Prevalence of cusp fractures in teeth restored with amalgam and with resin-based composite

HOME

HELP

FEEDBACK

SUBSCRIPTIONS

RESEARCH

JADA Continuing Education

Prevalence of cusp fractures in teeth restored with amalgam and with resin-based composite

MICHAEL J. WAHL, D.D.S., MARGARET M. SCHMITT, D.M.D., DONALD A. OVERTON, Ph.D. and M. KATHLEEN GORDON, Ph.D.

ABSTRACT

TOP
ABSTRACT
SUBJECTS AND METHODS
RESULTS
DISCUSSION
CONCLUSION
REFERENCES

Background. Complete cusp fracture in restored teeth is a commonproblem observed in general dental practice. Many dentists believethat teeth restored with amalgam are more likely to be associatedwith cusp fractures than are those restored with resin-basedcomposite.

Methods. The authors noted the condition of 10,869 posteriorteeth with amalgam or resin-based composite restorations withat least one cusp present, unrestored or missing in 1,902 consecutivelyseen adult patients in a private general dental practice. Foreach patient, the authors recorded age, type of restorations,number of surfaces of each restoration, and presence or absenceof a complete cusp fracture and of caries.

Results. There was a lower percentage of cusp fractures in youngersubjects than in older subjects and in teeth with a single restoredsurface than in those with more than one restored surface. Therewas no significant difference in the prevalence of cusp fracturerates in amalgam-restored teeth versus composite-restored teethin subjects aged 18 through 54 years. In subjects aged 55 through96 years, there was a marginally significantly greater cuspfracture rate in composite-restored teeth than in those restoredwith amalgam. Overall, there was no significant difference inthe prevalence of cusp fracture in teeth restored with amalgam(1.88 percent) versus composite-restored teeth (2.29 percent).

Conclusions. The prevalence of cusp fractures in amalgam-restoredteeth and resin-based composite–restored teeth is notsignificantly different. Teeth with more than one surface restoredwith either resin-based composite or amalgam and teeth in oldersubjects were more likely to suffer a cusp fracture.

Clinical Implications. Teeth restored with amalgam and withresin-based composite exhibited equally low cusp fracture prevalence.When choosing between amalgam and resin-based composite in considerationof the likelihood of a future cusp fracture, either restorativematerial is acceptable.

Complete cusp fractures in restored teeth are a vexing and relativelycommon problem to dentists and their patients. Two recent studiesfound differing incidences of complete cusp fractures of posteriorteeth of 69.9¹ and 20.5² per 1,000 person-years at risk. Althoughneither of these studies addressed restorative material, manydentists believe that teeth with amalgam restorations are morelikely to be associated with cusp fractures than are teeth withresin-based composite restorations. Addressing the likelihoodof fractured cusps in teeth with Class II amalgam restorations,Davis and Nesbitt³ called such restorations "time bombs" that"may threaten not only specific teeth, but possibly an entiredentition." DiTolla⁴ asked, "[W]hy would I plant this amalgam‘crown seed’ and then wait for the tooth to break[?]"Van Dyke⁵ wrote, "Almost every amalgam I remove has decay orstructural fractures of the tooth." Dickerson⁶ claimed, "Thecusps of amalgam-restored teeth are only 30 percent as strongas healthy teeth; or teeth restored with bonded restorations... . Amalgam expands as it ages, causing significant toothfracturing." These dentists stated or implied that resin-basedcomposite restorations result in fewer fractured cusps thando amalgam restorations.

In terms of the likelihood of a future cusp fracture, eitheramalgam or resin-based composite is acceptable as a restorativematerial.

