JP7434777B2 - liquid injection port - Google Patents

Description

FIELD OF THE INVENTION The present invention relates to liquid injection ports.

BACKGROUND OF THE INVENTION Liquid injection ports that are implanted into the body are known. The liquid injection port has a liquid reservoir inside that temporarily stores liquid supplied from outside the body. When a puncture needle for liquid supply is inserted into the liquid pool from outside the body and liquid is supplied to the liquid pool, the liquid is guided to the catheter via the liquid introduction connector, and is supplied from the catheter to the desired location in the body. .

US Pat. No. 5,001,000 describes a liquid injection port (access port of the same document) that is constructed of metal and has distinguishable features that are visible in X-rays.

Special Publication No. 2008-531226

Because fluid injection ports are left in the body for long periods of time, it is difficult to obtain information related to the fluid injection port directly from the fluid injection port, and even when using X-rays, There have been challenges in easily obtaining information related to liquid injection ports, such as only limited information being available.

The present invention has been made in view of the above problems, and provides a liquid injection port that allows information to be acquired from the liquid injection port even when X-rays are not used.

The present invention is a liquid injection port that is placed in a state of being implanted in the body,
a liquid reservoir for temporarily storing liquid supplied from outside the body;
a liquid introduction connector that communicates with the liquid reservoir and is connected to the catheter;
an information storage unit that stores and holds information related to the liquid injection port so as to be readable by an external reading device;
a cover member forming an outer shell of the liquid injection port;
Equipped with
The cover member has a marking section that displays at least one of letters, marks, or figures related to the liquid injection port,
The marking portion is formed in a projecting portion horizontally projecting outward from a portion of the cover member that is the outer shell of the liquid injection port,
The cover member includes a first cover and a second cover that are assembled to each other,
The overhang portion is configured by a first overhang portion that is a part of the first cover and a second overhang portion that is a part of the second cover,
The first overhang and the second overhang are arranged one above the other,
Provided is a liquid injection port in which the first projecting part located on the upper side of the first projecting part and the second projecting part constitutes a display body indicating display contents of the display part. It is.

According to the present invention, it is possible to obtain information from the liquid injection port even when X-rays are not used.

FIG. 2 is a perspective view of a liquid injection port according to the first embodiment. FIG. 3 is a side sectional view of the liquid injection port according to the first embodiment. FIG. 3 is a diagram showing a block configuration of a liquid injection port according to the first embodiment. FIG. 3 is a diagram showing an example of information stored and held in an information storage section of the liquid injection port according to the first embodiment. FIG. 3 is a schematic diagram showing the operation of the liquid injection port according to the first embodiment. FIG. 7 is a perspective view of a liquid injection port according to a second embodiment. FIG. 7 is a plan view of a liquid injection port according to a second embodiment. FIG. 7 is a side sectional view of a liquid injection port according to a second embodiment. FIG. 7 is a front sectional view of a liquid injection port according to a second embodiment. FIG. 10(a) is a diagram for explaining the marking section in the second embodiment, and FIG. 10(b) and FIG. 10(c) are diagrams for explaining other examples of the marking section. FIG. 7 is a perspective view of a liquid injection port according to a third embodiment. FIG. 7 is a perspective view of a liquid injection port according to a fourth embodiment. FIG. 7 is a cross-sectional view of a liquid injection port according to a fourth embodiment. It is a sectional view of the liquid injection port concerning a 5th embodiment.

Embodiments of the present invention will be described below with reference to the drawings. In addition, in all the drawings, the same reference numerals are given to the same components, and the explanation is omitted as appropriate.

[First embodiment]
First, a first embodiment will be described using FIGS. 1 to 5.
The liquid injection port 100 according to the present embodiment is a liquid injection port 100 that is implanted and left in the body, and includes a liquid reservoir 50 (FIG. 2) that temporarily stores liquid supplied from outside the body. , a liquid introduction connector (connector part 36 in FIG. 2) communicating with the liquid reservoir 50 and connected to a catheter (not shown), and the liquid injection port readable by an external reading device 200 (FIG. 5). and an information storage unit 88 (FIG. 3) that stores and holds information related to 100.
According to this embodiment, the reading device 200 can read information from the information storage section 88 of the liquid injection port 100. Therefore, it is possible to obtain information from the liquid injection port 100 even when X-rays are not used.

As shown in FIG. 1 or 2, the liquid injection port 100 includes a housing portion 10, a liquid reservoir portion 50, a connector portion 36, a plurality of rigid frames (an upper frame 60 and a lower frame 70), and a diaphragm portion 20. It is equipped with.
The liquid reservoir part 50 is included in the housing part 10. The liquid reservoir 50 has an opening 56 and stores liquid.
The connector portion 36 communicates with the outside of the housing portion 10 from the liquid reservoir portion 50 .
The upper frame 60 and the lower frame 70 have higher rigidity than the housing part 10, and are combined with each other to form an annular frame.
The diaphragm portion 20 is made of an elastic body. The diaphragm portion 20 is pushed into the frame and covers the opening 56.

