JP2009183323A - Apparatus for inspecting periodontal disease - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus for inspecting periodontal disease capable of providing inspection results having high quantitativeness and objectivity without giving pain to a patient. <P>SOLUTION: The apparatus 100 for inspecting periodontal disease is provided with: lighting equipment 126 for lighting a region to be inspected in an oral cavity by using illumination light which has a light emission peak in a near infrared wavelength region; an oral cavity camera 110 equipped with an imaging apparatus 118 for expanding a capillary vessel included in the region to be inspected lighted by the lighting equipment 126 and photographing its image; and a function to evaluate a state of the capillary vessel on the basis of a photographed image obtained by the imaging apparatus 118. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a periodontal disease inspection device.

  As a method of inspecting periodontal diseases such as gingivitis, periodontitis, and periodontal disease, insert a metal probe into the gum and check the periodontal condition of the gum, and tweezers to examine There is a method for examining the degree of movement of teeth, which examines the progress of periodontal disease depending on the state of movement of the teeth, and an X-ray examination method by taking an intraoral X-ray of the site to be examined. .

  However, the periodontal pocket inspection method and the tooth mobility inspection method have a problem of causing pain to the patient because the probe is inserted into the gums or the teeth are shaken. On the other hand, the X-ray photography inspection method has a problem that special equipment for taking X-ray photographs is required.

  Then, the periodontal disease test | inspection apparatus which can solve these problems is proposed (for example, refer patent documents 1-5).

  FIG. 8 is a diagram for explaining a conventional periodontal disease inspection device 500 described in Patent Document 1. In FIG. FIG. 8A is a diagram showing an overall configuration of a conventional periodontal disease inspection apparatus 500, and FIG. 8B shows a state in which periodontal disease is inspected using the conventional periodontal disease inspection apparatus 500. FIG.

  As shown in FIG. 8, the conventional periodontal disease inspection apparatus 500 optically inserts a metallic probe 525 including a light projecting optical fiber 513 and a light receiving optical fiber 519 into a periodontal pocket 508. It is a periodontal disease inspection device that examines periodontal disease by measuring the depth of the periodontal pocket 508. For this reason, according to the conventional periodontal disease test | inspection apparatus 500, since it becomes unnecessary to insert a probe in a gum, the problem of giving a pain to a patient can be reduced. Further, according to the conventional periodontal disease inspection apparatus 500, there is no problem that special equipment for taking X-ray photographs is required.

  FIG. 9 is a diagram for explaining a conventional periodontal disease inspection device 600 described in Patent Document 2. In FIG. FIG. 9A is a diagram showing an overall configuration of a conventional periodontal disease inspection apparatus 600, and FIGS. 9B and 9C show periodontal diseases using the conventional periodontal disease inspection apparatus 600. FIG. It is a figure which shows a mode that it is test | inspecting.

As shown in FIG. 9, the conventional periodontal disease inspection device 600 makes illumination light L ₁ (p) made of, for example, p-polarized light incident on the gingival surface, and surface reflected light L ₂ (p) ( The surface obtained based on the received light intensity of the p-polarized component exclusively) and the internally reflected light L ₃ (p / s) (having the p-polarized component L ₃ (p) and the s-polarized component L ₃ (s)). It is a periodontal disease inspection device that examines periodontal disease by obtaining texture information and color tone information such as surface irregularities from the reflected light image and the internally reflected light image. For this reason, according to the conventional periodontal disease test | inspection apparatus 600, since it becomes unnecessary to insert a probe in a gum, the problem of giving a pain to a patient can be suppressed. Further, according to the conventional periodontal disease inspection device 600, there is no problem that special equipment for taking X-ray photographs is required.

  FIG. 10 is a diagram for explaining a conventional periodontal disease inspection device 700 described in Patent Document 3. As shown in FIG. FIG. 10A is a diagram showing an overall configuration of a conventional periodontal disease inspection apparatus 700, and FIGS. 10B to 10E are diagrams showing a method of using the conventional periodontal disease inspection apparatus 700. is there. Among these, FIG. 10 (b) is a view showing a state where water or air is sprayed onto the examination target part to remove saliva, and FIG. 10 (c) is a coating of squid ink 761 as a light-absorbing substance on the examination target part. FIG. 10 (d) is a diagram showing an image obtained by photographing a region to be inspected with a CCD camera, and FIG. 10 (e) shows the image of FIG. It is a figure which shows the image obtained by digitizing.

  As shown in FIG. 10, the conventional periodontal disease inspection apparatus 700 is a region to be inspected (FIGS. 10B and 10C) adjusted so that the squid smear 761 remains only in the periodontal disease blind sac 750. For the periodontal disease inspection apparatus, the periodontal disease is inspected by measuring the light transmission state of the inspection target site. For this reason, according to the conventional periodontal disease test | inspection apparatus 700, since it becomes unnecessary to insert a probe in a gum, the problem of giving a patient a pain can be suppressed. Further, according to the conventional periodontal disease inspection device 700, there is no problem that special equipment for taking X-ray photographs is required.

  FIG. 11 is a diagram illustrating a conventional periodontal disease inspection device 800 described in Patent Document 4. In FIG.

