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Year : 2014  |  Volume : 1  |  Issue : 1  |  Page : 32-36

A critical review of periodontal prognosis and tooth loss

1 Advanced Graduate Program in Periodontology, Division of Periodontology, University of Minnesota, Minneapolis, USA
2 Private Practice, Mumbai, Maharashtra, Visiting Faculty, Department of Implantology, SDM College of Dental Sciences, Dharwad, Karnataka, India

Date of Web Publication31-Jan-2014

Correspondence Address:
Georgios A Kotsakis
Advanced Graduate Program in Periodontology, Division of Periodontology, University of Minnesota, Minneapolis, USA

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Source of Support: None, Conflict of Interest: None

DOI: 10.4103/2348-3172.126164

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During the incipient steps of periodontal treatment, clinicians are usually asked to predict the prognosis of teeth with compromised periodontium. The aim of this literature review was to investigate the association between periodontal prognosis and tooth loss. This review article is structured in three sections: The early definition of questionable prognosis, a new classification for assigning Prognosis: The McGuire and Nunn studies, and Contemporary views on periodontal prognosis. Results showed that the definition of good prognosis has much higher predictability than the one for questionable prognosis. Several risk indicators for tooth loss are discussed as well as different definitions of questionable prognosis and their success in predicting tooth loss. In conclusion, the major focus of future studies should be to construct simplified prognostic models with high predictability that will increase the confidence of dentists and periodontists when assigning teeth prognosis.

Keywords: Periodontal prognosis, periodontitis, risk indicators, tooth loss

How to cite this article:
Kotsakis GA, Kher U. A critical review of periodontal prognosis and tooth loss. J Dent Res Rev 2014;1:32-6

How to cite this URL:
Kotsakis GA, Kher U. A critical review of periodontal prognosis and tooth loss. J Dent Res Rev [serial online] 2014 [cited 2023 Apr 2];1:32-6. Available from: https://www.jdrr.org/text.asp?2014/1/1/32/126164

  Introduction Top

During the incipient steps of periodontal treatment, clinicians are usually asked to predict the prognosis of teeth with compromised periodontium. [1] To address this daunting task, Periodontists have introduced the term 'questionable' prognosis. Similarly to the way Pythia, the Oracle of Delphi in ancient Greece, delivered oracular prophecies to supplicants, Periodontists frequently describe the prognosis of teeth with the ambiguous term 'questionable'. In essence, this term means that a tooth may or may not respond well to treatment and many factors such as patient/host susceptibility, age, location of the tooth, and degree of bone loss among others must be weighted to better determine its prognosis.

Scientific attempts to identify risk indicators for tooth loss that can help clarify and better define this term have been reported in the literature. Usually retrospective and cross-sectional studies are employed as these types of investigations allow to access a large pool of data for analysis without the cost, or the ethical limitations that pertain to interventional studies. [2] The drawback is that it is uncertain whether an observational study can verify the causal role of a true risk factor, yet observational studies are valuable in identifying risk indicators. [2]

The aim of this literature review was to investigate the association between periodontal Prognosis and Tooth Loss. This review paper will discuss how specific risk indicators affect periodontal prognosis and how accurate initial periodontal prognosis can be.

  Review Results Top

The 'early' definition of questionable prognosis

Hirschfeld and Wasserman [3] presented data of a cross-sectional study that included 600 patients with at least 15 years and up to 50 years of follow-up. This patient cohort was described by the authors as consisting of well-motivated middle-class patients that attended frequent (4-6 month intervals) recalls.

The authors allocated the patients in three groups based on their response to treatment: Well maintained (83.2%), downhill (12.6%), or extreme downhill (4.2%).

In the well-maintained group a mean of 0.68 teeth per patient were lost during the follow-up. The number of teeth lost in the downhill and extreme downhill groups was 5.7 and 13.3 per patient, respectively.