The plurality of rigid frames include an annular upper frame 60 located above and an annular lower frame 70 located below.
Here, the upper and lower sides refer to the top side (upper side in FIG. 2) and the bottom side (lower side in FIG. 2) of the liquid injection port 100. Furthermore, when viewed from above or below, an annular shape is defined as a shape that surrounds a certain area (circle, square, etc.), or a shape that surrounds a certain area with a part of its outline missing (C-shape). or U-shape, etc.).
The upper frame 60 has a cylindrical portion formed in a cylindrical shape with a small dimension in the axial direction (vertical dimension), and an inner flange portion that projects inward from the upper end of the cylindrical portion.
The lower frame 70 has a cylindrical portion formed in a cylindrical shape with a small dimension in the axial direction (vertical dimension), and an inner flange portion projecting inward from the lower end of the cylindrical portion.
For example, the inner diameter of the cylindrical portion of the upper frame 60 and the outer diameter of the cylindrical portion of the lower frame 70 are set to be equal to each other, and the cylindrical portion of the lower frame 70 is placed within the cylindrical portion of the upper frame 60. It is embedded.
The inner flange portion of the upper frame 60 and the inner flange portion of the lower frame 70 are opposed to each other. The inner flange portion of the upper frame 60 and the inner flange portion of the lower frame 70 sandwich the diaphragm portion 20 from above and below, thereby applying a pressing force to the diaphragm portion 20 .
Upper frame 60 and lower frame 70 are preferably formed from a highly rigid material. Examples of the material include metals such as titanium and stainless steel. Note that the upper frame 60 and the lower frame 70 are not limited to being made of a single material, but may be made of multiple types of materials.
In this embodiment, the annular frame into which the diaphragm 20 is press-fitted is composed of two rigid frames, an upper frame 60 and a lower frame 70, and applies a pressing force to the diaphragm 20 from above and below. , this aspect is just an example, and is not necessarily limited to this aspect. For example, an annular frame may be configured with three or more rigid frames, or a plurality of arc-shaped rigid frames may be combined to apply a pressing force from the side.

For example, the inner diameter of the inner flange of the upper frame 60 is equal to the inner diameter of the inner flange of the lower frame 70. Thereby, when a puncture needle (not shown) is inserted into the diaphragm portion 20, collision of the puncture needle against the inner flange portion of the lower frame 70 can be suppressed. However, this aspect is just an example, and even if the inner diameter of the inner flange portion of the upper frame 60 is smaller than the inner diameter of the inner flange portion of the lower frame 70, the same effect can be achieved.

The diaphragm portion 20 is a member that covers the opening 56 of the liquid reservoir portion 50, and is formed of an elastic body that can be pierced with a puncture needle (not shown). Furthermore, a strong pressing force is applied to the diaphragm portion 20 by the upper frame 60 and the lower frame 70, so that the hole created when the puncture needle is removed is naturally closed. Examples of the material for forming the diaphragm portion 20 include rubbers such as silicone, isoprene, and latex.

Preferably, the diaphragm portion 20 is integrally molded with the upper frame 60 or the lower frame 70. Thereby, even when a strong pressing force is applied, the diaphragm portion 20 can be made difficult to peel off from the frame body.
As an example, the diaphragm portion 20 is integrally molded with the lower frame 70. More specifically, the inner flange portion of the lower frame 70 is provided with a plurality of small holes having a diameter smaller than the width of the inner flange portion, and the diaphragm portion 20 is inserted into the upper portion of the inner flange portion through these small holes. and are interconnected below, thereby being integrated with the lower frame 70.
When the diaphragm part 20 is integrally molded with the lower frame 70, the annular protrusion 28 and the annular recess 26, which are part of the diaphragm part 20, are formed below the lower surface of the inner flange part.
The diaphragm portion 20 has a puncture portion upper surface 22 and a puncture portion lower surface 24 . The puncture lower surface 24 protrudes below, for example, more than the recess 26 and the projection 28.
The annular convex portion 28 is formed of one material with the diaphragm portion 20 on the lower surface of the diaphragm portion 20, and is in contact with the periphery of the opening 56 of the liquid reservoir portion 50. The annular convex portion 28 acts like a so-called O-ring, and prevents the liquid stored in the liquid reservoir 50 from leaking from the opening 56. It is desirable that the annular convex portion 28 extends in all directions around the central axis of the lower frame 70 and is formed in a closed annular shape with no missing portion.
Note that the present invention is not limited to the aspect in which the diaphragm portion 20 and the annular convex portion 28 are integrally molded, and instead of the convex portion 28, an O-ring formed of a separate member from the diaphragm portion 20 is used as the diaphragm portion. 20 may be provided.

