Delay in dental development and variations in root morphology are outcomes of the complex adaptive system associated with the numerical variation of hypodontia

Chen, Leo and Liversidge, Helen and Chen, Ke and Farella, Mauro and Sassani, Sadaf and Patel, Dilan and Al-Ani, Azza and Brook, Alan (2018) Delay in dental development and variations in root morphology are outcomes of the complex adaptive system associated with the numerical variation of hypodontia. International Journal of Design and Nature and Ecodynamics, 13 (1). pp. 101-106. ISSN 1755-7445 (https://doi.org/10.2495/DNE-V13-N1-101-106)

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Abstract

The development of the dentition has the general characteristics of a complex adaptive system. Hypodontia is a developmental variation with not only a reduced number of teeth but also the teeth formed are smaller in size, have different crown and root morphology and are delayed in development. We have formed a multicentre, multidisciplinary collaborative study to investigate this complex system from its initiation to its outcome: from genotype with genetic/epigenetic/ environmental interactions to the accurate measurement of the phenotypic outcome. This paper reports an initial study of the root morphology and dental age component of the phenotype of the hypodontia patient compared to controls. The sample consists of orthodontic patients, 30 males and 30 females with hypodontia and 60 controls matched for age, gender and ethnicity. The material studied is the orthopantomographic radiograph of each patient. From these the number and site of each congenitally missing tooth is recorded. The number and shape of roots of each formed tooth are scored. Using the MATLAB computer programming platform, the distance between specific points on the crown and root, their area and hence the crown/ root ratio is computed, and the stages of dental development of each tooth scored; the degree of root development of the second permanent molar is particularly valuable in comparing between hypodontia patients and controls. By combining investigations from different stages of this biological complex adaptive system, we are using dental development, which is an accessible, non-invasive and accurately measurable paradigm to increase understanding of general development.

ORCID iDs

Chen, Leo, Liversidge, Helen, Chen, Ke ORCID logoORCID: https://orcid.org/0000-0002-6093-6623, Farella, Mauro, Sassani, Sadaf, Patel, Dilan, Al-Ani, Azza and Brook, Alan;