With regard to risk indicators for post-treatment tooth loss, residual mobility was insignificant. The authors' definition of questionable prognosis (furcation involvement, deep non eradicable pocket, extensive bone loss and/or at least grade 2 mobility with active inflammation) was accurate in depicting clinical reality for the well-maintained group. In this group, 80% of the teeth lost had been initially assigned a questionable prognosis. That percentage dropped to approximately 50% in the remaining groups. Almost all of the teeth with questionable prognosis were lost in the extreme downhill group. The authors concluded that tooth loss patterns were case-related and they noted a bilaterally symmetrical pattern. They found a predictable order of likelihood of tooth loss according to position in the arch. Mandibular cuspids and first bicuspids responded most favorably to treatment and maintenance, while maxillary second and first molars and mandibular second and first molars were more susceptible to loss. In this study the characteristics of the extreme downhill group were not identified; hence, the question of how to predict the patients who will lose more teeth remains unanswered.

In a similar study McLeod et al. [4] investigated the effectiveness of periodontal treatment in a cohort of patients with moderate to advanced periodontitis that were treated over a period of 29 years. Tooth loss was set as the primary outcome of treatment. The authors utilized the categorization to well-maintained (0-3 teeth lost), downhill (4-9 teeth lost) and extreme downhill (10-23 teeth lost) groups as suggested by Hirschfeld and Wasserman. [3] The authors defined moderate disease as 4-7 mm of CAL loss and severe as greater than 7 mm of loss. It should be expected that this patient pool would be assigned a diagnosis of severe periodontitis based on contemporary definitions. All patients were treated by means of SRP followed by surgical treatment if indicated and were put on frequent (3-6 month recalls). Again, the definition of questionable prognosis was based on Hirschfeld's definition. [3] A total of 2,889 teeth were nested in the 114 patients included in this study. After a mean of 12.5 years post-treatment, 220 teeth were lost during maintenance. In agreement with the results of Hirschfeld et al., [3] the authors noted a bilateral pattern of tooth loss. They also noted that maxillary and mandibular molars and maxillary first premolars had a higher incidence of extractions. The distribution of patients in the well-maintained, downhill, and extreme downhill groups was 84.2%, 13.2%, and 2.6%, respectively. Those findings are in remarkable agreement with results from the study of Hirschfeld and Wasserman. [3] There was a higher rate of tooth loss in teeth with furcation involvement especially in the downhill groups. With regard to questionable prognosis accuracy, 529 teeth were initially assigned to this prognosis group. Sixty-eight of those teeth were lost (12.9%), while the remaining 152 teeth that were lost had not been assigned a questionable prognosis. Therefore, the negative predictive value of that definition of questionable prognosis is brought to question.

This study was novel in attempting to correlate the Hirschfeld and Wasserman [3] classification of response to periodontal treatment with the AAP-accepted terminology for periodontal disease. According to the authors: 9 of the 18 patients in the downhill and extreme downhill groups had periodontal disease that would be classified as systemic-disease-associated or early-onset periodontitis, and the remaining patients would be classified as having refractory periodontitis'. This statement is valuable as it provides an explanation for the response to treatment and maintenance, but does not yield information on how to predict which patients will have a downhill response.

McFall et al. [5] replicated the study of Hirschfeld and Wasserman in a faculty-practice-based patient population (n = 100) that was followed up for at least 15 years. There results were in complete agreement with the previous studies. As in previous studies, maxillary second molars were the most frequently lost teeth and mandibular cuspids and bicuspids were the less frequently lost ones. The definition of questionable prognosis that was utilized in this study [3] predicted only 48.7% of the tooth loss in all groups. From the teeth that were initially assigned questionable prognosis, 62.3% were lost during the follow-up.

A question can be raised as to what benefit, other than a rough estimation of the percentage of poor responders, there is in categorizing patients in groups based on the outcome of treatment. Categorizing patients in a group prior to initiation of treatment, based on specific risk indicators and assessing the accuracy in predicting which patients, will exhibit downhill response seems more reasonable.

