Perio 1
Cementum resorption
Causes: -Local: trauma, orthodontic movement, pressure, cysts, tumors, etc. -Systemic: resorption, hypothyroidism, paget's disease
Sulcular fuild (GCF) as a diagnostic marker
Hydrogen sulfide indicates perio disease Beta-glucuronidase indicates breakdown of connective tissue
Apical Fibers
Radiate in an irregular pattern from cementum to bone
Cementicle oragins
-Calcified epithelial rests -Small spicules of bone -Calcified sharpey's Fibers -Calcified thrombosed vessels
Cell-Basal Lamina
Hemidesmosome Synthesis of basal lamina components takes place here
Interdental Gingiva Max Height for fill-in/ equation
If contact to bone distance is greater that 5mm, gingiva will not fill in. Every 1mm after 5mm decreases regeneration by 50% (ex. 6mm =50%, 7mm =25%)
Sulcular gingiva will keratinize if_____
If exposed to oral cavity, or if bacterial flora is totally eliminated. Irritation of sulcus prevents keratinization
Oxytalan Fibers
Immature form of elastin Fibers run parallel to vertical root surface Thought to regulate vascular flow by laying down scaffolding for blood vessles
Mast cells
Small round or oval Cytoplasmic granuels Contain heparin and histamine Release histamine into extracellular compartment
Nerves supplying PDL
Superior alveolar nerve Inferior alveolar nerve
Main gingival blood supply
Superior and inferior alveolar arteries. -Branches from the apical vessels -Branches from intra-alveolar vessels -Branches from the gingival vessels
Periodontal Ligament Principal Fibers (Sharpey's Fibers)
Terminal portion of principal fiber. Inserts into cementum and bone. Compased of type 1 collagen.
Sulcular Fluid (GCF) drug clearance
Tetracyclines are excreted through GCF at a rate 2-10x higher than in serum. (This allows high drug concentration to be delivered to perio pockets)
Free gingival groove
Narrow ridge that runs parallel to Free gingival margin. It is Rarely present
Gingival epithelium type
Stratified squamous epithelium
Junctional epithelium layers
3-4 in early life 10-29 in later years
Percentage of population with gingival stippling
40%
Alveolar mucosa
Mucosa covering basal part of alveolar process, and continuing into vestibular area. Movable.
Celluar cementum
Formed after tooth reaches occlusal plane Less calcified Smaller portion of sharpey's fibers
Acelllar cementum
Formed before tooth reaches occlusal plane Covers cervical 3rd of root 30-230 um thick Made of sharpey's fibers
When running a probe along gingiva, a fold forms at the beginning of the ________
Free gingiva
Attached gingiva width is greatest and least in which regions?
Greatest: Incisor region Least :posterior segments
Architectural integrity of gingival epithelium
Cell-cell attachments basal lamina keratin cytoskeleton
periodontal ligament
Connects root of tooth to bone 0.2mm wide
Internal basal lamina is composed of:
DAT cells and underlying connective tissue (laminin, type 8 collagen, proteoglycans) IBL is 3x thicker than EBL
Dehiscences
Denuaded area that edxtends through arginal bone
Macrophages
Derived from monocytes Horse-shoe or kidney shaped nucleus Contains phagocytosed material
Cell-Cell attachments of gingival epithelium
Desmosomes Adherans junctions Tight junctions Gap junctions
Major cell type of gingival epithelium
Keratinocyte
Diagnosis of Perio Disease
Measure from CEJ to base of the pocket
Functions of gingival epithelium
Mechanical, chemical, water and microbial barrier Signaling functions
What causes normal brown pigmentation on gingiva?
