Orthodontics Notes PDF

Summary

This document is a set of orthodontic notes for undergraduate students at Cairo University. It covers topics such as introduction, ethics, growth and development, malocclusion classification, and treatment. The notes are prepared by faculty members of the Orthodontic Department.

Full Transcript

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 Faculty of Dentistry
Cairo University

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Orthodontic Department

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Orthodontic Notes
For
Undergraduate Students
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 By Orthodontic Department Faculty members:

Professors:

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- Prof. Dr. Ahmed Abdel-Salam
- Prof. Dr. Yehya Mostafa
- Prof. Dr. Nagwa El-Mangouri
- Prof. Dr. Wagih A. Kadry
- Prof. Dr. Ehab El-Kattan
- Prof. Dr. Hisham A. Afifi
- Prof. Dr. Mohamed A. Bushnak

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- Prof. Dr. Sanaa A. Soliman
- Prof. Dr. Amgad Kaddah
- Prof. Dr. Faten H. Eid
- Prof. Dr. Sayed A. Hafez
- Prof. Dr. Amr E. Labib
- Prof. Dr. Amr E. Dakrouri
- Prof. Dr. Fatma A. Abdel-Sayed
- Prof. Dr. Hala M. Abdel-Meguid
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- Prof. Dr. Hoda M. Abdel-Aziz
- Prof. Dr. Amr M. Abou-El-Ezz
- Prof. Dr. Sahar Taher
- Prof. Essam Nasif
- Prof. Dr. Manal Y. Fouda
- Prof. Dr. Khaled H. Attia
- Prof. Dr. Mona Salah.
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Associate Professors:
- Assistant Prof. Dr. Amany Hassan.
- Assistant Prof. Dr. Fouad Sharaby
- Associate Prof. Amr ElBialy
- Associate Prof. Eman Mohie
- Associate Prof. Fady Hussein
- Associate Prof. Mai Aboelfotouh
Lecturers

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- Dr. Dalia ElBoughdadi
-Dr. Amal ElAzab
- Dr. Suzan Marzouk
- Dr. Mostafa El Dawlalty
- Dr. Sherif Elkordi
- Dr.Heba Dehis
- Dr.Nouran Fouad

-Dr.Ahmed Medhat
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- Dr.Amira Aboelnaga

- Dr.Nada ELzawahry
- Dr.Mohamed Abd El-Ghafour

Demonstrators
- Dr.Sally Magdy
- Dr.Noha Ali
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-Dr.Ahmed Fouda
-Hadir AbouShady
-Yasmin Mohsen
-Heba Akl
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 Contents
Page

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Chapter 1: INTRODUCTION 09

Chapter 2: PRINCIPLES OF ETHICS 11

Chapter 3: GROWTH AND DEVELOPMENT 20

Chapter 4: DEVELOPMENT OF THE NORMAL OCCLUSION 45

Chapter 5: DESCRIPTION OF NORMAL OCCLUSION IN ADULTS 69

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Chapter 6: CLASSIFICATION OF MALOCCLUSION

Chapter 7: DIAGNOSIS

Chapter 8: ETIOLOGY OF MALOCCLUSION

Chapter 9: SEQUELAE OF UNTREATED MALOCCLUSION

Chapter 10: TREATMENT OF MALOCCLUSION
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100

133

186

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Chapter 11: ADJUNCTIVE TREATMENT FOR ADULTS 223

Chapter 12: BIOMECHANICS OF TOOTH MOVEMENT 232
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Chapter 13: TISSUE CHANGES IN ORTHODONTICS 244

Chapter 14: ORTHODONTIC APPLIANCE DESIGN 255

Chapter 15: THERAPEUTIC EXTRACTION 269

Chapter 16: ORTHODONTIC RETENTION AND RELAPSE 290

Chapter 17: IATROGENIC EFFECTS OF ORTHODONTIC TREATMENT
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301

REFERENCES 314
 Faculty Vision and Mission

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Vision
Excellence in teaching, learning, research and community
service at national, regional and international levels

Mission
Preparing qualified graduates and distinguished specialists

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and consultants capable of meeting community needs at
national and regional levels in different fields of oral and
dental medicine through advanced teaching methods,
supporting lifelong learning, innovation in scientific research
and provision of preventive and therapeutic services to the
surrounding community.
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 Orthodontic Department Vision and
Mission

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Vision
The orthodontic department believes that orthodontics is
central to the practice of dentistry looking for excellence in
orthodontic teaching, learning, research and community
service nationally, regionally and internationally

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To create an orthodontic academic program that encourages
critical thinking and to communicate and transfer the
orthodontic knowledge nationally, regionally and
internationally.
To create an environment to foster and support orthodontic
research and postgraduate students.
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To provide quality orthodontic care to a diverse community
of patients.
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 Chapter 1 Introduction

Definition of Orthodontic:

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The word "Orthodontics" is derived from two Greek words, Orthos,
meaning straight, and odontos, meaning tooth.

Orthodontics is the branch of dentistry concerned with the growth of the
face, development of the occlusion and the prevention and treatment of
dentofacial abnormalities.

Aim of Orthodontics:

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Orthodontic therapy is directed to malocclusion, abnormal growth of
dentofacial complex, and malfunction of orofacial musculature, which alone or
in combination may cause any of the following:
1. Impaired mastication.
2. Bad facial esthetics.
3. Dysfunction of the temporomandibular joint.
4. Susceptibility to periodontal disease.
5. Susceptibility to dental caries.
6. Impaired speech.
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Chapter 2 Principles of Ethics

Intended Learning Outcomes (ILOs):
Understand what is meant by ethics.

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Understand why ethics are important.
Understand the ethical obligations to patients.
Understand how to apply ethical principles to the dental practice.

Chapter Outline:
A. Introduction
B. Principles of Ethics:
1. Patient Autonomy
2.
3.
4.
5.
C.
D.
Nonmaleficience
Beneficience
Justice
Veracity
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Code of professional conduct
Advisory Opinion
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Chapter 2 Principles of Ethics

A. Introduction:
Ethics are the moral principles or virtues that govern the character and
conduct of an individual or a group. The study of ethics is the systematic study

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of what is right and good with respect to character and conduct. The dental
profession holds a specific position of trust within society. As a consequence,
society affords the profession certain privileges that are not available to the
public-at-large. In return, the profession makes a commitment to society that its
members will adhere to high ethical standards of conduct.

The code of ethics, in effect, is a written expression of the obligations
arising from the implied contract between the dental profession and society.

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Members of a dental union or association voluntarily agree to abide by its
organization code as a condition for membership. Ethics affect relationships
with patients, the public, office staff and other professionals.

As a dentist, you have to make numerous decisions. Some decisions are
straightforward and easy; others can be very difficult. When ethics are ignored,
you risk making unethical or less ethical decisions. Unethical decisions lead to
unethical conduct, which can seriously compromise your service to patients and
undermines your ability to function as a professional. Without a solid ethical
foundation, you simply cannot be a true professional.
The code of ethics has three main components; principles of ethics, the code
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of professional conduct and the advisory opinion.

B. Principles of Ethics:
These are the firm guideposts of our profession. They provide guidance
and offer justification for the code of professional conduct. Principles can
overlap each other as well as compete with each other for priority. More than
one principle can justify a given element of the code of professional conduct.
Principles of ethics include:
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1. Patient Autonomy (Freedom ‫ﺔ‬%‫ﺮ‬#"‫)ا‬
2. Nonmaleficience (No Harm ‫)اﻻﻳﺬاء ﻋﺪم‬
3. Beneficence (of Benefit ‫)اﻹﺣﺴﺎن‬
4. Justice (Fairness ‫)اﻟﻌﺪاﻟﺔ‬
5. Veracity (Truth ‫ﻖ‬#"‫)ا‬

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Chapter 2 Principles of Ethics

C. Code of professional conduct: ‫ ﻣﺪوﻧﺔ اﻟﺴﻠﻮك‬.-‫اﳌ‬
It is the expression of specific types of conduct that are either required or

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prohibited. It is used as an instrument to help the dentist reach the goals of
his/her profession. It's violation may result in disciplinary action. It is subject
to change and modification.

D. Advisory Opinion: ‫ﺎم‬1‫اﻷﺣ‬
Statement of a court on how it may rule on a legal issue.

1. Patient Autonomy: the dentist has a duty to treat the patient according to

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the patient's desires, within the bounds of accepted treatment and to protect
patient's confidentiality.

Code:
1. The dentist should inform the patient of the proposed treatment and
any reasonable alternatives. An informed consent should be presented
to and signed by the patient prior to treatment.
2. The dentist is obliged to safeguard the confidentiality of patient
records. Specific guidelines on transfer of patient’s records should be
followed if a patient is moving or discontinuing treatment. Signed
photo release forms are required before being used to market your
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practice.

