JP2005287690A - Implant management device and data reader - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an implant management device usable for the management of product information of an implant. <P>SOLUTION: This implant management device incorporates a memory 1 storing the product information of the implant and a communication device transmitting an electric wave showing the product information stored in the memory 1; and a sheath material 7 attached to the implant is coated with a biocompatible sterilizing member 8. This constitution allow a doctor and a nurse to confirm the product information of the implant embedded in the body of a patient as necessary. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention includes, for example, a non-contact IC chip, an RFID (wireless IC tag), and the like, and an implant management device used for managing product information of an implant implanted in the body, and the influence of the implant on a medical device. The present invention relates to a data reading / writing device having a function of presenting disclosed effect disclosure information.

The product information of the implant implanted in the patient's body is described in the medical record stored in the medical facility where the implant has been implanted. Check the medical record for the product information of the implant. be able to. However, detailed product information, such as the lot number of the implant, is not required to be included in the chart.
Therefore, it is difficult for the patient himself to grasp the product information of the implant unless he / she makes an inquiry to the medical facility where the implant has been embedded.
For this reason, when a patient is diagnosed by a medical device such as a nuclear magnetic resonance examination apparatus (MRI) or a computed tomography apparatus (CT) in another medical facility, for example, the implant implanted in the body is used as the medical device. You may not be able to receive a diagnosis with a medical device because you do not know the effect.

  In addition, when a patient is repeatedly inspected or treated using an inspection device and a treatment device, the positional relationship between the patient and the device needs to be the same from the viewpoint of accuracy, reliability, and safety of the inspection. In this case, at present, the surface of the body is marked with a paint that is relatively difficult to fall off, and the positional relationship with the equipment is adjusted by the equipment engaged in the equipment operation. However, the position changed due to the patient's breathing or the patient's body movement, and could not be handled during the examination or treatment.

Although not managing product information of implants, non-contact type IC chips for managing personal data of patients have been developed.
That is, the non-contact type IC chip includes a memory for storing the personal data of the patient and a communication device for transmitting the personal data stored in the memory. Is formed.
This makes it possible to attach a non-contact type IC chip to a patient's hand or toenail, and prevents personal misunderstanding accidents by reading personal data stored in the memory of the non-contact type IC chip. (For example, refer patent document 1).

JP 2000-31194 A (paragraph numbers [0010] to [0025], FIG. 3)

Since the conventional non-contact type IC chip is configured as described above, it can be attached to a patient's hand or toenail. However, when the non-contact type IC chip is embedded in the patient's body, or when attached to the patient's body surface, the radio waves transmitted from the non-contact type IC chip are absorbed by the moisture of the living body. There has been a problem that the information stored in the non-contact type IC chip cannot be extracted by the external device.
In addition, the surface of the non-contact type IC chip is not devised to withstand sterilization or safety considerations for the living body (for example, dealing with allergic reactions caused by non-contact type IC chips being embedded in the body). However, it cannot be attached to an implant implanted in a patient's body and cannot be used for managing product information of the implant.

The present invention has been made to solve the above-described problems, and an object of the present invention is to obtain an implant management device that can be used for managing product information of implants.
Another object of the present invention is to provide a data reading device capable of providing anchor information for improving the accuracy of a medical device and presenting the influence of an implant on the medical device.

  An implant management device according to the present invention includes a memory that stores product information of an implant and a communication device that transmits a radio wave indicating the product information stored in the memory, and an exterior material attached to the implant is a living body. It is coated with a compatible member.

  As described above, according to the present invention, the exterior material that includes the memory that stores the product information of the implant and the communication device that transmits the radio wave indicating the product information stored in the memory and is attached to the implant. Can be used to manage implant product information, and as a result, doctors and nurses can be embedded in the patient's body as needed. There is an effect that the product information of the implant can be confirmed. In addition, the positional relationship between the medical device and the patient can be always accurately maintained by sticking or adhering to the body surface of the patient for a short period of time.

Embodiment 1 FIG.
1 is a block diagram showing an implant management apparatus according to Embodiment 1 of the present invention, and FIG. 2 is a perspective view showing an implant management apparatus according to Embodiment 1 of the present invention.
In the figure, an implant management device is composed of, for example, a non-contact type IC chip, RFID (wireless IC tag), etc., and is used for managing product information of implants to be implanted in the body.

