Abstract:
A temporary crown, and variants thereof, including temporary bite caps and temporary facings, comprised of a shaped provisional (crown forms, onlays, veneers and variants thereof) and a resin filler; and a kit of provisionals, resin and auxiliary materials. The provisional has at least a partial bite layer that is integral with two opposing neighbor walls, a lingual wall and a buccal wall which, together, define a cavity to accept a tooth stub, the resin filler and optionally, a temporary adhesive. The resin filler is initially plastic and fills a void between the provisional and the tooth stub. The provisional and resin filler are selected for compatibility and cooperative curability such that following a suitable curing step, the inner layer of the provisional and the resin filler are substantially bound to and integral with one another. The provisional may have apertures through the bite layer and slits through the neighbor walls. The apertures are located in the vicinity of the cusp tips in temporaries for molars and bicuspids and in the vicinity of the junction of the lingual and incisal planes on the lingual surface in temporaries for canines and incisors. A temporary bridge can be formed in situ from a plurality of temporaries.

Description:
This application claims the benefit of Provisional application Ser. No. 60/376,210, filed Apr. 30, 2002. 

   BACKGROUND OF THE INVENTION 
   Permanent crowns, permanent facings and permanent bite caps have been used for many years to replace damaged or decayed teeth. They are also used to improve the aesthetics of teeth, even in cases where there is no damage or decay. The restorative process involves a number of steps. During the restorative process, a dentist must remove the damaged or decayed portion of the tooth, protect the remaining portion of the natural tooth (in the most severe case, a tooth stub) with a temporary (a “temporary” being one of a temporary crown, temporary facing or temporary bite cap) and then later, after a permanent crown, facing or bite cap has been made, restore the tooth by applying the permanent structure to the remaining portion of the natural tooth. 
   For the purposes of this specification, the remaining portion of the natural tooth will be referred to as the tooth when the temporization process involves an onlay or a veneer and when the temporization process involves a crown form, the remaining portion of the natural tooth will be referred to as a tooth stub. For the purposes of this specification, a “temporary bite cap” and a “temporary facing” are temporaries that cover less of the tooth than does a temporary crown. A temporary bite cap covers at least one cusp of the tooth and a temporary facing covers at least one side of a tooth. A “temporary”, therefore, refers collectively to temporary crowns, and variants thereof, including temporary bite caps and temporary facings. A “provisional” refers collectively to crown forms, onlays, veneers and variants thereof. Temporaries, therefore, are further defined as the combination of a provisional, a resin filler and an optional temporary or permanent adhesive. 
   When a permanent crown is required, the temporization process involves fitting a temporary crown over the tooth stub, affixing the temporary crown, and then at a later time, removing the temporary crown in order to place the permanent crown on the stub. The temporary crown protects the stub and functions, with the stub, as a complete tooth while the permanent crown is being made. 
   When a permanent facing or a permanent bite cap is required, the temporization process involves fitting the tooth with a temporary facing or a temporary bite cap, affixing these temporaries, and then, as above, removing the temporary structure in order to place the permanent structure on the tooth. 
   Whether the dentist decides to use a crown form, a veneer or an onlay in the temporization process depends on the extent of damage to the tooth. When a large amount of tooth has been damaged, the tooth will be reduced to a stub and a crown form will be required. If the damage is restricted to the occlusal surface of the tooth, an onlay will be required, and if the damage has been restricted to the side of the tooth, a veneer will be required. As would be apparent, there is a broad range in the amount of tooth that is removed from case to case, and correspondingly, there is a broad range of tooth coverage provided by the various temporaries. 