Advisory opinion:
A. Upon request, a dentist should provide copies of the patient's records either
gratuitously or for a nominal fee to the new dentist. This obligation exists
whether or not the patient's account is paid in full.
B. The dentist should obtain the patient's written permission before forwarding
health records which contain information of a sensitive nature e.g. HIV
seropositivity, chemical dependency.
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2. Nonmaleficience: The dentist has a duty to refrain from harming the
patient. This is achieved by keeping knowledge and skill current, knowing
one's limitations and when to refer to a specialist and when to delegate patient
care to auxiliaries.

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Chapter 2 Principles of Ethics

Code:
1. All dentists are obliged to keep their knowledge and skills up to date

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2. A dentist is obliged to refer the patient to a specialist, if necessary for the
welfare of the patient. Then, the specialist should refer the patient back to
the referring dentist upon completion of his care.
3. The dentist should protect the patient's health by only assigning to
qualified auxiliaries those duties that can be legally delegated. The dentist
should also supervise the patient care provided by all auxiliary personnel.
4. It is unethical for a dentist to practice while abusing substances, alcohol,
etc. as this may impair the ability to practice. Also, a dentist who
contracts a disease or becomes impaired in any way should limit activities

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of practice to areas that do not endanger patients or staff.
5. A dentist should immediately inform any patient who has been exposed
to potentially infectious material in the dental office of the need for post
exposure evaluation and follow up and to immediately refer the patient.
6. The dentist should never discontinue treatment without giving the patient
adequate notice. The dentist may refrain from treatment if:
i. He does not have the expertise or capability to provide competent
treatment or to meet patient's expectations.
ii. The dentist's professional ability is impaired from injury, illness,
disability, medication or addiction.
iii. The patient requests treatment that is contrary to the patient's best
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interest.
7. A dentist should avoid personal relationships that could impair their
professional judgement or risk the possibility of exploiting the confidence
placed in them by a patient.
8. The dentist should avoid conditions or actions (physical, verbal or
psychological) that promote harassment or abuse of patients, staff or
other related parties.
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3. Beneficience: The dentist has a duty to act for the benefit of others, by
competent and timely delivery of dental care within the bounds of clinical
circumstances.

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Chapter 2 Principles of Ethics

Code:
1. A dentist is obliged to use his skill, knowledge and experience for

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improving the dental health of the public and is encouraged to be a leader
in his community.
2. A dentist is obliged to be part of a professional society and to observe its
rules of ethics.
3. A dentist is obliged to make the results & benefits of his research
available to all.
4. A dentist my secure patents and copyrights, but should not restrict
research or practice.
5. A dentist is obliged to report cases of abuse or neglect to the proper
authorities.

without prejudice.

Code:
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4. Justice: The dentist has a duty to treat people fairly and deliver dental care

1. A dentist shall not refuse to treat patients because of race, color, sex or
national origin.
2. A dentist should provide emergency treatment to a patient of another
dentist, if necessary. Following completion of care, the dentist should
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return the patient to his regular dentist.
3. A dentist is obliged to report to the appropriate reviewing agency
instances of gross or continued faulty treatment by another dentist.
4. A dentist may provide expert testimony, if necessary.
5. A dentist may provide an expert testimony when necessary without
agreeing to a fee contingent upon the outcome of the litigation.
6. A dentist should never accept rebates or split in exchange for a referral.

Advisory opinion:
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A. A dentist has to provide treatment to those in need including patients with
HIV, Hepatitis B and C, etc.
B. A dentist may give a second opinion, but should excercise care that his
comments are truthful, informed and justifiable "Justifiable criticism. He
may consult with the previous dentist to determine the conditions under
which the treatment was performed. A difference in opinion should not be

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Chapter 2 Principles of Ethics

communicated to the patient in a manner that would imply mistreatment.
In fact, if disparaging comments are made, they can be the basis for a
disciplinary proceeding against the dentist giving the second opinion

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5. Veracity: A dentist has a duty to be honest and trust worthy while
dealing with people.

Code:
1. A dentist should not present the care being rendered to the patient in a
false or misleading manner.
2. A dentist should not present his fees in a false or misleading manner.
Fees should be consistent and fair to all parties i.e. a dentist should not

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vary fees based on the patient's financial resources or insurance plans.
3. A dentist presenting a paper should disclose any monetary interest to the
readers " disclosure of conflict of interest".
4. A dentist shall not prescribe or promote device or drugs unless their
complete formulae are available to the dental profession.
5. Professional announcement and advertising should not be false or
misleading. Practice name should not include any doctor who is no
longer in the practice.
6. It is unethical to announce to the public specialized dental services
without fulfilling the required training or certificate. Announcement of
services by general dentists could be honest i.e. should not express or
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imply specialization. Once announced as a specialist, the dentist should
limit the dental practice to this field.
Advisory opinion:
A. Removal of amalgam from non allergic patients for the alleged purpose
of removing toxic substances from the body is unethical.
B. It is unethical to represent a treatment procedure to a patient as one that
can cure a certain condition if not based on scientific evidence "
unsubstantiated representation".
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C. It is unethical to waive the patient payment without disclosing to the 3rd
party" Deception & misrepresentation".
D. It is unethical to overbill the patient because he is covered under a dental
Benefits plan. Also, to change treatment dates is unethical for the sake of
obtaining benefits under a dental plan.
E. It is unethical to present uncovered procedure as one that is covered by

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Chapter 2 Principles of Ethics

the dental plan.
F. It is unethical to recommend and perform unnecessary dental treatment.
G. A dentist should s report a drug's adverse reaction to the adequate

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authorities.
H. A dentist should not exploit the trust inherent in the dentist-patient
relationship for his own financial gain.
I. A dentist should use academic degrees awarded only by accredited
organizations only for advertising. The use of non academic degrees
granted by some organizations is prohibited as it is misleading to the
public

Anyone who believes that a dentist has acted unethically may bring the

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matter to the attention of the appropriate dental society for investigation. A
member who is found guilty of unethical conduct may be placed under a
sentence of censure or suspension or maybe even expelled from membership.
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Chapter 3 Growth and Development

Growth and Development

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- Definitions
- Prenatal development
- Patterns (types) of growth throughout the body (Scammon's
Curves):
- Somatic growth
- Neural growth
- Lymphatic growth
-

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Genital growth
- Changes in Outline Features of the Growing Face
- Methods of Bone Formation (Osteogenisis:
Types:
- Endochondral bone formation
- Intramembranous bone formation
a) Growth by surface deposition
b) Sutural growth
- Growth movements:
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a) Drift
b) Displacement
i) Primary displacement
ii) Secondary displacement
c) Remodeling
- Post natal growth of the skull:

1) Growth of the cranium:
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a) Growth of cranial vault
b) Growth of the cranial base

2) Growth of the face:
a) Middle face (naso-maxillary complex)
b) The mandible.

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Chapter 3 Growth and Development

Growth and Development of the Skull
Definitions:

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Growth:

Growth may be defined as the normal change in amount of living substance.
Growth is the quantitative aspect of biological development and is measured in
terms of increments.

Development:

Growth Increment:
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Development can be defined as all normal sequential series of events between
fertilization of the ovum and the adult state or maturation.

Is the amount of growth per unit of time.
Growth Spurt:
Is the sudden increase in growth rate during the age of the organism (e.g.
puberty spurt).
Differential Growth:
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Difference in growth rate and time of various organs of the organism.

Prenatal Development

The prenatal development may be divided into three periods:
1. The period of the ovum: from fertilization to the end of the fourteenth
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day.
2. The period of the embryo: from the fourteenth day to about the fifty
sixth day.
3. The period of the fetus: from eight weeks of birth.

During the 4th week intrauterine of the embryonic period, the human face
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Chapter 3 Growth and Development

begins to take shape. The frontonasal, maxillary and mandibular processes of
the 1st branchial arch bound the primitive oral cavity (stomadeum) (Fig. 1). The
upper lip and premaxilla are formed by the fusion between globular process

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and maxillary processes. Partial or complete failure of fusion between
these two processes result in a condition known as cleft lip. Cleft lip
may be either unilateral or bilateral. This will be apparent by the second month
in-utero since this is the time where the fusion of the lip is usually completed.

The palate is formed by the two palatine processes of the maxillary

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processes, which are fused with each other and with the premaxilla region in a
Y shaped pattern (Fig. 2). Failure of fusion between these two processes result
in a condition called cleft palate which may be partial or complete.
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Fig. 1 showing embryonic period
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Chapter 3 Growth and Development

Fig. 2: Palatal development: formed by fusion of two palatine processes of the
maxillary processes with the pre-maxilla.
Patterns (types) of growth throughout the body

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(Scammon's curves)
Four general patterns of growth can be distinguished among mammalian tissues
(Fig. 3).
1. Somatic Growth:
It is the increase in overall body size, which continues throughout the growth
period. In man, this somatic growth does not cease until 18 to 20 years. It is

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relatively rapid prenatally (weight 6-7 billion folds, height 5000 folds),
accelerates in the first months after birth and then slowly declines until the
pubertal growth spurt. The rate of growth accelerates reaching a peak (11-13
years in girls, 13-15 years in boys), then rate of growth declines again to
virtually zero by about 20 years. The principal tissues showing somatic
growth pattern are those of skeletal bones; maxilla, mandible, cartilage and
other supporting connective tissues.

