JP2020074905A - Medical device, medical device confirmation system, and medical device confirmation method - Google Patents

Abstract

To easily check, from the outside of a body, a specified portion of the main body part that is implanted in the body.SOLUTION: A medical device 10 of which a main body part 11 is implanted in a body 1 in use, comprises, in at least a portion of the main body part 11, a molding material having silica particles that contain a luminescent material emitting light of biotransparent wavelengths. The molding material preferably has particles in which the light emitting material is contained in a state of being dispersed in silica particles. Further, the light emitting material is preferably dispersed throughout the silica particles from the center to the surface of the particle, and when irradiated with excitation light, preferably emits light having a wavelength different from the wavelength of the irradiated excitation light.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a medical device, a medical device confirmation system, and a medical device confirmation method.

  2. Description of the Related Art Conventionally, an implantable medical device in which a main body is embedded in a body has been used in order to put a drug solution into the body. This medical device alleviates the burden on the patient who has to frequently inject the drug solution for injection. The medical device has a soft portion into which the injection needle is inserted in the main body. The soft portion is made of, for example, silicone rubber or the like. Then, in the medical device, the liquid medicine is injected into the liquid medicine container through the soft portion. The drug solution is transported to the blood vessel through the catheter.

  Since the body part of such a medical device is embedded in the body, it is difficult to visually identify the position of the soft part from the outside of the body.

  Therefore, by applying the technique proposed in Patent Document 1, a medical device in which a soft portion is formed by mixing a resin material with a light-emitting material that emits near-infrared fluorescence when irradiated with near-infrared excitation light Can be considered. With such a medical device, there is a possibility that the position of the soft part can be visually identified by converting the near-infrared fluorescence into visible light.

Japanese Patent No. 5958922

  However, when the light emitting material is mixed with the resin material to form the soft portion, the light emitting material aggregates, the amount of near-infrared fluorescence emitted by the light emitting material due to concentration quenching is reduced, and as a result, the position of the soft portion is changed. It can be difficult to identify.

  Although the medical device having the soft portion has been described here, an implantable medical device having no soft portion has the same problem.

  In view of the above situation, an object of the present invention is to provide a medical instrument, a medical instrument confirmation system, and a medical instrument confirmation method capable of easily confirming a predetermined part of a main body portion embedded in the body from outside the body. ..

  In order to achieve the above-mentioned object, a medical device according to the present invention is a medical device in which a main body is embedded in a body and is used, and emits light having a wavelength that is bio-permeable to at least a part of the main body. The luminescent material is characterized by including a molding material contained in silica particles.

  Further, the present invention is characterized in that, in the medical device, the molding material has particles containing the luminescent material in a state of being dispersed in the silica particles.

  Further, the present invention is characterized in that, in the medical device, the luminescent material is dispersed throughout from the center to the surface of the silica particles.

  Further, the present invention is characterized in that, in the medical device, the luminescent material emits light having a wavelength different from a wavelength of the excitation light when the excitation light is irradiated.

  Further, the present invention is characterized in that, in the medical device, the luminescent material is a luminescent material that stores and emits the excited light that has been irradiated.

  Further, the present invention is characterized in that, in the above medical device, a periphery of a soft portion of the main body portion into which an injection needle for injecting a drug solution is inserted contains the molding material.

  Further, the present invention is characterized in that, in the medical device, different portions are formed around the soft portion by a plurality of molding materials having different wavelengths of excitation light of the light emitting material included therein.

  Further, the medical device confirmation system according to the present invention is a system for confirming the position of the medical device, the main body of the medical device, a light irradiation means for irradiating excitation light from outside the body, the light Light irradiating means for introducing the light emitted from the light emitting material by irradiating the exciting light with the irradiating means, and making the portion including the molding material visible can be provided.

  Further, in the medical device confirmation system according to the present invention, the light introducing unit acquires information including light emitted from the light emitting material by imaging from outside the body, and converts the light into a visible wavelength to obtain the information. It is characterized in that it is displayed on the display unit.