In a 1988 retrospective study of endodontically treated teeth,Hansen⁷ found that 181 premolars with mesial-occlusodistal,or MOD, amalgam restorations had a significantly higher incidenceof cusp fracture than did the 40 premolars with MOD resin-basedcomposite restorations. However, he stated that the resultsof the study "should be cautiously interpreted, especially sincethe number of resin-restored teeth was rather small" and alsobecause restorations for endodontically treated posterior teethideally should have cuspal coverage, unlike the intracoronalrestorations in his study. In two subsequent and much largerstudies of endodontically treated posterior teeth, Hansen andcolleagues⁸ and Hansen and Asmussen⁹ found that the percentageof amalgam restorations without cuspal fracture after 20 years(66 percent) was about the same as the percentage of compositerestorations without cusp fracture after only 10 years (72 percent).Long-term studies not limited to endodontically treated teethhave shown relatively low rates of cusp fracture in amalgam-restoredteeth. In one such study of about 600 teeth restored with amalgam,only 1.5 percent had a cusp fracture after five years.¹⁰ Anotherstudy, larger and longer-term, showed that only 1.8 percentof 1,415 teeth with Class II amalgam restorations had cusp fracturesafter 10 years.¹¹ After 15 years, in 1,213 teeth available tobe examined, 3.8 percent of the restorations had failed becauseof enamel fracture alone, and 5.0 percent had failed becauseof enamel fracture only or because of a combination of enamelfracture, isthmus fracture and/or caries.¹²

In every general dental practice, dentists observe completecusp fractures in teeth restored with both resin-based compositeand amalgam. They also observe teeth restored with either ofthese materials that do not have complete cusp fractures. Weattempted to determine the actual prevalence of cusp fracturesin amalgam-restored teeth versus that in resin-based composite–restoredteeth in a general dental practice.

SUBJECTS AND METHODS

TOP
ABSTRACT
SUBJECTS AND METHODS
RESULTS
DISCUSSION
CONCLUSION
REFERENCES

From September 2001 until February 2002, one or the other oftwo general dentists (M.J.W. and M.M.S.) examined 1,902 consecutivelyseen adult patients (18 years of age and older). They examinedposterior teeth only with either amalgam or resin-based compositerestorations and with at least one virgin cusp present and/orone cusp missing and unrestored (cusp fracture). For these teeth,they recorded the patient’s name, age, sex, type of restoration(amalgam or resin-based composite), number of restored surfacesand the presence or absence of a cusp fracture. They defined"cusp" as a virgin cusp and "cusp fracture" as a completelyabsent and unrestored cusp. If there was a cusp fracture, theyrecorded whether caries was associated with it (since the cariesitself could have caused the cusp to fracture). The dentistsincluded no teeth that had both types of restorations and noteeth that had other types of restorations, even if they alsohad amalgam or resin-based composite restorations. The dentistsobtained data for 10,869 restorations, of which 10,082 wereamalgam and 787 were resin-based composite.

RESULTS

TOP
ABSTRACT
SUBJECTS AND METHODS
RESULTS
DISCUSSION
CONCLUSION
REFERENCES

Table 1 shows the number of subjects and the number of teethwith amalgam and composite restorations along with the percentageof teeth with cusp fractures (including both teeth with andwithout caries) for each of five age groups. To evaluate statisticalsignificance, we used the ${chi}$ ² test with the Yates correction.Data for male and female subjects did not differ significantlyand have been pooled in the table. For statistical analyses,we pooled the data for subjects aged 18 through 54 years, aswell as data for subjects aged 55 through 96 years.

View this table:
[in this window]
[in a new window]

TABLE 1 RELATIONSHIP OF AGE OF PATIENT TO RATE OF CUSP FRACTURE IN TEETH RESTORED WITH AMALGAM AND WITH RESIN-BASED COMPOSITE.

In comparing these age groups (Table 1

), we found that the numberof teeth with cusp fractures was significantly higher in subjectsaged 55 through 96 years than in subjects aged 18 through 54years for both amalgam-restored (P < .001) and composite-restored(P <.001) teeth. In subjects aged 18 through 54 years, wefound no significant difference in cusp fracture rates betweenteeth restored with amalgam and those restored with resin-basedcomposite. In subjects aged 55 through 96 years, we found thatthe difference in cusp fracture rates between amalgam-restoredteeth and composite-restored teeth was marginally significant(P = .05).

Table 2 shows the frequency of cusp fractures in younger (youngerthan 55 years) and older (55 years or older) subjects with severaltypes of restorations. Comparison of the percentages for teethwithout caries (the first two rows of data) suggests a lowerpercentage of cusp fractures in teeth with a single restoredsurface than in teeth with multisurface restorations; we foundthis difference to be significant only in younger subjects withamalgam-restored teeth (P < .001).

