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Head gear in orthodontics
1.
2.
3. HEAD
GEAR
PRESENTED BY:
MD. ISHTIAQ HASAN
FCPS-II TRAINEE,
DEPT. OF ORTHODONTICS, DDCH
SUPERVISOR:
PROF. DR. MD. ZAKIR HOSSAIN
BDS, PHD(JAPAN)
PROF. & HEAD,
DEPT. OF ORTHODONTICS,
DDCH.
4. WHAT IS HEAD GEAR
• The orthodontic or
orthopaedic appliance which
deliver force intraorally or to
the chin from a cranial extra-
oral support.
6. ‘J’ HOOK
• The extra-oral force is
transmitted from the
head cap to the hooks
soldered on the arch
wire by two seperate
wire on each side.
7. FACE BOW
Metallic component that transmit extra-oral
force to the posterior teeth.
It consists of ---Outer bow
Inner bow
&
The junction
8. OUTER BOW
• Made of 1.5 mm stiff round wire contoured to
fit around thc face.
9. INNER BOW
Made of 1.25 mm round wire
Contoured around the dental arch and molar
Inserted into the buccal tube of upper first
molar.
Stops are placed mesial to the molar tube.
10. There are many ways in which the inner bow can be
stopped at the mesial aspect of the buccal tube
sothat the force is transmitted to the molars.
Bayonet offset , ‘U’ loop or soldered stop can be
used.
‘U’ loop have the advantage that it will allow for the
adjustment to the antero-posterior length of the
inner arch during treatment. This is necessary when
the upper molars are being moved distally , in order
to clear the bow from incisors.
11. THE JUNCTION
It is a rigid joint of inner and outer bow.
It can be a single soldered joint.
12. THE FORCE ELEMENT
It is the part of the head gear which provides
the force to bring about the desired effect.
May conprise of spring , elastics or other
streatchable materials.
It connect the face bow to head cap.
13. THE HEAD CAP
The appliance takes anchorage from the rigid
bones of the skull or from the back of the
neck.
The point of anchorage ---Cervical
Occipital
Parietal
16. PRINCIPLES OF USE OF HEAD GEAR
• Head gear have the ability to move the
dentition and the maxilla in all 3 planes of
space. The following factors should be
considered when planning the use of head
gear---
17. CENTRE OF RESISTANCE OF THE
DENTITION
• The COR for a molar is
usually at the mid root
region ,1-2mm apical to
the furcation area.
18. If forece is passing
through the COR , it
causes bodily
movement.
If force is above COR , it
causes distal root
tipping.
If force is below COR , it
causes distal crown
tipping.
19. DIRECTION OF FORCE
Cervical head gear
produce a inferior
and distal force on
the teeth ,while high
pull head gear
produce a superior
and distal force on
the teeth and
maxilla.
20. CENTRE OF RESISTANCE OF MAXILLA
The COR of the maxilla
should also be considered
when planning for head
gear. COR of maxilla is
located above the apices
of the premolar teeth.
Forces passing through
the COR of maxilla
produce translation of the
maxilla in a distal
direction while forces
above or below this point
causes rotation of maxilla.
21.
22. POINT OF ATTACHMENT OF FORCE
Point of attachment of force means the point
where the hooks of the outer bow is
connected to the elastics.
It is possible to alter the direction of force by
altering the point of attachment. This can be
done by varying the length of the outer bow
or by varing the angle between the inner and
outer bow.
23. MAGNITUDE OF FORCE
• To measure the force level , strain gauge
should be used.
• Some commercial head gear , force level
indicator built into the traction spring.
• Excessive force level will result in the
appliance being difficult to place and pt will
very quickly complain of discomfort.
24. TYPES OF HEAD GEAR
• Cervical head gear
• Occipital head gear
• High pull head gear
• Combination head gear
25. CERVICAL HEAD GEAR
Obtain ancorage from
the nape of the neck.
Causes distal and
extrusive movement of
the upper molars
leadind to increase in
lower facial height.
29. To minimize the extrusive force , we can bend
the outer arm upward. Bringing the outer bow
down to the line of action of neck strap create
an upward pressure which counteract the
downword pressure of elastics.
30. OCCIPITAL HEAD GEAR
Derive anchorage from
the occipital region
(back of the head).
Produce distal and
some intrusive frce.
31. HIGH PULL HEAD GEAR
Derive anchorage from parietal region(Front
of head).
Cause intrusion of upper molar and maxilla,
leading to decreased lower facial height.
35. COMBINATION HEAD GEAR
Here cervical and
occipital anchorage are
combined.
