Orthodontic indices are one of the tools that are available for orthodontists to grade and assess malocclusion. [1] Orthodontic indices can be useful for an epidemiologist to analyse prevalence and severity of malocclusion in any population. [2]
Angle's Classification is devised in 1899 by father of Orthodontic, Dr Edward Angle to describe the classes of malocclusion, widely accepted and widely used since it was published. Angle's Classification is based on the relationship of the mesiobuccal cusp of the maxillary first molar and the buccal groove of the mandibular first molar. [3] Angle's Classification describes 3 classes of malocclusion:
Angle's classification only considers anteroposterior deviations in the sagittal plane while malocclusion is a three dimensional problem (sagittal, transverse and vertical) rather than two dimensional as described in Angle's classification. Angle's classification also disregards the relationship of the teeth to the face. [5]
Introduced in 1951 by Massler & Frankel to produce a way to record the prevalence of malocclusion which will satisfy 3 criteria: simple, accurate and applicable to large groups of individual; yield quantitative information that could be statistically analysed; reproducible so that results are comparable. This index uses individual teeth as unit of occlusion instead of a segment of the arch. Each tooth is examined to determine whether it is in correct occlusion or it is maloccluded. [6]
The total number of maloccluded teeth is the counted and recorded. Each tooth is examined from two different aspects: occlusal aspect and then the buccal and labial surfaces with the exclusion of third molars. Tooth that is not in perfect occlusion from both occlusal aspect (in perfect alignment with contact line) and buccal aspect (in perfect alignment with plane of occlusion and in correct interdigitation with opposing teeth) is considered as maloccluded. Each maloccluded tooth is given a value of 1 while tooth in perfect occlusion is given a score of 0. A score of 0 will indicate a perfect occlusion; score of more than 10 would be classified as sufficient severity that would require orthodontic treatment; score between 1 and 9 would be classified as normal occlusion in which no orthodontic treatment is indicated. [6]
However, while this index is simple, easy and able to provide prevalence and incidence data in populations group, there are some major disadvantage with this index: primary dentition, erupting teeth and missing teeth are left out in the scoring system and difficulties in judging conformity of each tooth to an ideal position in all planes. [7]
Introduced in 1959 by Lawrence Vankirk and Elliott Pennell. This index requires the use of a small plastic, gauge-like tool designed for assessment. Tooth rotation and displacement are measured. [8]
The mouth is divided into 6 segments, and is examined in the following order: maxillary anterior, maxillary right posterior, maxillary left posterior, mandibular anterior, mandibular right posterior and mandibular left posterior. The tool is superimposed over the teeth for the scoring measurement, each tooth present is scored 0, 1 or 2. [8]
2 types of malalignment are being measured, rotation and displacement. Rotation is defined as the angle formed by the line projected through contact areas of observed tooth and the ideal arch line. Displacement is defined as both of the contact areas of the tooth are displaced in the same direction from the ideal alignment position. [8]
This index was proposed in 1960 by Harry L. Draker. HLDI was designed for identification of dento-facial handicap. The index is designed to yield prevalence data if used in screenings. Measurement taken are as following: cleft palate (all or nothing), severe traumatic deviation (all or none), overjet (mm), overbite (mm), mandibular protrusion (mm), anterior open bite (mm), labiolingual spread (measurement of tooth displacement in mm) [9] [5] HLD index is used in several states in the United States, with some modifications to its original form by the states that used them for determining orthodontic treatment need. [10] [11]
Occlusal Feature Index is introduced by Poulton and Aaronson in 1961. The index is based on four primary features of occlusion that is important in orthodontic examination. [12] The four primary features are as following: [12]
Occlusal Feature Index recognises malocclusion is a combination of the way teeth occlude as well as the position of the teeth relative to the neighbouring teeth. However, the scoring system is not sensitive enough for case selection for orthodontic purposes.