  Further, the present invention is characterized in that, in the medical device confirmation system, the light introducing means changes the light emitted from the light emitting material into visible light and emits the visible light.

  Further, the present invention is characterized in that, in the medical device confirmation system, the light introducing means is applied to a skin surface and changes the light emitted from the light emitting material into visible light and emits the visible light.

  Further, the medical device confirmation method according to the present invention is a method for confirming the position of the medical device, wherein the main body of the medical device is a light irradiation step of irradiating excitation light from outside the body, and the light. A light introducing step of introducing light emitted from the light emitting material by the excitation light emitted in the irradiation step and making a portion including the molding material visible.

  According to the medical device of the present invention, since the molding material contained in the main body has silica particles, the silica particles are well dispersed in the molding material, and the luminescent material is included in the silica particles. Therefore, the light emitting material does not aggregate in the molding material. Therefore, the light emitting material emits light having a predetermined wavelength with sufficient brightness. By passing the light through a filter or the like that converts the light into visible light, it is possible to easily confirm a predetermined portion of the main body embedded in the body from outside the body.

  Further, according to the medical device confirmation system of the present invention, the light irradiation means irradiates the main body of the medical device with excitation light from outside the body, and the light introduction means irradiates the excitation light with the light irradiation means. Since the light emitted from the light emitting material is introduced to make the portion containing the molding material visible, it is possible to easily confirm a predetermined portion of the main body embedded in the body from outside the body.

  According to the medical device confirmation method of the present invention, the main body of the medical device is irradiated with excitation light from outside the body in the light irradiation step, and in the light introduction step, the luminescent material is excited by the excitation light irradiated in the light irradiation step. Since the emitted light is introduced to make the portion containing the molding material visible, it is possible to easily confirm a predetermined portion of the main body embedded in the body from outside the body.

FIG. 1 is a configuration diagram schematically showing a medical device according to an embodiment of the present invention. FIG. 2 is a configuration diagram of the medical device shown in FIG. 1 viewed from the outside of the body. FIG. 3 is an explanatory view showing the structure of general silica glass. FIG. 4 is an explanatory diagram for explaining an example of a method of dispersing a light emitting material in silica particles. FIG. 5 is an explanatory diagram showing a state in which the light emitting unit shown in FIGS. 1 and 2 emits light. FIG. 6 is a configuration diagram of a modified example of the medical device shown in FIG. 1 viewed from the outside of the body. FIG. 7A is an explanatory diagram illustrating a state in which the light emitting component of the light emitting unit illustrated in FIG. 6 emits light. 7B is an explanatory diagram showing a state in which the light emitting component of the light emitting unit shown in FIG. 6 emits light. 7C is an explanatory diagram showing a state in which the light emitting component of the light emitting unit shown in FIG. 6 emits light. 7D is an explanatory diagram showing a state in which the light emitting component of the light emitting unit shown in FIG. 6 emits light. FIG. 8: is a block diagram which shows typically the medical device confirmation system which is embodiment of this invention. FIG. 9: is a block diagram which shows typically the modification of the medical device confirmation system which is embodiment of this invention. FIG. 10: is a block diagram which shows typically the other modification of the medical device confirmation system which is embodiment of this invention.

  Hereinafter, preferred embodiments of a medical device, a medical device confirmation system, and a medical device confirmation method according to the present invention will be described in detail with reference to the accompanying drawings.

<Medical equipment>
FIG. 1 is a configuration diagram schematically showing a medical device according to an embodiment of the present invention, and FIG. 2 is a configuration diagram of the medical device shown in FIG. 1 as viewed from the outside of the body. The medical device 10 illustrated here is called, for example, a subcutaneously implantable port (CV port), and a main body 11 is embedded in the body 1.

  The main body 11 is a housing made of, for example, epoxy resin, and includes a drug solution container 12, a soft portion 13, a catheter 14, and a light emitting portion 15. The chemical liquid container 12 is a chamber for temporarily storing the chemical liquid.

