Restoration of the Endodontically Treated Tooth
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Restoration of the Endodontically Treated Tooth - Herbert T. Shillingburg Jr.
Restoration of the endodontically treated tooth is a subject of great interest to dentists, as is evidenced by the large number of articles on the subject that have appeared in the dental literature over the past two decades. This is a sign of the spread of endodontic therapy within the profession and the accompanying demand for it in the patient population. Teeth that were once removed are now saved by endodontic treatment. However, the endodontic treatment should not be considered complete until the tooth has been restored to complete function in a cosmetically acceptable way.
There are at least fourteen ways to build up an endodontically treated tooth for subsequent restoration. The number of commercially available systems for accomplishing this is even greater. Through this bewildering maze of techniques and products run some common principles governing their use.
Restoration of the Endodontically Treated Tooth identifies these principles and applies them to each of the many categories for rebuilding teeth.
An effort has been made to classify these systems logically and to give a step-by-step technique for their use. Each chapter presents the entire technique-from start to finish-for each method of restoring endodontically treated teeth. There is also a chapter on the important subject of temporary restorations for teeth with little or no coronal tooth structure.
Of the 739 illustrations, 227 of them are in color. The over 300 references present a rationale for a systematic approach to restoration of endodontically treated teeth, and to provide the reader with the opportunity to pursue topics of interest in even greater depth.
This book will guide the novice through the first few experiences in the restoration of endodontically treated teeth. It should also enable the experienced practitioner to evaluate different solutions to the problem and to feel comfortable in trying techniques or systems not previously used.
Understanding the most recently developed facts of dental science is of utmost important to each practicing dentist
Therefore, a good professional journal is indispensable for continuing up-to-date study. Quintessence International
provides everything the dentist desires: contemporary reports of new methods and devices, understandable descriptions of research result, criticism of poor quality materials and outdated methods, tips for better practice administration, etc.
Through the concentrated and precise layout of its report and its many illustration, some of which are in color, Quintessence International
, now united with Dental Digest
, has already won many friends in its short period of existence. Write to the publisher for details.
Restoration of the Endodontically Treated Tooth
Restoration of the Endodontically Treated Tooth
Herbert T. SNPngburg, Jr., D.D.S.
Professor and Chairman
James C. Kessler, B.S., D.D.S.
Assistant Professor
Department of Fixed Prosthodontics,
University of Oklahoma, College of Dentistry,
Oklahoma City, Oklahoma
Quintessence Publishing Co., Inc. 1982
Chicago, Berlin, Rio de Janeiro, Tokyo
© 1982 by Quintessence Publishing Co., Inc., Chicago, Illinois.
All rights reserved.
This book or any part thereof must not be reproduced by any means or in any form without the written permission of the publisher.
Lithography: Industrie- und Presseklischee, Berlin; time litho, Leinfelden-Echterdingen
Composition and printing: F. W. Wesel, Baden-Baden
Binding: F. W. Wesel, Baden-Baden
Printed in Germany
ISBN 0-86715-108-0
eISBN 978-0-86715-108-4
Dedicated to
Connie
Peggy
Preface
Endodontic therapy in general, and the restoration of nonvital teeth in particular, fell into disrepute in the United States during the 1930’s and 40’s. The widespread disregard for prevention or elimination of infection in the restoration of pulpless teeth became linked with the medical profession’s embrace of the focus of infection theory. Since the early 1950’s, when endodontic therapy was put on a sound scientific footing, the restoration of nonvital teeth has once again increased in the United States.
The use of endodontic therapy has spread within the profession in this country, and its acceptance has grown within the patient population. This has created a new problem for dentistry. Teeth which would have been extracted at one time are now saved. Root canal therapy should not be considered as an end in itself, however: it is only the first phase of treatment. Not until the tooth has been restored to function consistent with the esthetic demands of the patient’s mouth can the endodontic treatment be considered completed.