   Having regard to the foregoing, there is no clear conceptual distinction between the various temporaries, a large veneer being essentially the same as a small crown form (for example, a ¾ crown form), and similarly, a large onlay being essentially the same as a small crown form (for example a ¾ crown form). For example, an onlay may comprise as little as one cusp and one wall and as much as the entire occlusal surface and up to ¾ of each wall. Once the temporization is comprised of more than ¾ of the walls, it is no longer considered to be an onlay, but rather, it is often referred to as a ¾ crown form. Similarly, a veneer may comprise as little as one wall. Once the temporary comprises the incisal or occlusal surface and, for example, the lingual wall and enough of the neighbour walls to extend past the narrowest part of the space between the temporary and the adjacent structure, it is usually referred to as a ¾ crown form. As would be apparent, the relationship between crown forms and veneers and onlays extends to the resultant temporary crowns, facings and bite caps. 
   Crown forms are used extensively in the temporization process. Until recently, these forms are typically made of stainless steel, aluminum, anodized gold, polycarbonate or clear plastic such as 3M™ clear strip forms. Many different sizes and shapes are required. For example, crown forms are sized for deciduous and permanent teeth, bicuspids, molars, canines and incisors. Accordingly, a dentist must have a large collection of crown forms readily available when doing restorative work. 
   In contemporary dental practice, the crown form is filled with resin and the resin is affixed non-permanently to the stub of the tooth by means of a cement, or by photo-active temporary adhesives. The resins are commonly heterogeneous materials having three essential phases: (1) a polymeric matrix which comprises the continuous phase; (2) fillers of various types, sizes, shapes and morphologies that constitute the disperse phase; and (3) an interfacial phase that, in varying degrees, bonds the continuous and disperse phases into a unitary material rather than a simple admixture 
   It is the crown form in combination with the resin and cement that constitutes the temporary crown known previously. 
   The resins with which the crown form is filled typically contain predominately methacrylates, diacrylates or dimethacrylates as the polymeric matrix, as disclosed for example in U.S. Pat. No. 6,114,408, herein incorporated by reference, and additionally have a photochemical initiator, such as camphorquinone, that is either mixed with the polymorphic matrix just prior to use, or is provided in a photo-active temporary adhesive formulation. Once the temporary adhesive, resin and crown form are placed on the tooth stub, ultraviolet or visible light is used to activate the initiator, which then produces free radicals. These free radicals in turn initiate polymerization. The polymerization process is exothermic, and therefore can be irritating to the patient unless great care is taken. 
   For the purposed of this specification, resin filler and provisional materials that can cross-polymerize with one another, such as those listed above, or can otherwise suitably bond together, are considered to be compatible. If this polymerization can be initiated at the same time in the provisional and the resin filler, or alternatively, initiated in one and the free radicals arising therefrom then initiating polymerization in the other, then the resin filler and the provisional are considered to be cooperatively curable. 
   Many of the cements and temporary adhesives commonly used in the temporization process do not chemically adhere to the tooth stub, nor do they chemically adhere to the crown form. Rather, the crown form is retained on the resin and cement or temporary adhesive by physical means (at least friction and/or surface adhesion, and preferably interference) and similarly, the resin and cement or temporary adhesive are retained on the stub by physical means (friction and surface adhesion). 
   On the other hand, the temporary adhesives that make use of polyacrylic acid, such as zinc polycarboxylate and glass polyalkenoate (glass ionomer), provide a carboxylate group that chemically adheres to the dentin of the tooth stub (see for example the information on this subject that is recorded in http://www.cda-adc.ca/jcda/vol-64/issue-8/569.html, herein incorporated by reference). However, these temporary adhesives do not adhere to the crown form. Hence, the crown form is again held in place by physical rather than chemical means. 
   The crown form has to be fitted carefully in the patient&#39;s mouth as there is little room for adjustment after the temporary crown is affixed. This care is in part required because perforce the temporary crown is not firmly attached to the stub (the dentist must be able to remove it before placing the permanent crown on the stub), and, therefore, can be easily dislodged. Further, the crown form material is thin, and hence, if the temporary crown is, for example, seated proud of the other teeth, the dentist when grinding the temporary crown for bite adjustment can remove only a limited amount of material from the surface before grinding through the crown form and into the resin. Grinding through the crown form can result in distortion of the crown form, and in the worst-case scenario, failure of the temporary crown. 