  The memory 1 is an implant embedded in the body of a patient (an implant is a substance embedded in the body as, for example, a joint, spine, skull, jaw, artificial tooth root, artificial heart valve, artificial blood vessel, etc., and is made of metal or synthetic resin. Product information (for example, UCC / EAN128) etc. of plates, bolts, nuts, and materials composed of a composite combination of these are stored.

From the viewpoint of preventing falsification of implant product information stored in the memory 1, it is desirable to use a ROM (Read Only Memory) as the memory 1, but for example, patient medical information (basic diseases, medications, It is desirable to use a RAM (Random Access Memory) as the memory 1 in order to be able to appropriately record a medical history.
In the first embodiment, for convenience of explanation, a RAM is used as the memory 1.

When the antenna 2 receives a modulation signal (radio wave) from a data reading device that is an external device, the antenna 2 outputs the modulation signal to the power supply circuit 3 and the demodulation circuit 4, and when receiving the modulation signal from the modulation circuit 6, the modulation signal is transmitted to the outside. To the data reading device.
For example, when the power supply circuit 3 includes a coil or the like and receives a modulation signal from the antenna 2, the power supply circuit 3 converts the modulation signal into driving power, and supplies the driving power to the demodulation circuit 4, the control circuit 5, and the modulation circuit 6. .

When the demodulating circuit 4 is supplied with driving power from the power supply circuit 3, the demodulating circuit 4 shifts to a drivable state, demodulates the modulated signal received by the antenna 2, and outputs the demodulated signal to the control circuit 5.
The control circuit 5 shifts to a driveable state when receiving power for driving from the power supply circuit 3, and the demodulated signal output from the demodulation circuit 4 requests reading of product information of the implant stored in the memory 1, for example. If it is a read request signal, the product information of the implant stored in the memory 1 is output to the modulation circuit 6. If the demodulated signal output from the demodulating circuit 4 is a write request signal for requesting writing of medical information of a patient, for example, a medical information writing permission signal (for example, an Ack signal) is output to the modulating circuit 6. Thereafter, when receiving the medical information of the patient from the demodulation circuit 4, the medical information is stored in the memory 1.

The modulation circuit 6 shifts to a drivable state when receiving power for driving from the power supply circuit 3, and modulates the information when receiving the product information of the implant or the write permission signal from the control circuit 5. Then, the modulated signal is transmitted to an external data reading device.
A communication device is composed of the antenna 2, the power supply circuit 3, the demodulation circuit 4, the control circuit 5, and the modulation circuit 6.

The exterior material 7 includes the memory 1, the antenna 2, the power supply circuit 3, the demodulation circuit 4, the control circuit 5, and the modulation circuit 6. The exterior material 7 is attached to the implant by being embedded in or attached to the implant. It is done.
However, since the implant is embedded in the patient's body, it must be sterilized when implanted in the patient, and adverse effects on the living body (side effects such as allergies that the implant management device has on the living body) must be avoided. It is also conceivable that the patient undergoes an examination (MRI examination) using a nuclear magnetic resonance apparatus. Therefore, the implant management device has biocompatibility, and the antenna 2, the power supply circuit 3, the demodulation circuit 4, the control circuit 5, and the modulation circuit 6 are not damaged by the sterilization process such as high-pressure steam sterilization or gas sterilization. In order to prevent the implant management apparatus from affecting the MRI examination, the exterior material 7 is coated with a member having biocompatibility and sterilization resistance (hereinafter referred to as biocompatible sterilization member 8).

  The biocompatible sterilizing member 8 is a material that can withstand the sterilization treatment as described above, and needs to be a material that is safe for the living body. Therefore, a resin material or the like is suitable. In addition, in order to suppress radio wave absorption to the living body, (carbon) ferrite-based paint, titanium oxide, magnesite, silica, etc. are coated with a mixed pigment mixed with urethane resin, acrylic resin, polytetrafluoroethylene resin or polyurethane, Furthermore, it is necessary to coat the surface with a biocompatible material. Also suitable are continuous porous polytetrafluoroethylene, fibers used for sutures (for example, polypropylene), and the like.

FIG. 3 is a block diagram showing a data reading / writing device applied to the implant management device according to Embodiment 1 of the present invention. In the figure, an operation unit 11 is a man-machine interface such as a keyboard and a mouse used by a user.
When the user operates the operation unit 11 to input a reading request signal for implant product information and a writing request signal for patient medical information, the control unit 12 outputs these request signals to the modulation unit 13. Processing such as outputting the product information of the implant demodulated by the demodulator 15 to the display unit 16 is performed.