2. Neural growth:
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The central nervous system grows rapidly during prenatal and early postnatal
life completing most of its growth before the rest of the body. The human
brain for example, attains more than 90% of its full adult size by 6 years
although its functional maturation continues for much longer time. There is
no evidence of any adolescent spurt in the neural pattern of growth.

3. Lymphatic Growth:
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The lymphatic tissues grow rapidly in early life and reach their maximum
extent to about 11 to 14 years, after which they decline.

4. Genital Growth:
The primary and secondary sexual organs remain small until puberty then

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Chapter 3 Growth and Development

they grow to adult size.
Of these four patterns, the first two are seen in the growing skull. The
neurocranium and orbital cavities form a protecting box for the brain and eye

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ball and their growth follows the neural pattern.

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Fig. 3: Differential growth rate for different body tissues.

Changes in Outline Features of the Growing Face
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At birth the face forms only one-eighth of the bulk of the head, whereas
in the adult it forms one-third to one-half. This proportion changes as the
growth of the brain slows down considerably after about the third of fourth year
of childhood, but the facial bones continue to enlarge markedly for many more
years.
By time, growth of the trunk and lower limbs reduce the head from 1/4th
to 1/8th the body height. This trend continues postnatally along an axis of
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increased growth from the head to the feet which is known as the
cephalocaudal gradient.

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Chapter 3 Growth and Development

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Fig. 4: Proportional changes between child and adult face

As the face matures with age, a number of characteristic age related

In newly born

Eyes

Appear larger in the young
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morphologic changes occur. The major changes observed in the facial features
associated with growth are outlined below (Fig. 4):
Adult

Smaller in proportion when
compared to the child.
Due to

nasal and jaw regions grow
much faster and to a much
greater extent than the orbit,
child.
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Ears In the adult, they are much Do the ears actually rise? No,
higher with respect to the face. they in fact move downwards
Ears of the infant and child during growth. However, the
appear to be low face enlarges inferiorly even
farther so that the relative
position of the ears seems to rise

Forehead Reduced and slanted The bulbous forehead is reduced
by expansion of the supra
orbital ridges, elevation of the
Appears bulbous in the child.
nasal bridge and elongation of
the nose.
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Cheeks The cheek area becomes much The zygomatic arches move
more massive laterally away from each other,
thereby increasing the breadth
Are not prominent
of the face.

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Chapter 3 Growth and Development

Nose longer and wider Increases noticeably in vertical
size, and the nasal bridge
becomes progressively more
Small and short

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prominent.

Mandible large and square lower jaw Deposition of bone on posterior
border of ramus
Dimunitive mandible with
obtuse angle,

Chin Prominent Deposition of bone on chin and
resorption above it.
Receded chin

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The entire face becomes longer in a vertical dimension as a composite result of
mandibular ramus growth and downward growth of the nose and maxilla. The
face as a whole is displaced downwards in relation the cranium (Fig. 5).
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Fig. 5: The difference between child and adult face

Methods of Bone Formation (Osteogenesis):
Bone may be formed in two connective tissue sites:
1) Cartilage
2) Membranous connective tissue
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1) Endochondral bone formation: (Fig. 6)
It is a pressure-tolerant tissue located in specific skeletal areas where direct
compression occurs (articular cartilage). It functions as a growth cartilage in
conjunction with certain enlarging bones.

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Chapter 3 Growth and Development

Sites of endochondral bone growth:
Synchondrosis * Nasal cartilage
condylar cartilage

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* epiphyseal plate
During endochondral bone formation, the original mesenchymal tissue first
becomes cartilage.
Cartilage cells hyperplasia
Cartilage cells hypertrophy,
Their matrix becomes calcified.
Cells degenerate

replaces it. /20
Osteogenic tissue invades the dying and disintegrated cartilage and
Thus, cartilage bone is not formed from cartilage, it
invades the cartilage and replaces it.
Cartilage tissues can grow by:
Apposition on its surfaces as well as by
Proliferation of cells and the intracellular matrix within its substance,
thereby expanding the cartilage by interstitial growth.
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Fig. 6 Endochondral bone formation

Between individual bony centers, areas of growing cartilage form
synchondrosis. The important synchondrosis include (Fig. 7 A):

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Chapter 3 Growth and Development

i. The spheno-occipital synchondrosis:
It exists in the midline cranial base between the occipital and

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sphenoidal bones.
It persists up to 18-20 years of age closing a few years
earlier in girls than in boys.
ii. The intersphenoidal synchondrosis:
It is present in the midline cranial base between the anterior
and posterior parts of the body of the sphenoid.

life.
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In humans, it closes just before birth. In most other animals
including monkeys, it persists until the beginning of adult

iii. The spheno-ethmoidal synchondrosis:
It exists between the sphenoid bone and the ethmoid bone.
It closes at about 5-7 years.
iv. The intra-occipital synchondrosis:
It is present inside the occipital bone.
It closes at 3-5 years.
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In the maxillary complex, the nasal capsule is another region for endochondral
growth where growing cartilage is converted into bone. In the mandible,
midline symphysis and condyle of the mandible are other regions (Fig.7 B, C).
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Fig. 7 A. Cranial Synchondrosis B. Nasal Cartilage C. Mandibular Symphysis

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Chapter 3 Growth and Development

Intra-membranous bone formation: (Fig. 8 A)
In this type of bone formation:

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i. The undifferentiated mesenchymal cells of the membranous connective
tissue change to OSTEOBLASTS and elaborate OSTEOID MATRIX.
ii. The matrix or intracellular substance becomes calcified and BONE results.
Sites of intramembranous bone growth:
Periodontal ligament
Endosteum
Periosteum
Sutures
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a) Growth by surface deposition: (Fig. 8 B)
All skull bones depend on this method for their growth. It becomes more
significant in the later periods of skull growth. The balance between bone
deposition and resorption is an important factor in changing the form of
individual bony elements of the skull. This growth is additive or
appositional in nature.
This process is responsible for the growth of cavities such as the:
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i. Nasal cavity
ii. Paranasal sinuses and
iii. Medullary cavities of individual bones
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A B

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Chapter 3 Growth and Development

Fig. 8 A. Intramembranous bone formation B. Growth by surface deposition

b) Sutural growth (Fig. 9):

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Sutures have an osteogenic process comparable to periosteal bone growth.
The suture is an inward reflection of the periosteal membrane between the
edges of adjacent bones. At a growing suture there are five layers of tissue:
i. Cellular osteogenic layer of the periosteum associated with each of the two
bones bounding the sutures.
ii. Fibrous layer of the periosteum associated with each of the two bony units

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and bounding the cellular osteogenic layer.
iii. Intermediate layer between the adjacent fibrous layers containing connecting
fibers and blood vessels.
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Fig. 9: Sutural layers a. Fibrous layer b. Cellular Osteogenic layer c. Intermediate layer

This means that there are two growth sites at each suture, one for each
bony unit. These growth sites are independent of one another in their growth
and thus at a suture, one bone may grow faster than the other.

Two theories exist regarding the mechanism responsible for the separation of
the bones bounding a suture:
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1. The old classical theory: the proliferation of the soft tissues in the suture
separating the bones bounding it thus, it considers the suture as a growth
center (built-in).

2. The recent functional matrix theory (Moss): separation of the bones at

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Chapter 3 Growth and Development

sutures is produced by the growth of an organ such as the brain or eyeball or by
growth of cartilage either at a synchondrosis between two bone elements or as
in the case of nasal cartilage. According to this theory, the suture is a tension-

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adapted growth region responding to the forces produced by the enlarging soft
tissue associated with them thus, it considers the suture as a growth site (fill-in).

Growth sites versus growth centers:

Cartilage cells of growth plates are capable of creating a tissue separating force
by virtue of interstitial expansion when such units are transplanted to

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subcutaneous sites, they are capable of growing apart. Cells of sutures,
however, are not capable of generating a tissue separating when transplanted to
subcutaneous sites they are not capable of growing apart.

Baume has given names to these two growth mechanisms. Growth center for
endochondral ossification with tissue separating force, and growth site for
suture bone formation.

Growth movements:
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During growth bone moves either in the same or opposite direction to its own
growth or to the growth of other bones.

In other words, during the enlargement of the craniofacial bones, two kinds of
growth movements are seen:
1) Cortical Drift
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2) Displacement
1) Drift:
Relocation or movement of bone in the same direction of its own growth.
It is produced by the deposition of bone on one side of the cortical plate
while resorption occurs on the opposite side (Fig. 11 A).