   Recently, sculptable composite resins have been developed to overcome many of the deficiencies in the prior temporary crown technology. Products such as that sold under REVOTEK LC™ as described, for example, in http://www.gcamerica.com/gcreveotk.htlm, herein incorporated by reference, are comprised of urethane dimethylacrylate, a color filler and a photochemical initiator, and are typically provided in the form of a putty. Once the tooth stub is prepared, the putty is used to sculpt a temporary crown in situ, photo-cured briefly to stabilize the shape, and removed from the patient&#39;s mouth for final curing. The sculpted temporary crown is then affixed to the patient&#39;s tooth stub using cement or photo-active temporary adhesives. In this procedure, no crown form is used. 
   While the sculptable temporary crown technology improves upon the prior art, it still requires that the patient spend considerable time in the dentist&#39;s chair during the temporization process. Further, it is essential to use the services of a highly skilled technician to sculpt the temporary crown in situ. 
   SUMMARY OF THE INVENTION 
   It is an objective of the invention to provide a temporary crown of the type comprising a crown form and a resin filler (and, optionally, when the temporary crown is affixed to the tooth stub, a temporary adhesive to keep it in place). The crown form has a bite layer that is integral with two neighbour walls, a lingual wall and a buccal wall to define a cavity. The cavity accepts a tooth stub. The walls have a gingival margin distal to the bite layer. 
   Another objective of the invention is to provide a temporary crown that is easy to install, with a minimum of fussing over size selection. Once installed, the temporary crown should have superior retention capabilities. 
   In an embodiment of the invention, the crown form and the resin filler are comprised of compounds that can polymerize with one another. An inner surface of the crown form has integral therewith an incompletely polymerized layer such as occurs when polymerization is done in the presence of oxygen. This incompletely polymerized layer polymerizes with the resin filler as the resin filler is being polymerized. Thus, the crown form and the resin filler are chemically bonded to one another, such that, within the constraints of the technique, there are little or no spaces between the resin filler and the crown form. 
   Preferably, the crown form in a preferred embodiment of the invention is light-transmissible and more preferably it is transparent. A transparent temporary crown provides two advantages. First, air bubbles trapped within the crown form can be seen, allowing the dentist an opportunity to remove them. Removal of air bubbles increases the strength of the bond between the resin filler and the crown form. A second advantage is that the dentist is able to color-match the resin filler or the color dye with the patient&#39;s tooth color, rather than having to match the crown form with the tooth color. This reduces the number of crown forms that the dentist is required to keep on hand. 
   In order to achieve the foregoing objectives of the invention, the essential components of the temporary crown, namely the crown form and the resin filler, are prepared from at least one of methacrylate, diacrylate, dimethacrylate and urethane methacrylate. 
   More preferably, the crown form and the resin filler are comprised of 2,2′-bis [4-(2-hydroxy-3-methacryloyloxypropoxy] phenyl propane (bis-GMA) (an addition product of methylacrylic acid and bisphenol A-diglycidyl ether). 
   The crown form and resin filler are able to polymerize with one another. This ensures that there is good bonding between the resin filler and the crown form. The advantage of good bonding is twofold. First, the crown form is unlikely to be dislodged. Second, unlike metal crown forms, the crown form of the present invention is unlikely to be deformed, even if it is ground during the fitting process. 
   Preferably, both the crown form and the resin filler contain a photochemical initiator. This allows the polymerization to be done in situ, simply by shining a light source on the temporary crown. 
   In a preferred embodiment of the invention, the crown form is comprised of REVOTEK LC™ or Triad™. 
