Age Assessment through Root Lengths of Mandibular Second and Third Permanent Molars Using Machine Learning and Artificial Neural Networks

Vathsala Patil; Janhavi Saxena; Ravindranath Vineetha; Rahul Paul; Dasharathraj K. Shetty; Sonali Sharma; Komal Smriti; Deepak Kumar Singhal; Nithesh Naik

doi:10.3390/jimaging9020033

Age Assessment through Root Lengths of Mandibular Second and Third Permanent Molars Using Machine Learning and Artificial Neural Networks

Vathsala Patil
, Janhavi Saxena
, Ravindranath Vineetha^*
, Rahul Paul
, Dasharathraj K. Shetty
, Sonali Sharma
, Komal Smriti
, Deepak Kumar Singhal
, Nithesh Naik^*

^*Corresponding author for this work

Biomedical Dental Sciences Department (BDS)

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

The present study explores the efficacy of Machine Learning and Artificial Neural Networks in age assessment using the root length of the second and third molar teeth. A dataset of 1000 panoramic radiographs with intact second and third molars ranging from 12 to 25 years was archived. The length of the mesial and distal roots was measured using ImageJ software. The dataset was classified in three ways based on the age distribution: 2–Class, 3–Class, and 5–Class. We used Support Vector Machine (SVM), Random Forest (RF), and Logistic Regression models to train, test, and analyze the root length measurements. The mesial root of the third molar on the right side was a good predictor of age. The SVM showed the highest accuracy of 86.4% for 2–class, 66% for 3–class, and 42.8% for 5–Class. The RF showed the highest accuracy of 47.6% for 5–Class. Overall the present study demonstrated that the Deep Learning model (fully connected model) performed better than the Machine Learning models, and the mesial root length of the right third molar was a good predictor of age. Additionally, a combination of different root lengths could be informative while building a Machine Learning model.

Original language	English
Article number	33
Journal	Journal of Imaging
Volume	9
Issue number	2
DOIs	https://doi.org/10.3390/jimaging9020033
State	Published - Feb 2023

Keywords

age estimation
artificial intelligence
Deep Learning
forensic odontology
Machine Learning
root length

Access to Document

10.3390/jimaging9020033

Cite this

@article{4c55b60b51e646208c36951d0bd60372,

title = "Age Assessment through Root Lengths of Mandibular Second and Third Permanent Molars Using Machine Learning and Artificial Neural Networks",

abstract = "The present study explores the efficacy of Machine Learning and Artificial Neural Networks in age assessment using the root length of the second and third molar teeth. A dataset of 1000 panoramic radiographs with intact second and third molars ranging from 12 to 25 years was archived. The length of the mesial and distal roots was measured using ImageJ software. The dataset was classified in three ways based on the age distribution: 2–Class, 3–Class, and 5–Class. We used Support Vector Machine (SVM), Random Forest (RF), and Logistic Regression models to train, test, and analyze the root length measurements. The mesial root of the third molar on the right side was a good predictor of age. The SVM showed the highest accuracy of 86.4\% for 2–class, 66\% for 3–class, and 42.8\% for 5–Class. The RF showed the highest accuracy of 47.6\% for 5–Class. Overall the present study demonstrated that the Deep Learning model (fully connected model) performed better than the Machine Learning models, and the mesial root length of the right third molar was a good predictor of age. Additionally, a combination of different root lengths could be informative while building a Machine Learning model.",

keywords = "age estimation, artificial intelligence, Deep Learning, forensic odontology, Machine Learning, root length",

author = "Vathsala Patil and Janhavi Saxena and Ravindranath Vineetha and Rahul Paul and Shetty, \{Dasharathraj K.\} and Sonali Sharma and Komal Smriti and Singhal, \{Deepak Kumar\} and Nithesh Naik",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",

year = "2023",

month = feb,

doi = "10.3390/jimaging9020033",

language = "English",

volume = "9",

journal = "Journal of Imaging",

issn = "2313-433X",

number = "2",

}

TY - JOUR

T1 - Age Assessment through Root Lengths of Mandibular Second and Third Permanent Molars Using Machine Learning and Artificial Neural Networks

AU - Patil, Vathsala

AU - Saxena, Janhavi

AU - Vineetha, Ravindranath

AU - Paul, Rahul

AU - Shetty, Dasharathraj K.

AU - Sharma, Sonali

AU - Smriti, Komal

AU - Singhal, Deepak Kumar

AU - Naik, Nithesh

PY - 2023/2

Y1 - 2023/2

N2 - The present study explores the efficacy of Machine Learning and Artificial Neural Networks in age assessment using the root length of the second and third molar teeth. A dataset of 1000 panoramic radiographs with intact second and third molars ranging from 12 to 25 years was archived. The length of the mesial and distal roots was measured using ImageJ software. The dataset was classified in three ways based on the age distribution: 2–Class, 3–Class, and 5–Class. We used Support Vector Machine (SVM), Random Forest (RF), and Logistic Regression models to train, test, and analyze the root length measurements. The mesial root of the third molar on the right side was a good predictor of age. The SVM showed the highest accuracy of 86.4% for 2–class, 66% for 3–class, and 42.8% for 5–Class. The RF showed the highest accuracy of 47.6% for 5–Class. Overall the present study demonstrated that the Deep Learning model (fully connected model) performed better than the Machine Learning models, and the mesial root length of the right third molar was a good predictor of age. Additionally, a combination of different root lengths could be informative while building a Machine Learning model.

AB - The present study explores the efficacy of Machine Learning and Artificial Neural Networks in age assessment using the root length of the second and third molar teeth. A dataset of 1000 panoramic radiographs with intact second and third molars ranging from 12 to 25 years was archived. The length of the mesial and distal roots was measured using ImageJ software. The dataset was classified in three ways based on the age distribution: 2–Class, 3–Class, and 5–Class. We used Support Vector Machine (SVM), Random Forest (RF), and Logistic Regression models to train, test, and analyze the root length measurements. The mesial root of the third molar on the right side was a good predictor of age. The SVM showed the highest accuracy of 86.4% for 2–class, 66% for 3–class, and 42.8% for 5–Class. The RF showed the highest accuracy of 47.6% for 5–Class. Overall the present study demonstrated that the Deep Learning model (fully connected model) performed better than the Machine Learning models, and the mesial root length of the right third molar was a good predictor of age. Additionally, a combination of different root lengths could be informative while building a Machine Learning model.

KW - age estimation

KW - artificial intelligence

KW - Deep Learning

KW - forensic odontology

KW - Machine Learning

KW - root length

UR - https://www.scopus.com/pages/publications/85148689384

U2 - 10.3390/jimaging9020033

DO - 10.3390/jimaging9020033

M3 - Article

AN - SCOPUS:85148689384

SN - 2313-433X

VL - 9

JO - Journal of Imaging

JF - Journal of Imaging

IS - 2

M1 - 33

ER -

Age Assessment through Root Lengths of Mandibular Second and Third Permanent Molars Using Machine Learning and Artificial Neural Networks

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this