Introduced in 1961 by Grainger. MSE measured 7 weighted and defined measurement: [5]
MSE defined and outlined 6 syndromes of malocclusion: [5]
Despite being a relative comprehensive definition, there are a few shortcomings of this index, namely: the data is derived from a 12 years old patients hence might not be valid for deciduous and mixed dentitions, the score does not reflect all the measurement that were taken and accumulated and the absence of any occlusal disorder is not scored as zero. Grainger then revised the MSE index and published the revised version in 1967 and renamed the index to Treatment Priority Index (TPI). [5]
Occlusal Index was developed by Summers in his doctoral dissertation in 1966, and the final paper was published in 1971. Based on Malocclusion Severity Estimate (MSE), OI attempted to overcome the shortcoming of the MSE. [5]
Summers devised different scoring scheme for deciduous, mixed and permanent dentition with 6 predefined stages of dental age: [13]
Nine weighted and defined measurement being taken: [5]
Summers also defined 7 malocclusion syndromes which includes: [13]
Grade Index Scale for assessment of treatment need (GISATN) was created by Salonen L in 1966. GISATN grades the type and severity of the malocclusion, however, the index doesn't indicate or describe the damage each type of occlusion can cause. [14]
Treatment priority index (TPI) was created in 1967 by R.M. Grainger in Washington D.C United States. [15] Grainger described the index as “a method of assessing the severity of the most common types of malocclusion, the degree of handicaps or their priority of treatment”. In the index there are eleven weighed and defined measurements which are: upper anterior segment overjet, lower anterior segment overjet, overbite of upper anterior over lower anterior, anterior open bite, congenital absence of incisors, distal molar relation, mesial molar relation, posterior crossbite (buccal), posterior crossbite (lingual), tooth displacement, gross anomalies. It also includes the seven maloclussion syndromes: maxillary expansion syndrome, overbite, retrognathism, open bite, prognathism, maxillary collapse syndrome and congenitally missing incisors. [16]
Handicapping malocclusion assessment record (HMAR) was created by Salzmann JA in 1968. It was created to establish needs for treatment of handicapping malocclusion according to severity presented by magnitude of the score when assessing the malocclusion. [17] The assessment can be made either directly from the oral cavity or from available casts. To make the assessment more accurate an additional record form is made for direct mouth assessment which allows the recording and scoring of mandibular function, facial asymmetry, lower lip malposition in relation to the maxillary incisor teeth and desirability of treatment. [17] The index has been accepted as a standard by the Council or Orthodontic Health Care, the Board of Directors of the American Association due to the easy use of HMAR. [18]
Little irregularity index was first written about in his published paper The Irregularity Index: a quantitative score of mandibular anterior alignment. [19] The Littles Irregularity index is generally used by public health sectors and insurance companies to determine the need for treatment and the severity of the malocclusion. It is said that the method is “simple, reliable and valid” of which to measure linear displacement of the tooths contact point. The index is used by creating five linear lines of adjacent contact points starting from mesial of right canine to mesial of left canine and this is recorded. Once this is done the model cast can be ranked on a scale ranging from 0-10. [20]
The WHO/FDI index uses the prevalence of malocclusion ion and estimates the needs for treatment of the population by various ways. It was developed by the Federation Dentaire Internationale (FDI) Commission on Classification and Statistics for Oral Conditions (COCSTOC). The aim when creating the index was to allow for a system in measuring occlusion which can be easily comparable. The five major groups which are recorded are as follows: 1. Gross Anomalies 2.Dentition: absent teeth, supernumerary teeth, malformed incisors and exotic eruption 3.Spaced condition: Diastema, Crowding and Spacing 4.Occlusion:
* Incisor segment: maxillary /mandibular overjet, overbite, open bite and cross bite * Lateral segment: anteroposterior relations, open bite, posterior crossbite
5. Orthodontic treatment need judged subjectively : non necessary, doubtful and necessary [21]
The aesthetic index created in 1986 by Cons NC and Jenny J and has been recognised by WHO by which it was added into the International Collaboration Study of Oral health Outcomes. The index links the aesthetic aspect and the clinical need plus the patients' perception and combines them mathematically to produce a single score. [22] Even though DAI is widely recognised in the US, in Europe due to government pressures more effort was spent on defining patients with malocclusions which can be damaging and which can qualify under the government regulations to be paid for rather than looking at the aesthetic aspect. [23]
HLD was a suggestion by Dr. Harry L. Draker in 1960 in the published American Journal of Orthodontics in 1960. It was meant to identify the most unfavourable looking malocclusion as handicapping however it completely failed to recognise patients with a large maxillary protrusion with fairly even teeth, which would be seen extremely handicapped by the public. The index finally became a law driven modification of the 1960 suggestion by Dr. Harry L. Draker and became the HLD (CalMod) Index of California. In 1994, California was sued once again and the settlement from this allowed for adjustments to be made. This allowed overjets greater than 9mm to qualify as an exception, correcting the failure of the previous modification. To settle the suit and respond to plaintiff's wishes a reverse overate greater than 3.5mm was also included into the qualifying exception. The modification later went into official use in 1991. [24]
The intent of the HLD (CalMod) index is measuring the presence or absence, and the degree of the handicap caused by components of the index and not to diagnose malocclusion. The measurements for the index are made with a Boley Gauge (or a disposable ruler) scaled in millimetres. Absence of a condition must be presented by entering ‘0’.