   The crown form is optionally provided with at least one aperture in the bite layer of the crown form. In crown forms for molars and bicuspids, the aperture is preferably located on the cusp tips. In crown forms for canines and incisors, the apertures are preferably located on a lingual surface in the vicinity of a junction of the lingual, incisal and neighbour planes. In this manner, the apertures function as vents for expulsion of air during fitting of the temporary crown. Expulsion of air ensures that there is good contact between the crown form and the resin filler and ensures that the product is aesthetically pleasing. The apertures should be sized to permit ready escape of gas but small enough that outflow of resin filler is inhibited. 
   Another optional but preferred structural feature is the presence of invaginations that define slits on the neighbour walls which extend orthogonally from the gingival margin towards the occlusal surface. During the temporization process, resin filler is extruded from the cavity through the slits in situ in order to fill the space between the temporary crown and the adjacent structure, such as a tooth or a permanent crown. This reduces the risk of food becoming lodged in the space between the temporary crown and adjacent structures. 
   Another objective of the invention is to provide semi-permanent crowns for children. 
   A preferred embodiment of the temporary crown can be used as a semi-permanent crown simply by conditioning, priming and bonding the tooth stub, then utilizing a permanent luting cement to affix the resin filler in the semi-permanent crown to the tooth stub. 
   Yet another objective of the invention is to provide a veneer. In order to achieve this objective, as little as one of the lingual, buccal or neighbour walls of a crown form is wholly or partly removed from the crown form and as much as substantially all of the bite layer, all of any one wall and substantially all of any other two walls that are in opposition are removed from the crown form; alternatively, a veneer structure of this sort can be created without initial inclusion of any unwanted wall or wall portion. This veneer, when used with resin filler, and optionally, temporary adhesive, forms a temporary facing. 
   Yet another objective of the invention is to provide an onlay. In order to achieve this objective, the buccal, lingual and neighbour walls are partly removed from the crown form; alternatively, a structure of this sort can be created without initial inclusion of any unwanted walls or wall portions. The remaining bite layer is used with resin filler, and, optionally, temporary adhesive, and is formed to the desired shape to produce a temporary bite cap. 
   Yet another objective of the invention is to provide kits for the temporization process. In an embodiment of the invention, the kits contain a selection of crown forms, a resin filler, a temporary adhesive, colored dyes and a shaping instrument. Kits for temporary bridges additionally contain a variety of coupling means. Kits for semi-permanent crowns additionally contain a permanent luting cement. Kits for temporary facings comprise a selection of veneers, a resin filler, a temporary adhesive, colored dyes and a shaping instrument. Similarly, kits for temporary bite caps contain a selection of onlays, a resin filler, a temporary adhesive, colored dyes and a shaping instrument. 
   Yet another objective of the invention is to provide a means to prepare a temporary bridge in situ, utilizing a plurality of interconnected temporary crowns. Two or more temporary crowns as described above can be used to prepare a temporary bridge in situ by coupling a series of such temporary crowns together, neighbour side to neighbour side, and encasing a coupling means such as a carbon fiber, a carbon fiber rod, a porcelain composite rod or a woven fiber material such as Ribbond-THM™ in the resin filler. 

   
     BRIEF DESCRIPTION OF THE DRAWINGS 
       FIG. 1  is an exploded perspective view of a preferred embodiment of a temporary crown in accordance with the invention, showing a crown form, resin filler and temporary adhesive for a molar on a tooth stub. 
       FIG. 2  is a cross section of the crown form shown as part of the temporary crown in  FIG. 1  taken along the line II—II of FIG.  1 . 
       FIG. 3  is a perspective view of a representative patient&#39;s mouth, showing an incisor, a canine, a bicuspid and a molar. 
       FIG. 4  is a perspective view of a preferred embodiment of a crown form according to the invention, suitable for a molar. 
       FIG. 5  is a perspective view of a preferred embodiment of a crown form according to the invention, suitable for a bicuspid. 
       FIG. 6  is a perspective view of a preferred embodiment of a crown form according to the invention, suitable for an incisor. 
