INTRA-ORAL BITE DEVICE AND METHOD OF RECORDING AN ANATOMICAL FEATURE OF A PATIENT BY USING THE INTRA-ORAL BITE DEVICE

Abstract

The present invention relates to an intra-oral bite device for use with an x-ray recording apparatus for recording the image of at least one oral area of a patient, located by the intra-oral bite device.

Claims

1. An intra-oral bite device (1; 101; 201; 301; 401; 501) suitable for use with an x-ray recording apparatus for recording an image of a dental area of a patient, the intra-oral bite device (1; 101; 201; 301; 401; 501) comprising: at least one bite area (3: 103; 203, 303: 403; 503) which at least partially comes into contact with at least one oral element (113a,113b; 313a, 313b; 413a, 413b; 513a, 513b) of the patient when bitten by the patient; the intra-oral bite device (1; 101; 201: 301; 401; 501) characterized by further comprising: a sensor device which has at least a first sensor facility (109; 209; 309a, 309b) adapted to sense the shape and position of at least one feature of the anatomical structure relating to the at least one oral element (113a, 113b: 313a, 313b; 413a, 413b; 513a, 513b) of the patient in the bite area (3; 103; 203 303; 403; 503) relative to the x-ray recording apparatus and output the sensing result to the x-ray recording apparatus for the purpose of enabling the x-ray recording apparatus to set the x-ray recording parameters including at least one of a radiation dose and radiation area in accordance with the sensed anatomical structure, one or more deformable first materials (5; 105; 202; 305a, 305b; 405a, 405b; 505a, 505b) in operative connection with the sensor device and disposed on the bite area (3; 103; 203; 303; 403; 503); and a support structure (111; 211; 311; 411; 511) for supporting the deformable first materials (5; 105; 202; 305a, 305b; 405a, 405b; 505a, 505b) and the sensor device, wherein the first sensor facility (109; 209; 309a, 309b) is positioned at least partially between the corresponding first material (5; 105; 202; 305a, 350h; 405a, 405b; 5055a, 505b) and the support structure (111; 211; 311; 411; 511), one connecting element (215) having a joint (217) for movably and adjustably connecting the support structure (111; 211; 311; 411; 511) with at least one support element (219) of the x-ray recording apparatus, another sensor facility (221) for sensing the relative position between the recording apparatus and the bite area as adjusted by the user.

2. The bite device according to claim 1, characterized in that each first material (5; 105; 202; 305a, 350b; 405a, 405b; 505a, 505b) comprises at least one of foam, gel, shape memory material, self-hardening material, or dental impression compound, wherein the first material (5; 105: 202; 305a, 350b: 405a, 405b; 505a, 505b) is deformable into positions at least partially in at least one of the labial, lingual, palatinal, buccal, mesial, distal. occlusal, incisal or cervical areas (323a,323b; 325a,325b; 327a,327b; 423a,423b; 523a,523b) in relation to the oral element, and wherein the contour and surface structure of the anatomical structure is detectable through the first sensor facility (109; 209: 309a, 309b) in the labial, lingual, palatinal, buccal, mesial, distal, occlusal, incisal or cervical areas in relation to the oral element.

3. The bite device according to claim 1, characterized in that at least two deformable first materials (5; 105; 205; 305a, 305b; 405a, 405b; 505a, 505b) are disposed on the lower and upper sides of the bite area (3; 103; 203; 303; 403; 503) respectively to enable sensing of the shape and positions of features of the anatomical structures relating to the oral elements (113a, 113b; 313a, 313b; 413a, 413b; 513a, 513b) on the upper jaw and lower jaw of the patient respectively.

4. The bite device according to claim 3, characterized in that the support structure (111; 211; 311; 411; 511) has an upper channel and a lower channel each for accommodating a deformable first material (5; 105; 202; 305a, 350b; 405a, 405b; 505a, 505b) and a first sensor facility (109: 209; 309a, 309b).

5. The bite device according o any one of claims 1 to 4, characterized by further comprising: at least one second sensor facility (529) for determining the deformation of the support structure (111; 211; 311; 411; 511) while the patient is biting down; wherein support structure (111; 211; 311; 411; 511) comprises a deformable second material which has a lower degree of rigidity than the first material (5; 105; 202; 305a, 350b; 405a, 405b; 505a, 505b).

6. The bite device according to claim 5, characterized in that the second sensor facility (529) comprises at least one of a piezoelectric element. inductive element, capacitive element, resistive element, or pressure sensitive element.