The modulation unit 13 modulates the request signal or the like output from the control unit 12 and transmits the modulation signal to the implant management device via the antenna 14. The antenna 14 transmits and receives a modulation signal to and from the implant management device.
The demodulator 15 demodulates the modulation signal received by the antenna 14 and outputs a write permission signal for implant product information and medical information, which is the demodulated signal, to the controller 12.
The display unit 16 is composed of, for example, a liquid crystal display and displays product information of the implant. The memory 17 stores implant product information and the like.
FIG. 4 is a flowchart showing the processing contents of the implant management apparatus according to Embodiment 1 of the present invention.

Next, the operation will be described.
For example, when performing a surgery related to bone tissue, various implants such as metal plates, bolts, and nuts may be implanted in the living body.
Some implants are used semi-permanently, and it is important to manage the product information (for example, material, date of manufacture, manufacturer name, etc.) of the implant. There is no easy way to check the product information of implants that are implanted in the body, unless otherwise recorded.
Furthermore, even if there is a record in the implant operation facility, emergency patients who require MRI examination or CT examination cannot grasp it without the patient's declaration. This situation is a problem in the emergency medical field.

  In addition, since the implant management device can be used in close contact with the patient's body surface, it is a relatively short period of time. However, when the patient is inspected or treated by a medical device, the positional relationship between the patient and the device is informed Can be provided. As a result, the accuracy of diagnosis and treatment is improved. If it is necessary to ensure the privacy of the patient, the length of the antenna part is adjusted to adjust the distance that can be read, and a method in which these information cannot be easily read from the outside in daily life is taken. It is possible.

Therefore, in the first embodiment, the exterior material 7 of the implant management device in which the product information of the implant is recorded in advance is coated with the biocompatible sterilization member 8 and then attached to the implant management device. This case is suitable when the number of implant materials is small, such as a prosthetic valve or an artificial blood vessel, and FIG. 5 shows an example in which an implant management device is attached to an artificial blood vessel and a bolt.
Thereafter, the implant to which the implant management device is attached is sterilized and then implanted in the patient's body.
The product information of the implant recorded in the implant management device is confirmed as follows.

For example, when a user such as a doctor or nurse needs to check the product information of the implant, the operation unit 11 of the data reading device is operated to input a read request signal for the product information of the implant.
When the user inputs a read request signal for implant product information, the control unit 12 of the data reading device outputs the read request signal to the modulation unit 13.
When receiving the read request signal from the control unit 12, the modulation unit 13 of the data reading device modulates the read request signal into a radio wave having a frequency (for example, a frequency of 2.45 GHz) that can be received by the implant management device. Is output to the antenna 14.
Here, the frequency band region may be any region as long as the read request signal can be received by the implant management device, and the frequency of 2.45 GHz is a frequency of a general RFID. These are just examples and are just a specific example.
Accordingly, the modulation signal is transmitted from the antenna 14 toward the implant management device.

When receiving the modulation signal from the data reading / writing device, the antenna 2 of the implant management device outputs the modulation signal to the power supply circuit 3 and the demodulation circuit 4 (step ST1).
When receiving the modulation signal from the antenna 2, the power supply circuit 3 of the implant management device converts the modulation signal into driving power, and supplies the driving power to the demodulation circuit 4, the control circuit 5, and the modulation circuit 6 (step). ST2).

The demodulating circuit 4 of the implant management device shifts to a drivable state when receiving driving power from the power supply circuit 3, demodulates the modulated signal received by the antenna 2, and sends the demodulated signal to the control circuit 5. Output (step ST3).
When the control circuit 5 of the implant management device receives the driving power from the power supply circuit 3, the control circuit 5 shifts to a driveable state, and whether the demodulated signal output from the demodulating circuit 4 is a read request signal for implant product information. Then, it is identified whether it is a medical information write request signal or patient medical information (step ST4).
For example, since information indicating the request content is stored in the header of the read request signal, the write request signal, or the medical information, if the content of the header is confirmed, whether the read request signal is a write request signal Or medical information.