Chace et al. [6] performed a cross-sectional study that specifically aimed to address the fate of teeth that were assigned a questionable prognosis. The authors' definition of questionable prognosis slightly differed from the previous definitions, as it required that the teeth simultaneously exhibited pocket depth greater than 6 mm, mobility greater than 0.5 mm in bucco-lingual direction, poor root-crown ratio and at least class II furcation involvement. In this study 166 patients, lending 455 questionable teeth to the study, were followed up over up to 40 years. A total of 55 teeth were lost (12%), with an average survival period of 8.8 years. Half of the teeth were bilaterally symmetrical and as in the previous studies most frequently lost teeth mostly groups were maxillary second molars, first molars, first bicuspids, or mandibular molars. Even though the accuracy of the assignment of 'questionable prognosis' could not be investigated with this study design, results of this study showed that teeth with significant loss of periodontal tissues could be functionally maintained. Yet, factors such as esthetics and patient satisfaction were not discussed.

In another study, Wilson et al. [7] focused in investigating the effect of patient compliance on tooth loss. One hundred and sixty-two patients were followed up for at least 5 years and were categorized as 'compliant' or 'erratic'. Results showed that completely compliant patients lost no teeth during the follow-up. Twenty-two patients in the erratic group lost a total 60 teeth, for an average of 0.06 patients per year in that group. The authors claimed a higher percentage of teeth with questionable to poor prognosis being lost, in comparison to teeth that were assigned good or fair prognosis, albeit no statistical test was performed.

A new classification for assigning prognosis: The 'McGuire and Nunn' studies

In 1991, McGuire [1] evaluated the outcome of treatment in 100 patients that were followed up for a mean of 7 years following active treatment. All patients received standard of care nonsurgical treatment and all of them received surgical treatment in areas with residual pockets. Patients underwent a stringent maintenance schedule with the first maintenance appointment scheduled at 1 month postsurgery and at 1-3 month intervals thereafter. Each tooth was assigned to one of the following five prognosis gradients: Good, fair, poor, questionable, hopeless. The author re-assigned prognosis to each tooth based on the clinical situation at 5 and 8 years postactive treatment. Results showed that the average prognoses of the teeth studied at each interval changed very little from initial to 5 to 8 years.

A 2.1% tooth loss (51/2484) was noted for the study population. The good prognoses teeth remained relatively stable, while teeth in the fair and poor categories frequently improved. The questionable category generally got better, but a significant number of teeth were lost and teeth in the hopeless category were generally lost. Findings of interest were that prognosis was more accurate for single rooted teeth tan multirooted and that third molars and mandibular molars tended to perform worse than expected. The author discussed that the criteria for assigning prognosis in this study were less lenient in downgrading a tooth to questionable prognosis in comparison to the criteria of Hirschfeld and Wasserman. [3]

In the second part of this study, [8] the authors attempted to investigate the accuracy of a statistical model that would consider several regressors such as, furcation involvement, pocket depth, percentage of bone loss, mobility, and crown to root ratio and root proximity, based on the data published previously. The model was very accurate in predicting prognosis (~80%), especially in nonmolar teeth. When scrutinizing the results, the authors found that the accuracy of the model was significantly compromised when teeth with good prognosis were excluded from the analysis (<50%). The clinical repercussion of those findings is debatable. It may not be as crucial to determine if a tooth that was assigned questionable prognosis may move to fair, or vice versa. On the contrary it is very valuable to able to foresee which teeth will shift from the fair or questionable gradient to hopeless. The question was addressed in the third part of this study that was published later the same year. [9]

In the third part of the article the authors extended the follow-up to 16 years. This extended observation time increased the number of teeth lost to 131 of the 2509 initially present. The average survival time for teeth that were lost was ~5 years post-treatment. In this publication a true endpoint [10] was chosen: Tooth loss.

Results showed that both the sensitivity and specificity of the suggested prognosis classification increased when tooth loss was considered as the endpoint.

When questionable and hopeless prognoses were grouped together they were relatively accurate in predicting future tooth loss. The authors also constructed a proportional hazard model that identified initial probing depth, initial furcation involvement, initial mobility, initial percent bone loss, parafunctional habit with no biteguard, and smoking risk indicators for tooth loss.