Melanocytes located in basal epithelium
Col
valley-like depression in the interdental gingiva that lies directly apical to the contact area
Length of the junctional epithelium
Ranges from 0.25-1.35mm long
Organic Matrix composition
Consists of mainly collagen type 1
Two components of Ground Substance
Glycoaminoglycans (ex. hyaluronic acid) Glycoproteins (ex. fibronectin and laminin)
3 components of Alveolar bone process
1. External cortical bone plate 2. Middle cancellous trabeculae 3. Inner socket compact bone
PDL neural terminations
1. Free endings - sensory, pain perception 2. Ruffians corpuscles - knob like, mechanoreceptors 3. Meissener's corpuscles - tactile, midroot 4. Spindle type nerve endings - apex
Socket wall composition
Bundle bone (bone adjacent to PDL, contains great number of Sharpey's fibers)
Junctional epithelium
Attaches gingiva to tooth surface Can weakly attach to anything, including implants and fillings.
Cementum
Calcified avascular tissue that covers anatomic root 2 types -Acellular (primary) -Cellular (secondary)
Anterior Interdental gingiva vs posterior shape
Anterior: Pyramidal Posterior: Flattened
Hemidesmosomes in IBL
Attach JE cells to the tooth Transmit signals Regulate Gene expression, cell growth and differentiation
Physical function of periodontal ligament
1. Protects from injury 2. Transmits occlusal forces to bone 3. Attatches teeth to bone 4. Maintains gingival tissues in their proper place 5. Shock absorption
Interdental Gingiva shape determined by
Contact between teeth Width of approximating tooth surfaces Course of CEJ
Cementum thickness
Continuous deposition throughout life Thicker on distal surface than in mesial surfaces Thickest in apical third and functional area
Sulcular fluid (GCF) composition
Enzymes Proteins Antibodies Cellular elements
Epithelial rests of Malassez
Epithelial cell groups in periodontal ligament after disintegration of Hertwig's epithelial root sheath. Form periapical cysts and lateral root cysts
Horizontal fibers
Extend at right angle from cementum to alveolar bone
Transseptal fibers
Extend interproximally over alvolar bone crest. No osseous attachment.
Interradicular fibers
Fan from cementum to tooth in furcation area of multirooted teeth
Sulcular fluid (gingival crevicular fluid/GCF)
Inflammatory exudate In healthy gingiva -> no fluid Inflamed gingiva -> fluid present
Fenestration
Isolated area where root is covered only by periosteum
Less abundant cell types of gingival epithelium
Langerhans cells Melanocytes Merkel cells
Oblique fibers
Largest PDL fiber group Extend from cementum coronally obliquely to bone
Fibroblasts
Most common cell in periodontal ligament Stellate shaped Synthesize collagen Can phagosytose old cells
Marginal (free) gingiva
Most coronal part of gingiva that surrounds tooth. Not directly attached to tooth surface.
Sulcular gingival epithelium
Nonkeratinized Lines gingival sulcus, Lacks granulosum and corneum strata Contains K4 and K13 Lower enzymatic activity compared to outer epithelium
Three types of Cemetoenamel Junction
OMG Overlap 60-65% Meet 30% Gap 5-10%
Cementoblasts
Observed during active cementum deposition Oval/Cuboidal in shape
Outer gingival Epithelium
Parakeratinized 0.2-0.3mm thick Covers outer surface of marginal and attached gingiva High enzymatic activity
Alveolar process
Portion of bone that supports the tooth sockets
Attached gingiva
Portion of gingiva that is tightly bound to underlying tooth. Serves as barrier to bacteria. Runs from free gingival groove to mucogingival junction.
Interdental Gingiva
Portion of gingiva that occupies the interdental area.
Tensional Theory of tooth support
Principal fibers bear major responsibility in supporting tooth. When force is applied to crown, principal fibers unfold and straighten. Causes an elastic deformation of the bony socket.
Cancellous bone
Trabeculae enclosing irregularly shaped marrow space. Found in interradicular and interdental space More cancellous bone in maxilla than mandible
Osteoblasts
Uninucleated Cuboidal Synthesize bone Synthesize alkaline phosphate
Junctional epithelium turn over rate
Very fast, 2x faster than gingival epithelium
Alveolar Crest fibers
extend obliquely from cementum just beneath the junctional epithelium to alveolar crest *prevent the extrusion of the tooth and resist lateral tooth movements