The housing part 10 includes a lid part 12 located above and a bottom part 14 located below. The lid portion 12 and the bottom portion 14 are made of, for example, a resin material. The housing part 10 is constructed by assembling the lid part 12 and the bottom part 14 with each other.
An opening 12a is formed in the lid part 12 for inserting a puncture needle into the diaphragm part 20 from the outside.
The liquid reservoir part 50 is included in the housing part 10, has an opening 56, and stores liquid. With the puncture needle reaching the liquid reservoir 50 via the diaphragm 20, liquid is supplied to the fluid reservoir 50 via the puncture needle. The connector portion 36 communicates with the outside of the housing portion 10 from the liquid reservoir portion 50 .

The liquid reservoir part 50 is a part that stores liquid such as a medicinal solution injected through a puncture needle (not shown) inserted into the diaphragm part 20.
The liquid reservoir portion 50 is constituted by a recess formed in the bottom portion 14. Therefore, the bottom surface 52 of the liquid reservoir 50 is made of a resin material, and the side surfaces 54 thereof are also made of a resin material. That is, the wall surfaces (bottom surface 52 and side surfaces 54) surrounding the liquid reservoir portion 50 are formed of a resin material.
Note that the present invention is not limited to this example, and the liquid reservoir portion 50 may be constituted by a separate member from the bottom portion 14. In this case, the liquid reservoir portion 50 may be made of a resin material, or may be made of another material. Further, the liquid reservoir portion 50 may be formed by a portion of the lower frame 70.
For example, in the bottom portion 14, a portion around the opening 56 of the liquid reservoir portion 50 is an annular convex portion that projects upward. Further, as described above, on the lower surface of the diaphragm portion 20, the annular recess 26 is adjacent to the annular protrusion 28. The annular convex portion around the opening 56 in the bottom portion 14 fits into the annular recess 26 . Thereby, the peripheral edge of the opening 56 as well as the annular convex portion 28 functions as a so-called O-ring, and liquid leakage from the opening 56 can be suppressed more reliably.
Note that in this embodiment, a mode in which the annular recess 26 is formed on the inner diameter side than the annular protrusion 28 is exemplified; The same effect can be achieved even in the mode in which this is done.

The housing part 10 is a part that accommodates and protects other components.
The housing portion 10 is made of, for example, a resin material. As mentioned above, the housing portion 10 includes an upper lid portion 12 and a lower bottom portion 14.
As shown in FIG. 2, the upper frame 60 and the lower frame 70 are sandwiched between the lid part 12 and the bottom part 14 from above and below. Note that the pressing force applied by the lid part 12 and the bottom part 14 to the upper frame 60 and the lower frame 70 is equal to the pressing force applied to the diaphragm part 20 by the inner flange part of the upper frame 60 and the inner flange part of the lower frame 70. It is less than the pressure.
The pressing force exerted by the lid portion 12 and the bottom portion 14 on the upper frame 60 and the lower frame 70 is also transmitted to the locations where the annular protrusion 28 and the annular recess 26 come into contact. Therefore, the liquid tightness at the location is improved.

Since the housing portion 10 comes into contact with living tissue, it is preferably biocompatible. Further, since the liquid injection port 100 is buried under the skin for a long period of time, it is preferable that the housing portion 10 has a certain strength and does not deform due to body heat. Further, it is preferable that the housing portion 10 is formed of a material that is easy to process.
Examples of materials that meet the above conditions include polyether sulfone resin, polyurethane resin, polypropylene resin, and polyethylene terephthalate resin.

The connector portion 36 functions as a flow path for discharging the liquid stored in the liquid reservoir portion 50 to the outside of the liquid injection port 100, more specifically to a catheter (not shown) connected to the tip of the connector portion 36. It is a member.
The base end of the connector section 36 is fitted into a communication hole 58 provided in the side surface 54 of the liquid reservoir section 50, as shown in FIG. The inner diameter of the connector portion 36 and the inner diameter of the communication hole 58 are approximately equal, so that the liquid stored in the liquid reservoir portion 50 flows smoothly to the connector portion 36 via the communication hole 58. .
Since the connector portion 36 serves as a liquid flow path, it is preferably formed of a chemical-resistant material. Furthermore, since a long catheter (not shown) is connected and the load applied to the catheter is also applied to the connector part 36, it is desirable that the connector part 36 has a certain level of strength (rigidity).
Examples of the material constituting the connector portion 36 include metals such as titanium and stainless steel, hard resin materials, and ceramics.
The shape of the outer circumferential surface of the connector portion 36 includes a tapered portion that expands from the distal end to the proximal end, and the outer diameter decreases discontinuously (steeply) at the proximal end of the tapered portion. ing. For this reason, the catheter (not shown) fitted into the connector part 36 (fitted externally) is prevented from falling off from the connector part 36.