       FIG. 7  is a perspective view of a preferred embodiment of a crown form according to the invention, suitable for a canine. 
       FIG. 8  is a perspective view of a preferred embodiment of a crown form according to the invention showing a slit extending from the gingival margin towards a bite layer of the crown form. 
       FIG. 9  is a longitudinal section of the crown form shown as part of the temporary crown in  FIG. 1  taken along line III—III in FIG.  1 . 
       FIG. 10  is a longitudinal section of a preferred embodiment of a semi-permanent crown according to the invention showing the placement of a permanent luting cement. The line indicated by III—III in  FIG. 1  shows the location of the section. 
       FIG. 11  is a perspective view of a preferred embodiment of a temporary bridge constructed in accordance with the invention. 
       FIG. 12  is a longitudinal section of a preferred embodiment of a temporary bridge as shown in FIG.  11 . The line indicated by III—III in  FIG. 1  shows the location of the section. 
       FIG. 13  is an exploded perspective view of one preferred embodiment of a temporary facing. 
       FIG. 14  is a cross section of the veneer shown as part of the temporary facing shown in  FIG. 13 , taken along line XIV of FIG.  13 . 
       FIG. 15  is an exploded perspective view of a second preferred embodiment of a temporary facing. 
       FIG. 16  is a cross section of the veneer shown as part of the temporary facing shown in  FIG. 15 , taken along line XVI of FIG.  15 . 
       FIG. 17  is an exploded perspective view of a preferred embodiment of a temporary bite cap. 
       FIG. 18  is a cross section of the onlay shown as part of the temporary bite cap shown in  FIG. 17 , taken along line XVIII of FIG.  17 . 
   

   DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS 
   A temporary crown, generally indicated by the reference number  10 , has a crown form  12  and a resin filler  14  (FIG.  1  and  2 ). The crown form  12  has a bite layer  16  that is integral with two neighbour walls  18 ,  20 , a lingual wall  22  and a buccal wall  24  to define a cavity  26 . The walls  18 ,  20 ,  22  and  24  have a gingival margin  30  distal to the bite layer  16 . The cavity  26  accepts a tooth stub  34  and the resin filler  14  fills a void (not shown) between an inner surface  28  of the crown form  12  and the tooth stub  34 . A temporary adhesive  36  is optionally applied to the crown form  12 . Additionally, a color dye (not shown) is optionally applied to the inner surface  28  of the crown form  12  in order to color the temporary crown  10 . 
   There can be a number of different types of temporary crowns  10 , depending whether a molar  38 , a bicuspid  40 , an incisor  42  or a canine  44  is to be crowned (FIG.  3 ). Further, there are different shapes and sizes of temporary crowns  10 , ranging in size from one that would fit a deciduous tooth (not shown) to one that would fit a permanent tooth (not shown). Accordingly, a kit for temporary crowns  10  contains a selection of crown forms  12 , in addition to resin filler  14 , a shaping instrument (not shown) and optionally, temporary adhesive  36  and color dyes (not shown). 
   The crown form  12  for a molar  38  has a bite layer  16  with an occlusal surface  50 . The occlusal surface  50  has cusp tips  52  that correspond to the cusp tips  52  of the molar  38  (FIG.  4 ). Similarly, the crown form  12  for a bicuspid  40  has a bite layer  16  with an occlusal surface  50  (FIG.  5 ). The occlusal surface  50  has cusp tips  52  that correspond to the cusp tips  52  of the bicuspid  40 . Both crown forms  12  have apertures  54  located on the cusp tips  52 . There are preferably three apertures  54  in crown forms  12  for maxillary molars  38 , four apertures  54  in crown forms  12  for mandibular molars  38  and two apertures  54  in crown forms for the bicuspids  40 . These apertures  54  function as vents to permit the expulsion of air and prevent the extrusion of resin filler  14  from the temporary crown  10  during fitting of the temporary crown  10 . This improves the appearance of the temporary crown  10 , as air bubbles are forced out of the unpolymerized, and hence plastic resin filler  14  by exerting pressure on the crown form  12  during fitting. The apertures  54  should be large enough for effective venting but small enough that there is little tendency for the resin filler to flow from inside the temporary crown outwards through the apertures  54 . 