These are the various conditions you have to take into consideration:
Once this is completed and all the checks are done, the scores are added up. If the patient does not score 26 or above they may still be eligible under the EPSDT (Early and Periodic Screening, Diagnostic and Treatment) exception, if medical necessity is documented. [25] [26]
This index was implemented in 1987 by the British Orthodontic Standard Working Party after 10 members of this party formulated this index over a series of 6 meetings [27]
This index is a fast, simple and robust way of assessing the standard of orthodontic treatment that an individual orthodontist is achieving or trying to achieve rather than the degree of malocclusion and/or need for orthodontic treatment. However, it should have already been concluded that these patients should be receiving orthodontic treatment prior to the PAR index. The PAR index has also been used to assess whether clinicians are correctly determining the need for orthodontic treatment when compared with a calibrated examiner of malocclusion. [27]
This type of index compares outcomes of orthodontic treatment as it primarily observes the results of a group of patients, rather than on an individual basis against results that they would expect. This type of testing occurs as there will always be a small number of individual patients in which the index results do not fully represent. [28] The interpretation of the results shows that when there is a PAR score of more than 70% it represents a very high standard of treatment, anything less than 50% shows an overall poor standard of treatment and below 30% means that the patients malocclusion has not been improved by orthodontic treatment [29]
The results should only be compared using a group of patients rather than individual bases as this could show completely different results which wouldn't be representative of the standard of treatment being carried out [30]
The Index of Orthodontic Treatment Need was developed and tested in 1989 by Brook and Shaw in England following a government initiative. [31]
The aim of the IOTN is to assess the probable impact a malocclusion may have on an individual's dental health and psychosocial wellbeing. [32] The index easily identifies the individuals who will benefit most from orthodontic treatment and assigns them a treatment priority. Hence, in the UK, it is used to determine whether a patient under the age of 18 years is eligible for orthodontic treatment on the NHS.