Liquid injection port 100 further includes a lock base 34 and a lock top 32.
The lock base portion 34 is provided so as to surround the periphery of the connector portion 36. A catheter (not shown) connected to the distal end of the connector portion 36 is fitted into a groove formed by the lock base 34 and the connector portion 36.
It is desirable that the lock base portion 34 has the same strength (rigidity) as the connector portion 36. Therefore, examples of the material for forming the lock base 34 include metals such as titanium and stainless steel, hard resin materials, and ceramics.

The lock top 32 is provided to enclose the connector portion 36 and the lock base 34, and protects a catheter (not shown) attached to the connector portion 36 and the lock base 34. Since the inner wall surface of the lock top 32 contacts the catheter when the catheter is bent, it is preferable that the inner wall surface has appropriate flexibility. Therefore, examples of the material for forming the lock top 32 include rubbers such as silicone, isoprene, and latex.

As shown in FIG. 1, the liquid injection port 100 includes a coil 81 and an IC (Integrated Circuit) chip 83 electrically connected to the coil 81. As an example, the coil 81 and the IC chip 83 are included in the lock top 32. However, the coil 81 and the IC chip 83 may be placed at other locations in the liquid injection port 100.
As shown in FIG. 3, the IC chip 83 includes a control section 87 and an information storage section 88. The information storage unit 88 stores and holds information related to the liquid injection port 100. The information stored in the information storage section 88 can be read by an external reading device 200 (FIG. 5).
Information is transmitted from the IC chip 83 to the reading device 200, for example, by the coil 81 functioning as a transmission antenna under the control of the control unit 87 of the IC chip 83. The coil 81 also has the function of receiving power from the reading device 200 and supplying it to the IC chip 83.
The reading device 200 is an IC reader (IC chip reader) that reads (obtains) information stored in the information storage section 88 from the IC chip 83 in a non-contact manner. Therefore, while the liquid injection port 100 is implanted in the body, the information in the information storage section 88 can be read from outside the body using the reading device 200.
The reading device 200 may have a function of not only simply reading information from the IC chip 83 but also newly storing (writing) information in the information storage section 88 of the IC chip 83. That is, the reading device 200 may be an IC reader/writer.

It is preferable that the reading device 200 includes, for example, a display unit (a display such as a liquid crystal display device) that displays and outputs the information read from the information storage unit 88, and a speaker that outputs audio. However, other devices such as a PC (Personal Computer) connected preferentially or wirelessly to the reading device 200 may be able to display or output the information read from the information storage unit 88 in a display or voice manner.

The information stored in the information storage unit 88 includes, in addition to the product information of the liquid injection port 100, information on the subject to whom the liquid injection port 100 is applied (or has been applied), and the information on the subject to whom the liquid injection port 100 is applied. This includes information about the surgery performed.
FIG. 4 shows an example of information stored in the information storage section 88.
As an example, specifications of the product (liquid injection port 100), product number, manufacturing information, subject information, and surgery information are stored.
Among these, the information regarding the product specifications includes, for example, information such as pressure resistance, dimensions, the thickness of the catheter to be connected, and the shape of the tip of the catheter to be connected.
Further, the manufacturing information includes, for example, information such as manufacturer, manufacturing lot, manufacturing date, and expiration date.
Further, the information on the subject includes, for example, gender, age, name, date of admission, past medical history, and types of drugs being used.
Further, the information on the surgery includes, for example, the date of the surgery, the location of the surgery, and the name of the doctor who performed the surgery.
In this way, the information related to the liquid injection port 100 is information indicating at least one of the product specifications, the product number, manufacturing information, subject information, and surgery information.
In addition, the product specifications include at least one of the pressure resistance of the liquid injection port 100, the dimensions of the liquid injection port 100, the thickness of the connected catheter, and the tip shape of the connected catheter. included.

As shown in FIG. 5, the liquid injection port 100 is placed under the subject's skin (inside the skin 510). In this state, the information stored in the information storage section 88 of the IC chip 83 can be read from outside the subject's body using the reading device 200. Therefore, information can be acquired from the liquid injection port 100 even when X-rays are not used. Therefore, based on the acquired information, a surgeon or the like can make an appropriate judgment or perform an appropriate treatment.

[Second embodiment]
Next, a second embodiment will be described using FIGS. 6 to 9.
The liquid injection port 100 according to the present embodiment is different from the liquid injection port 100 according to the first embodiment described above in the points described below. It is configured similarly to injection port 100.

As shown in any one of FIGS. 6 to 9, the liquid injection port 100 according to the present embodiment includes a marking section 17 that displays at least one of a character, a mark, or a figure related to the liquid injection port 100. Therefore, the acquisition of information by the reading device 200 and the recognition of the display contents using the display unit 17 can be used together.