When the control circuit 5 of the implant management device confirms that the demodulated signal output from the demodulation circuit 4 is a read request signal for implant product information, it reads the product information of the implant stored in the memory 1 in advance, The product information is output to the modulation circuit 6 (step ST5).
The modulation circuit 6 of the implant management device shifts to a driveable state when receiving power for driving from the power supply circuit 3, and receives data on the product of the implant from the control circuit 5, and the data reading device receives the product information. Modulation is performed on radio waves having a frequency that can be generated (for example, a frequency of 2.45 GHz), and the modulated signal is output to the antenna 2 (step ST6).
Thereby, the modulation signal is transmitted from the antenna 2 toward the data reading / writing device (step ST7).

When receiving the modulation signal from the implant management device, the antenna 14 of the data reading device outputs the modulation signal to the demodulation unit 15.
When receiving the modulation signal from the antenna 14, the demodulator 15 of the data reading device demodulates the modulation signal and outputs the product information of the implant, which is the demodulated signal, to the control unit 12.
When receiving the product information of the implant from the demodulating unit 15, the control unit 12 of the data reading device stores the product information in the memory 17 and displays the product information on the display unit 16.
Thereby, the user can confirm the product information of the implant embedded in the patient's body.

Next, an operation when the user records, for example, patient medical information (basic disease, medications, medical history, etc.) in the implant management device will be described.
First, the user operates the operation unit 11 of the data reading device and inputs a writing request signal for patient medical information.
When the user inputs a medical information write request signal, the control unit 12 of the data reading device outputs the write request signal to the modulation unit 13.
When receiving the write request signal from the control unit 12, the modulation unit 13 of the data reading device modulates the write request signal into a radio wave having a frequency that can be received by the implant management device, and outputs the modulation signal to the antenna 14.
Accordingly, the modulation signal is transmitted from the antenna 14 toward the implant management device.

When receiving the modulation signal from the data reading / writing device, the antenna 2 of the implant management device outputs the modulation signal to the power supply circuit 3 and the demodulation circuit 4 (step ST1).
When receiving the modulation signal from the antenna 2, the power supply circuit 3 of the implant management device converts the modulation signal into driving power, and supplies the driving power to the demodulation circuit 4, the control circuit 5, and the modulation circuit 6 (step). ST2).

The demodulating circuit 4 of the implant management device shifts to a drivable state when receiving driving power from the power supply circuit 3, demodulates the modulated signal received by the antenna 2, and sends the demodulated signal to the control circuit 5. Output (step ST3).
When the control circuit 5 of the implant management device receives the driving power from the power supply circuit 3, the control circuit 5 shifts to a driveable state, and whether the demodulated signal output from the demodulating circuit 4 is a read request signal for implant product information. Then, it is identified whether it is a medical information write request signal or patient medical information (step ST4).

When the control circuit 5 of the implant management device confirms that the demodulated signal output from the demodulator circuit 4 is a medical information write request signal, the control circuit 5 outputs the medical information write permission signal to the modulation circuit 6 (step). ST8).
The modulation circuit 6 of the implant management device shifts to a drivable state when receiving power from the power supply circuit 3 and receives a medical information write permission signal from the control circuit 5. Modulation is performed on radio waves having a frequency that can be received by the data reading device, and the modulated signal is output to antenna 2 (step ST9).
Thereby, the modulation signal is transmitted from the antenna 2 toward the data reading / writing device (step ST10).

When receiving the modulation signal from the implant management device, the antenna 14 of the data reading device outputs the modulation signal to the demodulation unit 15.
When receiving the modulation signal from the antenna 14, the demodulator 15 of the data reading device demodulates the modulation signal and outputs a write permission signal for medical information, which is the demodulated signal, to the controller 12.
When receiving the medical information write permission signal from the demodulating unit 15, the control unit 12 of the data reading apparatus displays the patient medical information input from the operation unit 11 or the patient medical information stored in the memory 17. Output to the modulation unit 13.
When receiving the patient's medical information from the control unit 12, the modulation unit 13 of the data reading device modulates the patient's medical information into a radio wave having a frequency that can be received by the implant management device, and outputs the modulation signal to the antenna 14.
Accordingly, the modulation signal is transmitted from the antenna 14 toward the implant management device.

When receiving the modulation signal from the data reading / writing device, the antenna 2 of the implant management device outputs the modulation signal to the power supply circuit 3 and the demodulation circuit 4 (step ST1).
When receiving the modulation signal from the antenna 2, the power supply circuit 3 of the implant management device converts the modulation signal into driving power, and supplies the driving power to the demodulation circuit 4, the control circuit 5, and the modulation circuit 6 (step). ST2).