View this table:
[in this window]
[in a new window]

TABLE 2 INFLUENCE OF RESTORATION MATERIAL AND NUMBER OF RESTORED SURFACES ON CUSP FRACTURE RATE.

Comparison of fracture rates among younger and older subjectsin Table 2

suggests that fracture rates were higher among oldersubjects. When we pooled data for teeth with one restored surfaceand with two or more restored surfaces, fracture rates for youngerand older subjects differed significantly for both amalgam-restored(P < .001) and composite-restored (P < .005) teeth.

Finally, the data suggest that for older subjects only, fracturerates may have been higher in composite-restored teeth thanin amalgam-restored teeth. This difference was significant onlywhen we pooled the data for teeth with one and with two or morerestored surfaces (P < .05).

When we examined the data for teeth both with and without caries(the third and fourth rows of data in Table 2) and comparedthem with the data for the teeth without caries, we found thatthe same effects were evident and the same contrasts were statisticallysignificant.

DISCUSSION

TOP
ABSTRACT
SUBJECTS AND METHODS
RESULTS
DISCUSSION
CONCLUSION
REFERENCES

Our results indicate that cusp fracture rates are influencedby age and by the number of surfaces of a tooth that have beenrestored. The findings provide no evidence that fracture ratesare higher in amalgam-restored teeth than in composite-restoredteeth.

The number of restorations per subject was essentially uniformin those whose age ranged from 25 through 69 years and thendecreased in older subjects (Table 1). Elderly subjects aremore likely to have had extractions or crowns, and this probablyexplains the decreased number of restorations per elderly subject.

The percentage of restored teeth with cusp fractures increasedafter the age of 55 years (Table 1). Apparently before thatage, the incidence of new fractures roughly matched the rateat which fractured teeth were repaired or lost. Older subjectshad larger restorations (Table 2) and probably more brittleteeth, both of which may have contributed to their higher cuspfracture rates.

Our study had several weaknesses. One of these was the factthat we did not know the age of the restorations and, therefore,could not determine the likelihood that teeth would suffer acusp fracture during a defined period of restoration. Instead,we studied the prevalence of cusp fractures, in effect recordingthe number of cusp fractures that had not yet been repairedin teeth that had not yet been lost. Clearly, such data providea less-than-perfect basis for estimating the relative importanceof the several factors that cause cusp fractures.

The percentage of restored teeth with cusp fractures increasedafter the age of 55 years.

In addition, we did not record types (molars or premolars, maxillaryor mandibular) or vitality of teeth. Endodontically treatedteeth are more likely to undergo cusp fracture than are vitalteeth. Although we recorded the restoration class, which maybe somewhat related to restoration size (with Class II restorationsgenerally being larger than Class I restorations), we did notmeasure restorations’ width or depth. As with most retrospectivestudies, there was no way to determine some preparation features(such as rounded versus sharp line angles). Smaller and shallowerrestorations are more resistant to cusp fracture than are widerand deeper restorations.¹³^,¹⁴ Similarly, preparations with sharpline and point angles are more likely to be associated withcusp fracture than are those with rounded line and point angles.All of these factors could have influenced the results of thestudy.

Both resin-based composite and amalgam materials and technologyhave undergone dramatic changes within the last decade. Dentinbonding now is used routinely for both resin-based compositeand amalgam restorations, and it allows for smaller preparationdesigns, which make teeth more resistant to fracture.¹⁵^–¹⁹If some of the restorations in our study were placed more thana decade ago, it is probable that the composite restorationswere not dentin-bonded, and it is probable that the amalgamrestorations were not bonded at all. This could have affectedthe likelihood of cusp fracture. Tooth preparation techniquesfor both resin-based composite and amalgam²⁰ have changed fromsharp to rounded line angles, which also may help prevent cuspfractures.

Another weakness of our study was the relatively small numberof composite-restored teeth (787) that we examined, as comparedwith amalgam-restored teeth (10,082). Our sample probably istypical in this respect. Although more resin-based compositerestorations are being placed now than in the past, there stillare far more amalgam restorations than posterior resin-basedcomposite restorations in use, and there probably are far moreexisting amalgam restorations in patients than there are posteriorresin-based composite restorations.

