ORTHODONTICS - an introduction
Dr. Prabhuraj Sabarad
MDS
MDS
Email: mail2prabhuraj@gmail.com
"When facial deformity has been corrected & mental anguish eliminated, a dull & unhappy facial expression becomes bright & happy. What greater reward could any orthodontist want or except"- Charles. H. Tweed
"When facial deformity has been corrected & mental anguish eliminated, a dull & unhappy facial expression becomes bright & happy. What greater reward could any orthodontist want or except"- Charles. H. Tweed
Orthodontic treatment
goals: The mandibular condyles in a seated position
in centic relation of jaws, structural balance- relaxed healthy musculature,
Andrews 6 keys class I occlusion, Functional stability -a mutually protected
occlusion, good periodontal health, , Esthetic harmony.
The first orthodontic objective of tooth leveling and aligning is defined as- The
tooth movements needed to achieve passive engagement of a steel rectangular
wire of 0.019/.025 dimension and of suitable
arch form, into a correctly placed preadjusted 0.022 bracket system.
Unwanted tooth movements in the initial stages of treatment
should be avoided and need to be controlled , or the underlying malocclusion is severed and will
increase treatment time and efforts.
Anchorage control:
The methods used to restrict
undesirable changes during the opening phase of treatment, so that
leveling and aligning are achieved without key features of the malocclusion
becoming worse.
Principles of anchorage control:
1.
Reduction of anchorage needs during leveling and
aligning. There is a need to minimize the factors which threaten anchorage and
which produce unwanted tooth movements. This reduces the demands on anchorage.
2.
Anchorage support during tooth leveling and
aligning. Eg. Use of palatal and lingual bars.
Orthodontic miniscrews/microimplants (1.3mm to 1.8mm in diameter at neck & 1.2 to 1.7 mm at the apex; 5 to 12mm in length) & miniplates have been used as osseous anchorage (temporary anchorage devices) for the treatment of various malocclusions.
Orthodontic miniscrews/microimplants (1.3mm to 1.8mm in diameter at neck & 1.2 to 1.7 mm at the apex; 5 to 12mm in length) & miniplates have been used as osseous anchorage (temporary anchorage devices) for the treatment of various malocclusions.
Mechanics of non extraction cases are more complex compared
to extraction cases.
Orthodontic treatment mechanics are determined by four elements: Bracket selection, Archwire selection, Bracket positioning, Force levels. Appliance design and treatment mechanics are closely inter-related. In Straight Wire Appliance (SWA) for extraction cases, canine brackets with anti-tip, anti-rotation and power arms are available, incisor brackets with varying degrees of torque for different clinical situation are available. { Wagon wheel effect- a situation where tip was lost as torque was added. Hence additional tip to the anterior brackets was given to avoid wagon wheel effect. Roller coaster effect- excess force along with the use of elastic traction mechanics in an early treatment stage caused deepening of overbite and creation of lateral open bite.}
Andrews SWA (1972)-the ‘translation’ series, was followed by Roth’s minimum extraction
series brackets (the second generation bracket
system). Roth emphasized use of articulators for diagnostic records, for
early splint construction, and for the construction of gnathological
positioners at the end of the treatment, to establish correct condyle position.
Using wider arch forms avoid damage to canine tips & helps in obtaining good
protrusive function. MBT bracket system developed
by McLaughlin, Bennett and Trevisi is the third generation bracket system.
Disadvantages of
additional anterior tip: puts
more load drain on antero-posterior anchorage, tendency for increased overbite
during aligning, close proximity of upper canine root apex to the first
premolar root in some cases. When the original research values for tip are used for anteriors, atotal of 10 deg less distal root tip in the upper
anterior segment and 12 deg less distal root tip in the lower anterior
segment is needed as compared with the original SWA.
Anterior tip values in MBT bracket system are based on the
original research values. For example in upper canine SWA uses 11 degrees
tip, Roth system uses 13 degrees tip, as compared to
the research finding of 8 degrees tip in upper canine. With MBT bracket system there
is a use of light continuous forces, lacebacks and bendbacks, and is designed
to work ideally with sliding mechanics. Rhomboidal form brackets with laser numbering
is used.
Recommended Tip and
Torque (in degrees)in MBT bracket
system:
Upper: Ist & IInd molars 5,5 &-14,
-14; PM 0,0 & -7,-7; Canine 8 & -7,0,+7;
lat. Incisor 8 &+10; C.I 4&+17
Lower: Ist & IInd Molars 2,2
&-20,-10; PM 2,2 & -17,-12; Canine 3 & -6,0,+6;lat.incisor 0
&-6; Cent.I 0&-6
|
{The original SWA Ist molar
torque(-30degree) & IInd molar torque (-35degree)
specifications allowed ‘rolling-in’ of
lower molars.]
Class I malocclusion: If there is crowding without severe
overjet or TMJ symptoms, initiation of treatment can wait until 10.5 to 12 years
of age. Starting earlier may prolong the treatment time. A three-way
expansion appliance will aid in
uncrowding the maxillary dentition. A mandibular sagittal appliance will aid
uncrowding of the mandibular arch.
Class II division 1 malocclusion: should be treated early if the following conditions apply:
1. There is a overjet of 5mm or more
with labially inclined incisors.
2. TMJ symptoms are present.
3. Patient is keen to receive the
treatment.
Treatment can
begin early (between ages 8 and 10 years). When there is severe maxillary
incisor proclination, the flared incisors have increased chances of traumatic
fracture, particularly in boys.
Class
II Division 2 malocclusion patient can wait for treatment until age 10 to 12
years, unless there are symptoms of TMJ disorder. Usually the young
patients with TMJ disorder symptoms are
not mature enough to wear a mandibular repositioning appliance until the age of
8 years.
Class III malocclusion is treated as early as patient
co-operation permits. Some investigations suggest chin-cap therapy as early
as 5 to 6 years. A saggital appliance can help in the
treatment of maxillary deficiency & anterior crossbite.
Treating the
patient during a growth spurt is beneficial.
Treatment of skeletal discrepancies (eg. Class II), is
more advantageous if carried out in the
mixed dentition growth spurt period.(boys 8-11 yrs; girls 7-9 yrs). Pre-pubertal
growth spurt for boys is at 14-16 yrs & in girls is 11-13 yrs (eg. arch
expansion).
Orthognathic
surgery should be carried out after growth ceases.
Neurotrophism: It is defined as a ‘non-impulse
transmitting neural function that involves axoplasmic transport and provides
for long term interactions between neurons & innervated tissues that
homeostatically regulate the morphologic, compositional, and functional integrity
of soft tissues.’ (Melvin Moss in his research had concluded that the nerve
influences the gene expression of the cell, and suggested that the genetic
control lies not in the functional
matrix alone, but reflects constant neurotrophic regulation stemming from a
higher neural source.)