Here, the content displayed by the display unit 17 may be the same as the information stored and held in the information storage unit 88, or content whose amount of information is smaller than the information stored and held in the information storage unit 88. It may be. Furthermore, the content displayed by the display unit 17 may be other than the information stored and held in the information storage unit 88.
In the case of this embodiment, the amount of information stored and held in the information storage section 88 is larger than the content displayed by the display section 17.
Among at least one of the characters, marks, and figures displayed by the display unit 17, the characters are symbols that have a function of transmitting information, and also include numbers. The mark refers to a combination of characters, a combination of characters and a diagram, or a combination of characters and a figure that represents information related to the liquid injection port 100. Furthermore, the term "figure" refers to a geometric pattern, a representation of the shape of an object, or a combination thereof.

More specifically, the liquid injection port 100 according to the present embodiment includes a cover member 15 that constitutes an outer shell of the liquid injection port 100. In the case of the present embodiment, the cover member 15 has the marking section 17, or the marking section 17 is provided on the cover member 15. Therefore, even if the liquid injection port 100 does not have a special structure, the liquid injection port 100 can have the marking part 17.

In the case of this embodiment, the cover member 15 includes a first cover 15a and a second cover 15b that are assembled to each other.
As shown in FIG. 8, the first cover 15a covers, for example, the lid part 12 and the upper part of the bottom part 14 from above. The second cover 15b covers the lower part of the bottom portion 14 from below.
The housing section 10 includes a lid section 12, a bottom section 14, and a cover member 15.
Examples of materials for the first cover 15a and the second cover 15b include soft resin materials. Examples of the soft resin material include polyvinyl chloride, olefin elastomer, styrene elastomer, vinyl acetate, and silicone rubber. Further, the first cover 15a and the second cover 15b can also be formed of silicone or polyurethane coated with a heparinized hydrophilic material.
In addition, in the present invention, the cover member 15 is not limited to the structure composed of two members (first cover 15a, second cover 15b), but may be composed of three or more members, or may be composed of three or more members. It may be composed of two members.
Further, in the case where the cover member 15 is constituted by two members, the cover member 15 is not limited to an example in which the cover member 15 is divided into upper and lower parts, but may have a structure in which it is divided in the horizontal direction.

The marking portion 17 is formed on a projecting portion 16 that the cover member 15 has. The projecting portion 16 is a portion of the cover member 15 that projects outward (for example, horizontally) from a portion that is the outer shell of the liquid injection port 100 .
The projecting portion 16 includes a first projecting portion 16a that is a portion of the first cover 15a, and a second projecting portion 16b that is a portion of the second cover 15b.
The first projecting portion 16a and the second projecting portion 16b are arranged one above the other.

The marking section 17 has a marking body 171 . The indicator 171 is a structural part that indicates the indicator content of the indicator 17 (at least one of letters, marks, or figures related to the liquid injection port).

In the case of this embodiment, the X-ray transmittance is different between the marking section 17 and the portion around the marking section 17 in the liquid injection port 100. More specifically, the X-ray transmittances of the indicator 171 and the surrounding area of the indicator 171 in the liquid injection port 100 are different from each other.
Therefore, the content of the display on the display section 17 (the content indicated by the display body 171) can be recognized under irradiation with X-rays.

Even if the first transmittance is higher than the second transmittance between the first transmittance at which X-rays pass through the indicator 171 and the second transmittance at which X-rays pass through the surrounding area of the indicator 171, Alternatively, the first transmittance may be lower than the second transmittance.
That is, in the marking section 17, the marking body 171 may be configured to have a lower X-ray transmittance than the surrounding area, that is, the marking body 171 may locally block X-rays; The body 171 may be configured to have a higher X-ray transmittance than the surrounding area, that is, the sign body 171 may be configured to locally transmit X-rays.
As an example, the sign 171 is configured to include a low transmittance member that transmits X-rays lower than the surrounding portion, and locally blocks X-rays in the sign 171.

In the case of this embodiment, the first projecting portion 16a, which is a part of the first cover 15a, includes a low transmittance member and constitutes a sign 171 that shows at least one of the above-mentioned characters, marks, or figures. .
The low transmittance member includes a metal member and a non-metal member. Examples of metal members include lead, stainless steel, magnesium, and aluminum. Further, as the non-metallic member, for example, there is a member containing at least one of a metal oxide, a metal compound, and a halogen. In the first embodiment, for example, bismuth oxide (Bi ₂ O ₃ ) can be used as the metal oxide (MOx). As the metal salt, for example, barium sulfate (BaSO ₄ ) can be used. Further, as the halogen, for example, bromine (Br) or iodine (I) can be used.

Thus, as an example, the indicator 17 (indicator 171) is made of a metal material. However, it is also preferable that the indicator part 17 (indicator body 171) is made of a non-metallic material.

The indicator body 171 may be formed by, for example, mixing a low transmittance member into the indicator part 17 and cutting out the indicator part 17. In addition, the overhang 16 (for example, the first overhang 16a) is formed of a resin material that does not substantially contain a low transmittance member, and the indicator 171 is attached to the overhang 16 using a paste containing the low transmittance member. The marking section 17 may be configured by drawing.
Furthermore, a plate made of a low transmittance material or a plate made of a material including a low transmittance material may be embedded in the overhang portion 16, and the sign body 171 may be formed by cutting out this plate.

