Cross-sectional Study of C1-S5 Vertebral Bodies in Human Fetuses

Overview

Journal Arch Med Sci

Specialty General Medicine

Date 2015 Apr 11

PMID 25861306

Citations 6

Authors

Michal Szpinda

Mariusz Baumgart

Anna Szpinda

Alina Wozniak

Celestyna Mila-Kierzenkowska

Affiliations

Soon will be listed here.

Abstract

Introduction: Knowledge on the normative spinal growth is relevant in the prenatal detection of its abnormalities. The present study determines the height, transverse and sagittal diameters, cross sectional area, and volume of individual C1-S5 vertebral bodies.

Material And Methods: Using the methods of computed tomography (CT), digital image analysis, and statistics, the size of C1-S5 vertebral bodies in 55 spontaneously aborted human fetuses aged 17-30 weeks was examined.

Results: All the 5 examined parameters changed significantly with gestational age (p < 0.01). The mean height of vertebral bodies revealed an increase from the atlas (2.39 ±0.54 mm) to L2 (4.62 ±0.97 mm), stabilized through L3-L4 (4.58 ±0.92 mm, 4.61 ±0.84 mm), and then was decreasing to S5 (0.43 ±1.06 mm). The mean transverse diameter of vertebral bodies was increasing from the atlas (1.20 ±1.96 mm) to L1 (6.24 ±1.46 mm), so as to stabilize through L2-L3 (6.12 ±1.65, 6.12 ±1.61 mm), and finally was decreasing to S5 (0.26 ±0.96 mm). There was an increase in sagittal diameter of vertebral bodies from the atlas (0.82 ±1.34 mm) to T7 (4.76 ±0.85 mm), its stabilization for T8-L4 (4.73 ±0.86 mm, 4.71 ±1.02 mm), and then a decrease in values to S5 (0.21 ±0.75 mm) was observed. The values for cross-sectional area of vertebral bodies were increasing from the atlas (2.95 ±5.25 mm(2)) to L3 (24.92 ±11.07 mm(2)), and then started decreasing to S5 (0.48 ±2.09 mm(2)). The volumetric growth of vertebral bodies was increasing from the atlas (8.60 ±16.40 mm(3)) to L3 (122.16 ±74.73 mm(3)), and then was decreasing to S5 (1.60 ±7.00 mm(3)).

Conclusions: There is a sharp increase in size of fetal vertebral bodies between the atlas and the axis, and a sharp decrease in size within the sacral spine. In human fetuses the vertebral body growth is characterized by maximum values in sagittal diameter for T7, in transverse diameter for L1, in height for L2, and in both cross-sectional area and volume for L3.

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Morphometric study of the neural ossification centers of the atlas and axis in the human fetus.

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Morphometric study of the two fused primary ossification centers of the clavicle in the human fetus.

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New patterns of the growing L3 vertebra and its 3 ossification centers in human fetuses - a CT, digital, and statistical study.

Szpinda M, Baumgart M, Szpinda A, Wozniak A, Mila-Kierzenkowska C Med Sci Monit Basic Res. 2013; 19:169-80.

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Morphometric study of the T6 vertebra and its three ossification centers in the human fetus.

Szpinda M, Baumgart M, Szpinda A, Wozniak A, Mila-Kierzenkowska C, Dombek M Surg Radiol Anat. 2013; 35(10):901-16.

PMID: 23543237 PMC: 3835927. DOI: 10.1007/s00276-013-1107-3.

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