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Chapter 3 Growth and Development

2) Displacement:

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The movement of the whole bone as a unit.
Two types of displacements exist:
i. Primary displacement: The movement of bone in opposite
direction to its own growth. This type of growth functions to maintain
the relationship of bones to each other as they are carried away from
their articulation with each other (Fig. 11 B).
ii. Secondary displacement: The movement of the bone in the same

11 C).
3) Remodeling:
/20
direction of growth of other adjacent or distant bone. It is the
movement of the bone in relation to enlargement of other bones (Fig.

It is the change is size and shape of the bone as a result of differential
resorption and deposition of the inner and outer surfaces (Fig. 11 D).
22

A. Drift B. Primary Displacement
20

35
Chapter 3 Growth and Development

23
C. Secondary Displacement D. Remodeling
Fig. 11 Growth Movements

Postnatal growth of the skull

/20
Growth of the skull may be subdivided into:
1) Growth of the cranium:
a) Growth of cranial vault
b) Growth of the cranial base
2) Growth of the face
a) Middle face (naso-maxillary complex)
b) The mandible
22
1) Growth of the cranium:
a) Growth of the vault:
The cranium grows secondary to brain growth. This growth is accelerated
during infancy. The increase in size under the influence of an expanding brain
is accomplished primarily by proliferation and ossification of sutural
connective tissue and by appositional growth of the individual bones that
make up the cranial vault. Some selective resorption occurs early in postnatal
20

life of the inner surface of the cranial bones to help flatten them out as they
expand.
Apposition can be seen on both the internal and external tables of the cranial
bones as they become thicker. This increase in thickness is not uniform due to
the inner cranial table being primarily under the influence of the growth of the
36
Chapter 3 Growth and Development

brain while the outer plate has certain mechanical influences operating upon it.
These mechanical influences contribute to the growth of the cranial
superstructures (supra orbital and mastoid structures). These structures are

23
usually more marked in males than in females.
The newborn has his frontal bone separated by the metopic suture and has no
frontal sinus. The developing frontal sinus gradually replaces the spongy bone
between the external plates. The cranial vault increases in width primarily
through filling ossification of the proliferating connective tissue in the
interparietal, parieto-sphenoid and parieto-temporal sutures.

/20
The mid-sagittal suture does not close until the middle of the third decade of
life.
Increase in length of the vault may be primarily due to the growth of the
cranial base with active response at the coronal suture and lamboidal sutures
(Fig. 12).

a. Growth of Cranial Base:
The cranial base grows primarily by cartilage growth in the synchondrosis
(sphenoethmoidal, intersphenoidal, spheno-occipital and intra - occipital
22
synchondrosis). These synchondrosis share in adjusting the cranial base to the
need of the growing brain and the upper respiratory area. At the center of the
cartilage, the cartilaginous growth separates the growing bones. It acts as a
double epiphyseal plate like fibrous suture. The separating mechanism is built
between the adjacent bones (fibrous suture is filling).
When the cranial base grows anteroposteriorly, this brings the maxillary
20

complex forward and downward (secondary displacement). Also, the maxilla
leaves a space for the oropharynx. On the other hand, increase in length of the
cranial base gives a chance for the growth of the naso-maxillary complex and
alveolar region to grow vertically.

37
Chapter 3 Growth and Development

23
Fig. 12 Sutures of the Cranial vault

Growth of the face
/20
a) Growth of the Middle Face:

The middle face consists of the orbits and their contents, the nasal cavity, the
maxillary sinuses, upper alveolar process and palate (Fig. 13). It follows the
somatic curve of growth and undergoes a dramatic increase in absolute term
but particularly in relation to the cranium that is more complex at birth
22
(follows the neural curve). The middle face expands in width, depth and
height but the last dimension is more remarkable.
20

Fig. 13: Bones forming the face

38
Chapter 3 Growth and Development

1. Growth in Width:
Before Seven Years:
Comparing the face of the newborn to that of an adult, an obvious lateral

23
expansion is seen. The principles of bone growth responsible for the lateral
growth of the face involve displacement and drift. The former is dominant
during the early stages of growth as the skull is divided to two halves by the
sagittal suture system (interparietal, metopic, nasal, middle palatine,
symphysis of the mandible and cranial base cartilage). Brain growth and
cranial base cartilage growth lead to an increase in facial width through

unit.
After seven years:
/20
displacement. However, during the first year, the frontal bone and the
mandible become continuous bones, as the metopic suture and the symphysis

The neural growth is completed and growth in width by displacement ceases.
Further enlargement will be by bone drift.

The combined lateral growth movements of the orbits, the nasal walls,
maxillary sinuses, and malar regions are produced by bone deposition on
22
their lateral facing surfaces, together with resorption from the various medial
facing surfaces (Fig. 14).
20

Fig. 14: Lateral & posterior drift of the zygomatic bone.
- - Resorptive (ant. & inner) surface.
++ Depository (post & lateral) surface

39
Chapter 3 Growth and Development

2- Growth in Height:

23
Increase in height is remarkable during the postnatal period. Roughly half of
the vertical growth results from displacement, while the other half results
from drift. At birth the nasal floor is at the same level of the orbital floors.
During the first seven years:
Secondary displacement of the nasomaxillary complex is in a downward
direction following growth of the anterior cranial base. Growth of the nasal
cartilage is downward as a result of increase in respiratory demand (function
matrix theory).

After seven years:
/20
Drift accounts for about half of the vertical growth in the midface. The nasal
floor is resorptive while the palate and alveolar process are depository in
nature. The result is drift of the naso-maxillary complex downward where
the nasal floor becomes at a lower position than the orbital floor as
resorption in the nasal floor exceeds that of the orbit (Fig. 15).
22
20

Fig. 15: Downward drift of the nasomaxillary Complex

3- Growth in Depth (Antero-Posterior):
The nasomaxillary complex is united with the cranial base through a group
of sutures (Fig. 16):
a) Frontonasal

40
Chapter 3 Growth and Development

b) Fronto-maxillary

c) Zygomaticomaxillary

d) Zygomatico-temporal and

23
e) Pterygo palatine sutures

These sutures are aligned in such a way that any growth in the cranial base
would displace the middle face downward and forward in this manner. The
middle face could maintain its anteroposterior relationship to the growing
anterior cranial base and at the same time its depth increases by
displacement.

/20
22
Fig. 16: Craniofacial Sutures

Before seven years
The anteroposterior growth occurs by secondary displacement of the
nasomaxillary complex in a downward and forward direction following
growth of:
1.The anterior cranial base (synchondrosis) and;
2. Growth of the nasal cartilage which is downward as a result of increase
20

in respiratory demand (functional matrix theory).

After seven years
Growth of the surrounding soft tissue translates the maxilla downward and
forward,

41
Chapter 3 Growth and Development

opening spaces in the sutures where bone is added. If a bone gets displaced
as a result of its own growth, it is called “primary displacement”. The
maxilla does not grow forward or make room for the erupting teeth by

23
depositing new bone on its anterior surface, but instead, new growth is
deposited posteriorly in the maxillary tuberosity area, followed by anterior
displacement (primary displacement) making room for the erupting molar
teeth successively (Fig.17). In this way some remodeling can occur on the
anterior surface by resorption. The molar region grows in a progressive
posterior direction relative to the orbit and the maxilla receives new bone
deposition posteriorly.

/20
So, the process of displacement (which is produced by the expanding soft
tissue) produces the space within which bone enlargement occurs.
sutural bone growth does not push the nasomaxillary complex away from the
cranial floor. This places all the bones in new positions in pace with the
So,

expanding soft tissue matrix and maintains continuous sutural contact as
bone becomes separated.
22
20

Fig. 17. Posterior drift-anterior displacement of the maxillary arch

b) Growth of the Mandible:
42
Chapter 3 Growth and Development

At birth, the mandible appears to be a little more than a curved bar of bone.
The body is ill defined. The alveolar process is scarcely present. The rami
are proportionally short and the condyles have not yet become well

23
developed.

Growth in Width:
Symphyseal cartilage growth contributes to growth in width during the first
year of life. The mandibular condyle grows in a posterior superior and lateral
direction through a process of endochondral bone formation. Additive

V Principle of Growth
/20
growth at the coronoid process and condyle increases the superior inter-
ramus dimension (V principle).

According to this growth concept, bone is deposited on the inner surface of
the “V” shaped bone and resorbed on the outer surface. Bone is deposited
towards the surface of growth (Fig. 18).
22
20

Fig.18 Increase in inter-ramal width by outer resorption &
Inner deposition (V principle of Growth)

Increase in Length
The increase in the length of the mandible is by condylar growth and apposition

43
Chapter 3 Growth and Development

of bone on the posterior border of the ramus. The posterior border of the ramus
grows in a backward course by progressive addition of new bone, which is an
example of drift.

23
This ramus drift gives room for the developing posterior teeth, thus the ramus
becomes deeper in its anteroposterior dimension (Fig. 19 A).
In general, the growth at the head of the condyle occurs in an upward and
backward direction where mandibular growth is expressed as a downward and
forward displacement, which is an example of primary displacement and
hence the mandibular length increases (Fig. 19 B).

