The analysis of errors in orthodontic measurements.

The sources of error in cephalometric measurement and their analyses are discussed. The importance of distinguishing bias and random errors is emphasized, and methods of control are discussed. Randomization of record measurement is one of the most important methods of avoiding bias, but it is rarely undertaken in cephalometric studies. Random errors are particularly important in the evaluation of individual radiographs, and a measurement that has a high error in relation to its total variability will be of little value in clinical assessment. In serial studies of facial change, the error variance is always a major part of the total variance and thus results have to be interpreted with caution. In cross-sectional studies it is not possible to specify exactly the acceptable limits of random errors, because this will depend on the difference between groups that would be of interest and on the number of cases. The judicious replication of measurements can be important in the control of random errors. In many papers, adequate error evaluation and control is lacking. In these circumstances, the results are of limited value because it is not possible to tell whether an apparent effect is the result of bias in measurement or whether a real effect is being obscured by random errors. It is incumbent on authors to consider how their measurement errors should affect the interpretation of results.

[1]  S Baumrind,et al.  Computer-aided head film analysis: the University of California San Francisco method. , 1980, American journal of orthodontics.

[2]  A. Björk,et al.  Facial development and tooth eruption. An implant study at the age of puberty. , 1972, American journal of orthodontics.

[3]  Houston Wj,et al.  A comparison of the reliability of measurement of cephalometric radiographs by tracings and direct digitization. , 1982 .

[4]  A. Demirjian,et al.  The pattern of facial growth before and during puberty, as shown by French-Canadian girls. , 1979, Annals of human biology.

[5]  L. Walford,et al.  Statistical Methods for Medical and Biological Students , 1940, The Indian Medical Gazette.

[6]  K. Pedersen,et al.  Gonial angle distortion in lateral head films: a methodologic study. , 1977, American journal of orthodontics.

[7]  W J Houston The application of computer aided digital analysis to orthodontic records. , 1979, European journal of orthodontics.

[8]  A. Halse,et al.  May Fast Screen-Film Combinations be used for Cephalometry? , 1978, British journal of orthodontics.

[9]  B. Zachrisson,et al.  Reliability of soft-tissue profile in cephalometrics. , 1978, American journal of orthodontics.

[10]  M. Healy,et al.  Variations within individuals in human biology. , 1958, Human Biology: The Official Publication of the American Association of Anthropological Genetics.

[11]  J. Cook Asymmetry of the Cranio-facial Skeleton , 1980, British journal of orthodontics.

[12]  J F Gravely,et al.  The Clinical Significance of Tracing Error in Cephalometry , 1974, British journal of orthodontics.

[13]  A. Björk,et al.  Measurement on Radiographs , 1962, Journal of dental research.

[14]  S. Linder-Aronson,et al.  Reproducibility of cephalometric landmarks and errors of measurements of cephalometric cranial distances. , 1974, The Angle orthodontist.

[15]  M. Healy Outliers in clinical chemistry quality-control schemes. , 1979, Clinical chemistry.

[16]  A Richardson,et al.  An investigation into the reproducibility of some points, planes, and lines used in cephalometric analysis. , 1966, American journal of orthodontics.

[17]  S Baumrind,et al.  The reliability of head film measurements. 2. Conventional angular and linear measures. , 1971, American journal of orthodontics.

[18]  F. Linden A study of roentgenocephalometric bony landmarks. , 1971 .

[19]  B S Savara,et al.  Analysis of errors in cephalometric measurements of three-dimensional distances on the mandible. , 1966, Archives of oral biology.

[20]  Sheldon Baumrind,et al.  The reliability of head film measurements , 1971 .