  As shown in FIG. 11, the conventional periodontal disease inspection device 800 is a periodontal disease inspection device that inspects periodontal disease by measuring the infrared radiation from the test periodontal tissue 802 with an infrared camera 801. . For this reason, according to the conventional periodontal disease test | inspection apparatus 800, since it becomes unnecessary to insert a probe in a gum, the problem of giving a pain to a patient can be suppressed. Further, according to the conventional periodontal disease inspection apparatus 800, there is no problem that special equipment for taking X-ray photographs is required.

  FIG. 12 is a view for explaining a conventional periodontal disease inspection device 900 described in Patent Document 5. In FIG. FIG. 12A is a block diagram of a conventional periodontal disease inspection device 900, and FIG. 12B is a diagram showing a cross-correlation between a time change of a frequency component in a reflected light of a laser beam and a heartbeat.

  As shown in FIG. 12, the conventional periodontal disease inspection apparatus 900 described in Patent Document 5 irradiates the gingival part with the laser beam 2 and decomposes the intensity fluctuation of the reflected light of the laser beam 2 into a plurality of frequency components. In this periodontal disease inspection apparatus, the time change is calculated, and the cross-correlation between the time change of the frequency component and the heartbeat is calculated, thereby inspecting the periodontal disease. For this reason, according to the conventional periodontal disease test | inspection apparatus 900, since it becomes unnecessary to insert a probe in a gum, the problem of giving a pain to a patient can be suppressed. Further, according to the conventional periodontal disease inspection apparatus 900, there is no problem that special equipment for taking X-ray photographs is required.

JP 2000-14684 A JP 2001-87223 A JP-A-9-276298 JP 2000-166950 A JP-A-9-84776

  However, in the conventional periodontal disease inspection device 500, in order to insert the probe 525 into the periodontal pocket, it is necessary to insert the probe 525 by spreading the gingiva, which also causes pain to the patient. There is.

  Further, in the conventional periodontal disease inspection apparatus 600, the periodontal color tone varies greatly among individuals, and it is difficult to determine whether the observed color tone is normal or not. There is a problem that it is difficult to obtain a result.

  Further, in the conventional periodontal disease inspection apparatus 700, it is difficult to accurately control the amount of the light-absorbing substance to be applied, so that it is difficult to obtain a highly quantitative and objective test result. There's a problem.

  Further, in the conventional periodontal disease inspection device 800, the temperature difference between subjects and the temperature difference when the environment changes are more than the temperature difference between the healthy periodontal part and the periodontal part having periodontal disease. Since it is large, there is still a problem that it is difficult to obtain a highly quantitative and objective test result.

  Further, in the conventional periodontal disease inspection apparatus 900, since the reflected light from the entire gingival region including the capillaries is used for the inspection as it is, the S / N ratio is small, and the inspection result is also highly quantitative and objective. There is a problem that it is difficult to obtain.

  Therefore, the present invention has been made to solve such a problem, and is a periodontal disease test that does not give pain to the patient and can obtain a highly quantitative and objective test result. An object is to provide an apparatus.

(1) The periodontal disease inspection device of the present invention is included in an illumination device that illuminates a region to be examined in the oral cavity using illumination light having a light emission peak in the near infrared region and a region to be examined illuminated by the illumination device. An intraoral camera provided with an imaging device for taking an enlarged image of a capillary and an image processing device having a function of evaluating the state of the capillary based on a photographed image obtained from the imaging device. .

  In the periodontal disease inspection device of the present invention, “capillary state” includes “capillary density”, “capillary coverage”, “degree of capillary dilation”, “capillary permeability”. “Degree of enhancement”, “degree of bleeding from capillaries”, “degree of coagulation of blood bleeding from capillaries” and the like.

  Therefore, according to the periodontal disease test apparatus of the present invention, “capillary state” includes “capillary density”, “capillary coverage”, “degree of capillary expansion”, “capillary vessel” The degree of periodontal disease (periodontal period) can be evaluated by evaluating the degree of increased permeability of the blood, the degree of bleeding from the capillaries, the degree of coagulation of blood bleeding from the capillaries, alone or in combination. It is possible to obtain highly quantitative and objective test results for the presence or absence of disease, the progress of periodontal disease, etc.).

  Further, according to the periodontal disease inspection device of the present invention, it becomes possible to inspect periodontal diseases by optically measuring the state of capillaries, so it is necessary to insert a probe into a gum or periodontal pocket And the problem of causing pain to the patient can be suppressed.

  For this reason, the periodontal disease test | inspection apparatus of this invention turns into a periodontal disease test | inspection apparatus which can obtain a test result with high quantitative and objective property, without giving a pain to a patient.

  By the way, according to the inventor's investigation, near infrared light has the property of being easily absorbed by capillaries (especially hemoglobin) as well as red light, but has the property of being easier to pass through the gingival part than red light. I found it. Therefore, the illumination light that has passed through the gingival part is absorbed by the capillary blood vessel at the site where the capillary blood vessel exists, but is not absorbed by the capillary blood vessel at the site where the capillary blood vessel does not exist. For this reason, according to the periodontal disease inspection device of the present invention, only weak internal reflection light can be obtained at the site where the capillary is present, and as a result, the capillary is displayed blacker than the surroundings. At this time, according to the periodontal disease inspection device of the present invention, since near infrared light has a property that it is easier to pass through the gingival part than red light, an illumination device that illuminates the examination target region using red light is used. Compared to the case, the ratio of the internally reflected light to the surface reflected light can be increased. For this reason, according to the periodontal disease inspection device of the present invention, an image of a capillary vessel existing in the back of the gingival region is taken with higher sensitivity than in the case of using an illuminating device that illuminates the region to be inspected using red light. It becomes possible to do.