  The soft part 13 is what is called a septum, and closes the opening 12a outside the body of the chemical liquid container 12. The soft portion 13 is a soft lid made of, for example, silicone rubber, and is provided so as to be exposed from the main body portion 11. The soft portion 13 is a portion into which the injection needle 3 for injecting a drug solution is inserted from outside the body 2 after the body portion 11 is embedded in the body 1.

  The catheter 14 has one end communicating with the liquid medicine container 12 and the other end inserted into a blood vessel or the like (not shown). The catheter 14 transports the drug solution temporarily stored in the drug solution container 12.

  The light emitting portion 15 is formed in an annular shape on the end surface outside the body of the liquid medicine container 12, and is provided around the soft portion 13. The light emitting portion 15 includes a molding material in which a general resin is mixed with particles in which a light emitting material is contained in a state of being dispersed throughout from the center of silica particles (silica nanoparticles) to the surface thereof. The light emitting portion 15 is formed by molding so as to be integrated with the main body portion 11. The light emitting unit 15 may include a material other than the molding material described above.

The luminescent material emits light having a wavelength that can be transmitted through a living body when irradiated with light having a specific wavelength (excitation light). This wavelength is, for example, about 650 to 1000 nm. Here, as the light emitting material, "IR-820 (trade _{name; C 46 H 50 ClN 2 NaO} 6 S 2) _"; can be used like or _{"IR-780 (C 36 H 44} ClIN 2 trade name)" , Are dispersed in a state of being chemically bonded to silica particles. Such a luminescent material preferably has a concentration in the particles of, for example, 35 to 75 mmol / L.

  Next, the dispersed state of the light emitting material in the silica particles will be described. General silica glass 100 has a structure as shown in FIG. Reference numeral 101 in FIG. 3 indicates the particle surface of the silica glass 100.

In the silica glass 100, the light emitting material (fluorescent dye) has a position in which metal ions such as aluminum (Al), boron (B), and sodium (Na) are contained, and a SiO ₂ network (—O—Si—O—). It is dispersed midway or by chemically bonding to the end of this SiO ₂ network.

  As another example, in the silica glass 100, the light-emitting material is a pentagonal ring represented by (a), a hexagonal ring represented by (b), and a hexagonal ring represented by (c) in FIG. It is dispersed by being confined in the ring of Si-O-.

The following (1) to (4) are mentioned as a method of dispersing the light emitting material in the silica particles.
(1) A luminescent material is added during the synthesis of silica particles. As a result, the luminescent material is taken into the SiO ₂ network, and the luminescent material is present in a uniformly dispersed state from the center to the surface of the silica particles.
(2) A luminescent material is added after synthesizing silica particles. As a result, the surface of the silica particles can be coated with the luminescent material, and the silica particles are localized on the surface.
(3) As in (1), a luminescent material is added during the synthesis of silica particles, and then a silica layer is formed on the surface. The luminescent material is localized inside and on the surface of the silica particles.
(4) As shown in FIG. 4, a hollow shell 102 is formed of silica, and a light emitting material 103 is enclosed therein together with a solvent 104 to form a hollow shell 102.

  In such a medical device 10, since the molding material contained in the light emitting portion 15 contains silica particles, the silica particles are well dispersed in the molding material, and the light emitting material is dispersed from the center of the silica particles. Since it is contained in a state of being dispersed appropriately over the entire surface, the luminescent material does not aggregate in the molding material due to the interposition of silica. Therefore, when the main body 11 is irradiated with excitation light of a specific wavelength from outside the body 2, light (fluorescence) having a different wavelength from the excitation light with which the light emitting material is irradiated is emitted. For example, as shown in FIG. 5, the position of the annular light emitting portion 15 can be visually recognized from outside the body 2 through a filter or the like that converts the light into visible light.

  Therefore, according to the medical device 10 according to the embodiment of the present invention, the position of the soft part 13 in the part surrounded by the light emitting part 15 can be easily confirmed from the outside of the body 2.

