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Dental Pulp

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Dental Pulp The Last Person to Enter this Class! Introduction Non-mineralised vascular tissue Responsible for the formation of dentine Contained within pulp chamber ... – PowerPoint PPT presentation

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Title: Dental Pulp


1
Dental Pulp
  • The Last Person to Enter this Class!

2
Introduction
  • Non-mineralised vascular tissue
  • Responsible for the formation of dentine
  • Contained within pulp chamber and root canal of
    the tooth.
  • Remains active through out life.

3
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4
Organisation
  • Specialised connective tissue
  • Odontoblasts are at the periphery of the tissue
  • Nerve terminals of the trigeminal afferents and
    specialised antigen presenting cells which detect
    external stimuli and initiate a response to them

5
Organisation
  • Rest of the pulp serves to support.
  • Blood vessels and nerves enter and leave the root
    canals through an apical foramen at the root end.

6
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7
Sections
8
Composition
  • Loose connective tissue, whereby it is made of a
    combination of cells embedded in an extracellular
    matrix of fibres in a semi-fluid gel.
  • 75 water, 25 organic material.

9
Composition
  • Fibrous Matrix
  • Non-Fibrous Matrix
  • Cells

10
Composition
  • Fibrous Matrix
  • Type I collagen is the principal fibrous
    component.
  • Scattered irregularly as thin fibrils which
    bundles as fibres
  • Alligned approx parallel to the predentine
    surface.
  • Type III collagen is also present in large
    amounts
  • Type V and VI are also present in small amounts.
  • The greatest collagen concentration is at the
    apical portion.

11
Non Fibrous Matrix
  • Glycosaminoglycans(GAGs)
  • Proteoglycans
  • Fibronectin
  • Laminin

12
Cells
  • Odontoblasts
  • Fibroblasts
  • Defence Cells T lymphocytes, macrophages,
    dendritic antigen-presenting cells.
  • Undifferentiated cells pluripotential,
    primitive mesenchymal cells

13
Odontoblasts
  • Form a layer of lining on the periphery of the
    pulp and have a process extending into the
    dentin.
  • At the coronal portion the cells are columnar,
    mid-portion is cuboidal and apical is flattened.
  • Morphology of cells relates to its activity
  • Odontoblasts have processes which begins at the
    neck of the cell body
  • Process does not have cell organelles but has
    microtubules and filaments (terminal web)

14
Fibroblasts
  • The most common cell found in the pulp
  • Found more in the coronal portion of pulp which
    forms the cell rich zone.
  • Function is to form and maintain the pulp matrix
    (collagen ground matrix)

15
Undifferentiated Ectomesenchymal Cells
  • Represents the pool from which connective tissue
    cells of the pulp are derived.
  • May give rise to odontoblasts and fibroblasts
  • Found in cell-rich area and pulp core
  • Diminishes with age

16
Macrophages
  • Centrally located in the pulp
  • Involved in elimination of dead cells
  • Lymphocytes
  • Presence of T lymphocytes

17
Dendritic Cells
  • Dendritic process extend between odontoblasts.
  • Capture and present foreign antigen to the T
    cells.
  • Non phagocytic

18
Functions
  • Nutrition
  • Sensory
  • Inductive
  • Defensive
  • Formative

19
Regions
  • In histological sections, 4 distinct zones can be
    identified
  • Odontoblastic zone located at the periphery of
    the pulp adjacent to the dentine.
  • Cell-free zone beneath the odontoblast is a
    cell free zone also known as the zone of Weils.

20
  • Cell-rich zone beneath the cell-free zone is an
    area with a high cell density.
  • Pulp Core is the area where major blood vessels
    and nerves are found.

21
Age Related Changes
  • Dental pulp gets smaller because of secondary
    dentine deposition.
  • Older pulp is less vascular and more fibrous
  • Innervation is reduced
  • Mineralises in the form of pulp stones

22
Dentine and Pulp
  • Closely related developmentally and functionally.
  • Both tissues are derived from the neural crest
    cells of the dental papilla
  • Pulp communicates to the oral cavity via dentinal
    tubules

23
Theories of Dentine Sensitivity
  • Direct Innervation
  • Dentine nerve terminals extend to the DEJ and
    hence initiate an action potential directly.
  • Transduction
  • Odontoblast can transduce a mechanical stimulus
    and transfer that signal to a closely opposed
    nerve terminal.

24
Contd
  • Hydrodynamic Theory
  • Due to the fluid movement in the dentinal tubules
    in response to external stimuli, the nerve
    terminals within the dentinal tubule and
    odontoblast layer initiate an action potential.
  • Rapid movement will cause pain.

25
The End!
  • Any ?????????????????????????????????
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