   The crown form  12  for an incisor  42  has a bite layer  16  with an incisal edge  56  that correspond to the incisal edge  56  of the teeth (FIG.  6 ). In order to locate the apertures  54 , lines are drawn to define an incisal plane  58 , a neighbour plane  60  and a lingual plane  62 . The incisal  58  and lingual planes  62  intersect to form a junction of the incisal and lingual planes  64  on a lingual surface  65  proximal to their intersection with the neighbour plane  60  and it is in this vicinity that the apertures  54  are located. There are preferably two apertures  54  in the crown forms  12  for the incisors  42 . The apertures  54  function as above. 
   The crown form  12  for a canine  44  has a bite layer  16  with an incisal edge  56  that correspond to the incisal edge  56  of the teeth (FIG.  7 ). In order to locate the apertures  54 , lines are drawn to define an incisal plane  58 , and two lingual planes  62 . These planes intersect to form a junction of the incisal and lingual planes  64  on a lingual surface  65  and it is in this vicinity that the apertures  54  are located. There is preferably one aperture  54  in the crown form  12  for the canines  44 . The apertures  54  function as above. 
   Regardless of the tooth involved, preferred embodiments of the crown forms  12  have invaginations on the neighbour walls  18 ,  20  that define a slit  66  that originates at the gingival margin  30  and extends orthogonally towards the bite layer  16  (FIG.  8 ). The function of the slits  66  is to permit extrusion of the resin filler  14  from the cavity  26 , through the slits  66  and into a space  68  (see  FIG. 2 ) that is found between the temporary crown and its adjacent structures, whether they are teeth  38 ,  40 ,  42 ,  44  or permanent crowns  10 . Filling the space  68  during fitting reduces the opportunity for food to become lodged there. The slits  66  also permit more flexibility in choosing the correct size of crown form  12 . This is because the slits  66  can be expanded slightly, but more importantly, because the extruded resin filler  14  fills the space  68 . 
   The crown form  12  is preferably comprised of at least a polymer of bis-GMA, (an addition product of methylacrylic acid and bisphenol A-diglycidyl ether) and a photochemical free radical initiator. Examples of suitable crown form materials include unfilled bis-GMA based resin, partially filled bis-GMA based resin, microfilled bis-GMA based resin, macrofilled bis-GMA based resin, and bis-GMA based resin containing glass ionomer, acrylic, methylmethacrylate or polycarbonate. Triad™ and REVOTEK LC™ are also suitable crown form materials. The resin filler  14  is capable of polymerization with the crown form  12  and is preferably comprised at least of bis-GMA, solid additives, and a photochemical free radical initiator. The solid additives provide coloration to the resin filler  14  and are, therefore, available in many shades such as those found in the Vita™ shade guide. Methacrylate, diacrylate, dimethacrylate or urethane methacrylate are also suitable crown form  12  and resin filler  14  materials. 
   In a preferred embodiment of the invention, the crown form  12  is transparent. This allows the dentist to view the resin filler  14  as the temporary crown  10  is being formed and to examine the temporary crown  10  for air bubbles in the resin filler  14 . The use of a transparent crown form  12  also allows the dentist to choose the most suitable color of resin filler  14  for the patient. This reduces the number of crown forms  12  that the dentist is required to have on hand. 
   In another embodiment of the invention, the crown form  12  is comprised of putty that is polymerized ex situ and supplied as a resilient crown form  12 . As an example, but not to be limiting, the crown form  12  is formed from REVOTEK LC™, Triad™, FRIT™ or Iso-Temp™. 