  According to the above-mentioned medical device 10, since the light emitting material has particles that are contained in a state in which the light emitting material is entirely dispersed from the center to the surface of the silica particles, the light emitting portion 15 is directly dispersed in the main body portion 11 such as epoxy resin. It is possible to prevent the deterioration due to long-term use, as compared with the case where it is used.

<Modification of medical device>
Next, a modified example of the medical device 10 will be described. The above-mentioned light-emitting portion 15 includes one molding material having particles in which the light-emitting material is contained in a state in which the light-emitting material is entirely dispersed from the center to the surface of the silica particles. A luminescent material that emits light of various wavelengths may include a molding material contained in silica particles, or may have the following configuration.

  As shown in FIG. 6, the annular light emitting portion 15 'is formed by connecting four light emitting constituent portions 15a, 15b, 15c, 15d which are divided into four in the circumferential direction. Each of the light emitting components 15a, 15b, 15c, 15d includes a molding material having a particle in which a light emitting material is contained in a state in which the light emitting material is entirely dispersed from the center of the silica particle to the surface thereof. , 15b, 15c, 15d may emit different light so as to emit light of different wavelengths. For example, the light emitting unit 15 'is configured by the respective light emitting components 15a, 15b, 15c, and 15d that include different molding materials that emit different wavelengths of the reacting excitation light.

  In such a medical device 10 ', when the main body 11 is irradiated with excitation light of a specific wavelength from the outside of the body 2, any one of the four light emitting components 15a, 15b, 15c, 15d, The light-emitting materials 15b, 15c, and 15d emit light having a wavelength different from that of the excitation light. For example, by passing through a filter or the like that converts the light into visible light, as shown in FIG. 7A, only the light emitting component 15a becomes visible. By changing the wavelength of the excitation light and irradiating it in this manner, as shown in FIGS. 7-2 to 7-4, the excitation light emitted by the luminescent material of any one of the light emitting components 15b, 15c, 15d is irradiated. By emitting light having a wavelength different from that, the light emitting components 15a, 15b, 15c, 15d can be visually recognized through a filter or the like that converts the light into visible light.

  Therefore, according to such a medical device 10 ', the position of the soft part 13 near the light emitting part 15' can be easily confirmed from the outside of the body 2.

  Moreover, the injection needle 3 can be guided so as to be inserted into the soft portion 13 near the visible light emitting components 15a, 15b, 15c, 15d, and the injection needle 3 can be evenly distributed over the entire area of the soft portion 13. 3 can be inserted. For example, at the time of inserting the injection needle 3 for the first time, the injection needle 3 is inserted into the soft portion 13 near the light emitting component 15a by causing only the light emitting component 15a to emit light. At the time of inserting the injection needle 3 for the second time, the injection needle 3 is inserted into the soft portion 13 near the light emitting component 15b by causing only the light emitting component 15b to emit light. At the time of inserting the injection needle 3 for the third time, the injection needle 3 is inserted into the soft portion 13 near the light emitting component 15c by causing only the light emitting component 15c to emit light. At the time of inserting the injection needle 3 for the fourth time, the injection needle 3 is inserted into the soft portion 13 near the light emitting component 15d by causing only the light emitting component 15d to emit light. As a result, it is possible to prevent the injection needle 3 from being inserted continuously in a concentrated manner, for example, in the central portion of the soft portion 13 many times, and to prevent the soft portion 13 from being damaged early. As a result, the service life of the soft part 13 can be extended.

  Note that in the examples of FIGS. 6 to 7-4, the light emitting materials emit light of different wavelengths, but in the present invention, the light emitting materials of the respective light emitting components have different light amounts. Good.

  Although the above-described light emitting portion 15 is formed in an annular shape around the end surface outside the body of the liquid medicine container 12, that is, around the soft portion 13, the light emitting portion of the present invention is formed on the outside body portion of the main body portion. Alternatively, the luminescent material may be formed in a predetermined part of the main body by mixing the particles containing the luminescent material in a state of being dispersed entirely from the center to the surface of the silica particle with the epoxy resin forming the main body. Good.