The demodulating circuit 4 of the implant management device shifts to a drivable state when receiving driving power from the power supply circuit 3, demodulates the modulated signal received by the antenna 2, and sends the demodulated signal to the control circuit 5. Output (step ST3).
When the control circuit 5 of the implant management device receives the driving power from the power supply circuit 3, the control circuit 5 shifts to a driveable state, and whether the demodulated signal output from the demodulating circuit 4 is a read request signal for implant product information. Then, it is identified whether it is a medical information write request signal or patient medical information (step ST4).
When the control circuit 5 of the implant management device confirms that the demodulated signal output from the demodulation circuit 4 is medical information of the patient, the medical information of the patient is stored in the memory 1 (step ST11).

As apparent from the above, according to the first embodiment, the memory 1 that stores the product information of the implant and the communication device that transmits the radio wave indicating the product information stored in the memory 1 are included. Since the exterior material 7 attached to the implant is coated with the biocompatible sterilization member 8, it can be used to manage the product information of the implant, and as a result, a doctor or a nurse is required. Accordingly, it is possible to confirm the product information of the implant embedded in the patient's body.
Further, according to the first embodiment, since the radio wave transmitted from the data reading device is received and the information indicated by the radio wave is stored in the memory 1, for example, medical information of the patient is appropriately recorded. There is an effect that can be.

Embodiment 2. FIG.
In the first embodiment, when the data reading device records the medical information of the patient in the implant management device, the data reading device transmits a medical information write request signal to the implant management device, and the medical information is transmitted from the implant management device. In the above description, the medical information of the patient is transmitted to the implant management device when the write permission signal is received. However, the data reading device transmits the write request signal to which the medical information is added to the implant management device. May be. Further, the information may be encrypted as necessary, and the data reading device may release the encryption and convert it into character information.

In this case, when the control circuit 5 of the implant management device confirms that the demodulated signal output from the demodulation circuit 4 is a write request signal to which medical information is added, the medical information is extracted from the write request signal. The medical information is stored in the memory 1.
Thereby, since only one communication is required, the medical information of the patient can be recorded in the implant management device more quickly than in the first embodiment.

Embodiment 3 FIG.
FIG. 6 is a perspective view showing an implant management apparatus according to Embodiment 3 of the present invention. In the figure, an exterior material 7 is a memory 1, an antenna 2, a power supply circuit 3, and a demodulation circuit 4 as in the implant management apparatus of FIG. The control circuit 5 and the modulation circuit 6 are included, but are attached to the implant in a state of being sealed in a container 9 made of a biocompatible sterilization member.

In Embodiments 1 and 2 described above, the outer packaging material 7 is coated with the biocompatible sterilization member 8, but a container 9 for storing the implant management device to which the outer packaging material 7 is applied is created, The implant management device may be housed in the container 9, and the container 9 may be attached to the implant by being buried in or attached to the implant.
The container 9 is not particularly limited in shape as long as it can be stored so that the implant management device can be sealed. For example, a bag made of continuous porous polytetrafluoroethylene or fibers used for sutures. It may be in a shape.
Further, the container may be a capsule-like soft material made of a resin material or the like, or may be a hard material made of a metal safe for a living body.

  As apparent from the above, according to the third embodiment, the memory 1 that stores the product information of the implant and the communication device that transmits the radio wave indicating the product information stored in the memory 1 are included. Since the exterior material 7 is configured to be attached to the implant in a state of being sealed in a container 9 made of a biocompatible sterilization member, it can be used for management of product information of the implant. The nurse and the like can confirm the product information of the implants embedded in the patient's body as necessary.

Embodiment 4 FIG.
In the first to third embodiments described above, a doctor or the like operates the operation unit 11 of the data reading device to check the product information of the implant. However, the data reading device is attached to, for example, an MRI apparatus. Therefore, when the patient undergoes an MRI examination, a doctor or the like may operate the operation unit 11 of the data reading device to check the product information of the implant.
Alternatively, when the data reading device is mounted on the metal detector at the airport and the inspector performs a metal check of the airplane user, the operation unit 11 of the data reading device is operated to check the product information of the metal implant. You may do it.
Alternatively, the data reading device is set to the handy type, and a doctor or a paramedic operates the operation unit 11 of the data reading device to check the product information of the implant during general outpatient medical care or emergency medical care. May be.

