DE4226865A1 - Ultrasonic dermatological diagnosis arrangement - contains applicator with ultrasonic transducer and image display forming hand guided diagnostic unit - Google Patents

Abstract

The diagnosis arrangement contains an applicator (2) contg. an ultrasonic transducer arrangement for transmitting and receiving ultrasonic signals with an operating frequency of at least 20 MHz. An electronic signal processing unit (12) converts the signals generated by the ultrasonic transducer arrangement into image signals which are displayed on the screen (5) of an image display unit (4). The applicator and display unit form a diagnostic unit (6) which can be guided over the skin by hand. USE/ADVANTAGE - For examining skin tissue. The ultrasonic dermatological diagnostic unit is user friendly and compact.

Description

The invention relates to a device for examination of skin tissue.

Known B-picture devices of the medical ultrasound slide gnostics generally have operating frequencies in one Range from about 3 MHz to 10 MHz. So you can only Show structures that are larger than about 1 mm. For Investigations of surface tissue like human However, skin is a higher resolution in the area between 1 µm and 1 mm required. Since the dissolution of the Wel length of the ultrasound penetrating the tissue depends, for a better resolution a higher operating frequency of at least 20 MHz can be achieved. Soon decreases in time with a higher operating frequency also the depth of penetration. For dermatological sub however, penetration depths range from about 4 to 10 mm.

It is a high resolution ultrasound B imaging device with an operating frequency between 40 MHz and 100 MHz with which skin tissue can be made visible. For this purpose, a specially designed applicator is provided with an ultrasonic transducer element made of a piezoceramic or a piezoelectric polymer film, for example PVDF, for sending ultrasound signals and for receiving against the echo signals scattered by the tissue. The Appli  kator is compact with dimensions in the range of a few mm and is for frequencies between 40 MHz and 100 MHz designed. By lateral, i.e. H. in one direction perpendicular to the direction of propagation of the ultrasound pulses, Moving the transducer element in a range of 4 mm the tissue to be examined is mechanically scanned. The Ultra converted to electrical UHF signals Sound pulses are the first in evaluation electronics reinforced to compensate for the runtime of the Ultra sound pulse dependent damping, then logarithmic com primed and in an A / D converter to corresponding Video standard signals transferred. The so processed B-picture is displayed on a video monitor or in saved on a VCR. With this well-known System, five frames per second can be built up. The resolution is about 20 µm and the maximum on penetration depth of the ultrasonic pulses at approximately 4 mm ("IEEE- Ultrasonics Symposium 1991 ", pages 1161-1169).

It is also known a linear ultrasonic transducer array with about 100 transducer elements, the operating frequency is 100 MHz. The piezoelectric transducer elements have been produced photolithographically by wet chemical etching of a 10 µm thick ZnO film arranged on a sapphire substrate and are approximately 100 µm wide, approximately 6 mm long and separated by approximately 10 µm wide V-shaped trenches. The sensitivities of the individual transducer elements differ by a maximum of ± 1 dB and the crosstalk of the transducer elements to one another is limited to approximately -55 dB on average. Such a linear ultrasound transducer array is compact with dimensions between approximately 6 mm and 12 mm. The tissue is electronically scanned with this array line by line, the signal of a transducer element preferably being assigned to a pixel of the image ("Ultrasonics International 91 Conference Proceedings", pages 379-382).

The invention is based on the object for derma tological applications a user-friendly and com to provide a compact ultrasound diagnostic device.

This object is achieved with the Merkma len of claim 1. An applicator with an ultrasound transducer arrangement with an for examining skin tissue suitable operating frequency of at least 20 MHz and a Image display device with a screen are in one with hand-held diagnostic unit integrated. The the Un The person carrying out the examination thus has the skin tissue and the screen - as if you were looking at it through a magnifying glass - directly in the field of vision and can see the Appli Kator lead controlled, without the view between sub need to move the search field and monitor back and forth. It is also an electronic signal processing unit to convert the ge from the ultrasonic transducer assembly delivered electrical signals in on the screen of the Image display device representable B-image signals provided.

The signal processing unit is preferably in one Main device (main frame) arranged, which is connected via a cable Power supply and data transmission to the diagnosis unit is connected.  

In a preferred embodiment, the applica contains tor a linear ultrasonic transducer array. Such one linear ultrasound transducer array is off, for example "Ultrasonics International 1991 Conference Proceedings", Pages 379-382 known. This embodiment has the Advantage that the tissue is scanned electronically.

To further explain the invention, reference is made to the drawing, in the single figure of which an embodiment of a device for examining skin tissue according to the invention is shown schematically. There are an applicator with 2 , an image display device with 4 , its screen with 5 , a device composed of applicator 2 and image display 4 , a diagnostic unit with 6 , a cable with 8 , a main unit with 9 , its screen with 10 and a signal processing unit with Designated 12 .