  In the present invention, as “capillary density”, “whether the number of capillaries per unit area is in a normal range”, “how many capillaries per unit area”, and the like are evaluated. . As “capillary coverage”, “whether the total area of capillaries in a unit area is in a normal range”, “how much is the total area of capillaries in a unit area”, and the like are evaluated. “The extent of capillary expansion” includes “whether the inner diameter, outer diameter, and wall thickness of the capillary are in the normal range”, “inner diameter, outer diameter, and wall thickness of the capillary.” "How is the value of?", "Whether the surface of the capillary is smooth", "how smooth is the surface if the surface of the capillary is not smooth", and the like. In addition, as “the degree of increased capillary permeability”, “whether or not the capillary is perforated and increased capillary permeability”, “capillary permeability is increased” In some cases, how much increase in permeability is observed is evaluated. In addition, as “the degree of bleeding from capillaries”, “whether or not bleeding from capillaries can be seen”, “how much bleeding can be seen when bleeding from capillaries” is evaluated, etc. To do. “The degree of coagulation of blood that bleeds from capillaries” includes “whether clotting of blood that bleeds from capillaries can be seen” and “how much coagulation is observed when blood clotting that bleeds from capillaries Can you see it? "

  Thus, for example, when the density of capillaries, the coverage of capillaries, the inner diameter, outer diameter, and wall thickness (wall thickness) of capillaries are all in the normal range, and the surface of the capillaries is smooth , Evaluate that there is no periodontal disease, and any of capillary density, capillary coverage, capillary inner diameter, outer diameter, wall thickness is larger than the normal range, When the surface is not smooth, it is evaluated as “a mild periodontal disease”, “a moderate periodontal disease” or “a severe periodontal disease” depending on the degree. Also, for example, when there is no increase in capillary permeability, it is evaluated that there is no periodontal disease, and when there is an increase in capillary permeability, “I have a disease”, “I have a moderate periodontal disease” or “I have a severe periodontal disease”. In addition, for example, when bleeding from the capillary is not observed, it is evaluated that “there is no periodontal disease” or “a mild periodontal disease”, and when bleeding from the capillary is seen Depending on the degree, it is evaluated that “there is moderate periodontal disease” or “there is severe periodontal disease”. In addition, for example, when coagulation of blood bleeding from capillaries is not observed, it is evaluated as “no periodontal disease” or “mild periodontal disease”, and blood coagulation of blood bleeding from capillaries In the case of, it is evaluated that “there is moderate periodontal disease” or “there is severe periodontal disease”.

  Note that the evaluation of the state of the capillaries by the image processing device is preferably performed using, for example, analysis criteria obtained by analyzing the imaging results of a large number of patients in advance.

  In the periodontal disease test | inspection apparatus of this invention, as a said test object site | part, a gum and an interdental papilla are preferable.

  In the periodontal disease test | inspection apparatus of this invention, it is preferable that the said imaging device is equipped with an image pick-up element and the optical system which expands the image of the capillary blood vessel in a test object site | part, and guides it to the said image pick-up element.

  By configuring in this way, it is possible to magnify a capillary vessel sufficiently without lowering the resolution.

  In the periodontal disease test | inspection apparatus of this invention, it is preferable that the said illuminating device has a function which irradiates the light of the wavelength which reaches | attains the inside of a gum or an interdental papilla. The optical system preferably has a function of focusing on capillaries existing in the gums and interdental papilla.

  By configuring in this way, it is possible to photograph capillaries existing in the gums and interdental papilla in a focused state.

  In the periodontal disease inspection device of the present invention, the optical system preferably has an autofocus function.

  By configuring in this way, it is possible to always photograph the capillary blood vessel in a focused state.

  In the periodontal disease inspection device of the present invention, it is preferable that the optical system has a camera shake prevention function.

  With this configuration, it is possible to photograph the capillary blood vessel in a state in which camera shake is always prevented.

  In the periodontal disease inspection device of the present invention, it is preferable that the optical system has a zoom function.

  By comprising in this way, it becomes possible to evaluate the state of a capillary vessel from many aspects by imaging | capturing a capillary vessel with various magnifications.

  In the periodontal disease test | inspection apparatus of this invention, it is preferable that the said optical system has a function to change the distance of an objective lens and a test object site | part.

  By comprising in this way, it becomes possible to image | photograph a capillary vessel from various distances by changing the distance to a test object site | part, without moving an intraoral camera.

(2) In the periodontal disease test | inspection apparatus of this invention, it is preferable that the said illuminating device has near-infrared LED.

  With this configuration, the intraoral camera can be reduced in size, weight, and power consumption. In addition, the driving circuit is simplified and the intraoral camera can be made smaller, lighter, and consume less power than when using the near infrared LD.

(3) In the periodontal disease test | inspection apparatus of this invention, it is preferable that the said imaging device has a color solid-state image sensor which has a light reception sensitivity in a visible region-a near infrared region.

  By configuring in this way, it is possible to photograph the capillary blood vessel using a wavelength component that allows the capillary blood vessel to be visually recognized with high sensitivity. Therefore, it is possible to photograph the capillary blood vessel with higher sensitivity.

