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GROWTH AND DEVELOPMENT OF FACE
CONTENTSINTRODUCTION
PRENATAL GROWTH
POSTNATAL GROWTH
DEVELOPMENTAL ANOMALIES
MYOFUNCTIONAL THERAPY
CONCLUSION
REFERENCES
Growth and development of an individual can be divided into prenatal and the post natal periods
The prenatal period of development is a dynamic phase in the development of a human being
During this period the height increases by almost 5000 times as compared to only three fold increase during postnatal period.
INTRODUCTION
Weight also increases by 6.5 billion times prenatally where postnatally 20 fold.
Post natal growth is characterized by much differentiation than rate.
• PRENATAL GROWTH
• POSTNATAL GROWTH
• MATURITY
• OLD AGE
GROWTH
OVUM
EMBRYO
FETUS
PRENATAL GROWTH
PERIOD OF OVUM/ PRE-IMPLANTATION PERIOD
SPERMATOGENESIS
OOGENESIS
36HRS
48HRS
11-12 DAYS
FERTILIZATION
CLEAVAGE FORMATION
DAY 7-10
BLASTOCYST FORMATION
structure
IMPLANTATION
Occurs when there is an error in cell division following meiosis or mitosis.
CHROMOSOMAL ABNORMALITIES
numerical
structural
TRISOMY
DOWN SYNDROME( TRISOMY 21)
Individual have three copies of chromosome 21 rather than two
NUMERICAL ANOMALY
FACIAL CLEFTS
SHORT UPPER LIP
SHORTENED PALATE
PROTRUDING AND FISSURED TONGUE
DELAYED ERUPTION OF TEETH
Features
MENTAL RETARDATION
FLAT BACK OF HEAD
ABNORMAL EARS
BROAD FLAT FACE
SHORT NOSE
MONOSOMY
TURNERS SYNDROME
Individual is born with only one sex chromosome ; an X
KLINEFELTER’S SYNDROME
Additional X genetic material in males
Total of 47 chromosomes found in males
47XXY
CLINICAL FEATURES
Frontal baldness is absent
Poor beard growth
Fewer chest hairs
Narrow shoulders
Hypogonadism
sterility
DELETION DUPLICATION TRANSLOCATION
INVERSIONS INSERTIONS
STRUCTURAL ANOMALY
END OF FIRST WEEK TO 8TH
WEEK
FORMATIVE PERIOD OF ORGANS
MORPHOGENESIS
PERIOD OF GREATEST SENSITIVITY
PERIOD OF EMBRYO
PRESOMITE PERIOD
SOMITE PERIOD
POSTSOMITE PERIOD
8 – 21 DAYS
trophoblast cells Blastocyst embryoblasts epiblast Embryoblast hypoblast [two layered germ disc(8 days)]
PRESOMITE PERIOD
FORMATION OF TWO LAYERED EMBRYO
ECTODERM
ENDODERM
PRE/PROCHORDAL PLATE
DEVELOPMENT OF PRIMITIVE STREAK WHICH FORMS THE MESODERM (3 WEEKS)
(HENSON’S NODE)
FORMATION OF THREE LAYERED EMBRYO:GASTRULATION(3RD WEEK)
NOTOCHORDAL PROCESS
PRIMITIVE GROOVE
PRIMARY GERM LAYERS
ECTODERM epithelium covering the outside of the body
epithelial lining of oral cavity, nasal cavity & sinuses.
MESODERM Skeletal system , muscles, blood, lymph cells, vessels, kidneys internal organs
ENDODERM Epithelial lining of the
pharynx, stomach, lungs, vagina urethra.
21 – 31 days
Ectodermal layer at the head end of embryo forms the neural plate
Major organs and tissues differentiate during this period thus making it susceptible to environmental influences.
SOMITE PERIOD
FORMATION OF NEURAL TUBE AND NEURAL GROOVE
Neural tube undergoes massive expansion to form the forebrain , midbrain and hindbrain
Neural crest cells leave neuroectoderm and enters mesoderm.
The proper migration of neural crest cells is
essential for development of face and teeth.
Full facial development does not occur
Neural crest cells fail to migrate properly to the facial region.
TREACHER COLLIN SYNDROME
Article: Mandibulofacial dysostosisMarie M Tolarova, march 9 2012
o Treacher collin syndrome is an inherited developmental disorder
o Prevalence: 1 in 70000 of live births
o Syndrome was named after Edward treacher collin (1862-1932) who described the essential features.
o Growth of craniofacial structures derived from the first and second arch , groove and pouch is diminished symmetrically and bilaterally
Deficiency of midline tissues of the neural plate with higher blood ethanol level.
Usually occur in chronic alcoholics
FETAL ALCOHOL SYNDROME
when head end of the neural tube fails to close
between 23rd-26th day of conception.
Results in absence of major portion of the brain, skull and scalp
ANENCEPHALY
32 – 56 DAYS
Characterized by formation of external features and branchial arches.