7. The bite device according to claim 6, wherein the first sensor facility (109; 209; 309a, 309b) comprises at least one piezoelectric element, inductive element, capacitive element, resistive element, or pressure sensitive element.

8. An x-ray recording apparatus comprising at least one radiation source and at least one radiation detector and at least one intra-oral bite device (1; 101; 201; 301; 401; 501) according to any one of the preceding claims, wherein the x-ray apparatus is adapted to set the x-ray recording parameters including at least one of a radiation dose and radiation area in accordance with the output of the intra-oral bite device.

9. The recording apparatus according to claim 8, characterized in that the recording apparatus is designed as an intra-oral apparatus, and extra-oral recording apparatus, or a DVT recording apparatus.

10. A method of sensing an oral anatomical feature of a patient for controlling an x-ray recording apparatus for making a recording of an oral area of the patient comprising the steps: providing an intra-oral bite device according to claim 1, biting down of the patient at least on the bite area with at least one oral element; sensing at least one of a material and geometrical feature of at least one oral anatomical structure of the patient.

11. The method acording to claim 10, characterized by further comprising: a step of controlling the x-ray recording apparatus through setting the recording parameters on the basis of the sensed anatomical feature, wherein the recording parameters include at least at least a sharp layer, orientation of the x-ray recording apparatus, radiation dose of the x-ray radiation source, recording area of the x-ray recording apparatus, an irradiation angle of the x-ray recording apparatus, a trajectory of the x-ray recording apparatus, an aperture position of the x-ray recording apparatus, and a radiation spectrum of the recording apparatus.

12. The method according to claim 11, characterized in that the sensing of the anatomical structure is also conducted at times while the x-ray recording is being made and the recording parameters are concomitantly altered or maintained based on the sensed anatomical structure, wherein the x-ray recording is interrupted when they determined anatomical feature lies outside a predetermined range.

13. The method according to claim 12, further comprising the steps: providing a display of one or more oral anatomical features of the patient which are being sensed or have been sensed; enabling the user to choose one or more teeth (735,737,739) or a selection area (633) enclosing one or more teeth (635,637) in the display to be recorded by the x-ray apparatus, setting the recording parameters of the x-ray apparatus according to the choice of the user and performing the x-ray recording.

14. The method according to claim 13, characterized in that the display comprises a panoramic view of the teeth (735,737,739) or a dental arch view of the teeth (635,637).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] In the subsequent description, further aspects and advantageous effects of the present invention will be described in more detail by using exemplary embodiments and by reference to the drawings, wherein

[0025] FIG. 1 is a perspective upper view of a bite device according to the first embodiment of the present invention, which comprises a plastically deformable first material;

[0026] FIG. 2a is a schematic partial cross-sectional view of a bite device according to the second embodiment of the present invention during biting down of a patient;

[0027] FIG. 2b is a schematic illustration of the data recorded through the sensor device of the bite device of FIG. 2a;

[0028] FIG. 3 is a perspective view of a bite device according to the third embodiment of the present invention;

[0029] FIG. 4 is a schematic partial vertical cross-sectional view of a bite device according to the fourth embodiment of the present invention during biting down by a patient;

[0030] FIG. 5a is a schematic partial side view of a bite device with a rigid support structure according to the fifth embodiment of the present invention;

[0031] FIG. 5b is a schematic partial side view of a bite device with an deformable support structure according to the sixth embodiment of the present invention;

[0032] FIG. 6 is a visualization based on the measurement data output by means of the bite device according to another embodiment of the present invention; and

[0033] FIG. 7 is a visualization based on the measurement data output by means of the bite device according to an alternative embodiment of the present invention.

