FI117744B - Mammography apparatus for progressively detecting breast cancer - Google Patents

Description

:: 117744

Mammography Equipment for Advanced Detection of Breast Cancer Mammography Parameters for Advanced Progression Upptäcka Bröstcancer

Field of the Invention 5

The present invention relates to a method and mammography apparatus for the advanced detection of breast cancer.

For example, Western lifestyles (fatty diets, etc.) 10 have contributed to the increasing prevalence of breast cancer in women. In the United States alone, for example, in 2000 about 180,000 new cases of breast cancer were diagnosed, and about 41,000 patients died of breast cancer. Because of the serious nature of the disease, early detection of breast cancer in many countries is receiving considerable attention. Such detection is accomplished by mammographic laws-15.

Background of the Invention

Prior art mammographic X-ray imaging generates three-dimensional X-ray imaging information by irradiating the breast with X-ray source radiation received by a detector. The x-rays received by the detector are converted into x-ray image information, which consists of a collection of rays representing the transmitted and received x-rays by the detector. The X-ray image information also includes information on the • ·: **. ♦ 25 x-ray attenuation in the subject. This kind of x-ray image format can be used to create three-dimensional x-ray image information of the prior art. The disadvantage of this X-ray image information is the poor contrast between healthy and diseased tissue.

• · ♦: '• · · • · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · electrodes that transmit electrical current to the breast tissue. The electrodes also • · measure the voltages formed in said breast current in said breast current to generate three-dimensional impedance tomographic information from the breast tissue.

• · '···' The disadvantage of this impedance tomographic information is poor position resolution.

2 117744

The invention relates to a solution for the advanced detection of breast cancer. This is achieved by a method for performing a mammographic examination in which the breast is compressed to remain in a substantially static position for the purpose of description 5.

The method is characterized by the features set forth in the characterizing part of claim 1.

The invention also relates to a mammography apparatus comprising compression means for compressing the breast to remain in a substantially static position during imaging. The mammography apparatus according to the invention is characterized by the features set forth in the characterizing part of claim 6.

The invention is based on performing, in the same mammographic imaging event, both an X-ray imaging to generate three-dimensional X-ray imaging information from the breast and an impedance tomography-based measurement to generate three-dimensional impedance tomographic information from the breast. The three-dimensional X-ray image information and the three-dimensional impedance tomo-graphic information are combined to form more complete three-dimensional information about the breast.

• IM

• · · • · • · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · | The solution according to the invention achieves a good resolution and good contrast between:: · · · · · · · · · · · · · · · · · · · · · · · · · · · Healthy and diseased tissue;

• · • · · * · • «• 1«

BRIEF DESCRIPTION OF THE FIGURES * • ♦ 1 • · · · · ·

Figure 1 illustrates an embodiment of a preferred embodiment of the invention.

♦ ·· 30 • · ♦ • · ·. ·· 1. Figure 2 shows an electrode arrangement according to a preferred embodiment of the invention.

• ♦ • 1 1 9 2 • · ·

Fig. 3 shows a rotating x-ray tube head for different imaging positions.

3 1 1 7744

DETAILED DESCRIPTION OF THE INVENTION

Figure 1 illustrates a mammography apparatus 5 in accordance with a preferred embodiment of the invention comprising, for example, a C-shaped bracket 100, 102, 104 having an x-ray tube 106 and a detector 109 attached to opposing legs 100, 104. for collimating. The bracket has a movable compression plate 114 for compressing the breast, which is in communication with the press 116. The press produces a force transmitted through the press plate to press the breast. The compression plate presses the chest against the detector surface to achieve a sufficiently static position. This static position is one of the prerequisites for good X-ray image quality. Instead of a single press plate, the press means comprising the mammography apparatus may comprise, for example, two press plates, between which the chest is pressed either by moving both press plates or by moving only one press plate.

The bracket is pivotable to be pivoted substantially parallel to the legs 100, 104 and substantially perpendicular! a connecting member 102 about a fixed shaft 118 attached thereto. The shaft 118, in turn, is attached to the movable slider 122 in the upright post 120, thereby providing a height adjustment of the mammography device.

