Search results for "Axial skeleton"

showing 3 items of 3 documents

Evolution Within a Bizarre Phylum: Homologies of the First Echinoderms

1998

SYNOPSIS. The Extraxial/Axial Theory (EAT) of echinoderm skeletal homologies describes two major body wall types: axial and extraxial. The latter is subdivided into perforate and imperforate regions. Each of the regions has a distinctly different source in early larval development. Axial skeleton originates in the rudiment, and develops in association with the pentaradially arranged hydrocoel according to specific ontogenetic principles. Perforate and imperforate extraxial regions are associated with the left and right somatocoels respectively, are not governed by ontogenetic principles of plate addition, and are products of the non-rudiment part of the larval body. The morphology of even t…

Axial skeletonPhylummedia_common.quotation_subjectOntogenyAnatomyBiologybiology.organism_classificationSkeleton (computer programming)medicine.anatomical_structureDevelopmental trajectoryEchinodermmedicineGeneral Earth and Planetary SciencesMetamorphosisProcess (anatomy)General Environmental Sciencemedia_commonAmerican Zoologist
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Arrays in rays: terminal addition in echinoderms and its correlation with gene expression

2005

Summary The echinoderms are deuterostomes that superimpose radial symmetry upon bilateral larval morphology. Consequently, they are not the first animals that come to mind when the concepts of segmentation and terminal addition are being discussed. However, it has long been recognized that echinoderms have serial elements along their radii formed in accordance with the ocular plate rule (OPR). The OPR is a special case of terminal growth, forming elements of the ambulacra that define the rays in echinoderms. New elements are added at the terminus of the ray, which may or may not be marked by a calcified element called the terminal plate (the “ocular” of sea urchins). The OPR operates in eve…

Axial skeletonbiologySymmetry in biologyGene Expression Regulation DevelopmentalAnatomyLarval morphologybiology.organism_classificationBiological Evolutionengrailedmedicine.anatomical_structureEchinodermTerminal (electronics)Extant taxonGene expressionmedicineAnimalsEcology Evolution Behavior and SystematicsBody PatterningEchinodermataDevelopmental BiologyEvolution <html_ent glyph="@amp;" ascii="&"/> Development
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Quantitative ultrasound predicts bone mineral density and failure load in human lumbar vertebrae

2006

Quantitative ultrasound is in widespread clinical use for assessment of bone quality at peripheral skeletal sites, but has not yet been applied to those sites in the axial skeleton, such as the spine and hip, where osteoporotic fractures are common.Ultrasound measurements were made in 11 cadaveric vertebrae and relationships with bone mineral density and failure load were investigated. An ultrasonic imaging system was used to measure speed of sound, broadband ultrasonic attenuation, and attenuation at a single frequency, through the vertebral body in the sagittal plane. Ultrasonic measurements were averaged over a region of interest centrally within the vertebral body, and were calculated w…

Bone mineralLumbar VertebraeAxial skeletonMaterials scienceBone densitybusiness.industryOsteoporosisUltrasoundBiophysicsLumbar vertebraeAnatomymedicine.diseaseBone and BonesVertebramedicine.anatomical_structureBone DensitymedicineHumansOrthopedics and Sports MedicineUltrasonic sensorbusinessUltrasonographyBiomedical engineeringClinical Biomechanics
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