Patent Number: 
Section: description

The following description is provided to enable any person skilled in the art to make and use the invention and sets forth the best modes contemplated by the inventor of carrying out his invention. Various modifications, however, will remain readily apparent to those skilled in the art, since the general principles of the present invention have been defined herein specifically to provide a sensor holder for a dental radiography procedure. To position and protect a sensor in the mouth of a patient, the present invention provides a holder that comprises an integrally formed bite wing 10 and a sleeve 20. FIG. 2 illustrates the holder in perspective view. The relationship between the bite wing 10 and the sleeve 20 is maintained by a reinforced T-joint 30 at the juncture of the two elements. Thus, the sleeve 20 is held perpendicular to the bite wing 10 by the T-joint 30. The reinforced T-joint 30 ensures that, when the patient bites down on the bite wing 10, the sleeve 20 and sensor within the sleeve 20 will remain rigidly positioned perpendicular to the plane defined between the upper and lower teeth. The T-joint 30 is reinforced because the bite wing 10 needs to be very thin in order for the upper teeth to be in proximity with the lower teeth after the upper and lower teeth bite into the bite wing 10. The larger the gap between the teeth, the more the distortion in the image and the poorer the quality of the image. To maintain adequate spacing, the thickness of the bite wing 10 away from the T-joint 30 is preferably twenty thousands of an inch or less. The sleeve 20 is preferably of a thickness of twenty thousands of an inch or less also, except in the base 40 where the bite wing 10 connects to the sleeve 20. The base of the sleeve 20 is preferably reinforced to a thickness of approximately twice that of the bite wing 10. The sleeve 20 has a rectangular profile which houses the sensor, and a base 40 which enlarges along a spine 50 that forms the juncture with the bite wing 10. The extreme edges 60 of the base 40 narrow and the other three sides of the sleeve 20 are preferably of a width equal to the width of the extreme ends 60 of the base 40. Since the base of the just described sleeve overlaps the opposite face of the sleeve, the sensor is not completely held with the sleeve 20 and thus can be removed easier. In a preferred embodiment, the sides 70 of the sleeve 20 are thicker than the face 80 of the sleeve 20 opposite the base 40 to form a more rigid holder. FIG. 3 illustrates an enlarged view of the juncture between the sleeve 20 and the bite wing 10. The T-joint 30 shows a thicker portion of the bite wing 10 adjacent the sleeve 20 to increase the rigidity of the joint. The base 40 of the sleeve, i.e. the portion of the sleeve which connects the bite wing, is also thicker than the bite wing region where the patient bites the holder, to form a sturdy positioning for the sensor. During the procedure, the sensor is placed in the sleeve sized specifically to firmly hold the sensor therein, and the holder with the sensor is placed in the patient""s mouth. The patient bites down fairly hard on the bite wing, cinching the sleeve tight against the adjacent upper and lower teeth. The reinforced T-joint 30 ensures that the sensor is perpendicular to the plane defined by the surfaces of the mating upper and lower teeth, and the image of the teeth is formed by an exposure of gamma radiation. The sensor provided a signal to a connected computer that receives the signal and forms an image on a monitor of the teeth. The image can be printed, saved to a file, manipulated or otherwise used for diagnostics of the teeth. In order to obtain the thickness of the bite wing and sleeve while maintaining the properties of the invention, several types of materials were investigated. The holder needs to have some pliability, but also must be rigid enough to position and protect the sensor. Another aspect of the material is that the holder preferably be indented with teeth marks after being used, to preclude reuse of the holders. This is a hygiene feature of the present invention that is derived from an appropriate choice of materials. After some experimentation, the preferred material is a polyethylene plastic that is injection molded to form the present invention. The melt flow of the polyethylene is between 40 and 80, with a preferred melt flow of 60. Another alternative is using a foam polystyrene similar to that used for packing material, because the foam can be compressed between the teeth to a small thickness and the biting will leave an obvious mark in the bite wing precluding subsequent use. The holder of the present invention can be color coded for different regions of the mouth. For example, one color can indicate a holder suited for molars while a second color could indicate a holder for bicuspids. Ease of use is paramount in the dental industry, and color codings can make a procedure a simpler routine to practice. The holders of the present invention can also include a flavor such as mint or cherry to enhance the experience for the patient. By making the holder of a plastic such as 40-80 melt polyethylene, the operator guarantees that the holders will be single use only since the patient will leave a bite mark in the bite wing. By making the holders single use, and thus disposable, the present invention provides security to the patient that cannot be compromised by absent minded or unscrupulous operators. Those skilled in the art will appreciate that various adaptations and modifications of the just-described preferred embodiment can be configured without departing from the scope and spirit of the invention. Therefore, it is to be understood that, within the scope of the appended claims, the invention may be practiced other than as specifically described herein.