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African Health Sciences
Makerere University Medical School
ISSN: 1680-6905 EISSN: 1729-0503
Vol. 4, Num. 1, 2004, pp. 63-66

African Health Sciences Vol.4, No. 1, April 2004, pp. 63-66

Moyer’s method of mixed dentition analysis: a meta-analysis

William Buwembo, Sam Luboga

Makerere University, Faculty of Medicine, Department of Anatomy, P.O. BOX 7072, Kampala, TelL 077 414863, E-mail: wbuwembo@yahoo.com

Code Number: ha04010

ABSTRACT

Background: Mixed dentition analysis forms an essential part of an orthodontic assessment. Moyer’s method which is commonly used for this analysis is based on data derived from a Caucasian population. The applicability of tables derived from the data Moyer used to other ethnic groups has been doubted. However no meta-analyses have been done to statistically prove this.
Objective: To assess the applicability of Moyer’s method in different ethnic groups.
Study design: A meta-analysis of studies done on other populations using Moyer’s method.
Method: The seven articles included in this study were identified by a literature search of Medline (1966-June 2003) using predetermined key words, inclusion and exclusion criteria. 195 articles were reviewed and meta-analyzed.
Results: Overall the correlation coefficients were found to be borderline in variation with a p-value of 0.05. Separation of the articles into Caucasian and Asian groups also gave borderline p-values of 0.05.
Conclusion:Variation in the correlation coefficients of different populations using Moyer’s method may fall either side. This implies that Moyer’s method of prediction may have population variations. For one to be sure of the accuracy while using Moyer’s method it may be safer to develop prediction tables for specific populations. Thus Moyer’s method cannot universally be applied without question.

Key words: meta-analysis, mixed dentition analysis, Moyer’s method

INTRODUCTION

An orthodontic assessment has to be performed before treating an orthodontic patient. In the mixed dentition (temporally and permanent dentition) patients, spacing or crowding of the developing dentition is of prime concern1 . The accumulated sizes of each child’s teeth may not be in perfect relationship to the amount of space in the child’s dental arches to accommodate the dentition. When the accumulated sizes of the teeth and the perimeter of the arch are not closely correlated a spaced or a crowded dentition results.

The assessment of spacing or crowding of teeth is frequently associated with measurements in the mixed dentition stage because accurate and specific prediction of future dental developmental events can be made at that stage 1. Mixed dentition analysis thus forms an essential part of an orthodontic assessment 1-4 . This is because it helps to determine the amount of space available (whethe in the mandibular or the maxillary arch) for accommodation of the incremental permanent teeth, and for the transitional changes occurring in the mixed dentition stage 5. An accurate estimate of tooth structure versus available space is necessary for making competent decisions concerning eruption guidance, serial extraction, space maintenance, space regaining and other areas of orthodontic treatment planning3 .

Different methods for forecasting the sizes of unerupted teeth have been published. A review of the literature using Medline search revealed that three categories of methods are in use to estimate the mesiodistal crown width of un-erupted maxillary or mandibular canines and premolars in the mixed dentition patients6 .

These include direct measurement of the width of permanent canine and (first and second) premolars from dental radiographs7, 8,9,10,11,12,13 and use of tables to predict the size of permanent canine and (first and second) premolars based on their correlation to the mesio-distal width of the mandibular permanent incisors4, 5,9,13,14,15,16 . It also includes a combination procedure involving radiographic measurement of the width of un-erupted first and second premolars plus the width of erupted mandibular central and lateral incisor on the same side to obtain a value that can be applied to a table to get the predicted combined width of permanent canines and (first and second) premolars11, 17 .

Of these methods it is argued that Moyer’s method4 is more widely used18, 19,20. This is because Moyer’s method4 has minimal systematic error and the range of such errors is known; can be used with equal reliability by the beginner and the expert, as it does not require sophiscated clinical judgment and saves time. It requires no specific equipment or radiographic projections; may be used for both arches and, although best done on dental casts, it can be done with reasonable accuracy in the mouth.

Although Moyer’s method has advantages, it was developed on a Caucasian population. The applicability of this method to populations of other ethnic groups has been studied and doubted18, 19,20,21. However no statistical analysis of the findings of these studies is documented. A meta-analysis to assess the applicability of Moyer’s method in different ethnic groups is presented.