There are a number of dowel designs and techniques from which to choose in the restoration of the endodontically treated tooth. The last twenty years have seen a profusion of manufactured systems
utilizing prefabricated dowels, and the literature has been filled with articles describing techniques for restoring the pulpless tooth. However, reports of controlled studies were rare before Colley’s classic article on retention in 1968 and Standlee and Caputo’s equally classic analysis of stress distribution in 1972. There have been many more research reports since that time. The group at U.C.L.A., with Dr. Jon Standlee and Dr. Angelo Caputo as its nucleus, continues to contribute objective data to this important clinical area.
In writing this book, we have attempted to focus on the underlying principles and the common aspects of the restoration of endodontically treated teeth, while presenting as many different techniques and systems as possible. Products in some classifications are very similar. There is often little to choose between in terms of real difference. The fact that one system was selected for a detailed technique description, while another was simply identified, does not imply an endorsement of one over the other. We hope that the similarities in product and technique will be evident. It is our hope that readers can use this book to become familiar with different ways of restoring endodontically treated teeth and to learn the actual techniques which seem attractive to them. Because new products and techniques are constantly being introduced, it is also hoped that this volume will help students of dentistry, whether undergraduate or practicing, to assess changes.
Acknowledgements
Our introduction to this subject in a rational, systematic manner can be traced to two fine dentists and teachers: Dr. Robert Dewhirst and Dr. Donald Fisher. Many of the principles articulated in this book were learned from them.
Ms. Julie Hall did her usual excellent job of typing, copying, and hieroglyphic interpretation. It is hard to imagine how the project would have progressed without her speed and accuracy.
Finally, the authors want to thank Dr. Randy Atkinson, Dr. Mark Felton, Dr. Ed Harroz, Dr. Robert Johnson, Dr. Neil White, Dr. Brad Williams, Dr. Ken Wilson, and Dr. Doug Woodson for their assistance with the clinical series.
Contents
Preface
Acknowledgements
Chapter 1 Principles of Restoration of Endodontically Treated Teeth
Chapter 2 Custom Dowel-Core (Direct)
Chapter 3 Custom Dowel-Core (Indirect)
Chapter 4 Custom Dowel-Core (Two-Piece)
Chapter 5 Dowel-Core Under a Crown
Chapter 6 Dowel-Inlay Crown Repair
Chapter 7 Precision Parallel Plastic Dowel
Chapter 8 Precision Tapered Plastic Dowel
Chapter 9 Prefabricated Dowel/Cast Core
Chapter 10 Prefabricated Dowel/Composite Resin Core
Chapter 11 Parallel Threaded Dowel (Pretapped)
Chapter 12 Parallel Self-Threading Dowel
Chapter 13 Tapered Self-Threading Dowel
Chapter 14 Amalgam Pin Core
Chapter 15 Composite Resin Pin Core
Chapter 16 Temporary Restorations for Endodontically Treated Teeth
Authors Index
Subject Index
Chapter 1
Principles of Restoration of Endodontically Treated Teeth
Restoration of the endodontically treated tooth is complicated by the fact that much or all of the coronal tooth structure which normally would be used in the retention of a restoration has been destroyed by caries, previous restorations, trauma, and the endodontic access preparation itself. The dentist must employ the principle of substitution, using a dowel in the root canal itself, or pins in the surrounding tooth structure, to build up a replacement for the missing coronal tooth structure. Only then can the tooth be restored.
Solutions to this problem have challenged the inventiveness and ingenuity of dentists for centuries. in fact, teeth were often intentionally devitalized so that the dentist could take advantage of the retention afforded by a dowel placed into the root canal. During the eighteenth century, Pierre Fauchard used a wooden post jammed into the canal to retain crowns. When the wood became wet, it swelled, making the fit even more snug and secure. It also, on occasion, split the root.