   The crown forms  12  are preferably supplied as a complete collection corresponding to deciduous and permanent teeth, and are in a variety of sizes. The crown forms  12  may be sold as part of a kit (not shown), which would include resin filler  14 , temporary adhesive, color dyes and a shaping instrument (not shown). 
   Formation of the temporary crown  12  by a dentist involves selecting the appropriate crown form  12  with its incompletely polymerized layer  70 , filling the crown form  12  with resin filler  14 , fitting the crown form  12  and resin filler  14  onto the tooth stub  34 , and photopolymerizing or autopolymerizing the resin filler  14  and incompletely polymerized layer  70  of the crown form  12  in situ. This results in formation of a relatively secure bond between the resin filler  14  and the crown form  12 , which, within the constraints of the technique, should be void of discontinuities. The resulting temporary crown  10  is then “pluck tested”. This test simply determines if the temporary crown  10  has adhered to the tooth stub  34 . If plucking the temporary crown  10  dislodges it, then the crown form  12  is coated with temporary adhesive  36 , the resin filler  14  and crown form  12  are placed on the tooth stub  34 , and the temporary adhesive  36  is photopolymerized or autopolymerized. The use of temporary adhesive  36  however is not always necessary, as sometimes the pluck test reveals that there is sufficient attachment of the temporary crown  10  to the tooth stub  34  without the need to add any temporary cement or adhesive  36 . 
   In an alternative embodiment of the invention, the temporary crown  10  is a semi-permanent crown for use on children (FIG.  10 ). These may be provided individually or as kits. The kits are as described above for temporary crowns  12  with the addition of a permanent luting cement  74 . In semi-permanent crowns, the semi-permanent crown is as described above, with the exception of the temporary adhesive  36 . In order to affix the semi-permanent crown  10  to the tooth stub  34 , a permanent luting cement  74 , rather than the temporary adhesive  36 , is used to affix the resin filler  14  and crown form  12 . The semi-permanent crown  10  can be replaced with a permanent crown when the tooth stub  34  ceases to erupt. This usually takes a number of years; years during which otherwise a child would ordinarily have a stainless steel temporary crown. 
   In yet another embodiment of the invention, a temporary bridge  76  is formed in situ, from a plurality of temporary crowns  10  (FIG.  11 ). A steel wire  78  joins the temporary crowns  10  to one another along a distal-medial axis  80 . The temporary bridge may alternatively be joined with a carbon fiber, a carbon fiber rod, a porcelain composite rod or Ribbond-THM™. Kits for temporary bridges  76  contain crown forms  12 , resin filler  14 , steel wire  78 , carbon fiber, carbon fiber rod or Ribbond-THM™, a shaping instrument(not shown) and optionally temporary adhesive  36  and color dye (not shown). 
   The steps involved in forming the temporary bridge  76  are essentially the same as the steps taken to form an individual temporary crown  10 , except that the steel wire  78  is embedded in the resin filler  14  subtending the bite layer  16  of the crown form  12  and passing through the slits  66  such that it traverses the tooth stubs  34 . Resin filler  14  is extruded through the slits  66  and into the spaces  68  between the temporary crowns  10 . The temporary bridge  76  is then polymerized in situ. 
   In many tooth repair situations, the tooth does not have to be reduced to a stub; rather, a less extensive part of the tooth  38 ,  40 ,  42   44  is removed. If the damage is located on a side of the tooth  38 ,  40 ,  42 ,  44 , a temporary facing  82  may suffice. As shown in  FIG. 12 , in one embodiment of the invention, the temporary facing  82  is comprised of a veneer  84  and a resin filler  14 . The veneer  84  is structurally the same as a crown form  12  except that all or a portion of one of the first neighbour wall  18 , the lingual wall  22  or the buccal wall  24  is first removed from a complete crown form. Thus, the veneer  84  has one of a foreshortened first neighbour wall (not shown), a foreshortened lingual wall  102  (shown by way of example in FIG.  13 ), or a foreshortened buccal wall (not shown). 