As an example, the marking portion 17 is formed with a slit, a thin wall portion, or a thick wall portion having a shape corresponding to at least one of the above-mentioned characters, marks, or figures.
However, the present invention is not limited to this example, and it is also preferable that the marking section 17 is formed in a shape corresponding to at least one of the above-mentioned characters, marks, or figures. Here, the corresponding shape may be, for example, a shape that imitates the above-mentioned characters, marks, or figures (that is, a positive shape), or a shape that imitates the above-mentioned characters, marks, or figures from the member. It may be a cut-out shape (that is, a negative shape).

FIG. 10(a) is a diagram for explaining the marking section 17. As shown in FIG. FIG. 10(b) and FIG. 10(c) are diagrams for explaining other examples of the marking section 17.

FIG. 10(a) shows that the overall X-ray transparency of the overhang 16 is improved by configuring the overhang 16 (for example, the first overhang 16a) with a soft resin material mixed with the above-mentioned low transmittance member. An example is shown in which a sign body 171 having a shape resembling the characters "CT" is formed by lowering the numerals and forming a hollowed-out portion having a shape resembling the characters "CT". In this way, characters and the like become white images on a black background in the X-ray image.

However, this embodiment is not limited to the example provided with the indicator part 17 having the structure shown in FIG. 10(a), but can be configured as shown in FIG. 10(b) or FIG. 10(c).

In FIG. 10(b), the overhanging portion 16 is made of the same soft resin material as the cover member 15 (for example, the first cover 15a), and a material having lower X-ray transparency than the overhanging portion 16 is kneaded. An example is shown in which the sign 172 is formed by drawing on the overhang 16 using paste or the like. In this way, characters and the like become black images on a white background in the X-ray image.

In FIG. 10(c), the overhanging portion 16 is made of the same soft resin material as the cover member (for example, the first cover 15a), and a portion of the overhanging portion 16 is hollowed out or notched, and the hollowed out portion or the notched portion has a low An example is shown in which the marking section 17 is constructed by fitting a plate 174 including a transmittance member. Fitting of the plate 174 to the projecting portion 16 can also be realized, for example, by providing a groove (not shown) in the elastic projecting portion 16 and fitting the plate 174 into this groove. Alternatively, this can be realized by providing a groove (not shown) in the plate 174 and press-fitting a convex portion (not shown) formed on the projecting portion 16 into this groove.
The plate 174 may be a metal member with low transmittance, or may be formed by mixing a non-metallic low transmittance member with another member such as a paste. Further, the marking body 173 of the plate 174 can be constructed by forming a hollowed out portion that resembles the letters "CT". In the marking section 17 shown in FIG. 10(c), the plate 174 can be replaced. Therefore, the marking body 173 formed on the plate 174 can be arbitrarily selected and attached to the cover member 15. In FIG. 10(c), an example is given in which the sign body 173 is a hollowed-out negative type, but the plate 174 is made of a soft resin material, and the sign body 173 is made of a metal member with low transmittance or a non-metallic member. A positive type formed by mixing a low transmittance member with another member such as a paste may also be used.

Note that the indicators 171, 172, and 173 are not limited to those representing the characters "CT", but may be any characters or symbols that indicate information related to the liquid injection port 100. It's okay.

As described above, in this embodiment, the direction in which the projecting portion 16 projects is the horizontal direction. Therefore, when capturing an X-ray image from the front of the subject, the projecting portion 16 directly faces the imaging device. By directly facing the imaging device with the overhanging portion 16, the marking bodies 171 to 173 appear in the X-ray photograph as an image indicating at least one of letters, marks, or figures directly facing the imaging device. From this, the orientation (posture) of the liquid injection port 100 inside the subject's body can be recognized from outside the body.
Furthermore, since the projecting portion 16 projects horizontally, when capturing an X-ray image, the indicators 171 to 173 should not overlap with the lid portion 12 or the frame (upper frame 60, lower frame 70). Therefore, the content of the marking on the marking body 171 can be recognized more clearly.

It is also preferable that the marking section 17 includes a visual marking section that is visible (not by observation under X-ray irradiation). In the case of this embodiment, the indicator 171 includes text information such as "CT", so it can be visually recognized before the liquid injection port 100 is implanted into the body or when it is taken out of the body. ing. That is, in the case of this embodiment, the indicators 171 to 173 that can be observed under X-ray irradiation also serve as visual indicators.
Note that the present invention is not limited to this example, and the liquid injection port 100 may have a visual indicator apart from the indicator 171 that can be observed under X-ray irradiation. In one example, the visual indicator is applied to the outer surface of the cover member 15 and represents at least one of letters, marks, or graphics associated with the liquid injection port. Note that when the liquid injection port 100 does not have the cover member 15 as in the first embodiment, the visual indicator is attached to the outer surface of the lid 12, for example.