[0034] The reference numbers shown in the drawings denote the elements as listed below and will be referred to in the subsequent description of the embodiments. [0035] 1 Bite device [0036] 3 Bite area [0037] 5 Material [0038] 7a, 7b, 7c, 7d Impression [0039] 101 Bite device [0040] 103 Bite area [0041] 105 Material [0042] 107a, 107b Impression [0043] 109 Sensor facility [0044] 111 Support structure [0045] 113a, 113b Tooth [0046] 201 Bite device [0047] 203 Bite area [0048] 205 Material [0049] 209 Sensor facility [0050] 211 Support structure [0051] 215 Connecting element [0052] 217 Joint [0053] 219 Support element [0054] 221 Sensor facility [0055] 301 Bite device [0056] 303 Bite area [0057] 305a, 305b Material [0058] 307a, 307b Impression [0059] 309a, 309b Sensor facility [0060] 311 Support structure [0061] 313a, 313b Tooth [0062] 323a, 323b Occlusal area [0063] 325a, 325b Lingual area [0064] 327a, 327b Buccal area [0065] 401 Bite device [0066] 403 Bite area [0067] 405a, 405b Material [0068] 407a, 407b Impression [0069] 411 Support structure [0070] 413a, 413b Tooth [0071] 423a, 423b Occlusal area [0072] 501 Bite device [0073] 503 Bite area [0074] 505a, 505b Material [0075] 507a, 507b Impression [0076] 511 Support structure [0077] 513a, 513b Tooth [0078] 523a, 523b Occlusal area [0079] 529 Sensor facility [0080] 631 Bite piece [0081] 633 Selection area [0082] 635 Tooth [0083] 637 Tooth [0084] 735 Tooth [0085] 737 Tooth [0086] 739 Tooth

[0087] FIG. 1 shows a schematic perspective view of a bite device 1 according to the first embodiment of the present invention. The bite device 1 has a bite area 3 established through a plastically deformable first material 5. In FIG. 1, the bite device 1 is shown in a state after a patient has bitten onto the bite area 3, and the bite device 1 has been removed from the mouth of the patient. Due to the plastic deformability of the first material 5, the impressions 7a, 7b, 7c, 7d of the oral elements can be clearly in seen in FIG. 1 having the form of the teeth which themselves have not been shown. Due to the fact that at the point in time at which the patient bites down, as will be further explained below, the bite device 1 was disposed in a predetermined position in space relative to the x-ray apparatus, and through sensing/scanning of the impressions 7a to 7d, a conclusion can be reached on the dental anatomy of the patient, in particular the position and shape of the teeth in space relative to the x-ray apparatus. The arrangement in FIG. 1 shows the bite device 1 for the upper jaw but may be duplicated to include the same elements also for the lower jaw. For this purpose, it is envisaged that the bite device 1 is subjected to a sensor device (not shown in FIG. 1) which analyses, in particular senses the anatomical structure influencing the bite area 3. The sensor device may be integral with or remote from the bite device 1. The position and shape of the teeth is then determined for example from the contour left on the bite device 1. On the basis of this data, the patient is then returned to the predetermined position, and on the basis of the sensed values, the recording parameters are set for making an x-ray recording. The x-ray recording parameters may include for instance a radiation dose and a recording area, in order to be able to view the oral area of the patient as required.

[0088] FIG. 2a shows a schematic partial sectional view of a bite device 101 according to the second embodiment the present invention. The reference numerals assigned to the bite device 101 correspond to those of the bite device 1 where increased by 100. In contrast to the bite device 1, in the bite device 101, the first material 105 used is elastically deformable. The first material 105 may be for example a foam material. The bite device 101 has a sandwich-type structure. A first sensor facility 109 of the sensor device is disposed below the first material 105. This first sensor facility 109 is in turn supported by a support structure 111. The arrangement in FIG. 2 shows only the bite device 101 for the upper jaw but may be duplicated to include the same sandwich-type structure also for the lower jaw. In the state shown in FIG. 2a, the patient bites down on the bite device 101 such that the oral elements leave impressions into the first material 105 having the form of the teeth 113a, 113b. Thereby, the impressions 107a and 107b are created in the first material 105. By means of the sensor facility 109 which is in operative contact with the first material 5, it is possible to record the deformation of the first material 105 and thus the contour and surface influenced in the bite area 103 can be sensed in a spatially resolved manner. FIG. 2b schematically shows in an example the measurement data that is delivered by the first sensor facility 109. On the basis of the measurement data, the scale to which the first material 105 has been compressed can be seen. The dark areas in the impression 107a or 107b shown in FIG. 2b, correspond to strong compression/deformations of the first material 105. Thereby, the chewing forces, and position and shape of the teeth 113a and 113b during biting down can be determined.

[0089] In alternative embodiments (not shown), the first material may be entirely or partially removed or provided at least partially transparently. And by means of the first sensor facility 109, the anatomical structure, such as the teeth 113a, 113b, can then be sensed / recorded without contact, for instance optically. Thus, the position and shape of the chewing surfaces and the like can be determined without contact, for instance through optical scanning.