It allow a distal force
straight through the
centre of resistance by
having equal occipital
and cervical
components.
37. ORTHOPAEDIC EFFECT
Forces applied onto the maxilla can be used to
restrict its downward and forward growth.
For this , distal force should be applied
through the COR of the maxilla.
350-450 gm force on each side for a minimum
of 12-14 hrs/day are required for this.
39. DISTALIZING THE MOLAR
Distal movement of molar may be required for
correction of molar relation or to gain space
for correction of crowding or retraction of
anteriors.
300 gm/side for 14 hrs/day is needed for this.
The use of head gear for 14 hrs each night
with a force passing through the COR of upper
first molar will move the tooth distally 2-4
mm/2-4month without tipping.
40. DISTALIZING THE MOLAR
As the molar move distally, the bow will impinge
against the incisors, so it is necessary to lengthen
the inner arch. The ‘U’ loop need to expand to
increase the length of the inner arch.
Occlusion should be checked and ensure that the
distal movement is not hampered by the
interference of the lower molar.
If it happens , a removable appliance with
anterior bite plane can be used.
41. CORRECTION OF MOLAR ROTATION
AND EXPANSION
• Correction is achieved
by adjustment of the
inner bow sothat it will
produce rotational force
to the molar or
expansion of the arch.
42. SPACE MAINTAINER
Most effective method of maintaining arch
length is by the use of head gear.
The mesial movement of molar is protected
and the face bow does not interfere with the
erupting teeth.
For this , 8 hrs/day wear is sufficient.
43. EXTRA-ORAL ANCHORAGE FOR THE
MANDIBULAR ARCH
This is usually achieved by
‘j’ hooks because placement
of inner bow in the lower
buccal tube is difficult.
If extra-oral anchorage is
already in use in the upper
arch, anchorage
reinforcement can be
achieved by cl-III
intermaxillary traction at
the same time.
Sliding jig can also be used
to transmit the force to the
lower jaw.
44. PRACTICAL MANAGEMENT
At first , select the appropiate size of face bow.
Then determine the COR of tooth mentally.
Mark the COR on the pt’s cheek.
Choose the type of head gear.
Allow the outer bow to rest away from chek and
adjust its length and position with respect to COR
to achieve proper line of force.
Monitor for changes as treatment proceed and
adjust the force line of action if necessary.
45. Since extra-oral traction depends on pt’s co-operation ,
it is vitally important at each visit to assess wheather
the appliance has been worn sufficiently or not.
A ‘time sheet’ should give to the pt where he will keep
record about the time of wearing of head gear.
Pt should be asked to fit the head gear and observed to
ensure that he is familiar with the insertion.
Any difficulty in fitting may be a sign of poor co-
operation.
The head cap should give the appearance of having
been worn. The elastic should lost some of its
elasticity.
48. PARTICULARS OF THE PATIENT WITH
PRESENTING COMPLAINS:
• Simu, age 9 years, student,came to DDCH with
the complains of proclination of upper ant.
teeth and aesthetic problem.
50. Her face appeared to be symmetrical with convex profile.
Shape of the head : Mesocephalic.
Facial profile : Convex
Facial divergence : posterior.
Vertical relation : normal
Shape of the face : Oval.
Facial symmetry : Symmetrical.
Lips : Potentially competent.
Upper lip line : Normal.
Lower lip line : Low
Naso-labial angle : Normal
Mento-labial depression : Deep
Breathing : Nasal .
55. OCCLUSAL RELATIONSHIP:
A. Anterior posterior relation:
1. Molar relation : Class-II both sides.
2. Canine relation : Class-II on both sides.
3. Incisor relation : Class-II div I
4.Overjet : 10mm
B. Vertical relationship:
1. overbite : 5 mm.
C. Lateral relation:
1. Midline : Coinside
2. Cross bite : Absent
56. 1. Model Analysis / Space analysis :
Upper arch Lower arch
Arch perimeter_ Total
tooth material
= 97mm – 102mm =
-- 5 mm
Arch perimeter —Total tooth
material
=85mm — 92mm =
--5 mm
Remarks:
Crowding in both the arches due to teeth jaw discrepancy.
61. DIAGNOSIS :
It is a case of class II div I malocclusion with crowding &
proclination of upper anterior segment; crowding of
lower ant segment. Canine & molar relationship is class II
on both side.
62. Treatment plan:
1 . URA with ant. bite plane to open the bite.
2.URA with palatal finger spring(1 mm SS wire) on
to fascilate distal movement of the upper molars
with bands and extra-oral traction.
3. Reasses the case for further treatment.
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