/20
22
A. Drift B. primary displacement
Fig. 19 Increase in length of mandible
Increase in Height
20

The ramus also increases significantly in vertical dimension, to accommodate
the marked downward growth of the naso-maxillary complex as well as
eruption of teeth. Alveolar bone growth along the superior of border of the
mandibular body brings about an increase in vertical dimension. Bone is
deposited along the entire inferior surface of the mandibular body except for the

44
Chapter 3 Growth and Development

antegonial notch.

Chin

23
The area of the chin receives thick deposits of periosteol bone. The alveolar area
just above the mental protuberance however is usually resorptive. This results in
a protruding chin.

Mandibular angle
The region of the angle of the mandible is augmented by addition of bone to the

Mental Foramen
/20
posterior border of the ramus as a result, the angle of the mandible decreases
from 175 degrees at birth to 115 degrees in adult.

The mental foramen during the early years of life is situated under the mesial
cusp of the first deciduous molar. In the adult it lies below and between the first
and second premolars. This change in position is due to the backward and
outward inclination of the canal. As bone is added to the outer surface of the
22
body of the mandible, the foramen is carried backwards (Fig. 20).
20

Fig.20 Change in mental foramen position

45
Chapter 3 Growth and Development

23
/20
22
20

46
20
22
/20
23
20
22
/20
23
Chapter 4 Development of the Normal Occlusion

Development of the Normal Occlusion

23
Intended Learning Outcomes (ILOs):
To identify the normal development & characteristic features of
deciduous dentition stage.
To know the normal development & characteristic features of mixed
dentition.
To recognize the normal development & characteristic features of
permanent dentition stage.
Identify the timing of eruption of deciduous & permanent dentition.

/20
The importance of the deciduous dentition and early treatment to prevent
developing malocclusion.
Define the dimensional changes seen in maxillary & mandibular arches
regarding shape, size and relationships & to understand their importance.
To understand the transient pattern of different of malocclusion during
different stages.
To be skilled to spot and diagnose any abnormalities.
22
20

49
Chapter 4 Development of the Normal Occlusion

Chapter Outline:

23
A. Gum pads stage
1. At birth.
2. Eruption of deciduous dentition.
B. Deciduous dentition stage
1. Overbite in deciduous dentition
2. Spacing in deciduous dentition
3. Anteroposterior relationship of deciduous dentition
C. Mixed dentition stage
1. Stages of teething in permanent dentition.

/20
2. Eruption of canines and premolars.
D. Early permanent dentition stage
E. Adult dentition stage
1. Criteria of Normal Occlusion
2. Dental arch dimension.
3. Dimensional changes in dental arches.
F. Transient malocclusions
Definition: Occlusion is the articulation of the maxillary and mandibular
teeth. It is a complex procedure as it involves teeth, their morphology,
angulations & muscles of mastication, skeletal structures, TMJ and also
functional jaw movements.
22
20

50
Chapter 4 Development of the Normal Occlusion

Stages of development of normal occlusion:

23
A. Gum pads stage (Fig. 1):
It starts from birth until end of eruption of the
deciduous dentition (0 to 2.5 years).

Fig. 1: gum pad stage
1. At birth:
/20
In the mouth of the newborn fetus, gum pads cover the alveolar
processes.
These are greatly thickened oral mucous membrane and covered with
fibrous periosteum, which soon become segmented by transverse grooves
into 10 segments.
Each segment is a developing tooth site.
The maxillary gum pad (Fig. 2) is horseshoe shaped with a very shallow
vault, while the mandibular (Fig. 3) one is U –shaped. There are no teeth
for the first 6-month.
22

Fig. 2: Maxillary gum pad Fig. 3: Mandibular gum pad
20

The gum pads show elevations and grooves (Fig. 4) that outline the
position of primary teeth. They are apart during function, while at rest
there is a contact only posteriorly.

51
Chapter 4 Development of the Normal Occlusion

23
Fig. 4: gum pads showing elevations & grooves.

Relationship between upper & lower gum
pads:
In physiologic rest position, tongue protrudes

most of the time.
/20
forward and maintains in contact with the lips

The upper lip appears to be short and flaccid.
Mandibular gum pad is distal to maxillary to a
variable degree

In the first year; the gum pads are not wide
enough to occupy the developing incisors that are
rotated & crowded in their crypts (Fig. 5).
Fig. 5: Radiograph of
gum pads demonstrating
22
positions of the unerupted
teeth in their crypts.
They will grow rapidly especially in lateral direction; which will give an
increase in arch width; which will allow eruption of teeth in good alignment.

2. Eruption of deciduous teeth:
During the 4th month intrauterine life, calcification of the deciduous teeth
begins.
At birth ¼ to ½ the crowns of the deciduous teeth have been calcified
20

with the tips of the first permanent molar cusps.
Eruption of deciduous teeth starts at 6 to 7 months.
At age 2.5 years, all primary teeth erupted and at 4 years old, their roots
are completed.

52
Chapter 4 Development of the Normal Occlusion

23
Fig. 6: maxillary & mandibular deciduous teeth.

Table 1 represents the average date of eruption of deciduous dentition in
months (up to 6 months earlier or later is considered to be normal):

LA 6 months UA 8

/20
LB

LC

LD
LE
7 months

16 months

12 months
20 months
UB

UC

UD
UE
9

18

14
24
Table 1: Average eruption dates of deciduous teeth

The six/four rule for primary tooth emergence; 4 teeth emerge for each 6
month:
1. 6 m.: 4 teeth (lower & upper centrals).
22
2. 12 m.: 8 teeth (1. + upper & lower laterals).
3. 18 m.: 12 teeth (2. + upper first & lower first molars).
4. 24 m.: 16 teeth (3. + upper & lower canines)
5. 30 m.: 20 teeth (4. + lower 2nd & upper 2nd molars).

B. Deciduous dentition stage:
It covers the period from the finishing of the
20

eruption deciduous dentition up to the eruption of
the first permanent tooth (2.5 to 6 years), which
is either a first molar or a mandibular central
incisor (Fig. 7).

Fig. 7: Deciduous dentition stage

53
Chapter 4 Development of the Normal Occlusion

During the first year the gum pads enlarge and the arches widen slightly
to have room for erupting teeth.

23
Teeth start to appear by age of 6 month, usually in lower arch followed
by upper arch.
Deciduous incisors are smaller, whiter and more upright than their
successors (Fig. 8).

/20
Fig. 8: maxillary & mandibular deciduous teeth

Three important features are presented in this stage:
1. Overbite in deciduous dentition.
2. Spacing in deciduous dentition.
3. Anteroposterior relationship of deciduous dentition.

1. Overbite in deciduous dentition:
Normal overbite (Fig. 9) is the amount of vertical overlap between
maxillary & mandibular central incisors or primary one, when teeth are in
22
centric occlusion. It varies in primary dentition from 10 to 40 %.

Overbite tends to be deep normally at 3 years, but it
will be reduced at age 5 y.
It is reduced by rapid attrition of incisors, so at
age of 5 to 6 years an edge-to-edge relationship is
seen.
This will facilitate the forward growth movement
20

of the mandible.

Fig. 9: normal overbite.

These photographs (Fig. 10&11) represent two cases with primary
dentition at age of 5 years; the first one is favorable condition and known as
spaced dentition. The 2nd case is unfavorable condition and known as closed
54
Chapter 4 Development of the Normal Occlusion

dentition.

23
Fig. 10: favorable condition Fig. 11: unfavorable condition

2- Spacing in deciduous dentition:
a) Generalized spacing; usually present in the
incisor region to allow for difference in size

/20
between primary and permanent teeth. The crowns
of the permanent incisors lie lingual to the crowns
of the primary incisors.
Fig. 12: generalized
spacing in deciduous teeth

Presence of permanent teeth in lingual relation to primary one (Fig. 13):
The mesiodistal crown dimensions of permanent incisors are considerably
greater than that of the primary incisors.
This difference in the mesiodistal crown dimension between them is
termed as Incisal liability.
22
20

Fig. 13: presence of permanent teeth in lingual relation to the primary one.

b) Primate spaces (Figs. 14&15): present mesial to upper primary canine
and distal to lower primary canine.

55
Chapter 4 Development of the Normal Occlusion

Primate spaces in the upper close by

23
eruption of maxillary permanent
incisors, while the lower close by
eruption of mandibular first molar and
by their early mesial shift. Absence of
these spacing, indicates potential
crowding

Fig. 14: generalized spacing and primate space.

/20
Fig. 15: primate space in maxillary and mandibular arches.