[0090] FIG. 3 shows a schematic perspective view a bite device 201 according to the third embodiment of the invention. The elements of the bite device 201 that correspond to those of the bite device 101 bear the same reference numerals but increased through 100. The arrangement in FIG. 3 shows only the bite device 201 for the upper jaw but may be duplicated to include the same sandwich-type structure also for the lower jaw. The bite device 201 is designed such that when a patient bites down, the position and shape of the anatomical feature of at least the upper jaw of the patient can be sensed, output and recorded. For this purpose, the bite device 201 has a first material 205 in the bite area 203 below which a first sensor facility 209 is disposed. The sensor facility 209 and the first material 205 are supported by a support structure 211. The support structure 211 is connected via a connecting element 215, which comprises a joint 217 in the form of a ball joint, with a support element 219 of an x-ray recording apparatus. In order to record the position of the bite device 201 in space relative to the x-ray recording apparatus, the joint 217 has a third sensor facility 221. By means of the sensor facility 221, the position of the bite device 201, in particular of the bite area 203 in space can be determined. Hence by means of the data provided by the first sensor facility 209 and the second sensor facility 221, the geometry of the oral anatomical structure of the patient, when a patient bites down, can be determined relative to the x-ray apparatus.

[0091] FIG. 4 shows a bite device 301 according to the fourth embodiment of the present invention. The elements for the bite device 301 that correspond to those of the bite device 201 bear the same reference numerals but increased by 100. The bite device 301 enables the simultaneous recording of the anatomical features of both a lower jaw and an upper jaw of a patient. For this purpose, the bite device 301 has first materials 305a and 305b on both sides of the bite area 303. The first materials 305a, 305b can be identical, but also different in their properties, specifically with regard to their rigidity and deformability. When the patient bites down on the bite device 301, an impression 307a is produced in the material 305a by the tooth 313a of the upper jaw of the patient, while an impression 307b is produced in the material 305b by the tooth 313b of the lower jaw of the patient. In order to record the position and shape of the teeth 313a and 313b, the first sensor facilities 309a and 309b record an occlusal area 323a and 323b, a lingual area 325a and 325b and a buccal area 327b and 327a. In other words, the sensor facility 309a and 309b can sense in the occlusal area and in the lingual area and in the buccal area of the teeth 313a and 313b. As a result, a precise determination of the position and shape of the tooth 313a and 313b is enabled, as a result of which a setting of the x-ray recording apparatus can be performed.

[0092] FIG. 5a shows a schematic partial sectional side view a bite device 401 according to the fifth embodiment of the present invention. The elements for the bite device 401 that correspond to those of the bite device 301 bear the same reference numerals but increased by 100. For the purpose of simplification of the drawing, the first sensor facility 109 has not been shown in FIG. 5a. As can be seen from FIG. 5a, the support structure 411 has a higher rigidity than the first material 405a and 405b, and which is not easily deformed when bitten on by the patient.

[0093] FIG. 5b shows a schematic partial sectional side view of a bite device 501 according to the sixth embodiment of the invention. The elements of the bite device 501 that correspond to those of the bite device 401 bear the same reference numerals but increased by 100. In the bite device 501, the support structure 511 is formed from a second material, which has a low rigidity than the first materials 505a or 505b, and is elastically deformable when bitten on by the patient. A second sensor facility 529 is integrated into the support structure 511, by means of which the deformation of the support structure 511 can be recorded. Thus, a precise determination of the position and shape of of the oral elements of the patient, in particular of the teeth 513a and 513b, becomes possible.

[0094] FIG. 6 shows a display of a bite piece 631 of a patient based on the output of the bite device 1, 101, 201, 301, 401, 50. By means of the bite device 1, 101, 201, 301, 401, 501 of the present invention, the precise radiographic imaging of the dental anatomy of the patient becomes possible. A user can now select a selection area 633 in the bite piece 631 of FIG. 6, and the x-ray recording can be carried out accordingly. In particular based on the position, size and alignment of the oral elements 635 and 637 with respect to the x-ray recording apparatus, the radiation dose, a recording angle etc. can be precisely determined such that the best possible recording of the oral elements 635, 637 is achieved.

[0095] Alternatively, the data recorded and output by means of the bite device 1, 101, 201, 301, 401, 501 can also be visualized in the manner shown in FIG. 7. Thus, a schematic view of the teeth of the patient, similar to a panoramic view is shown, and the user can select for example the teeth 735, 737 for the precise radiographic imaging. The advantage of the visualization in FIG. 7 is that the oral elements of the upper jaw, for example of the tooth 739, can also be shown and can be selected for a subsequent x-ray recording.