(4) In the periodontal disease inspection device of the present invention, the image processing device has a function of making the captured image easier to see by converting the color of the red component in the captured image into the color of another color component. Furthermore, it is preferable to have.

  With this configuration, the capillary blood vessel can be displayed using a wavelength component with which the capillary blood vessel can be visually recognized with high sensitivity, so that an image of the capillary blood vessel can be taken with higher sensitivity.

(5) In the periodontal disease test | inspection apparatus of this invention, it is preferable that the said imaging device has a 2-10 times objective lens.

  By configuring in this way, it is possible to take images of capillaries in a relatively wide range by setting a comparatively low magnification, and thus it is possible to examine gingival diseases more firmly. The final magnification on the display screen is preferably about 100 to 2000 times, and preferably about 400 to 1000 times.

(6) In the periodontal disease inspection device according to the present invention, the image processing device has a function of determining an enlarged imaging region based on an imaging result in a region to be inspected, and selects and enlarges the enlarged imaging region by digital zoom. It is preferable to have the function of

  By configuring in this way, it is possible to enlarge and display the enlarged imaging area without changing the imaging area, and it is possible to obtain the inspection result quickly.

  In this case, it is preferable to select the enlarged photographing region by image processing.

(7) In the periodontal disease inspection device of the present invention, the image processing device has a function of determining an enlarged imaging region based on a result of imaging at a site to be examined, and the intraoral camera is the image processing device. It is preferable to have a function of selecting an enlarged photographing region determined by the above and performing enlarged photographing by optical zoom.

  By configuring in this way, first, the preliminary imaging is roughly performed, and the main imaging area in the oral cavity is determined based on the preliminary imaging result. Inspection results can be obtained. In addition, since it is possible to precisely determine the optimum imaging range, it is possible to obtain inspection results with higher quantitativeness and objectivity.

  In this case, it is preferable to select the enlarged photographing region by moving a part of the optical system of the imaging apparatus (for example, an objective lens or an imaging element) within a plane perpendicular to the optical axis.

(8) In the periodontal disease test | inspection apparatus of this invention, it is preferable to further provide the fixing means for fixing the said intraoral camera in the appropriate position in an intraoral area.

  With this configuration, it is possible to obtain a high-quality captured image (especially in the case of a moving image), and it is possible to obtain a test result with high quantitativeness and objectivity.

(9) In the periodontal disease inspection device of the present invention, it is preferable that the fixing means is a disposable cylindrical spacer that is used by being attached to a distal end portion of the intraoral camera.

By configuring in this way, with the disposable cylindrical spacer attached to the distal end of the intraoral camera, the intraoral camera is pressed to an appropriate position in the oral cavity, so that the oral cavity is positioned at an appropriate position in the oral cavity. The inner camera can be fixed.
Moreover, it becomes possible to perform a sanitary periodontal disease test | inspection by replacing a disposable cylindrical spacer for every patient.

(10) In the periodontal disease inspection device of the present invention, it is preferable that the image processing device further has a function of measuring a flow rate of blood flowing through the capillary blood vessels.

  By configuring in this way, it is possible to consider the relationship with other diseases (for example, diabetes, lifestyle-related diseases, etc.) by determining blood fluidity (in other words, the smoothness of blood). Thus, it becomes possible to obtain test results with higher quantitativeness and objectivity for periodontal diseases.

(11) In the periodontal disease inspection device of the present invention, it is preferable that the image processing device further has a function of evaluating the degree of inflammation in the gingiva.

  By comprising in this way, it becomes possible to obtain a test result with higher quantitativeness and objectivity for periodontal diseases by evaluating the degree of inflammation in the gingiva.

(12) In the periodontal disease inspection device of the present invention, it is preferable to further include a determination device that determines the degree of periodontal disease based on the evaluation result regarding the state of the capillaries by the image processing device.

  By configuring in this way, it is possible to make a determination that is one step further than evaluation, and it is possible to obtain a test result with higher quantitativeness and objectivity. In addition, since the mechanical determination by the determination device is possible, the inspection result can be obtained quickly. For this reason, the periodontal disease test | inspection apparatus of this invention turns into an optimal periodontal disease test | inspection apparatus as a periodontal disease test | inspection apparatus used for a mass examination.

  Note that it is preferable to determine the degree of periodontal disease from the evaluation result by the image processing apparatus, for example, using an expert system constructed by analyzing examination results for a large number of patients.

  Hereinafter, the periodontal disease test | inspection apparatus of this invention is demonstrated based on embodiment shown in a figure.

Embodiment
Drawing 1 is a figure shown in order to explain periodontal disease inspection device 100 concerning an embodiment. 1A is an overall configuration diagram of the periodontal disease inspection device 100, FIG. 1B is a diagram illustrating a configuration of the intraoral camera 110 in the periodontal disease inspection device 100, and FIG. FIG. 1D is a view of the head portion 116 of the intraoral camera 110 as viewed from the front, with the head portion cover 134 being removed.