Embodiment 5 FIG.
In the first embodiment, the case where the exterior material 7 of the implant management device is coated with the biocompatible sterilization member 8 has been described. Specifically, the biocompatible sterilization member 8 is coated as follows. Done.
FIG. 7 is an explanatory diagram showing a coating procedure.

First, as shown in FIG. 7A, a seal member 9 having biocompatibility and sterilization resistance (for example, a biocompatible polymer (for example, a functional group of sulfone or sulfoxide and a fat) so as to wrap the entire implant management apparatus. And a member made of a polymer formed from a group chain).
Next, as shown in FIG. 7B, a biocompatible sterilization member 8 made of a biocompatible polymer, which is the same member as or different from the seal member 9, is coated on the entire sealed implant management device.

Thereby, there exists an effect which can attach the implant management apparatus which does not affect a biological body to an implant.
Here, the biocompatible sterilizing member 8 is coated with a biocompatible polymer. However, it is needless to say that the biocompatible sterilizing member 8 is not limited to this as long as it has biocompatibility and sterilization resistance.

Embodiment 6 FIG.
In the fifth embodiment, the implant management device is sealed with a biocompatible polymer and then coated with the biocompatible sterilization member 8. However, as shown in FIG. 8, for example, biocompatible sterilization such as polypropylene is used. By printing the member 8 on the entire implant management device, the biocompatible sterilization member 8 may be coated, and similar effects can be obtained.

Embodiment 7 FIG.
In Embodiments 1 to 6 described above, the implant management device is attached to the implant implanted in the body of the patient. However, the implant management device may be attached to the implant attached to the patient's body surface.
Specifically, the seal member 9 as shown in the fifth embodiment may be used to seal the entire implant management device on the surface of the implant. At this time, a plurality of implant management devices may be sealed.

  In this case, it can be used for prevention of patient misplacement at the time of examination and surgery, and can also be used for examinations that are affected by body movements, and conversely, examinations and monitors that investigate body movements. For example, it can be used to monitor whether a patient who is taking a bath has fallen down in the bathroom or to grasp the behavior of an elderly person living alone.

Embodiment 8 FIG.
In the first to seventh embodiments, the product information (for example, material, date of manufacture, manufacturer name, etc.) of the implant is stored in the memory 1, and the radio wave indicating the product information of the implant stored in the memory 1. However, the implant ID (unique code for identifying the implant) may be stored in the memory 1 and a radio wave indicating the ID of the implant stored in the memory 1 may be transmitted. The same effects as those of the first to seventh embodiments can be obtained.
In this case, the data reading / receiving device receives the radio wave indicating the ID of the implant from the implant management device. For example, when the database (not shown) manages the product information of the implant, the data reading device sets the ID of the implant. The product information of the implant may be acquired from the database as a key.

Embodiment 9 FIG.
FIG. 9 is a block diagram showing a data reading / writing apparatus according to Embodiment 9 of the present invention. In the figure, the same reference numerals as those in FIG.
The database 18 is a memory that records effect disclosure information indicating the effects of various implants on the medical device.
The control unit 19 has the same function as that of the control unit 12 of FIG. 3 and receives the product information or the ID of the implant from the demodulation unit 15 constituting the receiver, and retrieves the effect disclosure information corresponding to the implant from the database 18. The effect disclosure information is displayed on the display unit 16. In addition, the control part 19 comprises the information presentation means.

Next, the operation will be described.
The data reading device of FIG. 9 is similar to the data reading device of FIG. 3, and has a function of reading the product information or ID of the implant recorded in the implant management device, and the product information or ID of the implant to the implant management device. And a writing function.
In addition, the data reading device in FIG. 9 has a function of presenting effect disclosure information indicating the effect of the implant on the medical device.
Specifically, it is as follows.

In the database 18 of the data reading / writing device, influence disclosure information indicating the influence of various implants on the medical device is recorded in advance.
The impact disclosure information recorded in the database 18 is associated with the product information or ID of the implant. For example, the product A (implant) degrades the CT inspection accuracy by 30%, but the MRI inspection accuracy is Information such as no effect is included.

