JP2003010184A - Attachment for ultrasonograph - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an attachment for an ultrasonograph, enabling measurement for a subject still in the seated state by interposing an ultrasonic medium between a probe and an eyeball in observing a tomographic image of the eyeball by an immersion method using the ultrasonograph capable of displaying the tomographic image of the eyeball by ultrasonic waves. SOLUTION: This attachment for the ultrasonograph is shaped like a cup so that the tip of the probe for the ultrasonograph (hereinafter referred to as probe) can be inserted and it is so constructed that liquid, or a liquid-like or gel-like ultrasonic medium 5 is sealed between the tip of the probe and the attachment for the ultrasonograph, and a concave-like enclosure for filling the gel-like ultrasonic medium 4 is provided between the eyeball and the attachment for the ultrasonograph, whereby in measurement, the space from the tip of the probe to the eyeball of the subject is filled up with the ultrasonic medium so that the subject can be measured in the seated state.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention observes a tomographic image of an eye by a water immersion method or an immersion method in a probe of an ultrasonic diagnostic apparatus capable of observing a tomographic image of the eye. At this time, the present invention relates to an attachment for an ultrasonic diagnostic apparatus, which is used for filling a gap between an eyeball and a tip of a probe with an ultrasonic medium.

[0002]

2. Description of the Related Art As one of methods for diagnosing eye disease symptoms, an ultrasonic diagnostic apparatus is used to observe a tomographic image of the eye. In particular, in order to observe a tomographic image of the eyeball including the surface layer portion, it is necessary to separate the probe from the eyeball to some extent. Therefore, the water immersion method or the immersion method is used. When observing a tomographic image of the eyeball by a water immersion method or an immersion method, the subject is placed in a supine position and, as shown in FIG. 2, a liquid, a liquid state, or a gel state on the eyeball (3). Eye cup (7) for storing the ultrasonic medium (6)
Set up and pour the ultrasonic medium into it. After that, the measurement is performed while the tip of the probe (1) is submerged in the medium in the eyecup (7), and the tomographic image of the eyeball is observed.

However, when the water immersion method or the immersion method is used, it is necessary to fill the gap from the tip of the probe to the eyeball with a liquid or a liquid or gel-like ultrasonic medium as described above. With the conventional eyecup, it is necessary to carry out the measurement with the subject lying on his back so that the ultrasonic medium does not spill out.

As a simple water immersion method, there is a soft water bag method in which a liquid ultrasonic medium is enclosed in a balloon-shaped package and held between the tip of a probe and an eyeball for measurement. However, since the balloon-shaped package comes into contact with the eyeball without directly contacting the ultrasonic medium, when the tomographic image near the cornea is observed, the tomographic image of the balloon-shaped package is also observed. Therefore, the soft water bag method is not suitable for observing a tomographic image near the surface layer.

SUMMARY OF THE INVENTION The present invention uses an ultrasonic diagnostic apparatus to observe a liquid between a probe and an eyeball when observing a tomographic image of the eyeball by a water immersion method or an immersion method.
Alternatively, it is possible to provide an attachment for an ultrasonic diagnostic apparatus for easily performing a measurement in a sitting position without placing the subject in a supine position while interposing a liquid or gel ultrasonic medium. Has an aim.

Further, the attachment for ultrasonic diagnostic equipment having a cup-shaped structure has a liquid or liquid or gel ultrasonic medium interposed between the tip of the probe and the attachment for ultrasonic diagnostic equipment. When the probe is installed at the tip of the probe in this state, multiple echoes are generated at the time of measurement due to the bottom surface of the cup-shaped ultrasonic diagnostic apparatus attachment. Therefore, another object of the present invention is to provide an attachment for an ultrasonic diagnostic apparatus having a structure for reducing this multiple echo.

Further, the ultrasonic wave oscillated from the probe has a directivity, and the tip shape of the probe has a shape capable of discriminating the directivity of the ultrasonic wave. Therefore, when the attachment for the ultrasonic diagnostic apparatus is attached to the tip of the probe, there is a possibility that the conduction of the ultrasonic waves may be partially obstructed depending on the attachment method. In order to prevent this, it is an object of the present invention to provide an attachment for an ultrasonic diagnostic apparatus having a structure that can be easily attached.

