2. INTRODUCTION
DEFINITION
TYPES
STAGES OF TISSUE RESPONSE TO
INJURY
CLINICAL AND RADIOGRAPHIC
FEATURES OF TFO
TREATMENT OF TFO
CONCLUSION
REFERENCE
3. Trauma from occlusion is a term used to describe
pathologic alterations or adaptive changes which
develop in the periodontium as a result of undue force
produced by the masticatory muscles
4. “A condition where injury results to the supporting structures of the teeth
by the act of bringing the jaws into a closed position”.
(Stillman 1917)
When occlusal forces exceed the adaptive capacity of the tissues, tissue
injury results. this resultant injury is termed TFO.
(Orban &Glickman 1968
Carranza)
“Damage in the periodontium caused by stress on the teeth produced
directly or indirectly by teeth of the opposing jaw”.
( WHO1978)
An injury to the attachment apparatus as a result of excessive occlusal
force.
(Glossary of periodontic terms ,1992)
5. results from an abrupt occlusal impact, such as that produced
by biting on a hard object
In addition, restorations or prosthetic appliances that interfere
with or alter direction of occlusal forces on the teeth may
induce acute trauma
Clinical features :
1. Tooth pain.
2. Sensitivity to percussion.
3. Tooth mobility.
4. Fractured Cusp
6. develops from gradual changes in
a) occlusion produced by tooth wear,
b) drifting movement
c) extrusion of teeth,
d) combined with parafunctional habits such as bruxism and
clenching .
7. When the trauma from occlusion is the result of
alteration in the occlusal forces,it is called Primary
Trauma from occlusion
Predisposes
1. Insertion of High fillings
2. Insertion of prosthetic replacement that creates
excessive force on abutments
3. Orthodontic movement of teeth into functionally
unacceptable positions
8. It does not Initiate pocket formation
It do not alter the level of connective tissue
attachment
This is because supracrestal gingival fibers
are not affected and therefore prevent apical
migration of junctional epithelium
9. Secondary trauma from occlusion occurs when the
adaptive capacity of the tissues to withstand
occlusal forces is impaired by bone loss resulting
from marginal inflammation
This reduces the periodontal attachment area and
alters laverage on remaining tissues
This periodontium become more vulnerable to
injury,and previously well tolerated occlusal force
become traumatic
10. Predisposes:-
1. Normal periodontium with reduced bone
height
2. Marginal periodontitis with reduced bone
height
10
12. When a tooth is exposed to excessive occlusal
forces,the periodontal tissues are unable to withstand
and hence they distribute,while maintaining the stability
of the tooth
This may lead to certain well defined reactions in the
periodontal ligament and alveolar bone,eventually
resulting in adaptation of periodontal structures to
altered functional demand
12
13. When the tooth is subjected to horizontal
forces the tooth rotates or tilts in the
direction of force . this tilting results in the
pressure and tension zones,within the
marginal and apical parts of the
periodontium
13
14. TFO stimulates increased reparative
activity.when bone is resorbed by excessive
occlusal forces,the body attempts to reinforce
the thinned bony trabeculae with new bone
This attempt to compensate for the lost bone is
called buttressing bone formation which is an
important feature of reparative process
associated with Trauma from occlusion
14
15. Buttressing bone formation can occur within
the jaw called central buttressing and on
bony surface called as peripheral buttressing
It usually occurs on the facial and lingual plates
of the alveolar bone,if it produces a shelf like
thickening of alveolar bone it is referred to as
lipping
15
16. If the process cannot keep pace with the
destruction caused by occlusion,the
periodontium may get remodeled in order to
maintain the structural relationship
This may result in thickened periodontal
ligament,angular defects in the bone with no
pocket formation,loose teeth and increased
vascularization
16
17. Glickman (1965, 1967) claimed that the
pathway of the spread of a plaque‐associated
gingival lesion can be changed if forces of an
abnormal magnitude are acting on the
contaminated tooth.
ZONE OF IRRITATION
ZONE OF CO DESTRUCTION
1
4
/
3
1
18. The zone of irritation includes the marginal and
interdental gingiva which is affected by microbial
plaque
This gingival lesion at a “non‐traumatized” tooth
propagates, in the apical direction by first involving the
alveolar bone and only later the periodontal ligament
area
The progression of this lesion results in an even
(horizontal) bone destruction.
19. As long as inflammation is confined to
gingiva,the inflammatory process is not
affected by occlusal forces
When inflamation extends from gingiva into
supporting periodontal tissues plaque
induced inflammation enters the zone
influenced by occlusion which is known as
zone of co destruction
19
20. The tissues in the zone of co destruction
become the seat of a lesion caused by trauma
from occlusion
Here the spread of infection is from the zone
of irritation directly down into periodontal
ligament and hence angular bony defects
with infra bony pockets are seen
20
21. The loss of connective attachment and bone
around teeth is, according to Waerhaug,
exclusively the result of inflammatory lesions
associated with subgingival plaque
Waerhaug concluded that angular bony defects
and infrabony pockets occur when the subgingival
plaque of one tooth has reached a more apical
level than the plaque on the neighbouring tooth,
and when the volume of the alveolar bone
surrounding the roots is comparatively large.
22. Tooth mobility
Pain on chewing or
percussion
Attrition
Pathological migration
Furcation Involvement
Gingival Recession
In severe cases,
Periodontal abscess formation
Cemental tears can be seen
Presence of infrabony pockets
23. Widening of periodontal ligament space
Angular Bone loss
Condensation of alveolar bone
Root resorption
Thickening of lamina dura
Buttressing bone formation on occlusal
radiograph
23
24. Fremitus Test
Miller’s tooth mobility test
Percussion test
Articulating paper test
Checking wear facets
24
25. ◦ It is the measurement of vibratory pattern of the
teeth when teeth are placed in contacting
positions and movements
◦ Wet the ungloved finger and place it partially on
the gingiva and partially on teeth and ask the
patient to bite repeatedly
◦ Observe the vibration produced in lateral
protrusive movements and positions
◦ Grade the movement according to fremitus test
scale
25
26. Class I : Mild vibrations or movements
detected
Class 2:Easily palpable vibrations but no
visible movements
Class 3:Movements visible with naked eyes
26
27. PROPOSED BY AAP(1996)
1. Reduce /eliminate tooth mobility
2. Eliminate occlusal prematurities
3. Eliminate parafunctional habits
4. Prevent further tooth migration
5. Permanent or Temporary splint
28. Periodontal structures depend on functional occlusal forces to
activate the periodontal mechanoreceptors in the neuromuscular
physiology of the masticatory system. A traumatic occlusion on a
healthy periodontium leads to an increased mobility but not to
attachment loss. In inflamed periodontal structures traumatic
occlusion contributes to a further and faster spread of the
inflammation apically and to more bone loss.
Abnormal forces on the tooth can increase tooth mobility.the
elimination of plaque and prevention of its formation can helps to
maintain periodontal health even if traumatic forces are allowed to
persist,however the elimination of trauma may increse chance for
bone regeneration and gain of attachment
29. Carranza’s Clinical Periodontology 11th
Edition
“Trauma from occlusion:a review’’-Dave
Rupprecht (January 2004)
“Association of Trauma from occlusion with
localized gingival recession in mandibular
anteriors’’-Prathiba Panduranga (2009)
“Trauma from occlusion-An orthodontist’s
perspective’’-R Saravanan (June 2010)
“Periodontitis and TFO’’-Adriana Campos
passenazi
29