It comprises two elements: the dental health component and an aesthetic component. [33]
For the dental health component (DHC), malocclusion is categorised into 5 grades based on occlusal characteristics that could affect the function and longevity of the dentition. The index is not cumulative; the single worst feature of a malocclusion determines the grade assigned. [32]
Dental health component of the IOTN |
---|
Grade 5 (treatment required) |
5.a Increased overjet >9mm 5.h Extensive hypodontia with restorative implications (more than one tooth missing in any quadrant requiring pre-restorative orthodontics) 5.i Impeded eruption of teeth (apart from 3rd molars) due to crowding, displacement, the presence of supernumerary teeth, retained deciduous teeth, and any pathological cause 5.m Reverse overjet >3.5mm with reported masticatory and speech difficulties 5.p Defects of cleft lip and palate 5.s Submerged deciduous teeth |
Grade 4 (treatment required) |
4.a Increased overjet >6mm but ≤9mm 4.b Reverse overjet >3.5mm with no masticatory or speech difficulties 4.c Anterior or posterior crossbites with >2mm discrepancy between the retruded contact position and intercuspal position 4.d Severe displacements of teeth >4 4.e Extreme lateral or anterior open bites >4mm 4.f Increased and complete overbite with gingival or palatal trauma 4.g Less extensive hypodontia requiring pre-restorative orthodontics or orthodontic space closure to obviate the need for a prosthesis 4.h Posterior lingual crossbite with no functional occlusal contact in one or more buccal segments 4.i Reverse overjet >1mm but <3.5mm with recorded masticatory and speech difficulties 4.j Partially erupted teeth, tipped and impacted against adjacent teeth 4.k Existing supernumerary teeth |
Grade 3 (borderline/moderate need) |
3.a Increased overjet >3.5mm but ≤6mm (incompetent lips) 3.b Reverse overjet greater than 1 mm but ≤3.5mm 3.c Anterior or posterior crossbites with >1mm but ≤2mm discrepancy between the retruded contact position and intercuspal position 3.d Displacement of teeth >2mm but ≤4mm 3.e Lateral or anterior open bite >2mm but ≤4mm 3.f Increased and incomplete overbite without gingival or palatal trauma |
Grade 2 (little treatment need) |
2.a Increased Overjet >3.5 mm but ≤6 mm (with competent lips) 2.b Reverse overjet greater than 0 mm but ≤1mm 2.c Anterior or posterior crossbite with ≤1mm discrepancy between retruded contact position and intercuspal position 2.d Displacement of teeth >1mm but ≤2mm 2.e Anterior or posterior open bite >1mm but ≤2mm 2.f Increased overbite ≥3.5mm (without gingival contact) 2.g Pre-normal or post-normal occlusions with no other anomalies. Includes up to half a unit discrepancy |
Grade 1 (no treatment required) |
1. Extremely minor malocclusions, including displacements less than 1mm [31] |
The aesthetic component (AC) takes into consideration the potential psychosocial impact of a malocclusion. A scale of 10 standardised colour photographs showing decreasing levels of dental attractiveness is used. The pictures are compared to the patient's teeth, when viewed in occlusion from the anterior aspect, by an orthodontist who will score accordingly. The scores are categorised according to treatment need:
The AC has been criticised due to its subjective nature and for the lack of representation of Class III malocclusions and anterior open bites in the photographs used.
Often, the DHC score alone is used to determine treatment need. However, the AC is often used in borderline cases (DHC grade 3). [32] The IOTN is used in the following manner:
Grading | Treatment Required | Reasoning |
---|---|---|
DHC 1 | No NHS orthodontic treatment | Lack of health benefit due to almost perfect occlusion |
DHC 2 | No NHS orthodontic treatment | Lack of health benefit as patient has minor occlusion irregularities |
DHC 3 and AC 1-5 | Normally no NHS orthodontic treatment unless there are exceptional circumstances* | Lack of health benefit even though there are greater irregularities. *patient with a Class II Division 2 malocclusion with traumatic over bite |
DHC 3 and AC 6-10, or DHC 4-5 | Eligible for NHS orthodontic treatment | More severe degree of irregularity to severe dental health problems |
This index was implemented in 1990 by Danish national board of health. [35]
In 1990 a Danish system was introduced based on health risks related to malocclusion, where it describes possible damages and problems arising from untreated malocclusion which allows for the identification of treatment need.