Drawing 2 is a figure shown in order to explain intraoral camera 110 in periodontal disease inspection device 100 concerning an embodiment. 2A is a diagram showing the configuration of the intraoral camera 110 before the disposable cylindrical spacer 136 is mounted, and FIG. 2B is the intraoral cavity after the disposable cylindrical spacer 136 is mounted. 2 is a diagram illustrating a configuration of a camera 110. FIG.
FIG. 3 is a diagram illustrating the head unit 116 of the intraoral camera 110 in the periodontal disease inspection device 100 according to the embodiment.
FIG. 4 is a diagram illustrating a state in which a periodontal disease is inspected using the periodontal disease inspection device 100 according to the embodiment. FIG. 4A is a diagram in the case where periodontal disease is not observed, and FIG. 4B is a diagram in the case where periodontal disease is progressing.

FIG. 5 is a diagram illustrating a captured image of a region to be inspected by the intraoral camera 110 in the periodontal disease inspection device 100 according to the embodiment. Reference A indicates an image of a capillary vessel.
FIG. 6 is a diagram illustrating the digital zoom function of the intraoral camera 110 in the periodontal disease inspection device 100 according to the embodiment. FIG. 6A is a photographed image before being enlarged and displayed by digital zoom, and FIG. 6B is a photographed image after being enlarged and displayed by digital zoom.
FIG. 7 is a diagram illustrating the optical zoom function of the intraoral camera 110a in the periodontal disease inspection device 100a according to the embodiment. FIG. 7A is a photographed image before being enlarged and displayed by optical zoom, and FIG. 7B is a photographed image after being enlarged and displayed by optical zoom.

  The periodontal disease inspection apparatus 100 according to the embodiment includes an intraoral camera 110, an apparatus main body 160, an image monitor 170, and a printing apparatus 180, as shown in FIG. The intraoral camera 110 and the apparatus main body 160 are connected by a connection cord 150, and the apparatus main body 160 and the printing apparatus 180 are connected by a connection cord 152.

  As shown in FIGS. 1B to 1D, the intraoral camera 110 illuminates the inspection target region R (see FIG. 4) in the oral cavity, and the inspection illuminated by the illumination device 126. The imaging apparatus 118 which expands and image | captures the capillary vessel contained in the target site | part R, the hand holding part 112, the arm part 114, and the head part 116 are provided.

  The illumination device 126 includes a plurality of near-infrared LEDs (for example, a near-infrared LED / OSIR5113A manufactured by Nichia Corporation) disposed in a peripheral portion of the front surface of the head unit 116. The illumination device 126 easily reaches the inside of the gums and interdental papilla, and has an emission peak in a light wavelength (specifically, near-infrared region (eg, 940 nm)) that is easily absorbed by capillaries (hemoglobin). Light).

  The imaging device 118 includes an imaging element (a color CCD having a light receiving sensitivity in the visible region to the near infrared region) 122, an optical system (objective lens) 120, and an amplifying unit 124. The optical system 120 has a 2 × to 10 × objective lens, and has a function of enlarging an image of a capillary blood vessel in the examination target region R and guiding it to the image sensor 122. The amplifying unit 124 has a function of amplifying an analog signal from the image sensor 122 and A / D-converting the analog signal and outputting it to the control unit 128 at the subsequent stage. The illumination operation of the illumination device 126 and the imaging operation of the imaging device 118 are controlled by the control unit 128.

  The optical system 120 has a function of focusing on capillaries existing in the gums and interdental papilla. The optical system 120 has an autofocus function, a camera shake prevention function, and an optical zoom function.

  As shown in FIGS. 2 and 3, a disposable cylindrical spacer 136 can be attached to the distal end portion (head portion 116) of the intraoral camera 110. Reference numeral 138 indicates a spacer body, reference numeral 140 indicates a position adjusting projection, and reference numeral 142 indicates a window. Reference numeral 130 denotes a light shielding member, and reference numeral 132 denotes a pinhole.

  The apparatus main body 160 includes an image processing apparatus 162 (not shown) and a determination apparatus 164 (not shown).

  The image processing device 162 has a function of evaluating the state of the capillary blood vessel, a function of measuring the flow velocity of blood flowing through the capillary blood vessel, and a function of evaluating the degree of inflammation in the gingiva based on the captured image obtained from the imaging device 118. Have. The evaluation of the state of the capillaries by the image processing device 162 is performed by, for example, analyzing the imaging results for a large number of patients, setting an evaluation criterion in advance, and using this evaluation criterion.

The image processing apparatus 162 has a function of determining an enlarged imaging region R ₁ based on the imaging result of the examination target region R, a function to enlarge the digital zoom by selecting an enlarged imaging region R ₁ (see FIG. 6 .)

Further, the image processing device 162 has a function of determining the enlarged imaging region R ₁ based on the imaging result in the examination target region R, and the intraoral camera 110 has the enlarged imaging region R ₁ determined by the image processing device 162. And has a function of taking an enlarged image by optical zoom (see FIG. 7).

  The image processing device 162 further has a function of making the captured image easier to see by converting the color of the red component in the captured image into the color of another color component (for example, a green component) (see FIG. 5). Since FIG. 5 is a black and white image, the color tone cannot be recognized, but the original drawing in FIG. 5 has a green tone as a whole.

  The determination device 164 has a function of determining the degree of periodontal disease based on the evaluation result by the image processing device 162. The determination of the degree of periodontal disease in the determination device 164 is performed using, for example, an expert system constructed by analyzing test results for a large number of patients.