In both amalgam- and composite-restored teeth, the incidenceof cusp fracture was greater in teeth with two or more restoredsurfaces than on teeth with a single restored surface (Table2). This is as expected, because restorations on several surfacesusually will weaken a tooth more than will a restoration ona single surface.

Older subjects had higher fracture rates in teeth restored withcomposite than in those restored with amalgam (Table 2). However,for several reasons, this finding needs to be replicated beforeit is accepted. First, the total number of cusp fractures incomposite-restored teeth in older subjects was only eight, whichis too few to provide a reliable basis for any conclusion evenif the result is mathematically statistically significant. Second,our statistical method of testing selected contrasts withoutan overall test for significance can yield "false positives."Third, older subjects had a smaller proportion of resin-basedcomposite restorations than did younger subjects, which indicatesthey may have had a different history of dental restorationdecisions. For these reasons, we recommend that little significancebe attached to the elevated cusp fracture rates observed incomposite-restored teeth in our older subjects.

Our study specifically compared resin-based composite restorationswith amalgam restorations, and the results indicate that amalgamrestorations do not lead to elevated rates of cusp fracture.Additionally, there are several aforementioned long-term prospectivestudies showing that amalgam-restored teeth do not exhibit highrates of cusp fracture.

Why, then, do so many dentists believe that teeth restored withamalgam are subject to high rates of cusp fracture but thatteeth restored with resin-based composites are not? Considerfirst this statement by DiTolla⁴: "I thought back over my firstsix years in practice and realized that 99 percent of the teeththat required crowns all had silver fillings." Next, recognizethat our experience in the present study is similar; we saw190 cusp fractures in amalgam-restored teeth but only 18 fracturesin composite-restored teeth. But in the same period, the numberof teeth without cusp fracture was 9,892 among those restoredwith amalgam versus only 769 among those restored with resin-basedcomposite. So among the teeth that had no cusp fracture, therewere more than 12 times the number of amalgam-restored teethas composite-restored teeth.

Among the teeth that had no cusp fracture, there were more than12 times the number of amalgam-restored teeth as composite-restoredteeth.

As a rule, dentists probably pay less attention to restorationsthat are functioning well, concentrating on restorations thatare failing and the extensive procedures (such as crown placement)that such failure necessitates. Practicing dentists spend onlyabout 10 percent of their time on diagnostic services, but about90 percent of their time on other services.²¹ As a result, theperception that a huge number of amalgam-restored teeth breakmay be different from the reality that only a small percentageof amalgam-restored teeth break. Among the teeth with cusp fracturein our subjects, there were 10 times as many with amalgam restorationsas there were with resin-based composite restorations; however,among the restorations that were functioning well, there were12 times as many amalgam restorations as resin-based compositerestorations.

Psychologists call this type of error "underuse of base rates,"and it has been known for some time.²² The general idea is thatpeople often draw conclusions on the basis of their experience(for example, gray cars are involved in more accidents thanare yellow cars) without appropriately factoring in the importantrole of unequal base rates (in this example, the fact that thereare more gray than yellow cars on the road). Similarly, anypracticing dentist would have the experience of seeing manymore cusp fractures in amalgam-restored teeth than in composite-restoredteeth, which might lead to an incorrect conclusion unless acareful and numeric appraisal of the base rates of resin-basedcomposite and amalgam restorations was carried out. Obviously,although the "underuse of base rates" process may be involved,our study does not directly test this hypothesis. All it doesis provide data about the actual relative rates of cusp fracturesin teeth restored with amalgam and with resin-based composite.