   In the embodiment shown in  FIG. 13 , the veneer  84  has a bite layer  16  that is integral with a first and second neighbour wall  18 ,  20 , a foreshortened lingual wall  102  and a buccal wall  24 , to define a cavity  26 . The cavity  26  permits the veneer  84  to be fitted to a tooth  38 , and the resin filler  14  fills a void (not shown) between an inner surface  28  of the veneer  84  and the tooth  38 . A temporary adhesive  36  is optionally applied to the tooth  38  and the temporary facing  82 . Additionally, a color dye (not shown) is optionally applied to the inner surface  28  of the veneer  84  in order to color the temporary facing  82 . 
   In the embodiment shown in  FIG. 15 , the veneer  84  has a much reduced bite layer  101  that is integral with the lingual wall  22  and a pair of truncated neighbour walls  103 ,  105 . A small cavity  28  is defined by the walls  22 ,  103 ,  105  and the bite layer  101 . The cavity  26  permits the veneer  84  to be fitted to a tooth  38 , and the resin filler  14  fills a void (not shown) between an inner surface  28  of the veneer  84  and the tooth  38 . A temporary adhesive  36  is optionally applied to the tooth  38  and the temporary facing  82 . Additionally, a color dye (not shown) is optionally applied to the inner surface  28  of the veneer  84  in order to color the temporary facing  82 . 
   The temporary facing  82  and the veneer  84  have all the chemical features of the temporary crown  10  and crown form  12 , respectively, described above. 
   In yet another embodiment of the invention, a temporary bite cap  122  is provided. The temporary bite cap  122  is employed when the surface of the tooth  38 ,  40 ,  42 ,  44  corresponding to the bite layer  16  is worn or damaged. In one embodiment of the invention, shown in  FIG. 17 , the temporary bite cap  122  is comprised of an onlay  124  and a resin filler  14 . The onlay  124  is structurally the same as a crown form  12  except that most of the neighbour walls  18 ,  20 , lingual wall  22  and buccal wall  24  are first removed. Thus, the onlay  124  has a bite layer  16  that is integral with foreshortened neighbour walls  98 ,  100 , a foreshortened lingual wall  102  and a foreshortened buccal wall  104 , to define a cavity  26 . The cavity  26  permits the veneer  84  to be fitted to a tooth  38  and the resin filler  14  fills a void (not shown) between an inner surface  28  of the onlay  124  and the tooth  38 . A temporary adhesive  36  is optionally applied to the tooth  38  and the onlay  124 . Additionally, a color dye (not shown) is optionally applied to the inner surface  28  of the onlay  124  in order to color the temporary bite cap  122 . 
   The temporary bite cap  122  and the onlay  124  have all the chemical features of the temporary crown  10  and crown form  12 , respectively, described above. 
   The foregoing description of the temporary crown, semi-permanent crown and the temporary bridge of the present invention describes the preferred embodiments and is not meant to be limiting. As would be apparent to one skilled in the art, there can be, for example, variation in materials, number of vents, and slit angle, the number of temporary crowns used in a temporary bridge, and the lifetime of the temporary bridge. Further, the invention provides for variations in the structure of the provisionals. As would be apparent to one skilled in the art, there is a conceptual continuum that embraces onlays, veneers and crown forms and hence, the resulting temporaries, including temporary facings, bite caps and crowns. For example, an onlay may comprise as little as one cusp and one wall and as much as the entire occlusal surface and up to ¾ of each wall. Once the temporization is comprised of more than ¾ of the walls, it is no longer considered to be an onlay, but rather, it is a ¾ crown form. Similarly, a veneer may comprise as little as one wall. Once the temporary comprises the incisal or occlusal surface and, for example, the lingual wall and enough of the neighbour walls to extend past the narrowest part of the space between the temporary and the adjacent structure, it is usually referred to as a ¾ crown form.