Perio 1 Flashcards
periodontium
alveolar process, cementum, PDL
develops during a series of complex interactions of mesenchyme, HERS, and dental follicle
gomphosis
fibrous peg-in-socket joint
origins of periodontium
osteoblasts: surrounding mesenchyme tissues
cementoblasts: hers/ follicle cells- ectomesenchymal cells
PDL fibroblasts: follicle cells/ ectomesenchymal
odontoblasts: form dentin part of cemento-dental junction, dental papilla
alveolar process: origin
formed by intramembranous ossification (mesenchyme to bone)
about 8th week of uterine life
crypts develop around tooth germs
develops substantially during eruption, under influence of follicle
remodled throughout life
anodontic individuals: alveolar process development impaired
alveolar process structure
alveolar bone proper: compact bone
supporting alveolar bone both compact and trabecular (inside)
alveolar bone proper
1- cribriform plate- has volkmanns canals running through it
2- lamina dura: area of PDL attachment
3- Bundle Bone: Sharpeys fibers embedded in bone is Inner (towards PDL): remodled quickly due to constant adaptation- pimary woven bone but lamellar bone is present
outer- lamellar bone continuous with supporting alveolar bone
supporting alveolar bone
cortical plate (inner is lingual)
alveolar crest- junction of cortical plate and alveolar bone proper (thinner in maxilla)
central spongiosa- 1) Trabecular bone supporting alveolar bone and cortical plate 2) marrow (red hemopoetic then yellows as age)
alveolar process
interradicular spetum-between roots
interalveolar septum- between teeth
functions of alveolar bone
1- protection and structure for tooth to rest in
2- attach PDL
3- support of tooth roots
4- distribution of loading from the tooth and PDL to surrounding bone
PDL origins
develops together with cementum and alveolar process
develops after detachment/fragmentation of HERS
starts off as unorganized fibrillar short connective tissue
ectomesenchyme cells differentiate into fibroblast which produce and organize collagen fibers
remodles throughout life
developing cells of the PDL may also prevent mineralization and ankylosis
PDL
fibroblasts, mesenchymal cells, epithelial cells and macrophages
ranges from .15 to .38 in width (younger thicker)
collagen (1,3,12) supported by non-collagenous protein matrix
very dynamic environment
oxytalan
main elastic fiber of PDL
assocaited with vasculature
run vertically from cementum to tooth apex
possibly regulate vascular response of PDL
vasculature of PDL
very vascularized superior/inferior alveolar arteries arterioles penetrate the cribifrom plate- more in posterior and mandible arterioles in interstitial areas critical for tissue healing/regeneration
PDL innervation
nerves arrive apically and through cribiform plate
run axially in tooth
4 types of nerve endings
1- free nerce endings (most rpevalent, branched, more in apex) nocicpetive/ mechanoreceptive
2- ruffini corpuscles: bulbous dendritic endings. associated with schwann cells and collagen fibers- slow adapting mechanoreceptor
3- coiled nerve ending around midregion of the PDL: unknown function
4- spindle nerve ending- rare and unknown function
