Normative Bone Mineral Density Measured on Computed Tomography Scans in Children and Adolescents

Author:

Nagata Kosei12,Dimar John R.12,Glassman Steven D.12,Schmidt Grant O.2,Brown Morgan E.2,Daniels Christy L.2,Carreon Leah Y.2

Affiliation:

1. Department of Orthopedic Surgery, University of Louisville School of Medicine, Louisville, KY

2. Norton Leatherman Spine Center, Louisville, KY

Abstract

Study Design. Retrospective chart review. Objective. To provide reference values for Hounsfield unit (HU) measured on computed tomography (CT) scans of children and adolescents. Summary of Background Data. Spine surgeons increasingly use HU on spine CT as a measure of bone mineral density (BMD). This has not been described in children and adolescents. Patients and Methods. Pediatric patients who had a spine CT between 2012 and 2022 were identified. Patients who had more than 1 comorbidity or were syndromic were excluded. Using the bone window, 3 axial images (cephalad, middle, and caudal) of each vertebra were selected. In each axial view, the HU was measured using a “region of interest” (ROI) that included the total cancellous bone area and an ROI excluding the radiolucency present in the posterior vertebral body (“total” vs. “limited”). HU values were compared between total and limited areas and between the axial images at the cephalad, middle, and caudal levels. Each age category data were estimated and stratified. Results. A total of 144 patients (79 females and 65 males) from 2 to 17 years old were included. Mean limited HU was consistently lower than total HU across all images and lumbar levels except for L1. Limited HU taken mid-vertebral body was also consistently lower than those taken cephalad or caudad. Mean limited HU across all ages including all levels was 227 ± 50 (range: 109–357). Stratifying by age showed a gradual decrease in BMD from age 2 to 10 followed by an increase. Conclusions. This is the first study to measure HU on lumbar CTs in children and adolescents. The technique of measuring BMD in adults should be modified in children by using an ROI that excludes the rarefaction present in the posterior vertebral body. Further studies are needed to evaluate the age-dependent changes in BMD seen in this study.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Neurology (clinical),Orthopedics and Sports Medicine

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