[Third embodiment]
Next, a third embodiment will be described using FIG. 11.
The liquid injection port 100 according to the present embodiment is different from the liquid injection port 100 according to the second embodiment described above in the following points, and in other points, the liquid injection port 100 according to the second embodiment It is configured similarly to injection port 100.

In the case of the present embodiment, the indicator portion 17 is formed in a portion of the cover member 15 (for example, the first cover 15a) that is arranged along the lid portion 12 (a portion that does not protrude). The indicator portion 17 is configured, for example, by mixing a low transmittance member throughout the first cover 15 a and cutting it out in the shape of the indicator body 175 .
In addition, similarly to the example explained using FIG. 10(b), the marking part 17 is made by mixing a low transmittance material and paste with the first cover 15a formed of a material with high X-ray transmittance. The indicator 175 may be drawn using a material.
Furthermore, the marking section 17 may be configured by hollowing out a portion of the first cover 15a and fitting a plate containing a low transmittance member, similarly to the example described using FIG. 10(c).

[Fourth embodiment]
Next, a fourth embodiment will be described using FIGS. 12 and 13.
The liquid injection port 100 according to the present embodiment is different from the liquid injection port 100 according to the first embodiment described above in the points described below. It is configured similarly to injection port 100.

In the second and third embodiments described above, an example in which the cover member 15 has the marking section 17 and an example in which the covering member 15 is provided with the marking section 17 have been described. Part 17 is attached to housing part 10.

As shown in FIG. 13, the marking portion 17 includes, for example, a flat plate portion formed in a flat plate shape, a support portion 17a that protrudes laterally from the flat plate portion and is curved downward, and It has a fitting part 17b formed at the lower end of the part 17a.
The housing portion 10 (for example, the bottom portion 14) is formed with an engaging portion including, for example, an upper hole portion 23a, a lower hole portion 23b, and a through hole 23c. The upper hole 23a is open above the bottom 14, the lower hole 23b is open below the bottom 14, and the through hole 23c connects the upper hole 23a and the lower hole 23b to each other. It communicates.
The indicator part 17 is attached to the housing part 10 by fitting the fitting part 17b of the indicator part 17 into the through hole 23c from the upper hole part 23a side.
In the case of this embodiment, the indicator 18 of the indicator section 17 can be configured similarly to any of the indicators 171 to 173 described above.

[Fifth embodiment]
Next, a fifth embodiment will be described using FIG. 14.
The liquid injection port 100 according to the present embodiment is different from the liquid injection port 100 according to the fourth embodiment described above in the points described below. It is configured similarly to injection port 100.

In the case of this embodiment, the marking part 17 does not have a supporting part 17a and a fitting part 17b, but instead has a mounting hole 17c formed to pass through the marking part 17.
The indicator portion 17 is attached to the housing portion 10 via a connecting ring 19 that is a string-like member or the like. That is, the connecting ring 19 is passed through the attachment hole 17c and the through hole 23c, and connects the marking part 17 and the housing part 10 (for example, the bottom part 14) to each other.

The present invention is not limited to the above-described embodiments, but also includes various modifications and improvements as long as the object of the present invention is achieved.

For example, the liquid injection port 100 is configured to include a state detection section that detects the state of the liquid injection port 100 (temperature, pressure, history of dates and times of liquid injection, etc.), and the state detection section detects The information may be output to the outside. As an example, the information detected by the state detection section may be stored and held in the information storage section 88 at any time so that the information can be read by the reading device 200, or the state detection section may detect the state. The information may be transmitted to the outside (without being stored in the information storage section 88) each time it is detected.
That is, the present invention also includes a mode in which the liquid injection port 100 is configured without the information storage section 88.
The state detection section is composed of a temperature sensor, a pressure sensor, or the like.
As described above, the liquid injection port 100 is, for example, a liquid injection port 100 that is implanted and left in the body, and includes a liquid reservoir 50 that temporarily stores liquid supplied from outside the body, and A liquid injection port 100 includes a liquid introduction connector (connector part 36) that communicates with the reservoir 50 and is connected to a catheter, and a state detection part that detects the state of the liquid introduction connector.
Further, as a preferable example, the liquid injection port 100 includes an external output section that outputs the state detected by the state detection section to the outside.

Furthermore, the above-described embodiments can be combined as appropriate without departing from the spirit of the present invention.