Contemporary views on periodontal prognosis

A common finding in earlier studies on tooth survival following active treatment and maintenance has shown that furcation involvement is a risk indicator for future tooth loss [1],[3],[4],[5] and makes assignment of accurate prognosis very challenging. [9] Svardstrom and Wennstrom [11] evaluated 1,313 molars in 222 patients in order to analyze the outcome of nonregenerative treatment. They found that from the 899 molars that were deemed maintainable, only 21 (3.5%) were extracted within a 10-year follow-up period. All molars in this group were treated with scaling and root planning followed by modified Widman flap, if indicated. The authors concluded that molar teeth treated with nonresective, nonregenerative approaches have a good long-term prognosis if a frequent recall schedule is followed.

The potential prognostic value of clinical, genetic, and radiographic variables in predicting tooth loss in periodontal patients was assessed in a 10-year retrospective analysis. [12] Sixty periodontal patients were treated according to the standard of care and were placed at 3-4 month maintenance schedules. In addition to standard clinical and radiographic examination, the patient underwent interleukin-1 genotype assessment. The distance of the bottom of the bony defect to the root apex as well as molar teeth was significant predictors of tooth loss. On the contrary deep intrabony defects had a protective effect. Interleukin-1 test was not efficient as a predictor of tooth prognosis.

Faggion et al. [13] also attempted to identify risk indicators to construct a prognostic model. In agreement with the previous studies, teeth with multiple roots were identified as a significant factor. The authors also identified diabetes mellitus, reduced bone levels at baseline, nonvital pulp, and tooth mobility as risk indicators for future tooth loss.

A simplification of the McGuire and Nunn [1] classification of periodontal prognosis was proposed by Checchi et al. [14] This simplified classification includes three prognosis gradients: Good, questionable, or hopeless. The authors elected to define prognosis based on residual bone levels and/or furcation involvement. Teeth with more than 75% per cent bone loss were assigned 'hopeless' prognosis and teeth that had between 50% to 75% bone loss, or furcation involvement were assigned 'questionable' prognosis. If a tooth exhibited both characteristics it was downgraded. Results showed that 0.07% of teeth with good prognoses were lost, 3.63% were lost from the questionable prognoses category, and 11.34% were lost from the hopeless prognoses subgroup. While previous prognosis classifications were shown to be accurate for the 'good' and 'hopeless' prognosis, this simplified approach performed very well for 'good' and 'questionable' prognosis, but seemed to have been pessimistic in assigning 'hopeless' prognosis.

Most of the studies mentioned in this review evaluated the prognosis of teeth that had undergone periodontal treatment and went into a maintenance phase. Neely et al. [15] looked into risk indicators for tooth loss in an untreated cohort of 154 Sri Lankan tea laborers. This patient cohort had no access to periodontal treatment and represented a population sample of untreated periodontal disease. Results were very interesting as they showed that plaque index and smoking were not associated with mean attachment loss. Age, gingival index, calculus index, and time were associated with attachment loss over 20 years of follow-up.

The same group of researchers published a follow-up paper that evaluated a true endpoint (tooth loss) instead of a surrogate endpoint (attachment loss). [16]

Results were striking as they significantly differed from results of the previous study. In this second part, none of the individual risk indicators had a significant impact of tooth loss. Tooth loss was associated with increasing attachment loss in the presence of use of betel nut. Interestingly, betel nut (a nut containing substances with vasoconstricting properties) was found to be a poor predictor of increase in attachment loss in the first part of the study. These findings point out that even though attachment loss is a well-established surrogate for tooth loss in the treatment of periodontitis, studies that utilize surrogate endpoints should always be reviewed with that limitation in mind.