  In the periodontal disease inspection device 100 according to the embodiment, “capillary state” includes “capillary density”, “capillary coverage”, “degree of capillary expansion”, “capillary expansion”. “Degree of permeability increase”, “degree of bleeding from capillaries”, “degree of coagulation of blood bleeding from capillaries” and the like.

  According to the periodontal disease inspection device 100 according to the embodiment configured as described above, the “capillary state” includes “capillary density”, “capillary coverage”, “capillary dilation”. By evaluating “degree”, “degree of increased capillary permeability”, “degree of bleeding from capillaries”, “degree of coagulation of blood bleeding from capillaries” alone or in combination, periodontal With regard to the disease state (presence / absence of periodontal disease, progression of periodontal disease, etc.), it is possible to obtain a highly quantitative and objective test result.

  In addition, according to the periodontal disease inspection device 199 according to the embodiment, it becomes possible to inspect periodontal diseases by optically measuring the state of capillaries, so that a probe is inserted into a gum or periodontal pocket. This eliminates the need to do this and can suppress the problem of causing pain to the patient.

  Therefore, the periodontal disease inspection apparatus 100 according to the embodiment is a periodontal disease inspection apparatus that does not give pain to the patient and can obtain a highly quantitative and objective test result.

  Further, near-infrared light has the property of being easily absorbed by capillaries in the same manner as red light, but has the property of being more likely to pass through the gingival region than red light, and thus the periodontal disease inspection device 100 according to the embodiment. According to the above, only weak internal reflection light can be obtained at the site where the capillary is present, and as a result, the capillary is displayed blacker than the surroundings (see FIGS. 5 to 7). At this time, since near-infrared light has the property of passing through the gingival part more easily than red light, according to the periodontal disease inspection device 100 according to the embodiment, an illumination device that illuminates the examination site using red light The ratio of the internal reflection light to the surface reflection light can be increased as compared with the case of using. For this reason, according to the periodontal disease inspection device 100 according to the embodiment, the sensitivity of the image of the capillary blood vessel existing in the back of the gingival part is compared with the case of using the illumination device that illuminates the examination target site using red light. It is possible to shoot well.

  Further, according to the periodontal disease inspection device 100 according to the embodiment, since the illumination device 126 includes the near-infrared LED, the intraoral camera 110 can be reduced in size, weight, and power consumption. In addition, the driving circuit is simplified and the intraoral camera can be made smaller, lighter, and consume less power than when using the near infrared LD.

  In addition, according to the periodontal disease inspection device 100 according to the embodiment, the imaging device 118 includes a color solid-state imaging device having light receiving sensitivity in the visible region to the near infrared region, and therefore has a wavelength component that can visually recognize capillaries with high sensitivity. Capillary blood vessels can be imaged by using them, and an image of capillaries can be imaged with higher sensitivity.

  In addition, according to the periodontal disease inspection device 100 according to the embodiment, the image processing device 162 has a function of making the captured image easy to see by converting the color of the red component in the captured image into the color of another color component. Furthermore, since it has, it becomes possible to display a capillary vessel using the wavelength component which can visually recognize a capillary vessel with high sensitivity, and it becomes possible to take an image of the capillary vessel with higher sensitivity.

  In addition, according to the periodontal disease inspection device 100 according to the embodiment, since the imaging device 118 has a 2 × to 10 × objective lens, it is possible to image capillary blood vessels in a relatively wide range, and gingival diseases. Can be inspected more firmly.

Further, according to the periodontal disease inspection device 100 according to the embodiment, the image processing device 162 selects the enlarged imaging region R ₁ and the function of determining the enlarged imaging region R ₁ based on the imaging result in the examination target region R. since having a function to enlarge the digital zoom to, without changing the imaging area becomes possible to enlarge an enlarged imaging region R _1, it is possible to obtain a rapid test result. In this case, selection of the enlarged imaging region R ₁ is performed by the image processing.

Further, according to the periodontal disease inspection apparatus 100 according to the embodiment, the image processing apparatus 162 has a function of determining an enlarged imaging region R ₁ based on the imaging result of the examination target region R, intraoral camera 110 because it has a function of enlarging photographed by optical zooming by selecting the enlarged imaging region R ₁ that is determined by the image processing apparatus 162, first, rough performing preliminary imaging, the imaging region in the oral cavity based on the preliminary imaging result Therefore, it is possible to quickly image the main imaging region and obtain the inspection result quickly. In addition, since it is possible to precisely determine the optimum imaging range, it is possible to obtain inspection results with higher quantitativeness and objectivity. In this case, the selection is enlarged imaging region R _1, a portion of the optical system of the imaging device (e.g., an objective lens or an imaging device.) Performed by moving in the plane perpendicular to the optical axis.

  In addition, according to the periodontal disease inspection device 100 according to the embodiment, since it further includes the disposable cylindrical spacer 136 for fixing the intraoral camera 110 at an appropriate position in the oral cavity, a high-quality captured image ( In particular, in the case of a moving image, it is possible to obtain a test result with high quantitativeness and objectivity. In addition, with the disposable cylindrical spacer 136 attached to the distal end of the intraoral camera 110, the intraoral camera 110 is pressed to an appropriate position in the oral cavity by pressing the intraoral camera 110 to an appropriate position in the oral cavity. Can be fixed. Moreover, it becomes possible to perform a hygienic periodontal disease test by replacing the disposable cylindrical spacer 136 for each patient.