Early pivot crowns
failed frequently because they were placed into poorly treated or totally untreated canals. The problem was such an obvious concern that one of the retentive devices, developed by Dr. F.H. Clark in 1849, consisted of a metal tube in the canal and a split metal dowel which was inserted into it.1 This spring-loaded
dowel was so designed to allow for the easy drainage of suppuration from within the canal or apical areas!
Even G.V. Black tackled this problem by developing a porcelain faced crown held in by a screw inserted into a canal filled with gold foil.2 One design whose use persisted for a number of years was the Richmond crown. Introduced in 1880, it first consisted of a threaded tube in the canal which held a screw placed through the crown. This design was later simplified to eliminate the tube and make the dowel, by then unthreaded, an integral part of the final restoration or crown (Fig. 1-1).3–6
Fig. 1-1 At one time the dowel-crown, in which the dowel is an integral part of the crown, was a commonly used restoration design for restoring endodontically treated teeth. The Richmond crown is an example of this type.
With the increased interest in the restoration of pulpless teeth in recent years, there has been a gradual changeover from the crown in which the dowel is an integral part. In its place is a separate, well retained device which replaces the missing coronal tooth structure. The crown is fabricated over it as it would be fabricated over a preparation composed entirely of tooth structure (Fig. 1-2).
Fig. 1-2 The dowel-core utilizes a dowel in the root canal to retain the device, while the core portion replaces missing coronal tooth structure. The crown, a completely separate unit, is fabricated over the core as though it were a preparation in virgin tooth structure.
The supragingival portion of such a device, either because it replaces coronal tooth structure, or because it forms the center or core of the new restoration, or perhaps because of both, is referred to as a core. If it is retained by a dowel or post in the root canal, it is called a dowel-core. A third component of this system is an encircling band of metal which will support the tooth externally, bracing it against fracture by the dowel. This has been described as the ferrule effect
by Eissmann, who suggests that it be 2.0 mm. wide.7 It may be provided by a coping,8 a long contrabevel on the core, or the axial walls of the crown, which extend apically beyond the margin of the dowel-core.
Finally, there must be a counter-rotational device on the dowel to prevent its being twisted or rotated by horizontal forces applied to the core. This can take the form of a keyway (a vertical groove cut in the wall of the canal, extending apically from the orifice),9–16 an ovoid or irregularly shaped canal,17–20 a short segment of a second root on a multi-rooted tooth,21 or a pin hole parallel with and separate from the canal preparation.22, 23 There is the possibility that the use of a keyway could endanger the structural integrity of the root.24 If a deep keyway is placed in a thin-walled tooth, it could act as a wedge and produce a cleavage plane. A keyway of normal depth and length placed in an adequate bulk of tooth structure is not likely to have a deleterious effect, however.
If the core is retained by small pins placed in the dentin around the root canal, it is a pin-retained core. Components may be prefabricated or custom-made, and they can be combined with cast metals or plastic material placed in the mouth. In any event, all devices used for building up teeth are variations of the dowel-core or the pin-retained core.
There are distinct advantages in having the retention device separate from the crown restoring the tooth. The adaptation of the axial walls and margin of the crown are totally unrelated to the fit of the dowel In the canal. Secondly, the crown can be easily remade if that should become necessary because of materials failure, caries, or change in the role of the crown (from simple restoration to bridge retainer) at anytime in the future. Replacing a single piece dowel-crown can be most difficult if the dowel is of adequate length. Although devices have been described for removing crowns, the force required to remove a crown with a long dowel just about dictates the cutting of a crown preparation in solid porcelain and metal (Fig. 1-3a and b). If it can be done, it will be time-consuming and tiring for both dentist and patient. Finally, if the tooth being restored is to be used as a bridge abutment, it is not necessary to attempt to align the canal preparation with the path of insertion of the other abutment preparation(s), or vice versa.
Fig. 1-3 Considerable difficulty may be encountered when a dowel-crown, such as the one on this maxillary right central incisor, must be replaced (a). If the original dowel was of adequate length, the dentist may have to create a preparation for the next crown from solid metal in the mouth (b).