METHODOLOGY

The articles used in this meta-analysis were obtained by a literature search of Medline (1966-June 2003) using predetermined keywords (table1). Using the titles of articles and, where available, abstracts from Medline search, full-length articles were analyzed. From the references in these articles other relevant literature was accessed through the Sir Albert cook library at the Makerere Medical School. To be included in this meta-analysis the article had to have: used Moyer’s method or be very similar; a correlation coefficient and show the number of subjects; used simple regression analysis; used lower mandibular incisors to predict the canine and premolar dimensions. Any articles comparing different methods of mixed dentition analysis were excluded.

RESULTS

One hundred and ninety five articles were identified through a Medline search and ten from the references of the full-length articles. Of these, seven fulfilled the inclusion criteria. The details are given in table 2.

Table 1 The literature search strategy-Medline

Number Request Records
1
Mixed
101,106
2
Dentition
7,689
3
Mixed Dentitions
1,332
4
Analysis
2,008,403
5
Mixed dentition
195
and analysis

The findings of the met-analysis are given in table 3.

By pooling the data (table 2) the variance in the population correlation coefficient is not equal to 0. Using Hunter’s24 significance test the null hypothesis (Ho: the correlation coefficients are homogeneous) is not rejected. This was done by using Chi square statistics (p=0.05). So the null hypothesis of equal population coefficients is not rejected.

By taking the met-analysis further to the subgroups of the Caucasian and the Asians populations, they both had a p-value of 0.05. This implies that there may be variation in the correlation coefficients of the populations.

DISCUSSION

Meta-analyses can organize results and thereby facilitate new findings, or put old findings in a new perspective28. However they also raise problems. A frequent criticism is about the number of studies included in the meta-analysis. In some cases there a few studies that meet the inclusion criteria. For example in the present study only seven studies did. However inspection of the literature shows that researchers start with a large number of studies and then split them into smaller groupings. For example Wright et al 29 analyzed 13 studies and Tett et al 30 in one of the categories meta-analyzed two studies. So the seven in the current study are reasonable. This is because the analysis gives a good blend of the data from different articles and ethnicity in the current study.

In meta-analysis, well-defined criteria for inclusion of studies are required. The selection of studies is based on strict distinctions such as age. However in the present study age was not considered since mixed dentition analysis is performed on individuals in the same age bracket (the mixed dentition stage). To avoid bias, the present analysis was carried out considering only the criteria for inclusion. In addition the methods of Hunter and Schumidt 26,27used in this meta-analysis are adapted to correct for sources of error such as sampling error and reliability of measurement variables.

Since it became difficult to assess applicability by using data from all the studies included at once, subgroups of Caucasians9,14,21and Asians20,22,23 were also meta-analyzed to try and find possible variation within an ethnic group. The African18population was not considered in this meta-analysis because only one study fulfilled the inclusion criteria.

The findings of this meta-analysis show that differences may exist between correlation coefficients in different ethnic groups, since the p-value was 0.05. This is in agreement with studies done on Saudi Arabians19 in which graphs showed population differences from those derived from the population used by Moyer. The review of Hunter1 and other studies18, 19,20,21, which doubted the applicability of the findings of Moyer’s study to other ethnic groups are further supported by this study. It is also possible that among the same ethnic groups there are no significant differences in the correlation coefficients. Since the findings from isolated studies from populations such as Caucasians from South Africa 21 suggest that more accurate prediction results could be obtained from data and tables developed from the population in question and not universally applying Moyer’s method. As more populations are developing their own tables the problem of accuracy will eventually be put to rest.

CONCLUSION

Variation in the correlation coefficients of different populations using Moyer’s method may fall either side. This implies that Moyer’s method of prediction may have population variations. For one to be sure of the accuracy while using Moyer’s method it may be safer to develop prediction tables for specific populations. Thus Moyer’s method cannot universally be applied without question.