Other risk indicators for tooth loss

Several publications have investigated the effect of single risk indicators, or risk factors, depending on the definition, on tooth loss. Such ones are furcation involvement, [17] retained 'hopeless' teeth, [18] residual deep pockets, [19] and maintenance schedule frequency. [20]

Axelsson and Lindhe [20] assessed the efficacy of a stringent maintenance schedule in patients that had undergone surgical periodontal therapy. All patients were treated with modified widman flap surgery in all four quadrants. One third of the initial group of 90 patients was referred back to their general dentists for maintenance, while the remaining two third underwent a stringent maintenance schedule that included professional debridement once every two months for the first 2 years postoperatively and once every 3 months thereafter. Results showed that there was a significant difference in pocket depth maintenance and maintenance of attachment levels around treated teeth between the 'recall' and 'nonrecall' groups. It should be noted that patients in the stringent maintenance group received subgingival scaling at their bimonthly, or trimonthly visits, when indicated. Results on tooth maintenance in each group were not at all that impressive. No significant difference was noted in the number of teeth lost between the two groups. No teeth were lost in the 'recall' group and only few teeth were lost in the 'nonrecall' group. Numerical results were not published. The authors concluded that stringent maintenance is of paramount importance as it can prevent future attachment loss. One could argue that the authors overemphasized results of this study. It is more reasonable to evaluate a true endpoint, such as tooth loss as being more significant over a surrogate, such as attachment loss. [10] On the other hand, the sample size on the nonrecall group was smaller and as a result the study might have not been powered enough to identify a difference in the incidence of tooth loss, as this is a rare event.

Furcation involvement is another risk indicator that has been highlighted in several studies. Werhaug [17] investigated the anatomy and pathophysiology of furcation defects and concluded that if clinicians are aware of specific considerations when treating molar teeth with furcation defects, then their prognosis may be improved.

Interesting findings were that there is significantly increased attachment loss in the furcal area in comparison to the outer surfaces of the root and that the absence of bleeding on probing of the marginal gingiva is not associated with the absence of inflammation, or progression of disease in the furcation area.

In a different study, researchers attempted to evaluate the retention of 'hopeless' teeth as an indicator for future progression of disease in neighboring sites. [18] In order to define 'hopeless' the authors employed a combination of risk indicators such as at least 75% of bone loss, class-three furcation defect, residual 8 mm pocket depth, or repeated periodontal abscesses. Results showed no significant effect of the hopeless teeth on the 'adjacent' surfaces of the neighboring teeth in comparison to the 'nonadjacent' ones. Pocket depth post-treatment averaged at ~3.5 mm around the teeth that were in the vicinity of retained 'hopeless' teeth, which indicates that even though no significant increase in surrogate markers for progression of disease was noted, many of the teeth had residual pockets greater than 3 mm. The authors concluded that retained 'hopeless' teeth do not affect the periodontium of neighboring teeth as long as patients undergo frequent maintenance.

The influence of residual pockets in the prognosis of teeth has also been a matter of interest. Matuliene et al. [19] followed 172 patients with residual pockets after the active phase of treatment for 3-27 years. Progression of disease was defined as at least 3 mm of proximal attachment loss in at least two teeth. During the maintenance phase of treatment the percentage of pocket depths that were less than 5 mm did not change significantly. On the other hand, the percentage of pockets that had an initial depth of at least 5 mm increased from 2.9% to 4.3%. Increased pocket depth was found to be strongly associated with tooth loss in multilevel logistic regression analysis. During the follow-up 1.7 teeth were lost per patient. Residual pockets of at least 6 mm that were left untreated were a significant factor for tooth loss. During the maintenance phase, 43% of all cases were identified as progressing cases based on the definition mentioned earlier. The authors concluded that residual pockets with depth greater or equal to 6 mm represent incomplete periodontal treatment and are a risk indicator for tooth loss.

  Conclusions Top

Even though this topic has been extensively discussed in the literature a solid definition of questionable prognosis has not been yet established. The importance of assigning an accurate prognosis for teeth prior to initiation of treatment cannot be emphasized enough. It not only sets the foundation of trust between the therapist and the patient, but also prevents legal implications from arising after the treatment process.

The major focus of future studies should be to construct simplified prognostic models with high predictability that will increase the confidence of dentists and periodontists when assigning teeth prognosis.

