Histologic Study of Intravelar Structures in Normal Human Adult Specimens

Overview

Journal Cleft Palate Craniofac J

Specialties Dentistry
General Surgery

Date 2005 Sep 10

PMID 16149828

Citations 16

Authors

David P Kuehn

Jerald B Moon

Affiliations

Soon will be listed here.

Abstract

Objective: To describe more clearly the tissue composition and structure of the human soft palate with particular emphasis on the central portion between the faucial pillars.

Specimens: Nine female and three male normal adult human soft palate cadaver specimens.

Results: The anterior soft palate consists of fairly uniform layers. The anterior one fourth contains a substantial investment of mucous-secreting glandular tissue, as well as an abundance of adipose tissue. The tensor veli palatini tendon is prominent in the most anterior region just posterior to the hard palate and close to the nasal surface. The middle one third of the soft palate is largely invested with muscle tissue consisting of (1) levator veli palatini fibers coursing transversely across the midline without a septal interruption, (2) musculus uvulae fibers encapsulated in a sheath and coursing longitudinally, perpendicular to and cradled by the levator sling, and (3) palatopharyngeus fibers located laterally and not approaching the midline. Musculus uvulae is variable across and within specimens in terms of its paired versus unpaired nature.

Conclusions: The anatomy of the soft palate from the posterior border of the hard palate to the levator veli palatini sling is consistent among specimens, suggesting that structures in this region have a uniform function across subjects. The paired versus unpaired nature of musculus uvulae is variable both within and between specimens. The posterior one third of the soft palate is variable across specimens with regard to the relative amount and distribution of different tissue types.

Citing Articles

Growth and Symmetry of the Levator Veli Palatini Muscle Within the First Two Years of Life.

Kotlarek K, Levene S, Piccorelli A, Allen G, Barhaghi K, Neuberger I Cleft Palate Craniofac J. 2024; 61(11):1803-1813.

PMID: 39434629 PMC: 11496766. DOI: 10.1177/10556656231183776.

Examining age, sex, and race characteristics of velopharyngeal structures in 4- to 9-year old children using magnetic resonance imaging.

Perry J, Kollara L, Kuehn D, Sutton B, Fang X Cleft Palate Craniofac J. 2021; 55(1):21-34.

PMID: 33948051 PMC: 8092075. DOI: 10.1177/1055665617718549.

Asymmetry and Positioning of the Levator Veli Palatini Muscle in Children With Repaired Cleft Palate.

Kotlarek K, Pelland C, Blemker S, Jaskolka M, Fang X, Perry J J Speech Lang Hear Res. 2020; 63(5):1317-1325.

PMID: 32402223 PMC: 7842125. DOI: 10.1044/2020_JSLHR-19-00240.

Morphology of the Musculus Uvulae In Vivo Using MRI and 3D Modeling Among Adults With Normal Anatomy and Preliminary Comparisons to Cleft Palate Anatomy.

Perry J, Chen J, Kotlarek K, Haenssler A, Sutton B, Kuehn D Cleft Palate Craniofac J. 2019; 56(8):993-1000.

PMID: 30786757 PMC: 6693950. DOI: 10.1177/1055665619828226.

Simulation of the upper airways in patients with obstructive sleep apnea and nasal obstruction: A novel finite element method.

Moxness M, Wulker F, Skallerud B, Nordgard S Laryngoscope Investig Otolaryngol. 2018; 3(2):82-93.

PMID: 29721539 PMC: 5915829. DOI: 10.1002/lio2.140.