  In addition, according to the periodontal disease inspection device 100 according to the embodiment, the image processing device 162 further has a function of measuring the flow velocity of blood flowing through the capillaries, and thus blood fluidity (in other words, the smoothness of blood). This makes it possible to consider the relationship with other diseases (for example, diabetes, lifestyle-related diseases, etc.), and to obtain more quantitative and objective test results for periodontal diseases. It becomes possible.

  In addition, according to the periodontal disease inspection device 100 according to the embodiment, the image processing device 162 further has a function of evaluating the degree of inflammation in the gingiva. Therefore, the periodontal disease is evaluated by evaluating the degree of inflammation in the gingiva. It is possible to obtain test results with higher quantitativeness and objectivity.

  In addition, according to the periodontal disease inspection device 100 according to the embodiment, since it further includes the determination device 164 that determines the degree of periodontal disease based on the evaluation result regarding the state of the capillary vessel by the image processing device 162, the evaluation is more than the evaluation. Since it is possible to make the determination one step further, it is possible to obtain a test result with higher quantitativeness and objectivity. In addition, since the determination by the determination device 164 is possible, the inspection result can be obtained quickly. For this reason, the periodontal disease test | inspection apparatus 100 which concerns on embodiment becomes an optimal periodontal disease test | inspection apparatus as a periodontal disease test | inspection apparatus used for a mass examination.

  In addition, according to the periodontal disease inspection device 100 according to the embodiment, the imaging device 118 includes the imaging device 122 and the optical system 120 that enlarges an image of the capillary blood vessel in the examination target region R and guides it to the imaging device 122. Therefore, it is possible to magnify a capillary blood vessel without reducing the resolution.

  In addition, according to the periodontal disease inspection device 100 according to the embodiment, the illumination device 126 has a function of irradiating light with a wavelength reaching the inside of the gums and interdental papilla, and the optical system 120 includes the gums and Since it has a function of focusing on the capillaries existing inside the interdental papilla, it is possible to photograph the capillaries existing inside the gums and interdental papilla in a focused state.

  Further, according to the periodontal disease inspection device 100 according to the embodiment, the optical system 120 has an autofocus function, so that it is possible to always photograph the capillary blood vessels in focus.

  Further, according to the periodontal disease inspection device 100 according to the embodiment, the optical system 120 has a camera shake prevention function, so that it is possible to photograph a capillary blood vessel in a state in which camera shake is always prevented.

  According to the periodontal disease inspection device 100 according to the embodiment, since the image monitor 170 is further provided, when a captured image is displayed, it is possible to easily check and determine the shooting location, and to evaluate and determine the result. When is displayed, the evaluation result and the determination result can be easily confirmed.

  According to the periodontal disease inspection device 100 according to the embodiment, since the printing device 180 is further provided, the imaging result, the evaluation result, the determination result, and the like are immediately printed, so that quick and appropriate feedback is performed to the patient. It becomes possible. In addition, an appropriate result can be output even when used for group screening.

  As mentioned above, although the periodontal disease test | inspection apparatus of this invention was demonstrated based on the said embodiment, this invention is not limited to this, It can implement in the range which does not deviate from the summary, for example, The following modifications are also possible.

(1) In the periodontal disease inspection device of the present invention, the optical system may have a function of changing the distance between the objective lens and the region R to be examined. In this case, by changing the distance to the examination target region R without moving the intraoral camera, it is possible to photograph the capillary blood vessels from various distances.

It is a figure shown in order to explain the periodontal disease inspection device 100 concerning an embodiment. It is a figure shown in order to demonstrate the intraoral camera 110 in the periodontal disease test | inspection apparatus 100 which concerns on embodiment. It is a figure shown in order to demonstrate the head part 116 of the intraoral camera 110 in the periodontal disease test | inspection apparatus 100 which concerns on embodiment. It is a figure which shows a mode that the periodontal disease is test | inspected using the periodontal disease test | inspection apparatus 100 which concerns on embodiment. It is a figure which shows the picked-up image of the test | inspection site | part R by the intraoral camera 110 in the periodontal disease test | inspection apparatus 100 which concerns on embodiment. It is a figure shown in order to demonstrate the digital zoom function of the intraoral camera 110 in the periodontal disease test | inspection apparatus 100 which concerns on embodiment. It is a figure shown in order to demonstrate the optical zoom function of the intraoral camera 110 in the periodontal disease test | inspection apparatus 100 which concerns on embodiment. It is a figure shown in order to demonstrate the conventional periodontal disease inspection apparatus 500. FIG. It is a figure shown in order to demonstrate the conventional periodontal disease inspection apparatus 600. FIG. It is a figure shown in order to demonstrate the conventional periodontal disease test | inspection apparatus 700. FIG. It is a figure shown in order to demonstrate the conventional periodontal disease test | inspection apparatus 800. It is a figure shown in order to demonstrate the conventional periodontal disease inspection apparatus 900. FIG.