REFERENCES
  1. Hunter WS. Application of analysis of crowding and spacing of the teeth. Dental Clinics of North America1978; 22: 563- 577.
  2. Huckaba G.W. Arch size analysis and tooth size perdition. Dental Clinics of North America1964; 8: 431-440.
  3. Smith HP, King DL and Valencia R. A comparison of three methods of mixed dentition analyses. The Journal of Pedodontics1979; 3(4): 291-302.
  4. Staley RN, O’ Gorman TW, Hoag JF and Shelly TH. Prediction of the widths of un-erupted canines and premolars. Journal of American Dental Association 1984; 108(2):185-190.
  5. Moyer RE. Handbook of orthodontics. 4th ed. Chicago: Year Book. 1998; 235-239.
  6. Staley HP and Hoag J. Prediction of the mesio-distal with of maxillary permanent canines and premolars. American Journal of Orthodontics 1978; 73(2): 169-77.
  7. Nance HN. The limitations of orthodontic treatment: Mixed dentition diagnosis and treatment. American Journal of Orthodontics1947; 33: 177-223.
  8. Foster RR. and Wylie WL. Arch length deficiency in the mixed dentition. American Journal of Orthodontics1958; 44:464-476.
  9. Ballard ML, and Wylie W. Mixed dentition case analysisestimating size of un-erupted permanent teeth. American Journal of Orthodontics 1947; 33: 754-559.
  10. Cohen M.E. Recognition of the developing Malocclusion. Dental Clinics of North America1959; 6: 299-311.
  11. Hixon EH and Old father RE. Estimation of the size of un-erupted cuspid and bicuspid teeth. The Angle Orthodontist 1958; 22:236-240.
  12. Sim JM. Minor tooth movement in children. 2nd ed. St. Louis: Mosby, 1977: 74-81.
  13. Moorrees CFA and Reed RB. Correlation among crown diameters of human teeth. Archives of Oral Biology 1964; 9 : 685-697.
  14. Tanaka MM and Johnston LE. The prediction of unerupted canines and premolars in a contemporary population. Journal of American Dental Association 1974; 88(4): 798-801.
  15. Brown JE. Predicting the mesio-distal crown width of un erupted maxillary canines, first and second premolars. M.S. Thesis, University of Tennessee, School of Dentistry, Memphis, 1955.
  16. Fonsenca CC. Predicting the mesio-distal crown width of the canine-premolar segment of maxillary dental arches. M.S. Thesis, University of Tennessee, School of Dentistry, Memphis, 1961.
  17. Stahle H. Determination of mesio-distal crown width of un-erupted permanent cuspids and bicuspids. Helv Odontol Acta 1959; 3:14-17.
  18. Ferguson FS, Marco DJ, Sonnenburg EM and Shakun M.L. The use of regression constants in estimating tooth size in the Negro population. American Journal of Orthodontics1978; 73(1): 68-72.
  19. Al-Khadra BH. Prediction of the size of un-erupted canines and premolars in a Saudi Arab population. American Journal of Orthodontics and Dentofacial Orthopedics 1993; 104(4): 369-372.
  20. Yuen KK, Tang EL and So LL. Mixed dentition analysis for Hong Kong Chinese. The Angle Orthodontist1998; 68(1): 21-28.
  21. Van-der-Merwe SW, Rossouw P, Van-Wyk-Kotze TJ and Trutero H. An adaptation of the mixed dentition space analysis for a Western Cape Caucasian population. Journal of Dental Association of South Africa 1991; 46 (9): 475-9.
  22. Motokawa W, Onzaki M, Soejima Y and Yoshida Y. A method of mixed dentition analysis in the mandible. Journal of Dentistry for Children1987; 54(2):114-118.
  23. ZibermanY, Koyoumdjisky KE and Vardimon A. Estimation of mesio-distal width of permanent canines and premolars in the early mixed dentition. Journal of Dental Research1977; 56(8): 911-915.
  24. Hunter JE. Met analysis. Sage Publications, Beverly Hills.1982
  25. Hunter JE and Schumidt FL. Methods of meta-analysis: correcting error and bias in research findings. Sage, California. 1990
  26. Field A P. Meta-analysis of correlation coefficients: a Monte Carlo comparison of fixed and random-effects methods. Psychological Methods 2001;6(2),161-180
  27. Rosenthal R. Writing met-analytical reviews. Psychological Bulletin 1995; 118:183-192
  28. Bardsen A. Risk periods associated with the development of dental florosis in maxillary permanent central incisors: a metaanalysis Acta Odontologisica Scandinevica.1999; 57:247-256.
  29. Wright P, Lichtenfels PA, and Pursell ED. The structured interview: Additional studies and a meta-analysis. Journal of occupational psychology 1989;62: 191-199.
  30. Tett RP, Jackson DN, and Rothstein M. Personal measurers as predictors of job performance: A meta-analytical review. Personal Psychology1991; 44: 703-741.

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