3. Anteroposterior relationship of deciduous dentition:
Classified according to:
22
a) The distal aspect of the upper second primary molar may show:
1) Flush terminal plane
2) Mesial step
3) Distal step

b) The long axis of the upper primary canine may show:
1) Neutro cuspid (Class I),
2) Disto cuspid (Class II) and
3) Mesio cuspid (Class III).
20

a) The distal aspect of the upper second primary molar may
shows:
1) Flush Terminal Plane relation (Fig. 16):
a. The primary posterior teeth occlude so that the mesiolingual cusp of the
maxillary primary molar occludes in the central fossa of the mandibular
56
Chapter 4 Development of the Normal Occlusion

primary molar.
b. The primary mandibular molar is usually wide mesiodistally than
maxillary one giving rise to flush terminal plane.

23
Flush terminal plane is an imaginary line dropped tangent to the distal surface
of the upper E that passes through the distal surface of lower E. It is also called
end-to-end occlusion..
/20
Fig. 16: flush terminal plane relation

2) Mesial Step (Fig. 17): distal surface of lower E is mesial the line dropped
from the distal surface of the upper E.
22
Fig. 17: mesial step relation.

The effects of mesial step, the first permanent molars directly erupt into
class I molar relationship.
Few cases may progress to class III molar relations, if forward growth of
the mandible is more than normal.
20

3) Distal Step: the distal surface of lower E is distal to the line dropped from
distal surface of upper E. The Effect of distal step usually leads to Angle’s class
II molar relationship, a few cases may go into class I.

57
Chapter 4 Development of the Normal Occlusion

23
Fig. 18: distal step relation.

b) The long axis of the upper primary canine may show:

/20
1) Neutro cuspid (Fig. 19):
The long axis of maxillary cuspid passes through the embrasure between lower
cupid and primary first molar (star).

D
C

C
22
Fig. 19: neutro cuspid relation.

2) Disto cuspid (Fig. 20):
The embrasure between lower cupid and primary first molar (star) is
located distal to long axis of maxillary cuspid.
20

Fig. 20: disto cuspid relation.

58
Chapter 4 Development of the Normal Occlusion

3) Mesio cuspid (Fig. 21):
The embrasure between lower cupid and primary first molar (star) is located

23
mesial to long axis of maxillary cuspid.

/20Fig. 21: mesio cuspid relation.

Early correction of flush terminal plane (Fig. 22):
The erupting first mandibular permanent molars are guided by distal
surface of 2nd primary molars and
move forward by closure of the
primate space.
The flush terminal plane is no longer
present due to forward movement of
the mandible and closure of lower
primate space. This step is known as
22
early mesial shift.
Attrition of incisors will facilitate
forward growth of the mandible
more than the maxilla.
Fig. 22: correction of flush terminal plane
20

59
Chapter 4 Development of the Normal Occlusion

23
Fig. 23: Occlusion at age of 6 years; eruption of mandibular central incisors & first
permanent molar
C. Mixed dentition stage:

/20
It begins from the eruption of the first permanent tooth to the final
shedding of the deciduous teeth (6 to 12 years) (Figs. 23&26).
Ø Stages of teething in permanent dentition:
Permanent teeth start calcification after birth except cusp tips of first
permanent molars.
Eruptive movement starts after half of the root has been formed.
Tooth pierce alveolar crest after 2/3 of its root has been formed.
Tooth emerges into oral cavity through gum tissues after ¾ of the root
formation.
Lower incisors usually erupt before upper one.
22
Upper teeth develop on the palatal aspects of their predecessors. They
erupt downwards, outwards and forwards (Fig. 24).

Fig. 24: position of upper permanent incisor in relation to primary one & it tends to erupt in
20

outwards & forward position.

Table 2 represents the sequence of average date of eruption of permanent
dentition with a range of variation up to 6 months earlier or later is considered
to be normal:

60
Chapter 4 Development of the Normal Occlusion

L6 6 years U6 6 years

L1 6 years U1 7 years

23
L2 7 years U2 8 years

L3 9 years U4 12 years

L4 10 years U5 11 years

L5 11 years U3 12 years

L7 12 years U7 12 years

Table 2: the average sequence of eruption of permanent dentition

/20
22
Fig. 26: occlusion at 8 years

The rules of “Fours” for permanent tooth development (3rd molars not
included):
ü At birth, four first molars have initiated calcification,
ü At 4 y., all crowns have initiated calcification.
ü At 8 y., all crowns are completed,
ü At 12 y., all crowns emerge &
ü At 16 y., all roots are complete.
20

Eruptive tooth movement is the occlusal movement of the tooth from its
developmental position within the jaw to its final functional position in the
occlusal plane.
Active eruption: bodily movement of tooth from its site of development to
its functional position in the oral cavity.

61
Chapter 4 Development of the Normal Occlusion

Passive eruption: apparent lengthening of the crown due to loss of
attachment or recession of gingiva.

23
Ø Stages of eruption in permanent dentition
It is divided into 4 stages:
1- Pre-emergent eruption:
Eruptive movements begin with the start of root development.
For eruption to occur, the dental follicle must resorb the overlying bone
& primary tooth root, & the eruptive mechanism cause tooth movement.
Normally both these mechanisms are coordinated, however if not, failure
of eruption may result.

2- Post-emergent eruption:
/20
Tooth eruption normally occurs when root formation is ¾ complete.
Eruption is rapid (0.3-0.5 mm/week) until the tooth reaches close to the
occlusal plane: (post-emergent spurt).
There are many factors opposing eruption as occlusal contacts & pressure
from the tongue & cheeks.
3- Juvenile occlusal equilibrium: once a tooth has moved into occlusion,
eruption continues at a slower rate to keep proportion with vertical skeletal
growth.
4- Adult occlusal equilibrium: starts after the adolescent growth spurt.
22
§ Teeth continue to erupt throughout adult life to compensate for occlusal
wear & residual vertical skeletal growth.
§ Over eruption can also occur if an opposing occlusal contact is lost.

Ø The difference in size between permanent and deciduous teeth could be
housed as follows:
1. The presence of normal interdental spaces between deciduous incisors;
generalized spacing.
2. Permanent incisors are larger, more proclined and erupt outwards and
20

forward.
3. Increase in intercanine width, in mandible from age 6-8years and in
maxilla increases up to 12 years in females and 16 years in male.

Ø Eruption of permanent canines and premolars:
The sum of the mesiodistal dimension of the primary canine, first & 2nd molars

62
Chapter 4 Development of the Normal Occlusion

is larger than the sum their successors (3, 4, 5). This difference is known as
Leeway space.

23
a) Utilization of Lee way space (Fig. 27&28):
Upper permanent teeth (3, 4, and 5) are smaller about 1mm on each side.
Lower permanent teeth (3, 4, and 5) are smaller about 2mm on each side.
Partially larger permanent canine falling back to the space.
The other part is taken by the late mesial shift of first mandibular permanent
molars.

/20
Fig. 27: Leeway space

This “Leeway space" is to 1.7 mm. in the mandibular buccal segment on
22
each side; (3.4 mm bilaterally). While in the maxillary buccal segment is 0.9
mm. on each side; (1.8 mm bilaterally).
20

Fig. 28: Leeway space may relief incisor crowding.

b) Intercanine growth may relief incisors crowding (Fig. 29):
There is an increase in the intercanine
width 1-2mm during the presence of
deciduous incisors. Also, during the
eruption of the permanent incisors and

63
Chapter 4 Development of the Normal Occlusion

canines, 3-5 mm increase in upper arch and less in lower arch occur.
Fig. 29: Intercanine growth, may
relief incisors crowding.

23
c) Ugly Duckling stage (Fig. 30):
The maxillary canines develop distant from the dental arch and close to the
floor of the orbit. At 9-10 years as it moves downward and forward towards
occlusion, it come to lie against the apices of the erupting permanent lateral
incisors and central incisors causing mesial pressure on their roots.

The centrals respond to that pressure by central diastama and distal crown
flaring, while laterals show labial and distal tipping. This phenomena is called

/20
Ugly Duckling stage, it is a temporary clinical picture that is improved by
eruption of permanent canines (NO treatment).
22

Fig. 30: Ugly Duckling stage
20

d) Early mesial shift (Fig. 31):
In case of spaced primary dentition and flush terminal plane; as the first
mandibular permanent molar erupts; the primary molars move mesially to close
the space distal to the primary canine (primate space).

64
Chapter 4 Development of the Normal Occlusion

23
Fig. 31: early mesial shift.

e) Late Mesial Shift (Fig. 32):
In case of closed primary dentition & flush terminal plane; the first maxillary
and mandibular permanent molar erupts into cusp to cusp relationship ( no
space); at 11 y. the primary mandibular 2nd molar exfoliate and this allow for

/20
mesial migration of mandibular first permanent molar.

Fig. 32: late mesial shift: forward movement of mandibular first molar to occupy Leeway
space.
22

Fig. 33: occlusion at age of 12 years Fig. 34: occlusion at age of 15 years.
20

D. Early permanent dentition stage (Figs. 33&34):
It begins after the eruption of the permanent canines, premolars and
permanent 2nd molars (12 to 17 years).