Explanation of symbols

100, 500, 600, 700, 800, 900 ... Periodontal disease inspection device, 110 ... Intraoral camera, 112 ... Hand-held part, 114 ... Arm part, 116 ... Head part, 118 ... Imaging device, 120 ... Optical system, 122 DESCRIPTION OF SYMBOLS ... Image pick-up element, 124 ... Amplifying part, 126 ... Illuminating device, 128 ... Control part, 130 ... Light-shielding member, 132 ... Pinhole, 134 ... Head part cover, 136 ... Disposable cylindrical spacer, 138 ... Cylindrical spacer main body , 140 ... Position adjustment projection, 142 ... Window part, 150 and 152 ... Connection cord, 160 ... Device main body, 170 ... Image monitor, 180 ... Printing device, 501 ... Teeth, 508 ... Periodontal pocket, 511 ... Light source, 512 ... Lens, 513 ... Optical fiber for light projection, 514 ... Scale, 519 ... Optical fiber for light reception, 520 ... Photodiode, 521 ... Signal processing 522 ... Speaker 523 ... Light source unit 524 ... Grip cover 525 ... Probe 526 ... Data processing unit 601 ... Light source 602 ... Light source side polarization filter 602p ... Light source side polarization filter (p polarization transmission type), 603... Light receiving side polarizing filter, 603 p. Light source side polarizing filter (p polarized light transmission type), 603 s... Light source side polarizing filter (s polarized light transmission type), 604 ... Image pickup device, 606 ... Monitor, 711. 712, 713 ... mirror, 714, 715 ... optical fiber, 714a, 715a ... free end, 716 ... objective lens, 720 ... tube, 721 ... grasping part, 750 ... periodontal disease blind sac, 752 ... tooth, 760 ... Nozzle, 761 ... Ikumi, 801 ... Infrared camera, 802 ... Test periodontal tissue, 803 ... Image processing 804 ... computer, 805 ... monitor, 806 ... recording reproduction device, 807 ... thermal difference enhancement means, 808 ... observation auxiliary device, 901 ... gingival surface, 902 ... output light, 903 ... laser light source, 904 ... scattered light, 905 ... Photoelectric conversion element, 906 ... Amplifier (AMP), 907 ... Band pass filter (BPF), 908, 910 ... Analog to digital converter (A / D), 909 ... Heart rate signal detector, 911 ... Processing means, 912 ... Display device, 913 ... Output device, 914 ... Calculation unit, 915 ... Analysis parameter input / setting unit, 916 ... Post-processing unit, 917 ... Optical attenuator, D ₁ ... Tooth, D ₂ ... Gum, D ₃ ... Alveolar bone , G: gum, L ₁ , L ₁ (p) ... illumination light, L ₂ , L ₂ (p) ... surface reflected light, L ₃ (p / s) ... internally reflected light, R ... site to be examined

Claims (12)

Oral cavity provided with an illuminating device that illuminates a region to be examined in the oral cavity using illumination light having a light emission peak in the near infrared region, and an imaging device that magnifies and images the capillaries included in the region to be examined illuminated by the illuminating device With the inner camera,
An apparatus for examining periodontal disease, comprising: an image processing device having a function of evaluating the state of capillaries based on a photographed image obtained from the imaging device. In the periodontal disease test | inspection apparatus of Claim 1,
The said illuminating device has near infrared LED, Periodontal disease test | inspection apparatus characterized by the above-mentioned. In the periodontal disease test | inspection apparatus of Claim 1 or 2,
The said imaging device has a color solid-state image sensor which has a light receiving sensitivity in visible region-near-infrared region, Periodontal disease test | inspection apparatus characterized by the above-mentioned. In the periodontal disease test | inspection apparatus in any one of Claims 1-3,
The periodontal disease inspection device, wherein the image processing device further has a function of making the captured image easier to see by converting the color of the red component in the captured image into the color of another color component. In the periodontal disease test | inspection apparatus in any one of Claims 1-4,
The said imaging device has a 2-10 times objective lens, The periodontal disease test | inspection apparatus characterized by the above-mentioned. In the periodontal disease test | inspection apparatus in any one of Claims 1-5,
The image processing apparatus has a function of determining an enlarged imaging region based on an imaging result in a region to be inspected, and a function of selecting the enlarged imaging region and enlarging and displaying it by digital zoom. . In the periodontal disease test | inspection apparatus in any one of Claims 1-6,
The image processing apparatus has a function of determining an enlarged imaging region based on an imaging result in the examination target part,
The intraoral camera has a function of selecting an enlarged imaging region determined by the image processing device and performing enlarged imaging using an optical zoom. In the periodontal disease test | inspection apparatus in any one of Claims 1-7,
An apparatus for examining periodontal disease, further comprising a fixing means for fixing the intraoral camera at an appropriate position in the oral cavity. In the periodontal disease test | inspection apparatus of Claim 8,
The periodontal disease inspection device according to claim 1, wherein the fixing means is a disposable cylindrical spacer used by being attached to a distal end portion of the intraoral camera. In the periodontal disease test | inspection apparatus in any one of Claims 1-9,
The image processing apparatus further has a function of measuring a flow rate of blood flowing through a capillary vessel, and the periodontal disease inspection apparatus. In the periodontal disease test | inspection apparatus in any one of Claims 1-10,
The image processing apparatus further has a function of evaluating the degree of inflammation in the gingiva. In the periodontal disease test | inspection apparatus in any one of Claims 1-11,
An apparatus for examining periodontal disease, further comprising a determination device that determines the degree of periodontal disease based on an evaluation result relating to a state of a capillary vessel by the image processing device.