This embodiment includes the following technical ideas.
(1) A liquid injection port that is implanted in the body,
a liquid reservoir for temporarily storing liquid supplied from outside the body;
a liquid introduction connector that communicates with the liquid reservoir and is connected to the catheter;
an information storage unit that stores and holds information related to the liquid injection port so as to be readable by an external reading device;
Liquid injection port with.
(2) The information related to the liquid injection port is information indicating at least one of the following: product specifications, product number, manufacturing information, subject information, and surgical information (1) ) Liquid injection port as described in ).
(3) The specifications of the product include at least one of the following: pressure resistance of the liquid injection port, dimensions of the liquid injection port, thickness of the catheter to be connected, and tip shape of the catheter to be connected. The liquid injection port according to (2), which includes the above.
(4) The liquid injection port according to any one of (1) to (3), which has a marking section that displays at least one of letters, marks, or figures related to the liquid injection port.
(5) comprising a cover member constituting an outer shell of the liquid injection port,
The liquid injection port according to (4), wherein the cover member has the marking portion, or the cover member is provided with the marking portion.
(6) The liquid injection port according to (4) or (5), wherein the marking portion and a portion of the liquid injection port surrounding the marking portion have different X-ray transmittances.
(7) The liquid injection port according to (6), wherein the indicator portion is made of a metal material.
(8) The liquid injection port according to (6), wherein the marking portion is made of a non-metallic material.
(9) Any one of (4) to (8), wherein the marking portion is formed with a slit, a thin wall portion, or a thick wall portion having a shape corresponding to at least one of the characters, the mark, or the graphic. Liquid injection port as described in .
(10) The liquid injection port according to any one of (4) to (8), wherein the marking portion is formed in a shape corresponding to at least one of the characters, the mark, or the figure.
(11) The liquid injection port according to any one of (4) to (10), wherein the indicator section includes a visible indicator section.

Furthermore, this embodiment includes the following technical ideas.
<1> A liquid injection port that is placed in a state embedded in the body,
a liquid reservoir for temporarily storing liquid supplied from outside the body;
a liquid introduction connector that communicates with the liquid reservoir and is connected to the catheter;
a state detection unit that detects the state of the liquid introduction connector;
Liquid injection port with.
<2> The liquid injection port according to <1>, including an external output section that outputs the state detected by the state detection section to the outside.

10 Housing part 12 Lid part 12a Opening 14 Bottom part 15 Cover member 15a First cover 15b Second cover 16 Overhanging part 16a First overhanging part 16b Second overhanging part 17 Marking part 17a Supporting part 17b Fitting part 17c Mounting hole 171 , 172, 173, 175, 18 Indicator 174 Plate 19 Connecting ring 20 Diaphragm 22 Puncture part upper surface 23a Upper hole part 23b Lower hole part 23c Through hole 24 Puncture lower surface 26 Recess 28 Convex part 32 Lock top 34 Lock base 36 Connector Part 50 Liquid reservoir 52 Bottom surface 54 Side surface 56 Opening 58 Communication hole 60 Upper frame 70 Lower frame 81 Coil 83 IC chip 87 Control section 88 Information storage section 200 Reading device 510 Skin 100 Liquid injection port

Claims (9)

A liquid injection port that is placed in a state of being implanted in the body,
a liquid reservoir for temporarily storing liquid supplied from outside the body;
a liquid introduction connector that communicates with the liquid reservoir and is connected to the catheter;
an information storage unit that stores and holds information related to the liquid injection port so as to be readable by an external reading device;
a cover member forming an outer shell of the liquid injection port;
Equipped with
The cover member has a marking section that displays at least one of letters, marks, or figures related to the liquid injection port,
The marking portion is formed in a projecting portion horizontally projecting outward from a portion of the cover member that is the outer shell of the liquid injection port,
The cover member includes a first cover and a second cover that are assembled to each other,
The overhang portion is configured by a first overhang portion that is a part of the first cover and a second overhang portion that is a part of the second cover,
The first overhang and the second overhang are arranged one above the other,
The liquid injection port , wherein the first projecting part located on the upper side of the first projecting part and the second projecting part constitutes a display body indicating display contents of the display part . 2. The information related to the liquid injection port is information indicating at least one of product specifications, product number, manufacturing information, subject information, and surgery information. liquid injection port. The specifications of the product include at least one of the following: pressure resistance of the liquid injection port, dimensions of the liquid injection port, thickness of the connected catheter, and tip shape of the connected catheter. 3. The liquid injection port according to claim 2. The liquid injection port according to any one of claims 1 to 3, wherein the marking portion and a portion of the liquid injection port surrounding the marking portion have different X-ray transmittances. The liquid injection port according to claim 4 , wherein the indicator is made of a metal material. The liquid injection port according to claim 4 , wherein the indicator is made of a non-metallic material. The liquid injection according to any one of claims 1 to 6 , wherein the marking portion has a slit, a thin wall portion, or a thick wall portion having a shape corresponding to at least one of the characters, the mark, or the figure. port. The liquid injection port according to any one of claims 1 to 7 , wherein the marking portion is formed in a shape corresponding to at least one of the characters, the mark, or the figure. The liquid injection port according to any one of claims 1 to 8 , wherein the indicator includes a visible visual indicator.

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