  The light-emitting material forming the light-emitting unit 15 described above emits light (fluorescence) having a wavelength (for example, 650 to 1000 nm) that can be transmitted by a living body when irradiated with excitation light having a specific wavelength. In the present invention, the luminescent material may be one that stores the irradiated light and emits light having a wavelength (for example, 650 to 1000 nm) that can be transmitted by the living body.

  According to this, even if the excitation light is not continuously applied, the light emitting material emits light, so that a predetermined portion (for example, a soft portion) of the main body can be easily confirmed from outside the body.

  Although the above-described light emitting portion 15 and light emitting portion 15 'are formed in a ring shape on the end surface outside the body of the drug solution container 12, in the present invention, the light emitting portion may form a soft portion. That is, the soft portion may include a molding material that forms the light emitting portion. Even with such a configuration, the position of the soft portion can be easily confirmed from outside the body by the fluorescent material or the like forming the soft portion emitting fluorescence or the like.

<Medical device confirmation system and medical device confirmation method>
FIG. 8: is a block diagram which shows typically the medical device confirmation system which is embodiment of this invention. The medical device confirmation system 20 illustrated here is for confirming the position (particularly, the position where the injection needle 3 is inserted) of the soft part 13 of the medical device 10 shown in FIG. In addition to the medical device 10, a light source (light irradiation means) 30 and a light introduction unit (light introduction means) 40 are provided. Since the configuration of the medical device 10 has been described above, the description thereof will be omitted below.

  The light source 30 is composed of, for example, an incandescent light bulb or the like, is arranged outside the body 2, and emits excitation light of a specific wavelength. The light introducing unit 40 includes an image capturing section 40a, a display section 40b, and a control section 40c.

  The imaging unit 40a is configured by, for example, a camera or the like. The imaging unit 40a images the body surface portion irradiated by the light source 30 and generates image information of the body surface portion, that is, image information including fluorescence emitted from the main body 11 of the medical device 10. The imaging unit 40a sends the generated image information to the control unit 40c.

  The display unit 40b displays various kinds of information, and particularly displays information based on a command transmitted from the control unit 40c. The control unit 40c is electrically connected to the above-described image pickup unit 40a and display unit 40b, and controls the operation of each of these units according to programs and data stored in a storage unit (not shown) that is also electrically connected. That is controlled in a controlled manner. The control unit 40c may be implemented, for example, by causing a processing device such as a CPU (Central Processing Unit) to execute the program, that is, by software, or by hardware such as an IC (Integrated Circuit). Alternatively, it may be realized by using software and hardware together.

  The control unit 40c acquires the image information read and generated through the imaging unit 40a, and causes the display unit 40b to display the image information obtained by converting the light included in the image information into the light of the visible wavelength. Is.

  In the medical device confirmation system 20, the light source 30 emits excitation light of a specific wavelength from outside the body 2 (light irradiation step). Then, the image information read and generated by the imaging unit 40a is displayed on the display unit 40b as image information obtained by converting the light included in the image information into light of a visible wavelength, so that the light emitting material emits light. Light (fluorescence) is introduced to make the light emitting portion 15 (the portion containing the molding material) visible (light introducing step).

  Therefore, according to the medical device confirmation system 20 according to the embodiment of the present invention, the position of the soft part 13 in the part surrounded by the light emitting part 15 can be easily confirmed from the outside of the body 2.

<Modification of medical device confirmation system>
Next, a modified example of the medical device confirmation system 20 will be described. The light introduction unit 40 of the medical device confirmation system 20 described above may be configured by a mobile terminal device such as a smartphone or a tablet terminal. With such a mobile terminal device, the patient himself / herself in which the medical device 10 is embedded in the body 1 is set in a so-called self-portrait mode in which the display unit 40b and the imaging unit 40a (in camera) are on the same plane. Thus, the position of the soft part 13 can be easily confirmed, and the injection needle 3 can be inserted into the soft part 13 by the patient himself.