The decision of whether to use some form of dowel-core or a pin-retained core is dependent upon several interrelated factors: the thickness of tooth structure around the canal, the bulk and height of remaining supragingival tooth structure, the diameter of the tooth, root morphology, bone support, and the tooth’s role in the final restoration of the mouth (single restoration or abutment). Not every endodontically treated tooth will require a crown. If an anterior tooth has sustained only minimal damage in the past, with no proximal surface involvement, it may be possible to restore the tooth with a lingual composite. Such a circumstance is the exception, however, and more extensive restoration is generally required. It is recommended by several authors that no less be done for an endodontically treated tooth than the placement of a restoration which will provide occlusal coverage.25–30
For those teeth that will require a crown, a decision must be made regarding the type of core required. Numerous clinicians have held that the tooth should be reinforced with a dowel.7, 16, 20, 31–36 Laboratory studies of the subject have been only partially supportive. Guzy and Nicholls, applying forces at 130° to the long axis, found no difference in the failure loads of canines or incisors which were reinforced with 1.0 mm. diameter posts compared with those which were unprotected.37 Kantor and Pines, however, reported that teeth with 1.25 mm. posts were 56% stronger than control teeth upon which no endodontic procedure had been performed, with loads applied at a 45° angle.38 Trabert and associates, using an impact tester, discovered no difference in resistance to fracture between untreated control teeth and endodontically treated teeth without posts.39 When teeth were restored with a steel post 1.25 mm. in diameter, however, the teeth were less likely to fracture than either the controls or teeth reinforced
with a larger 1.75 mm. post.
There would seem to be some basis for placing a dowel in the anterior tooth whose small root cross section does not possess the necessary bulk to provide adequate protection from fracture following the endodontic treatment. The dowel must not be made so large, however, that it destroys valuable tooth structure, and with it the structural integrity and natural strength of the tooth. The large circumference of a posterior tooth eliminates the need for a dowel to reinforce the tooth.7 Dowels may be used in posterior teeth to improve retention and to support the core and crown against laterally directed forces when there is no remaining coronal tooth structure to serve that function.
Dowel Retention
There are four factors which can have an effect on the retention of any dowel: length, taper, diameter, and surface configuration.
Dowel Length. It is not surprising that length plays the same role in the retention of dowel-cores that it does in the retention of crowns:/i.e., as length increases, so does retention. Inadequate length in dowels is probably the leading cause of failure of restorations on endodontically treated teeth (Fig. 1-4).
Fig. 1-4 Short dowels offer little resistance to displacement from either axially or obliquely directed forces.
Colley and associates demonstrated 2.23 times as much retention by increasing dowel length from 5.5 mm. to 8.0 mm. (Fig. 1-5).40 Other studies have reinforced this finding. Krupp et al. found an average increase of 47% in retention for an increase from 5.0 to 8.0 mm.41 An increase in retention of approximately 43% was shown by Johnson and Sakumura when the dowel was lengthened from 7.0 to 11.0 mm.42 Standlee et al. showed that the retention for all types of dowels was about one and one-half times as great when embedment depth increased from 5.0 to 8.0 mm.43 Ruemping and associates also determined that tensile retention increased with length, but they found that it was only 1.23 times as great when the dowel was expanded from 5.0 to 8.0 mm.14
Fig. 1-5 This graph demonstrates the direct relationship between length and retention. (Based on data by Colley and associates. 40 )
Because of its great importance to the longevity of the restoration, dowel length has attracted the attention of numerous clinicians writing on the subject. Many authors feel that the minimum length of the dowel should be equal to the length of the crown.3, 4, 9, 13, 16, 19–21, 28–30, 44–61 Others have stated that the dowel should be two-thirds the length of the root.7, 10, 11,20,29, 44, 51, 52, 62–71 A dowel length equal to three- quarters of the root length has been projected as the ideal