After eruption of 2nd molars, there will be some proclination of the

65
Chapter 4 Development of the Normal Occlusion

incisors; MOUTH FULLNESS; with increase in the facial convexity.
This is related to larger tongue size relative to the surrounding skeleton of
jaw. As the jaws catch up to the tongue in growth, the incisors are more

23
upright and less facial convexity occurs.

LATE TEEN CROWDING (Fig. 35): As the mandible continues to grow
downward and forward more than maxilla, the mandibular incisors are
locked lingually to the upper. So, they tip lingually and the mandibular
arch perimeter decreases more.

/20 Fig. 35: late teen crowding.

E. Adult dentition stage (Fig. 36):
It starts by the eruption of the 3rd molars (17 to 21 years onwards).
22

Fig. 36: adult dentition stage.
20

1. Criteria of normal occlusion:
Upper arch wider than lower arch.
Individual articulation of the teeth.
No spacing, crowding or rotation.
Slightly curved occlusal plane.

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Chapter 4 Development of the Normal Occlusion

Anteroposterior molar relationships.

The mesiobuccal cusp of upper first permanent molar is received in the

23
sulcus between the mesial and distal buccal cusps of the lower first permanent
molar

Normal overjet; is the horizontal relationship between upper and lower
incisors. The distance is measured between the most protruded maxillary
central incisors and opposing mandibular incisors, normally 0 - 4 mm.

Normal overbite; is the amount of vertical overlap between the maxillary
and mandibular central incisors.

/20
2. Dental arch dimension (Fig. 37):
It includes: width, length & perimeter:
A: representing arch length.
B1: representing intercanine width (arch width).
B2: representing intermolar width (arch width).
C: representing arch circumference.

Fig. 37: dental arch dimension.

1. Width: it is the transverse linear measurement between two contra lateral
22
teeth; inter-canine, inter-molar or inter premolar width.
2. Length: it is the depth of the dental arch; it is measured from a line drawn
at the midpoint between central incisors perpendicular to a line connecting
the mesial contact points of first permanent molars.
3. Perimeter: it is a curved line connecting the mesial contact point of one
first permanent molar passing over the contact points between premolars
or deciduous molars and incisal edges of incisors to the mesial contact point
of the contra lateral first permanent molar
20

3. Dimensional changes in dental arches:
a) In the maxilla (Figs. 38-40):
Maxillary arch length & perimeter: there is a slight increase in length
and perimeter, followed by a decrease after age of 10 years.
Maxillary width: between 3 to 14 y. inter-canine width increases 3-5

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Chapter 4 Development of the Normal Occlusion

mm.

23
Fig. 38: Dimensional changes in maxillary arch

/20
Fig. 39: growth in height of the maxillary alveolar processes
22
Fig. 40: Lengthening of the maxilla by apposition of bone to the maxillary tuberosities.

b) In the mandible:
The width shows a lesser increase between 3 to 4 years.
Mandibular length and perimeter show no change between 6 and 10
20

years.

c) After 10 years there is a remarkable decrease due to:
1. Late mesial shift,
2. Inter-proximal wear,
3. Mesial drift tendency, and

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Chapter 4 Development of the Normal Occlusion

4. Lingual tipping of mandibular incisors.

F. Transient malocclusions:

23
These are self-correcting malocclusions that occurred during the
development of the dental occlusion; which are normal for that age in the five
dentitions stages.
1. Gum pads stage:
a) Infantile swallowing: as the baby is sucking; the tongue lies over the
lower gum pads & protrudes between the upper & lower lip.
b) Retrognathic mandible & anterior open bite: on closure; there is contact
only in the posterior region of the gum pads & the mandible is retruded in

/20
relation to the maxilla.

2. Deciduous dentition stage:
a) Spacing in deciduous dentition; generalized spacing & primate spaces
b) Anterior deep overbite normally present at 3 years, but it will be reduced
at age of 5 years to show edge to edge occlusion.
c) When the distal surface of maxillary & mandibular deciduous second
molar is in the same vertical plane. This is the normal molar relationship
in the primary dentition because the mesiodistal width of mandibular
molar is greater than maxillary molar known as flush terminal plane.
22
3. Mixed dentition stage
a) Anterior deep bite because of larger permanent incisors & shedding of
primary molars, which is usually, corrected following exfoliation of
second primary molars and eruption of 2nd permanent molar.
b) Ugly duckling stage.
c) Crowding in lower anterior region

4. Early permanent dentition stage:
20

a) Mouth fullness & increase in the facial convexity; this is related to larger
tongue size relative to the surrounding skeleton of jaw.
b) Late teen crowding.

69
20
22
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23
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22
/20
23
Chapter 5 Six keys to Normal Occlusion

Six keys to Normal Occlusion

23
Intended Learning Outcomes (ILOs):
Recognize a developing normal occlusion and be able to distinguish
abnormal deviation that necessitates treatment

Chapter Outline:
A.
B.
C.
D.
Introduction

/20
Prevalence of normal occlusion in Egypt.
Static occlusion ''Larry Andrews' six keys to normal occlusion''.
Functional occlusion ''Ronald Roth's concepts''.
22
20

72
Chapter 5 Six keys to Normal Occlusion

A. Introduction:
Physiologically speaking, the word '' normal'' designates a range rather

23
than a single point. Literally, the word ''occlusion'' means closing up (oc = up,
and clusion = closing).

The description of normal occlusion at different ages was previously
lectured (i.e., normal growth and development of the dental arches and
occlusion).

The purpose of this chapter is to describe normal occlusion in adult
subjects. A long time ago, it was stated that there are 138 surface contact spots

/20
in normal occlusion in adults. Recently, normal occlusion was statically and
functionally described.

B. Prevalence of Normal Occlusion in Egypt
Published research has shown that the prevalence of normal occlusion
among adult Egyptians is 34.3%. It is significantly more common in females
(36.7%) than males (31.6%).

The prevalence of normal occlusion among Egyptians is lower than that
of the Indians. However, it is higher than that of the Americans, Swedish,
22
Kenyans, Eskimos, and Danes

C. Static Occlusion: Larry Andrews' Six Keys To
Normal Occlusion
Lawrence F. Andrews studied dental casts of 120 nonorthodontic subjects
having normal occlusion. Following his study, he described six dynamically-
interrelated characteristics of normal occlusion designed by nature without any
orthodontic intervention. He called these characteristics the ''six keys''. These
20

keys are: molar relationship, crown angulation, crown inclination, rotations,
tight contacts, and occlusal plane.

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Chapter 5 Six keys to Normal Occlusion

Key I. Molar Relationship (Fig. 1):
The maxillary first permanent molar displayed a solid three-point contact

23
with opposing teeth.
1. The distal surface of the distal marginal ridge of the maxillary permanent
first molar made contact and occluded with the mesial surface of the
mesial marginal ridge of the mandibular permanent second molar.
2. The mesiobuccal cusp of the maxillary permanent first molar fell within
the buccal groove located between the mesial and middle cusps of the
mandibular permanent first molar- as indicated by Angle.
3. The mesiolingual cusp of the maxillary permanent first molar was seated

/20
in the central fossa of the mandibular permanent first molar. (The molars
and premolars enjoyed a cusp-embrasure relationship buccally, and a
cusp-fossa relationship lingually. The tips of the maxillary canines were
slightly mesial to the mandibular canine-premolar embrasure - which is
consistent with the canine-rise concept).
22
20

Fig. 1: 1, Improper molar relationship. 2, Improved molar relationship. 3, More improved
molar relationship. 4, Proper molar relationship.

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Chapter 5 Six keys to Normal Occlusion

Key II. Crown Angulation (MESIODISTAL TIP) (Fig. 2):
By definition, the crown angulation is the mesiodistal tip of the long axis

23
of the crown. It is the angle formed between the long axis of the crown (as
viewed from a facial perspective) and a perpendicular line erected from the
occlusal plane.

It is positive when the gingival portion of the long axis of the crown is
distal to the incisal portion and vice versa. In normal occlusion, the crown
angulation was positive for all the teeth.

/20
Fig. 2: Crown angulation (tip) long axis of crown measured from line 90 degrees to occlusal
22
plane

Key lll. Crown Inclination (Faciolingual Torque) (Fig. 3):
By definition, the crown inclination is the faciolingual torque of the long
axis of the crown. It is the angle formed between the facial long axis of the
crown (as viewed from a proximal perspective) and a perpendicular line erected
from the occlusal plane. It is positive when the gingival portion of the long axis
of the crown is lingual to the incisal portion, and vice versa. In normal
occlusion, the crown inclination was negative for all the teeth except the
20

maxillary central and lateral incisors.

Further, the lingual crown inclination was similar for the maxillary
canines through the maxillary second premolars, and was slightly more
pronounced in the maxillary molars. Furthermore, the lingual crown inclination

75
Chapter 5 Six keys to Normal Occlusion

progressively increased from the mandibular canines through the mandibular
second molars.

