thereby adversely affect the quality of the imaging method. Another option for increasing the stability of the board is modified mass distribution (e.g., profiling or hollow-design bars of the board). An uneven mass distribution within the board increases the danger of artifacts during image recording (e.g., with computed tomography imaging). The two approaches to solving the problem are associated with high development and manufacturing costs.
A medical table with a table plate and at least one measuring device is known from DE 10 2007 059 520. The at least one measuring device measures an undesired inclination of the table plate generated by a weight load or as a result of installation. The value of the measured inclination is used for automatic inclination compensation of the tabletop or to set a predefinable inclination of the tabletop. This compensates for the components of an undesired weight force causing the inclination.
The present embodiments may obviate one or more of the drawbacks or limitations in the related art. For example, a medical table, with which deformations caused by a weight load are measurable, may be specified.
The present embodiments provide a medical table with a support board, in which integrated measurement devices are arranged. The measurement devices may determine an expansion (e.g., distortion) of the support board caused by a weight load. In one embodiment, the measurement devices include carbon fibers. The advantage of the present embodiments is that, by determining the expansion of the support board, a simpler determination of deformation is possible.
In one embodiment, the medical table may include a deformation determination unit that determines, from the measured expansion, a precise deformation of the support board. This may enable a position of a patient supported on the support board to be determined. This helps achieve the imaging method precision for radiation therapy.
The deformation of the support board may be produced by an inclination or by a bending of the support board.
In one embodiment, an automatic inclination compensation may be determined from the determined deformation of the support board, or a setting of a predeterminable inclination of the support board may be determined. The advantage of this is that a precise horizontal alignment of the patient on the support board may be undertaken.
In one embodiment, the medical table may include a weight determination unit, via which the weight of the weight force is determined from the measured expansion of the support board. The determined weight of the weight force may be used within the framework of the diagnosis generation as well as in the subsequent therapy method.
A temperature of the support board may also be determined with the measurement devices.
In one embodiment, the medical table may include a temperature determination unit that determines a temperature of the weight load from the measured temperature of the support board. The temperature of the weight load may be used within the context of diagnosis generation as well as in the subsequent therapy method.
In one embodiment, the support board of the medical table may be heatable by the measurement devices. This may enable a comfortable temperature to be provided for a patient supported on the support board.
The measurement devices may include carbon fibers. Carbon fiber-based measurement devices achieve a transparency of the support board for electromagnetic radiation. The X-ray transparency of the support board is retained. The carbon fibers may also be used for heating the support board.
In one embodiment, the medical table may be used for X-ray devices, computed tomographs, magnetic resonance devices or angiography devices. The use of the medical table of the present embodiments contributes to achieving high accuracy in the imaging method.
Measurement devices 8 are integrated into the support board 2. The measurement devices 8 enable an expansion of the support board 2 caused by a weight load (not shown in
A deformation of the support board 2 is determined from the measured expansion via a deformation determination unit 9 arranged in the medical table 1. The bending may be, for example, compensated for by tilting the support board 2. With a corresponding plurality and arrangement of measurement devices 8 in the support board 2, deformations in other areas of the support board 2 may also be determined.
The weight of the weight load is determined via a weight determination unit 10 arranged in the medical table 1 from the measured expansion of the support board 2.
A temperature of the support board 2 may also be determined using the measurement devices 8 integrated into the support board 2. A temperature of the weight load is determined from the measured temperature of the support board 2 via a temperature determination unit 11 arranged in the medical table 1.
In one embodiment, the measurement devices 8 integrated into the support board 2 are suitable for heating the support board 2.
For temperature determination using carbon fiber-based measurement devices 8, one temperature may be measured per carbon fiber. This corresponds to an average of all temperatures along the fiber. By using a number of fibers and corresponding mathematical logical combination of the measured temperatures, the temperatures at different points along the support board 2 may be determined.
While the present invention has been described above by reference to various embodiments, it should be understood that many changes and modifications can be made to the described embodiments. It is therefore intended that the foregoing description be regarded as illustrative rather than limiting, and that it be understood that all equivalents and/or combinations of embodiments are intended to be included in this description.
Number | Date | Country | Kind |
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10 2010 023 033.2 | Jun 2010 | DE | national |