  References Top

1.McGuire MK. Prognosis versus actual outcome: A long-term survey of 100 treated periodontal patients under maintenance care. J Periodontol 1991;62:51-8.  Back to cited text no. 1
2.Hulley SB. Designing Clinical Research. Baltimore: Lippincott Williams and Wilkins; 2007.  Back to cited text no. 2
3.Hirschfeld L, Wasserman B. A long-term survey of tooth loss in 600 treated periodontal patients. J Periodontol 1978;49:225-37.  Back to cited text no. 3
4.McLeod DE, Lainson PA, Spivey JD. The effectiveness of periodontal treatment as measured by tooth loss. J Am Dent Assoc 1997;128:316-24.  Back to cited text no. 4
5.McFall WT Jr. Tooth loss in 100 treated patients with periodontal disease. A long-term study. J Periodontol 1982;53:539-49.  Back to cited text no. 5
6.Chace R Sr, Low SB. Survival characteristics of periodontally-involved teeth: A 40-year study. J Periodontol 1993;64:701-5.  Back to cited text no. 6
7.Wilson TG Jr, Glover ME, Malik AK, Schoen JA, Dorsett D. Tooth loss in maintenance patients in a private periodontal practice. J Periodontol 1987;58:231-5.  Back to cited text no. 7
8.McGuire MK, Nunn ME. Prognosis versus actual outcome. II. The effectiveness of clinical parameters in developing an accurate prognosis. J Periodontol 1996;67:658-65.  Back to cited text no. 8
9.McGuire MK, Nunn ME. Prognosis versus actual outcome. III. The effectiveness of clinical parameters in accurately predicting tooth survival. J Periodontol 1996;67:666-74.  Back to cited text no. 9
10.Greenstein G. The use of surrogate variables to reflect long-term tooth survivability. J Periodontol 2005;76:1398-402.  Back to cited text no. 10
11.Svardstrom G, Wennstrom JL. Periodontal treatment decisions for molars: An analysis of influencing factors and long-term outcome. J Periodontol 2000;71:579-85.  Back to cited text no. 11
12.Muzzi L, Nieri M, Cattabriga M, Rotundo R, Cairo F, Pini Prato GP. The potential prognostic value of some periodontal factors for tooth loss: A retrospective multilevel analysis on periodontal patients treated and maintained over 10 years. J Periodontol 2006;77:2084-9.  Back to cited text no. 12
13.Faggion CM Jr, Petersilka G, Lange DE, Gerss J, Flemmig TF. Prognostic model for tooth survival in patients treated for periodontitis. J Clin Periodontol 2007;34:226-31.  Back to cited text no. 13
14.Checchi L, Montevecchi M, Gatto MR, Trombelli L. Retrospective study of tooth loss in 92 treated periodontal patients. J Clin Periodontol 2002;29:651-6.  Back to cited text no. 14
15.Neely AL, Holford TR, Loe H, Anerud A, Boysen H. The natural history of periodontal disease in man. Risk factors for progression of attachment loss in individuals receiving no oral health care. J Periodontol 2001;72:1006-15.  Back to cited text no. 15
16.Neely AL, Holford TR, Loe H, Anerud A, Boysen H. The natural history of periodontal disease in humans: Risk factors for tooth loss in caries-free subjects receiving no oral health care. J Clin Periodontol 2005;32:984-93.  Back to cited text no. 16
17.Waerhaug J. The furcation problem. Etiology, pathogenesis, diagnosis, therapy and prognosis. J Clin Periodontol 1980;7:73-95.  Back to cited text no. 17
18.Wojcik MS, DeVore CH, Beck FM, Horton JE. Retained "hopeless" teeth: Lack of effect periodontally-treated teeth have on the proximal periodontium of adjacent teeth 8-years later. J Periodontol 1992;63:663-6.  Back to cited text no. 18
19.Matuliene G, Pjetursson BE, Salvi GE, Schmidlin K, Brägger U, Zwahlen M, et al. Influence of residual pockets on progression of periodontitis and tooth loss: Results after 11 years of maintenance. J Clin Periodontol 2008;35:685-95.  Back to cited text no. 19
20.Axelsson P, Lindhe J. The significance of maintenance care in the treatment of periodontal disease. J Clin Periodontol 1981;8:281-94.  Back to cited text no. 20

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