23
Fig. 3: Crown inclination is determined by the resulting angle between a line 90 degrees to

/20
the occlusal plane and a line tangent to the middle of the labial or buccal clinical crown.

Key IV. Rotations (Fig. 4):
In normal occlusion, the dentition should be free from undesirable
rotations. If a molar is rotated, it would occupy more space than normal within
the dental arch the reverse is true for the anterior teeth.
22

Fig. 4: A rotated molar occupies more mesiodistal space, creating a situation unreceptive to
normal occlusion
20

Key V. Tight Contacts:
In normal occlusion, the contact areas should be tight.

Key VI. Occlusal Plane (Fig. 5):
By definition, the occlusal plane is the imaginary plane on which the
teeth meet in occlusion. (It is indeed a curved compound surface which is
76
Chapter 5 Six keys to Normal Occlusion

commonly approximated by a plane - straight lines on lateral views-based on
specific reference points within the dental arches). In normal occlusion, the
occlusal plane should be flat or nearly flat.

23
A deep curve of Spee results in a more confined area for the maxillary
teeth, creating spillage of the maxillary teeth mesially and distally. On the other
hand, a reverse curve of Spee results in excessive room for the maxillary teeth.
In other words, if the curve of Spee is not relatively flat, teeth in one arch will
tend to be crowded while those in the other will be spaced.

/20
22
Fig. 5: A, A deep curve of Spee results in a more confined area for the upper teeth, creating
spillage of the upper teeth progressively mesially and distally. B, A flat plane of occlusion is
most receptive to normal occlusion. C, A reverse curve of Spee results in excessive room for
the upper teeth.

C. Functional Occlusion: Ronald Roth's Concepts
Ronald Roth applied gnathologhical concepts to orthodontics. He has
shown that functional occlusion can be orthodontically achieved even after
20

therapeutic extractions.

Roth described the mutually-protective occlusal scheme in which
maximum dental interdigitation occurs when the mandible is in its rearmost,
midmost, and uppermost position. The occlusal stops are equally distributed
among the posterior teeth on their centric cusps. The anterior teeth are not in

77
Chapter 5 Six keys to Normal Occlusion

positive contact but may elicit a mark with an articulation paper. However,
when the posterior teeth are in occlusion, a thin mylar strip will not be held by
the anterior teeth.

23
In protrusive movements, the maxillary anterior teeth articulate equally
and evenly with the mandibular anterior teeth and the first premolars (or the
second premolars in first premolars extraction cases) to gently dis-occlude the
posterior teeth.

In lateral movements, the maxillary anterior teeth articulate with the same
mandibular teeth to dis-occlude the posterior teeth on any movement out of
centric. The canines serve as the main guiding inclines the rate of canine-rise is

/20
very gentle and harmonious with the lateral excursions.
22
20

78
Chapter 6 Classification of Malocclusion

23
/20
22
20

79
Chapter 6 Classification of Malocclusion

Intended Learning Outcomes (ILOs):

23
Define the terminology of malposed teeth and different types of
classifications of malocclusion

Chapter Outline:
A. Terminology of Malocclusion
B. Malpositioning of individual teeth
C. Malrelation of dental arches themselves
1. Anteroposterior Variations

/20
2. Transverse Variations
3. Vertical Variations
D. Malrelation of the bony bases themselves
E. Classification of malocclusion
1. Definition
2. Objectives of Classification
3. Classification
a) According to Body Type
b) Simon’s Classification of Malocclusion
c) Skeletal Classification
d) British Standard Classification of Incisior Relationship:
22
e) Classification According to Dental Arch Relationship
“Angle’s Classification”
1) Advantages of Angle’s Classification:
2) Disadvantages of Angle’s Classification:
3) The validity of angle’s classification
4) Dewey Modifications of Angle’s Classification
5) Prevalence of Angle's Classes in Egypt
20

80
Chapter 6 Classification of Malocclusion

A. Terminology of Malocclusion:
Malocclusion means a deviation in intra-maxillary and/or

23
intermaxillary relations of teeth presenting a hazard to the individual’s well
being.
Malocclusion of the teeth may be associated with one or more of the
following conditions:
1. Malpositioning of individual teeth in arches which are themselves
normally related to one another.
2. Malrelation of dental arches to one another upon bony bases which are
normally related

teeth:
/20
3. Malrelation of the bony bases themselves

B. Malpositioning of individual teeth:
There are different positions of malocclusion of the individual

1. Labial (Facial) inclination (Fig. 1): Outward tilting of incisor and
canine teeth toward the lips, i.e., proclination. In the case of the molars
and premolars, the term Buccal (Facial) proclination is used.
2. Labial and Buccal Displacement (Fig. 2): (Facial displacement):
i.e.bodily displacement of teeth in a facial direction.
22
3. Lingual inclination (Fig. 3): The crown of the tooth is tilted towards the
tongue. Retroclination refers to lingual tilting of the anterior teeth.
4. Lingual Displacement (Fig. 4): A teeth bodily displaced towards the
tongue.
5. Medial inclination (Fig. 5): A tooth having its crown abnormally tilted
towards the mid-line.
6. Medial displacement: A tooth, which is bodily displaced towards the
mid-line.
7. Distal inclination (Fig. 6): A tooth having its crown abnormally tilted
20

away from the mid-line.
8. Distal Displacement: A tooth, which is bodily, displaced in a direction
away from the mid-line.
9. Infra-occlusion: A tooth has not reached the line of occlusion, i.e. has
not erupted sufficiently.
10. Supraocclusion: A tooth that has passed the line of occlusion,i.e.,
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Chapter 6 Classification of Malocclusion

overerupted.
11. Medio-lingual rotation (Fig. 7): A tooth which is rotated around its long
axis so that its medial aspect is turned towards the tongue, i.e., torsi-

23
version.
12. Disto-lingual rotation (Fig. 7): A tooth which is rotated around its long
axis so that its distal aspect is turned towards the tongue, i.e., torsi-
version.
13. Transposition: A tooth that has appeared in abnormal numerical order,
e.g., an upper canine and a lateral incisor changing place.
14. Perversion: A tooth completely misplaced or impacted, e.g., a lower
third molar placed in the ascending ramus or a maxillary canine erupting
in the nasal fossa.

/20
15. Imbrication: Describes teeth which are irregularly arranged within the
arch due to lack of space for them. Combination of these individual
malpositions may occur, e.g., infra-labial mesio-lingual or even mesio-
lingtorsi infraocclusion.
22
Fig. 1: Labially Inclined Fig. 2: Labial displacement

Fig. 3: Lingually inclined Fig. 4: Lingual displacement
20

82
Chapter 6 Classification of Malocclusion

Fig. 5: Mesially Inclined Fig. 6: Distally Inclined

23
Fig. 7: Mesio/disto-lingual rotation

Lischer’s terminology (Fig. 8):
Lischer used the suffix version to identify the Malpositioning of
individual teeth in relation to the line of occlusion.

/20
1. Labioversion or buccoversion (facioversion): facial to the line of
occlusion (i.e. toward the lips or cheeks).
2. Linguoversion: Lingual to the line of occlusion (i.e., toward the tongue).
3. Mesioversion: Mesial to the normal position.
4. Distoversion: Distal to the normal position
5. Supraversion (Fig. 9): Past the line of occlusion. Thus, above in the
mandible) or below (in the maxilla) the line of occlusion.
6. Infraversion (Fig. 10_: Away from the line of occlusion. Thus, above
(in the maxilla) or below (in the mandible) the line of occlusion.
7. Axiversion: Wrong axial inclination
22
8. Torsiversion (Fig. 12): Rotated on its long axis
9. Transversion (Fig. 11): Wrong sequential order
20

Fig. 8: Lischer’s Terminology

83
Chapter 6 Classification of Malocclusion

23
Fig. 9: Supraversion Fig. 10: Infraversion

/20
Fig. 11: Transversion
C. Malrelation of dental arches themselves:
Fig. 12: Torsiversion

The following terms are used to describe variation from the normal
relations of the dental arches or segments of the arches to one another:

1 - Post-Normal Occlusion: It is used to describe a condition when the lower
dental arch appears to lie too far back in relation to the upper arch when the
teeth are closed in centric occlusion. The term applied to the dental arches
relations only and does include the relation of the mandibular basal bone to
22
the maxillary basal bone. Also it includes conditions when either the lower
arch appears distal or the upper arch in a forward position or when both
conditions coexist.

2 - Pre- Normal Occlusion: This describes a condition where the lower dental
arch is in advance of the upper when the teeth are closed in centric
occlusion and the condyles are in their normal position within the glenoid
fossae. Postural prenormal occlusion describes a condition which though
20

appearing similar from a view of plaster casts alone, is created by the
lingual inclinations or lingual displacement of the upper incisor to such an
extent that when the jaws are closed, the mandible assumes a forward
position and both condyles will be drawn forward onto the