The chest is pressed against the detector surface 108 by a compression plate 114 and the chest reaches a sufficient static position. In this sufficiently static position, the chest is irradiated by X-ray radiation generated by X-ray source 110. Breast transmitted x-rays are received by detector 109. The received x-rays are used to process the x-ray imaging information of the breast tissue with a processing unit 124 * · · comprising a mammography apparatus.

• * · 30 • · · · · ·

For example, it may be interpreted that the x-ray received by each pixel of detector 109 represents direct, and thus the received x-rays received by all pixels represent a collection of direct. Receiving pixels in X-ray • · • · • · * ...

4 117744 discloses X-ray attenuation in breast tissue at various pixels. This can be represented by the following formula: L i "5 where L = a collection of direct f (x) = X-ray attenuation coefficient Utilizing said direct information and attenuation information, processing unit 124 generates three-dimensional X-ray image information of the breast tissue.

In the next step, electrical energy is transmitted to the breast tissue. The electrical energy may be energy in the form of an electric current or an electrical voltage or electrical energy in the electromagnetic form. The electrical source 127 is a power supply or a voltage source. Electrical energy can also be induced in breast tissue via coils.

In a preferred embodiment of the invention, electrodes 128 20 or the like are applied to the surface of the breast, by means of which electrical current is transmitted to the breast tissue. In a preferred embodiment, the electrodes may be fixed to the surface of the detector 109 and the surface of the press plate 114, and be positioned parallel to the surface by pressing the · · · · * · * chest against the surface of the detector. Fig. 2 shows a grid-shaped electrode implementation 200 according to a preferred embodiment of the invention, which may be mounted on both the detector surface and the pressure plate surface.

* * * · · * * • · * * ·.

Other electrode implementations 200 and electrode 128 can be placed parallel to the surface. For example, the mammography apparatus may comprise two types of t * · "* · electrodes. The first electrodes provide electrical current to the breast tissue by a power source 127 provided by the mammography apparatus, and the second electrodes provide a voltage measurement of the breast tissue. Voltage meter 126. comprising a mammography apparatus. More particularly, in this measurement, a given electrode configuration measures voltage patterns corresponding to current patterns. The electrode implementation may also be implemented such that the same s 117744 electrodes are used for both transmitting electric current and for measuring electrical voltage. Taking advantage of the measurement results obtained, a processing unit 124 comprising mammography equipment generates three-dimensional impedance tomographic information of the breast tissue.

Electrical energy may also be induced in breast tissue via coils 126. The measurement of the induced electrical energy can be performed, for example, by means of a coil or electrodes. When using coils, it is essential that the coils do not necessarily have to be in contact with the breast. Otherwise, the solution of the invention may be implemented as described in connection with the electrode implementations.

It is also possible to implement the solution according to the invention by applying electrical voltage to the breast tissue and measuring the electric current. Utilizing the measurement result of the current measurement, three-dimensional impedance tomographic information of the breast tissue is generated.

The processing unit 124 comprising the mammography apparatus combines three-dimensional X-ray imaging information and three-dimensional impedance tomography information to form more complete three-dimensional information about the breast tissue.

·· · * · · ♦ · ***. The processing unit 124 comprising the mammography hardware is one or more processor implementations according to the prior art, such as one or more computer units. The processing unit may also be located in connection with the mammography equipment • ·: * ·, · 25 such that the physical distance is significant, i.e. the processing unit may be located, for example, in a different room than the other mammography equipment. The connecting factor may then be a wired, wireless, or data transfer: · *; physically, for example, on a floppy disk between other mammography equipment and the processing unit • · · j ·· *.

The three-dimensional X-ray image information can also be generated as follows:

* I

] · 'X-rays of at least two different angles of the suspicious chest are obtained. For example, a digital size field detector may be used as a detector 109. On the basis of said X-rays, a three-dimensional information is formed, which is preferably formed as xyz coordinate information. Figure 3 shows an X-ray tube head 106 which can be rotated to different imaging positions 300, 302 for use in X-ray imaging.

Three-dimensional X-ray imaging information of the breast can also be generated by the TACT technique (Tuned Aperture Computed Tomography) disclosed, for example, in U.S. Pat. In this technique, three-dimensional X-ray image information is generated from the chest based on a reference point and X-rays taken from different angles, for example seven angles.