An attachment for an ultrasonic diagnostic apparatus according to the present invention for achieving the above object has a cup-like shape into which the tip of a probe can be inserted, and is attached to the tip of the probe. It has a structure that encloses a liquid or liquid or gel ultrasonic medium between the ultrasonic diagnostic device attachment and fills the gel ultrasonic medium between the eyeball and the ultrasonic diagnostic device attachment. By having a concave-shaped enclosure for the measurement, a liquid or liquid-like or gel-like super-space between the tip of the probe, which is kept horizontal, and the eyeball of the subject in the sitting position, is used during measurement. It is possible to fill with a sonic medium, and the gist is that the measurement can be easily performed while the subject is sitting.

By using an elastic body such as silicon rubber as the material of the attachment for the ultrasonic diagnostic apparatus,
Since the side surface of the probe and the attachment for the ultrasonic diagnostic apparatus are firmly adhered to each other, the sealing property of the ultrasonic medium enclosed between the tip of the probe and the attachment for the ultrasonic diagnostic apparatus is improved, and the ultrasonic diagnostic apparatus is detected from the tip of the probe. The ultrasonic medium can be reliably interposed between the attachments for use.

Further, by providing an angle on the bottom surface of the cup-shaped attachment for ultrasonic diagnostic apparatus, it becomes possible to prevent the reflected wave of the measurement ultrasonic wave generated on the bottom surface from returning to the tip of the probe. , Multiple echoes are reduced.

Also, a marker for indicating the mounting position is
It is installed on both the probe and the ultrasonic diagnostic device attachment, and when the ultrasonic diagnostic device attachment is attached to the tip of the probe, the ultrasonic diagnostic device attachment position with respect to the probe can be fitted by aligning with the marker. The relationship can be uniquely determined.

Further, the shape of the attachment surface of the ultrasonic diagnostic apparatus for fitting with the probe is made to conform to the shape of the tip of the probe, and when the ultrasonic diagnostic apparatus attachment is attached to the probe distal end, ultrasonic waves are applied. By attaching the fitting surface shape of the attachment for the diagnostic apparatus and the tip shape of the probe so as to match each other, the positional relationship of the attachment for the ultrasonic diagnostic apparatus with respect to the probe can be uniquely determined.

The attachment for the ultrasonic diagnostic apparatus having the above-described structure is provided between the probe and the eyeball when observing a tomographic image of the eyeball by the water immersion method or the immersion method using the ultrasonic diagnostic apparatus. This makes it possible to easily perform measurement in a sitting position without placing the subject in a supine position with the sound wave medium interposed.

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of an attachment for an ultrasonic diagnostic apparatus of the present invention will be described below with reference to the drawings.

In FIG. 1, a tip of a probe 1 is inserted into an attachment 2 for an ultrasonic diagnostic apparatus, and a liquid, a liquid state, or a space between the tip of the probe 1 and the attachment 2 for an ultrasonic diagnostic apparatus, or The gel ultrasonic medium 5 is enclosed. Furthermore, a gel-like ultrasonic medium 4 is filled in a concave enclosure provided between the ultrasonic diagnostic apparatus attachment 2 and the eyeball 3, and the ultrasonic medium 4 is brought into close contact with the eyeball 3 so that the probe can be used at the time of measurement. Even if 1 is horizontal, the liquid or liquid or gel ultrasonic medium (4, 5) is always interposed between the probe 1 and the eyeball 3, and the subject can be measured in a sitting position. It will be possible.

1 and 3, by using a stretchable material for the ultrasonic diagnostic apparatus attachment 8, the sealability between the side surface of the probe 1 and the ultrasonic diagnostic apparatus attachment 8 is improved. However, the liquid, or liquid-like or gel-like ultrasonic medium 5 can be reliably sealed between the tip of the probe 1 and the ultrasonic diagnostic apparatus attachment 8.

In FIGS. 4 and 5, the concave enclosure of the ultrasonic diagnostic apparatus attachment 9 provided for filling the gel ultrasonic medium 4 between the eyeball 3 and the ultrasonic diagnostic apparatus attachment 9. On the other hand, by forming the surface on the eyeball side into the concave shape 10, the adhesiveness of the gel ultrasonic medium 4 to the eyeball 3 is improved.