Facial features become recognizable
Embryo is now called fetus
POST SOMITE PERIOD
MESENCHYME
Cartilage - meckel’s cartilage
Skeletal components: incus and malleus of middle ear
Nerve of arch – mandibular
Muscles – Muscles of mastication , mylohyoid, anterior belly of digastric , tensor tympani and tensor veli palatini
FIRST ARCH
LIGAMENTS : anterior ligament of malleus , sphenomandibular ligament.
External acoustic meatus from first ectodermal cleft
FIRST ENDODERMAL POUCH : endoderm lines the future middle ear, mastoid antrum auditory tube , inner layer of tympanic membrane
Cartilage – REICHERT’S CARTILAGE
skeletal structures: stapes, styloid process and lesser cornu and upper part of body of hyoid bone.
Stylohyoid ligament sheath
Nerve- facial nerve
SECOND ARCH
Muscles – muscles of face, stylohyoid, posterior belly of digastric, stapedius
SECOND POUCH : Middle ear and palatine tonsils
Skeletal component : Greater cornua of hyoid bone and Lower part of body of hyoid bone
Nerve – glossopharyngeal
Muscle – stylopharyngeus
Inferior parathyroid gland and thymus from the third pouch
THIRD ARCH
Gives rise to cartilages of larynx
Superior thyroid gland is derived from fourth pouch.
Nerves – superior laryngeal and recurrent laryngeal
Muscles – muscles of larynx and pharynx
FOURTH AND SIXTH ARCH
9TH WEEK TILL BIRTH
PERIOD OF FUNCTIONAL MATURATION
Growth in length is particularly striking in 3rd 4th & 5th months
Increase in weight mainly occurs in last 2 mnts
PERIOD OF FETUS
Development of face
SAGITTAL SECTION
Buccopharyngeal membrane ruptures at 24 to 26 days
Article : Head and Neck embryology: An overview of development , growth and defect in the human fetus
-Allison Baylis, may 2009
• Occurrence 1 in 1000 birth• Common in males• Varies from small notch in lip to complete
division of lip and alveolar part of maxilla
CLEFT LIP
Bilateral cleft : bottom portion of nose and a portion of upper lip are hanging free
Cleft lip correction surgery often done very shortly after birth
Experience dental abnormality and are candidates for orthodontic treatment
fusion of mandibular and maxillary processes
reduction of stomatodeum size
forming the cheeks
DEVELOPMENT OF CHEEKS
lens placode
Sinks below to separate from surface ectoderm
Appear as twin bulging directed laterally and lying between maxillary and lateral nasal process
DEVELOPMENT OF EYE
Come forward by narrowing of frontonasal process
Eyelids : folds of ectoderm formed above and below the eyes
mesoderm enclosed within the folds
rare autosomal dominant disorder
lower eyelid ectropion
upper eyelid distichiasis,
euryblepharon,
bilateral cleft lip and palate,
conical teeth.
BLEPHAROCHEILODONTIC SYNDROME
Formed around the dorsal part of first ectodermal cleft
Series of mesodermal thickenings appear on 1st and 2nd arch
Pinna is formed by fusion of these thickenings
DEVELOPMENT OF EXTERNAL EAR
Oculo-Auriculo-Vertebral(OAV) syndrome
GOLDENHAR SYNDROME
Associated with anomalous development of first and second branchial arch
Asymmetric involvment of craniofacial structures
Complete aplasia to dysplastic pinnae Bilateral and asymmetric ear involvement Ear tags Mandibular hypoplasia on the affected side
AORTIC VASCULATURE DEVELOPMENT
Muscle cells in the first arch become
apparent during the 5thweek and begin to
spread within the mandibular arch into each
muscle site’s origin in the 6th and 7th week.
These form the muscles of mastication
MUSCULAR DEVELOPMENT
Develops in conjunction with the developing muscle fibres.
sensory fibres to mandible C5 motor fibres to muscles of mastication
C7 – follows migration of facial muscle mass from neck onto the face
NEURAL DEVELOPMENT
First 20 years of growth after birth
Characterized by increased maturation of tissue.