When receiving the modulation signal from the antenna 14, the demodulator 15 of the data reading device demodulates the modulation signal as in the first embodiment, and supplies the product information or ID of the implant, which is the demodulated signal, to the control unit 19. Output.
When receiving the product information or ID of the implant from the demodulating unit 15, the control unit 19 of the data reading device searches the database 18 for the effect disclosure information corresponding to the implant using the product information or ID as a key.
Then, the control unit 19 displays the effect disclosure information corresponding to the implant on the display unit 16.
As a result, for example, information indicating that the implant implanted in the patient's body degrades CT examination accuracy by 30% but does not affect MRI examination accuracy is displayed on the display unit 16.

As apparent from the above, according to the ninth embodiment, when product information or ID of an implant is received, the effect disclosure information corresponding to the implant is retrieved from the database 18 and the effect disclosure information is displayed. Since it comprised, there exists an effect which a doctor etc. can judge the pros and cons of the test | inspection by medical devices, such as CT and MRI.
In addition, if the product information or ID of the implant is transferred to the data reading device in advance, it is possible to remove the influence on the image resolution, and there is an effect that the reliability of the image diagnosis can be improved.

  In the ninth embodiment, the control unit 19 of the data reading device displays the effect disclosure information corresponding to the implant on the display unit 16. However, the control unit 19 supports the implant via the modulation unit 13 and the antenna 14. The effect disclosure information to be transmitted may be transmitted to other devices.

It is a block diagram which shows the implant management apparatus by Embodiment 1 of this invention. It is a perspective view which shows the implant management apparatus by Embodiment 1 of this invention. It is a block diagram which shows the data reading / writing apparatus applied to the implant management apparatus by Embodiment 1 of this invention. It is a flowchart which shows the processing content of the implant management apparatus by Embodiment 1 of this invention. It is explanatory drawing which shows the example of attachment of an implant management apparatus. It is a perspective view which shows the implant management apparatus by Embodiment 3 of this invention. It is explanatory drawing which shows a coating procedure. It is explanatory drawing which shows the implant management apparatus after a coating. It is a block diagram which shows the data reading / writing apparatus by Embodiment 9 of this invention.

Explanation of symbols

1 Memory 2 Antenna (Communicator)
3 Power supply circuit (communication device)
4 Demodulation circuit (communication device)
5 Control circuit (communication device)
6 Modulation circuit (communication device)
7 exterior material 8 biocompatible sterilization member 9 seal member 11 operation unit 12 control unit 13 modulation unit 14 antenna 15 demodulation unit (receiver)
16 Display unit 17 Memory 18 Database 19 Control unit (information presentation means)

Claims (7)

  A memory for storing product information or ID of an implant to be implanted in a patient's body, a communicator for transmitting a radio wave indicating the product information or ID stored in the memory, and the memory and the communication attached to the implant An implant management apparatus comprising an exterior material containing a vessel, wherein the exterior material is coated with a biocompatible member.   A memory for storing product information or ID of an implant to be implanted in a patient's body, a communicator for transmitting a radio wave indicating the product information or ID stored in the memory, and the memory and the communication attached to the implant An implant management device comprising an exterior material containing a vessel, wherein the exterior material is attached to the implant in a state of being sealed in a container made of a biocompatible member.   A memory for storing product information or ID of an implant to be implanted in a patient's body, a communicator for transmitting a radio wave indicating the product information or ID stored in the memory, and the memory and the communication attached to the implant An implant management device comprising an exterior material enclosing a vessel, wherein the exterior material is coated with a sterilization resistant member.   A memory for storing product information or ID of an implant to be implanted in a patient's body, a communicator for transmitting a radio wave indicating the product information or ID stored in the memory, and the memory and the communication attached to the implant An implant management device comprising an exterior material enclosing a vessel, wherein the exterior material is attached to the implant in a state of being sealed in a container made of a sterilization resistant member.   5. The implant management device according to claim 1, wherein the communication device receives a radio wave transmitted from an external device, and stores information indicated by the radio wave in a memory.   A memory for storing product information or ID of an implant affixed to the patient's body surface, a communicator for transmitting radio waves indicating product information or ID stored in the memory, and the memory and the entire communicator An implant management device comprising a seal member for sealing the surface of the implant.   A database in which impact disclosure information indicating the effects of various implants on medical devices is recorded, a receiver that receives radio waves indicating implant product information or IDs transmitted from the implant management device, and reception by the receiver A data reading device comprising information presentation means for searching for the impact disclosure information corresponding to the implant from the database with reference to the product information or ID of the implant indicated by the radio wave, and presenting the impact disclosure information.

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