In FIG. 6, the attachment surface of the ultrasonic diagnostic apparatus attachment 11 with the probe 1 is formed along the shape of the tip of the probe 1, so that the ultrasonic diagnostic apparatus attachment 11 and the probe 1 are connected. It is possible to uniquely determine the positional relationship of.

In FIG. 7, a marker 13 indicating the attachment position on the attachment 14 for the ultrasonic diagnostic apparatus and the probe 14.
The position of the ultrasonic diagnostic device attachment 12 and the probe 14 can be uniquely determined by fitting the ultrasonic diagnostic device attachment 12 and the probe 14 in accordance with the marker 13. it can.

[0016]

As is apparent from the above description, the attachment for the ultrasonic diagnostic apparatus, which has the structure according to the present invention, is capable of forming a tomographic image of the eyeball by the water immersion method or the immersion method using the ultrasonic diagnostic apparatus. Allows the subject to be measured in a sitting position during observation.

[Brief description of drawings]

FIG. 1 is a diagram showing a structure of an attachment for an ultrasonic diagnostic apparatus as one embodiment of the present invention and a usage pattern thereof.

FIG. 2 is a diagram showing an example of a method of performing measurement by an ultrasonic diagnostic apparatus according to a conventional water immersion method.

FIG. 3 is a diagram showing a structure of an attachment for an ultrasonic diagnostic apparatus as an embodiment of the present invention.

FIG. 4 is a diagram showing a structure of an attachment for an ultrasonic diagnostic apparatus as an embodiment of the present invention.

FIG. 5 is a view showing a structure of an attachment for an ultrasonic diagnostic apparatus as one embodiment of the present invention and a usage pattern thereof.

FIG. 6 is a diagram showing a structure of an attachment for an ultrasonic diagnostic apparatus as an embodiment of the present invention.

FIG. 7 is a diagram showing a structure of an attachment for an ultrasonic diagnostic apparatus as an embodiment of the present invention.

[Explanation of symbols]

1 Probe Body 2 Ultrasonic Diagnostic Device Attachment 3 Eyeball 4 Gel Ultrasonic Medium 5 Liquid or Liquid or Gel Ultrasonic Medium 6 Ultrasonic Medium 7 Eyecup 8 Ultrasonic Diagnostic Device Attachment 9 Ultrasonic Diagnostic device attachment 10 Concave shape structure of the eyeball side in the concave enclosure of the ultrasonic diagnostic device attachment 11 Ultrasonic diagnostic device attachment 12 Marker 13 provided ultrasonic diagnostic device attachment 13 mounting position Marker 14 Probe body provided with marker 13

Claims (5)

[Claims] 1. An ultrasonic diagnostic apparatus capable of displaying a tomographic image of an eyeball by using ultrasonic waves, when observing a tomographic image of the eyeball by a water immersion method or an immersion method. Ultrasound which enables observation while a person is sitting in a sitting position with a liquid or liquid or gel ultrasonic medium (4, 5) interposed between the probe and the eyeball. Attachment for diagnostic equipment. 2. The ultrasonic medium according to claim 1, which has a cup-like shape into which a probe can be inserted, and is provided in a gap between a tip of the probe and an attachment for an ultrasonic diagnostic apparatus, or a liquid-like or gel-like ultrasonic medium ( Attachment for ultrasonic diagnostic equipment that has a structure for enclosing 5). 3. The ultrasonic diagnostic apparatus according to claim 1, further comprising a concave enclosure for filling a gel ultrasonic medium (4) between the eyeball and the ultrasonic diagnostic apparatus attachment. Attachment for. 4. The attachment for an ultrasonic diagnostic apparatus according to claim 2, wherein the cup-shaped bottom surface has an angle with respect to the ultrasonic oscillation surface of the probe. 5. The probe according to claim 2, wherein the tip of the probe is
An ultrasonic diagnostic apparatus attachment having a structure in which a mounting position of the ultrasonic diagnostic apparatus attachment with respect to a shape of a probe is uniquely determined when the ultrasonic diagnostic apparatus attachment is mounted.