Transcript Slide 1

In the distal extension RPD support is derived
from both the residual ridge and abutment
teeth. The variation in consistency providing
this support allows some rotational
movements of the free-end base towards the
soft tissues
Harmful Tissue-ward
movements of distal
extension under
occlusal load are
transmitted to the
abutment teeth
resulting in loosening
of these teeth
Strain on the abutment teeth
is minimized through:
1.Broad tissue coverage,
2.The use of functional basing.
3.Use of narrow teeth and harmonious occ.
4.Placing the artificial teeth on the anterior
two-thirds of the base.
5.Correct choice of direct retainer.
This principle is fulfilled by stress breaker design
The stress breaker
It is a device or design, which allows movement
between the denture base and the retainer to
reduce lateral and tipping forces on abutment
teeth.
It is also called "Stress director" or "Stress equalizer".
Types of Stress Breakers
1-
RPD having a movable joint between the
direct retainer and the denture base
2-
Partial dentures having a flexible connection
between the direct retainer and the denture
base
a- Split major connectors
b-Wrought wire connectors soldered to the
main major connector
c-Clasps having a stress breaking effect
Types of Stress Breakers
1-
RPD having a movable joint between the
direct retainer and the denture base
This joint may be in the form of
hinges, ball and socket devices or
sleeves and cylinders
Hinged type stress breakers
allows vertical and hinge
movement of the base
A- Dalbo extra-coronal precision
attachment device
B- Chrisman intra-coronal retainer
Hinged type stress breakers allows vertical and hinge
movement of the base to prevent direct transmission of
tipping forces to the abutment
2-
Partial dentures having a flexible
connection between the direct retainer
and the denture base
(a)
Split major connectors
A lower partial
denture framework
with partial division
of a lingual plate to
achieve stress
breaking action
(b)
Wrought wire connectors soldered to the main major connector
c-Clasps having a stress
breaking effect
1- R.P.I.
2- Reverse Aker Clasp
3- R.P.A.
4- WROUGHT WIRE CLASP
Indications for the use of stress
breakers:
1- In distal extension RPDs
2- Cases exhibiting well formed residual ridges
and weak abutment teeth
3- If internal attachments are used to retain a distal-extension base
Advantages of Stress Breakers
Distribution of stress between abutment teeth and the
residual ridge.
The alveolar support of abutment teeth is preserved
because horizontal forces acting on them are minimized.
Physiologic stimulation of the mucosa helps to minimize
bone resorption due to the intermittent pressure caused
by movement of the denture base.
If relining of the denture base is needed but not done
immediately for any reason, the abutment teeth are not
damaged.
Disadvantages of Stress Breakers
Difficult to construct.
If the intermittent pressure are beyond the physiologic
tolerance; ridge resorption results.
Easily distorted and difficult to repair.
Reducing the effectiveness of I.R.
Expensive.
Less tolerated by patients.
Allow food trapping and occasionally tissue-trapping.
If relining of the denture base is needed but neglected for a long
time , excessive ridge resorption results.
Stress
breaker
F (fulcrum): Indirect retention