The solution of the invention described above can also be implemented in the order that three-dimensional impedance tomographic information is first generated, followed by three-dimensional X-ray image information. It is also not excluded that said things are performed partially or completely simultaneously or overlapping.

More detailed technical embodiments than those set forth above are not shown, since they can be implemented in hardware, electronically and programmed ways according to known art.

• M ···· · 1 2 3'1 · Although the invention has been described above with reference to the accompanying drawings and description, the invention is not limited thereto, but may be modified by the patent. ·, · To the extent permitted by the requirements.

«: 25 • · · • m · ♦ 1 • • • · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · to · Contacts 61 · * · · · • »« «·· • · 2 • · · • • • 3

Claims (16)

1. A method for performing a mammographic examination, in which the method compresses the breast to be poured into a substantially static position during photography, characterized in that - the breast is irradiated with x-rays from at least two different directions, - from at least two different directions radiated X-ray radiation is received to generate three-dimensional X-ray image information of the breast tissue; 10. til the breast tissue transmits electrical energy; - the electrical energy in the tissue is measured to generate three-dimensional impedance tomographic information on the breast tissue, and - the three-dimensional X-ray imaging information and the three-dimensional impedance tomographic information are combined to detect suspected points in the breast tissue. Method according to claim 1, characterized in that electrodes (128) are applied to the surface of the breast, through which electrical current is transmitted to the breast tissue as electrical energy. 20 The method according to claim 1, characterized in that electrodes (128) are applied to the surface of the breast, through which electrical voltage is measured as electrical energy from the breast tissue as electrical energy. * · • · * · • «· • · 25 4. A method according to claim 1, characterized in that the breast tissue is added to the breast tissue. transmitted as electrical energy electric Current as a coil application (126). The method according to claim 1, characterized in that from the breast tissue • * ·: ***: is measured as electrical energy electrical voltages by means of a coil supply V, suitable (126). • · · * · * ·· • · ... 6. Mammography apparatus comprising press means (114) for compressing the breasts to be poured into a substantially static position during the photograph, characterized in that the 11 1 1 7744 mammography apparatus comprises : - at least one X-ray source (110) for irradiating the chest from at least two different directions; - transmitting electrical energy to the breast tissue; - an electrical meter (126) for measuring electrical energy from the breast tissue to generate three-dimensional impedance tomographic information; and is generated and with what processing sequence said x-ray information and said impedance tomographic information are combined to generate three-dimensional breast tissue information to detect suspected points in the breast tissue. 15 Mammography apparatus according to claim 6, characterized in that the electrical energy is electric current. Mammography apparatus according to claim 6, characterized in that the electrical energy is electrical voltage. · »·» Wed Mammography apparatus according to claim 6, characterized in that the mammalian apparatus comprises, as an electrical source (127), a power source by which • in the electrical energy to be transmitted to the breast tissue is generated as electric current. • ·: 25 • · Mammography apparatus according to claim 6, characterized in that the mammography apparatus comprises as an electrical source (127) a voltage source by which: the electrical energy to be transmitted to the breast tissue is generated as an electrical voltage. accession. • «· 30» «* • · ·. ···. Mammography apparatus according to Claim 6, characterized in that the mammography apparatus comprises electrodes (128) applied to the surface of the breast to transfer electrical energy to the breast tissue. • · • · • · · 12 1 1 7744 Mammography apparatus according to claim 6, characterized in that the mammography apparatus comprises a coil application (128) for transferring electrical energy to the breast tissue. Mammography apparatus according to claim 6, characterized in that the mammography apparatus comprises electrodes (128) applied to the surface of the breast to measure electrical energy from the breast tissue. Mammography apparatus according to claim 6, characterized in that the mammography apparatus comprises a coil application (128) for measuring electrical energy from the breast tissue. Mammography apparatus according to claim 6, characterized in that the mammography apparatus comprises as an electric meter (126) a voltmeter. 15 Mammography apparatus according to claim 6, characterized in that the mammography apparatus comprises as an electrical meter (126) an ammeter. 20 · »« • ·· • · • · • · · ·· «• · · ♦ ♦« «··· .. • m * · • · • · · · ·· • · • · t • · • · • · · • · ♦ t 1 »· 1 · • · · I» • · * · · • · • · • • »4 * 1 * · · · • 1 • · · • · 4 · · • · · • · · • · • · 1