Automated Measurement of Skull Circumference, Cranial Index, and Braincase Volume from Pediatric Computed Tomography

Overview

Journal Annu Int Conf IEEE Eng Med Biol Soc

Specialty Biomedical Engineering

Date 2013 Oct 11

PMID 24110603

Citations 4

Authors

Kirk Smith

David Politte

Gregory Reiker

Tracy S Nolan

Charles Hildebolt

Chelsea Mattson

Don Tucker

Fred Prior

Sergei Turovets

Linda J Larson-Prior

Affiliations

Soon will be listed here.

Abstract

Normative values of pediatric skull circumference, cranial index, and braincase volume would inform multiple disciplines including neurosurgery, plastic surgery and anthropology. Semi-automated methods exist for obtaining these data but are time consuming and require expertise. We report on a new method for automated extraction of in vivo measures of pediatric crania based on x-ray computed tomography scans (CT). Data were obtained from a clinical image repository for pediatric populations in whom no pathology was noted. The automated process showed good agreement with semi-automated measures, although there was a small bias for both braincase volume and circumference. We developed an open source program to automatically extract measures of skull circumference, cranial index, and braincase volume that are likely to prove useful in multiple disciplines.

Citing Articles

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Measuring the Head Circumference on MRI in Children: an Interrater Study.

Rau A, Demerath T, Kremers N, Eckenweiler M, von der Warth R, Urbach H Clin Neuroradiol. 2021; 31(4):1021-1027.

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Head circumference - a useful single parameter for skull volume development in cranial growth analysis?.

Martini M, Klausing A, Luchters G, Heim N, Messing-Junger M Head Face Med. 2018; 14(1):3.

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Effects of open and endoscopic surgery on skull growth and calvarial vault volumes in sagittal synostosis.

Ghenbot R, Patel K, Skolnick G, Naidoo S, Smyth M, Woo A J Craniofac Surg. 2015; 26(1):161-4.

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