The use of amalgam restorations remains somewhat controversial.²³^,²⁴Some dentists have stated that the death of amalgam is "imminent"²⁵^,²⁶and that posterior resin-based composite restorations are nowplaced more frequently than amalgam restorations,²⁷ but neitherof these assertions is true. The number of posterior resin-basedcomposite restorations has increased dramatically in recentyears, but does not yet approach the number of amalgam restorationsplaced in the United States. In 1999, there were 71 millionamalgam restorations placed by U.S. dentists in private practice,but only 46 million posterior resin-based composite restorations.²⁸Sales of amalgam were higher (although only slightly) in 2001than in 2000.²⁹

CONCLUSION

TOP
ABSTRACT
SUBJECTS AND METHODS
RESULTS
DISCUSSION
CONCLUSION
REFERENCES

Among dentists, the belief is widespread that amalgam restorationsresult in more cusp fractures than do resin-based compositerestorations. In our study of 10,082 teeth restored with amalgamand 787 teeth restored with resin-based composite, the prevalenceof cusp fracture was 1.88 and 2.29 percent, respectively, showingessentially no difference in cusp fracture rate. Because themajority of restorations presently in use in posterior teethare amalgam, dentists see more cusp fractures in teeth restoredwith amalgam than in composite-restored teeth; this may accountfor the persisting belief in the destructive effects of amalgamrestorations. Our results suggest that dentists can be confidentthat neither amalgam nor resin-based composite restorationsare associated with a high rate of cusp fracture.

	FOOTNOTES

Dr. Wahl is a private practitioner, Wahl Family Dentistry, 1601Concord Pike, Wilmington, Del. 19803, e-mail "WahlMichaelJ{at}aol.com".Address reprint requests to Dr. Wahl.

Dr. Schmitt is a private practitioner, Wahl Family Dentistry,Wilmington, Del.

Dr. Overton is a professor, Department of Psychology, TempleUniversity, Philadelphia.

Dr. Gordon is a research associate, Department of Psychology,University of Delaware, Newark.

REFERENCES

TOP
ABSTRACT
SUBJECTS AND METHODS
RESULTS
DISCUSSION
CONCLUSION
REFERENCES

Bader JD, Martin JA, Shugars DA. Incidence rates for complete cusp fracture. Community Dent Oral Epidemiol 2001;29:346–53.[Medline]

Fennis WM, Kuijs RH, Kreulen CM, Roeters FJ, Creugers NH, Burgersdijk RC. A survey of cusp fractures in a population of general dental practices. Int J Prosthodont 2002;15:559–63.[Medline]

Davis MW, Nesbitt WE. The wedge effect: structural design weakness of Class II amalgam. AACD J 1997;13(3):62–8.

DiTolla MC. Giving patients freedom of choice. Dent Econ 1998;88(2):10–2, 87.[Medline]

Van Dyke B. No more amalgams! Dent Econ 1999;89(7):18.

Dickerson WG. Can you stop doing amalgams? Dent Equip Mater 2001;6(1):38.

Hansen EK. In vivo cusp fracture of endodontically treated premolars restored with MOD amalgam or MOD resin fillings. Dent Mater 1988;4(4):169–73.[Medline]

Hansen EK, Asmussen E, Christiansen NC. In vivo fractures of endodontically treated posterior teeth restored with amalgam. Endod Dent Traumatol 1990;6(2):49–55.[Medline]

Hansen EK, Asmussen E. In vivo fractures of endodontically treated posterior teeth restored with enamel-bonded resin. Endod Dent Traumatol 1990;6:218–25.[Medline]

Roberson TM, Bayne SC, Taylor DF, et al. Long term clinical failure of dental amalgam (abstract 216). J Dent Res 1989;68(special issue):208.

Akerboom HB, Advokaat JG, Van Amerongen WE, Borgmeijer PJ. Long-term evaluation and rerestoration of amalgam restorations. Community Dent Oral Epidemiol 1993;21:45–8.[Medline]

Gruythuysen RJ, Kreulen CM, Tobi H, van Amerongen E, Akerboom HB. 15-year evaluation of Class II amalgam restorations. Community Dent Oral Epidemiol 1996;24:207–10.[Medline]

Berry TG, Laswell HR, Osborne JW, Gale EN. Width of isthmus and marginal failure of restorations of amalgam. Oper Dent 1981;6: 55–8.