POSTNATAL GROWTH
Soft
tissue growth
Hard
tissue growth
Postnatal growth
27O bones Calvarium: face=8:1(birth); 2.5:1(adult female) 2:1(adult male) Skull bones= 45[adult:22] 2 halves of frontal bone-fuse 2 yrs 2 parietal bones 4 pieces of occipital bone-fuses at 3-4 yrs 3 parts of sphenoids bone-fuses during first
yr
NEONATAL SKELETON
3 pieces of ethmoid bone- fuses at 5th or 6th yr
4 parts of temporal bone-fuses by puberty Mastoid process absent in neonate
Endochondral and intramembraneous Occipital bone Temporal bone Sphenoid bone
Ethmoid bone: endochondral ossification
Made up of duramater, primitive periosteum, aponeurosis
FONTANELLES
Anterior fontanelle
Posterior fontanelle
(sphenoidal)
(Mastoid)
Bands of cartilage remains at the junction of bone
Important growth sites of cranial base
CRANIAL SYNCHONDROSES
Spheno occipital:
Principal growth cartilage of cranial base during childhood. Active upto 12-15yrs closes by 17-20yrs Direction of growth is upwards Carries anterior part of cranium bodily
forwards
Sphenoethmoidal : closed by 2-4yrs
Mid sphenoid : closes shortly after birth
Intra occipital: closes by 3-5 yrs of age
Suture is a type of fibrous joint which only occurs in the skull
Tiny amount of movement is permitted which contributes to compliance and elasticity of skull
These joints are synarthroses
Growth at sutures
TMJ only nonsutured joint in skull
Suture joints undergo changes throughout childhood and into early childhood
SUTURES OF CRANIUM
Fusion of skull bones at birth is craniosynostosis
Joint that has ossified over time is called synostosis
FACE
Round and flat face
Growth of lip mostly during growth spurt
Nasal bone growth complete by 10 years more prominent during adolescence
Article: Three dimensional facial growth studied by optical surface scanning
-Spencer J Nute et al, J of orthodontics/vol 27/2000/31-38
Aim : study 3-D growth of face and examine the hypothesis that there are 3-D differences b/w faces of boys and girls
132 british caucasians b/w 5-10yrs
Result :
Greatest difference b/w facial heights and least in mid facial dimensions
Face height of both sexes increased by an avg of 3-4mm annually
Nose height and prominence and alar base width increased by 2mm per year on average
Prominence and width of lower face increased more
Neuromuscular re education or re patterning of oral and facial muscles
Facial and tongue exercises
Behavior modification techniques to promote proper tongue position, improved breathing, chewing and swallowing
In a growing patient
MYOFUNCTIONAL THERAPY
Moss’ functional matrix theory
Functional matrix theory proposes that functional matrices, tissues like muscles and glands influence skeletal units such as jaw bones and ultimately control their growth
Orthodontic functional appliances may be active or passive
◦PASSIVE APPLIANCES ACT BY REPOSITIONING THE MUSCULATURE ASSOCIATED WITH MANDIBLE
FRANKEL APPLIANCE
◦ACTIVE APPLIANCES REPOSITION THE MANDIBLE
HERBST APPLIANCE
BIONATOR
TWIN BLOCK APPLIANCE
Functional appliance treatment should be started before the pubertal growth spurt
(mandible may exhibit increased growth which may be influenced)
worn for at least 10-12 hours a day nighttime as this is when growth takes
place
DURATION AND TIMING OF WEAR
CONCLUSION STOMATODAEUM IS A DEPRESSION BOUNDED
CRANIALLY BY BULGING PRODUCED BY BRAIN AND CAUDALLY BY PERICARDIAL CAVITYMANDIBULAR PROCESS GIVE RISE TO LOWER LIP AND MANDIBLEUPPER LIP BY FRONTONASAL PROCESS WITH RT AND LT MAXILLARY PROCESS, FAILURE CAUSES VARIOUS FORMS OF HARELIPCHEEKS FORMED BY POSTERIOR PART OF MAXILLARY AND MANDIBULAR PROCESS
NOSE IS DERIVED FROM FRONTONASAL PROCESSCHANGES IN FACIAL FEATURES CONTINUES THROUGHOUT LIFE
HUMAN ANATOMY B.D CHAURASIA FOURTH EDITION. CHAPTER 1
DEVELOPMENT OF FACE,NOSE AND PALATE INDERBIR SINGH , HUMAN EMBROLOGY 7TH EDITION, CHAPTER 11 MACMILLAN PUBLICATIONS
PRENATAL AND POSTNATAL DEVELOPMENT OF FACE NIKHIL MARWA,TEXTBOOK OF PEDIATRIC DENTISTRY 2ND EDITION, SECTION 3 JAYPEE PUBLICATIONS
REFERENCES
ARTICLE : HEAD AND NECK EMBRYOLOGY: AN OVERVIEW OF DEVELOPMENT , GROWTH AND DEFECT IN THE HUMAN FETUS
-ALLISON BAYLIS, MAY 2009
TEXTBOOK OF PEDODONTICS , SHOBHA TANDON, 2ND EDITION
CRANIOFACIAL COMPLEX, RAY E STEWART AND ROBERT N MOORE
MANDIBULOFACIAL DYSOSTOSIS , MARLE M TOLAROVA MARCH 9, 2012
EMBRYOLOGY OF HEAD , FACE AND ORAL CAVITY, TEN CATES , ORAL HISTOLOGY 6TH EDITION
TEXTBOOK OF ORTHODONTICS- S. GOWRI SANKAR
ARTICLE: THREE DIMENSIONAL FACIAL GROWTH STUDIED BY OPTICAL SURFACE SCANNING
-SPENCER J NUTE ET AL, J OF ORTHODONTICS/VOL 27/2000/31-38
MODULE – INTRODUCTION TO JOINTS MEDICAL GROSS ANATOMY