  The light introducing unit 40 described above has been described as an example of the light introducing unit. However, the light introducing unit in the present invention introduces the light emitted from the light emitting material by being irradiated to the light irradiating unit, and the light introducing unit of the soft portion including the molding material is introduced. Various forms can be adopted as long as the surroundings can be made visible.

  Therefore, in the present invention, as shown in FIG. 9, a filter 41 can be used instead of the light introducing unit 40. The filter 41 introduces the light emitted from the light emitting material, converts it into visible light, and emits it. Even in the medical device confirmation system 21 using such a filter 41, the position of the soft part 13 in the part surrounded by the light emitting part 15 can be easily confirmed from outside the body 2, and the soft part 13 is injected. The needle 3 can be inserted.

  In particular, if the filter 41 is used for a lens such as spectacles, a user such as a medical worker does not need to hold the filter 41 by hand, and only by wearing the spectacles, the position of the soft part 13 can be confirmed and the soft part 13 can be confirmed. By inserting the injection needle 3 into the, it is possible to easily inject the drug solution.

  The light introducing unit 40 described above includes the image capturing section 40a and the display section 40b, but in the present invention, as shown in FIG. 10, a sheet 42 can be used instead of the light introducing unit 40. The sheet 42 is formed by being applied to the surface 1a of the skin, and introduces the light emitted by the luminescent material, converts it into visible light, and emits it. Even with the medical device confirmation system 22 using such a sheet 42, the position of the soft portion 13 in the portion surrounded by the light emitting portion 15 can be easily confirmed from outside the body 2, and the soft portion 13 is injected. The needle 3 can be inserted.

DESCRIPTION OF SYMBOLS 10 Medical device 11 Main body part 12 Chemical liquid container 13 Soft part 14 Catheter 15 Light emitting part 20 Medical device confirmation system 30 Light source (light irradiation means)
40 Light introducing unit (light introducing means)
40a Imaging unit 40b Display unit 40c Control unit

Claims (12)

A medical device in which the main body is used by being embedded in the body,
A medical device, characterized in that at least a part of the main body portion contains a molding material in which silica particles contain a luminescent material that emits light of a wavelength that can penetrate a living body.   The medical device according to claim 1, wherein the molding material has particles in which the light emitting material is contained in a state of being dispersed in the silica particles.   The medical device according to claim 2, wherein the luminescent material is dispersed throughout from the center to the surface of the silica particles.   The medical device according to any one of claims 1 to 3, wherein the luminescent material emits light having a wavelength different from the wavelength of the excitation light when the excitation light is irradiated.   The medical device according to claim 1 or 2, wherein the luminescent material is a luminescent material that stores and emits the applied excitation light.   The medical device according to any one of claims 1 to 5, wherein a periphery of a soft part of the main body part through which an injection needle for injecting a drug solution is inserted contains the molding material.   7. The medical device according to claim 6, wherein a plurality of molding materials having different excitation light wavelengths of the light emitting material included therein are formed around the soft portion to form different portions. A system for confirming the position of the medical device according to any one of claims 1 to 7,
Light irradiation means for irradiating excitation light from outside the body to the main body of the medical device,
A medical device confirmation system comprising: a light introducing unit that introduces the light emitted by the light emitting material when the excitation light is emitted by the light emitting unit and makes the portion including the molding material visible. ..   The light introducing means captures information including light emitted from the light emitting material by imaging from outside the body, converts the light into a visible wavelength, and displays the information on a display unit. 8. The medical device confirmation system according to item 8.   The medical device confirmation system according to claim 8, wherein the light introducing unit changes the light emitted from the light emitting material into visible light and emits the visible light.   9. The medical device confirmation system according to claim 8, wherein the light introducing unit is applied to the surface of the skin and changes the light emitted from the light emitting material into visible light and emits the visible light. A method for confirming the position of the medical device according to any one of claims 1 to 7,
For the main body of the medical device, a light irradiation step of irradiating excitation light from outside the body,
A light introduction step of introducing light emitted from the light emitting material by the excitation light emitted in the light irradiation step to make a portion including the molding material visible, and a medical device confirmation method.

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