Blaser PK, Lund MR, Cochran MA, Potter RH. Effect of designs of Class 2 preparations on resistance of teeth to fracture. Oper Dent 1983;8(1):6–10.[Medline]

Oliveira JP, Cochran MA, Moore BK. Influence of bonded amalgam restorations on the fracture strength of teeth. Oper Dent 1996;21(3):110–5.[Medline]

Eakle WS, Staninec M, Lacy AM. Effect of bonded amalgam on the fracture resistance of teeth. J Prosthet Dent 1992;68:257–60.[Medline]

Bailey R, Boyer D. Influence of bonding on fracture resistance of Class I amalgam restorations (abstract 430). J Dent Res 1997;76 (special issue):67.

el-Badrawy WA. Cuspal deflection of maxillary premolars restored with bonded amalgam. Oper Dent 1999;24:337–43.[Medline]

Boyer DB, Roth L. Fracture resistance of teeth with bonded amalgams. Am J Dent 1994;7(2):91–4.[Medline]

van Noort R. Dental amalgams. In: van Noort R, ed. Introduction to dental materials. St. Louis: Mosby; 1994:75–88.

Brown LJ, Lazar V. Dental procedure fees 1975 through 1995: how much have they changed? JADA 1998;129:1291–5.[Abstract/Free Full Text]

Tversky A, Kahneman D. Judgment under uncertainty: heuristics and biases. Science 1974;185:1124–31.[Abstract/Free Full Text]

Wahl MJ. Amalgam: resurrection and redemption, part 1—the clinical and legal mythology of anti-amalgam. Quintessence Int 2001;32:525–35.[Medline]

Wahl MJ. Amalgam: resurrection and redemption, part 2—the medical mythology of anti-amalgam. Quintessence Int 2001;32:696–710.[Medline]

Christensen GJ. The death of amalgam is imminent ... are you ready? Dent Econ 1999;89(6):34.

Lutz FU, Krejci I, Oddera M. Advanced adhesive restorations: the post-amalgam age. Pract Periodontics Aesthet Dent 1996;8:385–94.[Medline]

Freedman G. Composites in the mainstream. Dent Today 2002;21(8):90–1.[Medline]

Berthold M. Restoratives: trend data shows shift in use of materials. ADA News 2002;33(11):1, 10–1.

Lund AE. Question of the month: in your dental practice, is dental amalgam still the restorative of choice? JADA 2002;133:1046.[Free Full Text]

This article has been cited by other articles:

J. W. Simecek, K. E. Diefenderfer, and M. E. Cohen
An Evaluation of Replacement Rates for Posterior Resin-Based Composite and Amalgam Restorations in U.S. Navy and Marine Corps Recruits
J Am Dent Assoc, February 1, 2009; 140(2): 200 - 209.
[Abstract] [Full Text] [PDF]

J.L. Drummond
Degradation, Fatigue, and Failure of Resin Dental Composite Materials
Journal of Dental Research, August 1, 2008; 87(8): 710 - 719.
[Abstract] [Full Text] [PDF]

M. Bernardo, H. Luis, M. D. Martin, B. G. Leroux, T. Rue, J. Leitao, and T. A. DeRouen
Survival and reasons for failure of amalgam versus composite posterior restorations placed in a randomized clinical trial
J Am Dent Assoc, June 1, 2007; 138(6): 775 - 783.
[Abstract] [Full Text] [PDF]

This Article

Abstract

Full Text (PDF)

Alert me when this article is cited

Alert me if a correction is posted

Services

Similar articles in this journal

Similar articles in PubMed

Alert me to new issues of the journal

Download to citation manager

Citing Articles

Citing Articles via HighWire

Citing Articles via Google Scholar

Google Scholar

Articles by WAHL, M. J.

Articles by GORDON, M. K.

Search for Related Content

PubMed

PubMed Citation

Articles by WAHL, M. J.

Articles by GORDON, M. K.

Related Collections

Restoratives

				J.L. Drummond Degradation, Fatigue, and Failure of Resin Dental Composite Materials Journal of Dental Research, August 1, 2008; 87(8): 710 - 719. [Abstract] [Full Text] [PDF]

				M. Bernardo, H. Luis, M. D. Martin, B. G. Leroux, T. Rue, J. Leitao, and T. A. DeRouen Survival and reasons for failure of amalgam versus composite posterior restorations placed in a randomized clinical trial J Am Dent Assoc, June 1, 2007; 138(6): 775 - 783. [Abstract] [Full Text] [PDF]