In an advantageous embodiment, the applicator 2 contains a linear ultrasound transducer array (not shown) with an operating frequency of at least 20 MHz. Such a linear array can be realized, for example, by developing an array known from "Ultrasonics International 91 Conference Proceedings", pages 379-382, by adapting the widths and spacing of the transducer elements accordingly. For an operating frequency of 30 MHz, for example, the linear ultrasonic transducer array has a dimension in its longitudinal direction of approximately 20 mm. Typical values for the resolution are lateral, ie in a plane perpendicular to the direction of propagation of the ultrasound, less than 0.5 mm and axial, ie in the direction of propagation of the ultrasound, less than 0.1 mm.

In a further embodiment, an applicator is included a laterally displaceable ultrasonic transducer element intended. Such an applicator is, for example, out of "IEEE Ultrasonics Symposium" 1991, pages 1161-1169 known. The tissue is then scanned mechanically.

The image display device 4 is placed on the applicator 2 such that the screen 5 of the image display device 4 lies directly in the field of view of the person examining the skin tissue.

In a special embodiment, the image display device 4 can be removed from the applicator 2 . A plug connection is then preferably provided for the electrical connection of the image display device 4 to the applicator 2 .

The diagnostic unit 6 is supplied with electrical energy via the cable 8 from the main device 9 .

On the screen 5 , a B-image of the skin tissue electronically scanned by the linear transducer array is shown. The signal processing required for this is carried out by the signal processing unit 12 , which is preferably arranged in the main unit 9 because of the space requirement and the heat loss that have previously been known electronics components. For this purpose, the UHF signals supplied by the array and the image signals processed in the signal processing unit 12 are transmitted via the cable 8 from the diagnostic unit 6 to the main unit 9 or vice versa. The signal processing unit can also be integrated in the diagnostic unit.

Each transducer element of the linear array provides an ultrasound image signal. The number of lines of the electronically scanned B-image therefore corresponds to the number of transducer elements of the linear ultrasound transducer array. The number of columns depends on the temporal resolution of the transit time of the ultrasound pulses in the tissue and thus on the axial resolution. With a typical number of 100 transducer elements, a penetration depth of 5 mm and an axial resolution of 0.05 mm, the original B-image consists, for example, of a maximum of 100 × 100 pixels. The image section of the examined tissue is then approximately 20 × 5 mm ² with an array length of 20 mm.

This originally scanned B-image is now converted into an image visible on the screen 5 . For this purpose, the signal processing unit 12 comprises a converter which converts the processed UHF-B image signals into an image standard 4 compatible with the image display device. For example, the entire image can be displayed on a 1: 2 scale in the line format and 1: 4 in the column format with 200 × 200 pixels on an approximately 40 × 40 mm ² screen 5 , or only sections of the image. The format of the image and the number of pixels can be adapted to the requirements.

In an advantageous embodiment, a video converter is provided which converts the B-picture signals into video standard. A video image is then displayed on the screen 5 and the image display device 4 is a small video deomonitor. The video image may be integrated 9 also be stored in a Videorekor, which preferably falls in the main or panel 10 of the main unit are displayed 9 on the additional image.

The signal processing unit 12 can also contain means for image manipulation (post-processing) such as for example for edge or contrast enhancement or for smoothing the image.

The screen 5 of the image display device 4 is preferably designed as a flat screen. The image display device 4 can also be a cathode ray monitor.

There can also be interfaces for connection to known ones Ultrasound B imaging devices may be provided.

Claims (9)

1. Device for examining skin tissue with the following features:

• a) an applicator ( 2 ) is provided which contains an ultrasound transducer arrangement for transmitting and receiving ultrasound signals with an operating frequency of at least 20 MHz;
• b) there is an electronic signal processing unit ( 12 ) for converting the signals supplied by the ultrasonic transducer arrangement into B-image signals;
• c) there is an image display device ( 4 ) with a screen ( 5 ) for displaying these B-image signals, which, together with the applicator ( 2 ), forms a diagnostic unit ( 6 ) that can be passed over the skin tissue by hand.

2. Device according to claim 1, characterized ge indicates that as an ultrasonic transducer order a laterally movable transducer element to the mecha African scanning of the skin tissue is provided. 3. Device according to claim 1, characterized ge indicates that as an ultrasonic transducer order a linear ultrasonic transducer array for elec tronic palpation of the skin tissue is provided. 4. Device according to one of claims 1 to 3, characterized in that a Katho denstrahlmonitor is provided as an image display device ( 4 ). 5. Device according to one of claims 1 to 3, characterized in that a flat screen is provided as a screen ( 5 ) of the image display device ( 4 ). 6. Device according to one of claims 1 to 5, characterized in that the diagnosis unit ( 6 ) via a cable ( 8 ) is connected to a main unit ( 9 ). 7. Device according to one of claims 1 to 6, characterized in that the signal processing unit ( 12 ) in the main unit ( 9 ) is integrated. 8. Device according to one of claims 1 to 6, characterized in that the signal processing unit ( 12 ) is integrated in the diagnostic unit ( 6 ). 9. Device according to one of the preceding claims, characterized in that the image display device ( 4 ) and the applicator ( 2 ) are releasably connected ver.