Postnatal changes in thyroid cartilage shape and cartilage matrix composition are not synchronized in Mus musculus.
Megan CoyneJolien DellafailleTobias RiedePublished in: Journal of anatomy (2024)
The study was conducted to quantify laryngeal cartilage matrix composition and to investigate its relationship with cartilage shape in a mouse model. A sample of 30 mice (CD-1 mouse, Mus musculus) from five age groups (postnatal Days 2, 21, 90, 365, and 720) were used. Three-dimensional mouse laryngeal thyroid cartilage reconstructions were generated from contrast-enhanced micro-computed tomography (CT) image stacks. Cartilage matrix composition was estimated as Hounsfield units (HU). HU were determined by overlaying 3D reconstructions as masks on micro-CT image stacks and then measuring the attenuation. Cartilage shape was quantified with landmarks placed on the surface of the thyroid cartilage. Shape differences between the five age groups were analyzed using geometric morphometrics and multiparametric analysis of landmarks. The relationship between HU and shape was investigated with correlational analyses. Among five age groups, HU became higher in older animals. The shape of the thyroid cartilage changes with age throughout the entire life of a mouse. The changes in shape were not synchronized with changes in cartilage matrix composition. The thyroid cartilage of young and old M. musculus larynx showed a homogenous mineralization pattern. High-resolution contrast-enhanced micro-CT imaging makes the mouse larynx accessible for analysis of genetic and environmental factors affecting shape and matrix composition.
Keyphrases
- contrast enhanced
- computed tomography
- extracellular matrix
- magnetic resonance imaging
- diffusion weighted
- dual energy
- high resolution
- image quality
- magnetic resonance
- mouse model
- gene expression
- physical activity
- mass spectrometry
- metabolic syndrome
- deep learning
- insulin resistance
- middle aged
- dna methylation
- climate change
- copy number