This mandate introduced a descriptive index that is more valid from a biological view, using qualitative analysis instead of a quantitative. [36]
The ITRI was established in 1992 by Haeger which utilises both intra-arch and inter-arch relationships to generate index scores to compare the entire dentitions occlusion. This index is of use as it divides the arches into segments which would result in a more accurate outcome. [37] [38]
This index evaluates tooth relationships from a morphological perspective which has been of use when evaluating the results of orthodontic treatment, post-treatment stability, settling, relapse and different orthodontic treatment modalities. [39]
The ITRI can allow for comparisons to be made in an objective and quantitative manner that allows for statistical analysis of orthodontic outcomes. [37]
This index was first described and implemented in 1992 by Espeland LV et al and is also known as the Norwegian Orthodontic Treatment Index. [40]
This index is used by the Norwegian health insurance system and due to this it is designed for allocation of public subsidies of treatment expenses, and the amount of reimbursement which is related to the category of treatment need. It classifies malocclusions into four categories based on the necessity of the treatment need. [41]
This is a tool used to assess treatment need in young patients by evaluating malocclusion problems in growing children, assuming that some aspects may change under positive or negative effects of craniofacial development. It was published for use in 1998 by Russo et al.
This index illustrates the need for orthodontic intervention and is used to establish a relationship between the registered onset of orthodontic treatment and disorders inhibiting growth of facial and alveolar bones, and the development of the dentition along with the IOTN index. [42]
This index can be used in exchange for the IOTN scale as it is quick and easy to apply as a screening test to decide whether and when to refer patients to specialist orthodontists.
This index was produced in 2000 by Charles Daniels and Stephen Richmond in Cardiff and has been investigated to illustrate that it can be used to replace the PAR and IOTN scale as a means of determining need and outcome of orthodontic treatment. [43]
This index measures the following to produce a scoring system:
The measurements are added together to produce a score which can be interpreted by score ranges that give need for treatment, complexity and degree of improvement.
This system claims to be more efficient than the PAR and IOTN indices as it only requires a single measurement protocol but this has still to be validated to be used in the UK and the issue that It does not suitably predict appearance, function, speech or treatment need for individuals attending general dental practice for routine dental treatment, so for these reasons is it generally never used. [44] [45]
This was established in 2014 by Grippaudo et al for use in assessing the risks/benefits of early orthodontic therapies in the primary dentition.
It is a paediatric type version of the ROMA scale. It measures occlusal parameters, skeletal and functional factors that may represent negative risks for a physiological development of the orofacial region, and indicates the need for preventative or interceptions orthodontic treatment using a score scale. [46]
This index was designed as it has been observed that some of the malocclusion signs observed in the primary dentition can deteriorate with growth while others remain the same over time and others can even improve. This index is therefore used to classify the malocclusions observed at an early stage on a risk-based scale.
Assessment of the aesthetics is mostly subjective and any orthodontic index which has an aesthetic component can reduce the objectivity of the index in determining the need for treatment and theoretically not suitable for assessing orthodontic treatment need in a research setting or resource allocation. [47] [48]
Orthodontics is a dentistry specialty that addresses the diagnosis, prevention, management, and correction of mal-positioned teeth and jaws, as well as misaligned bite patterns. It may also address the modification of facial growth, known as dentofacial orthopedics.
Hypodontia is defined as the developmental absence of one or more teeth excluding the third molars. It is one of the most common dental anomalies, and can have a negative impact on function, and also appearance. It rarely occurs in primary teeth and the most commonly affected are the adult second premolars and the upper lateral incisors. It usually occurs as part of a syndrome that involves other abnormalities and requires multidisciplinary treatment.
In orthodontics, a malocclusion is a misalignment or incorrect relation between the teeth of the upper and lower dental arches when they approach each other as the jaws close. The English-language term dates from 1864; Edward Angle (1855–1930), the "father of modern orthodontics", popularised it. The word derives from mal- 'incorrect' and occlusion 'the manner in which opposing teeth meet'.
A palatal expander is a device in the field of orthodontics which is used to widen the upper jaw (maxilla) so that the bottom and upper teeth will fit together better. This is a common orthodontic procedure. The use of an expander is most common in children and adolescents 8–18 years of age. It can also be used in adults, although expansion is more uncomfortable and takes longer in adults. A patient who would rather not wait several months for the end result achieved by a palatal expander may be able to opt for a surgical separation of the maxilla. Use of a palatal expander is most often followed by braces to then straighten the teeth.
Orthodontic technology is a specialty of dental technology that is concerned with the design and fabrication of dental appliances for the treatment of malocclusions, which may be a result of tooth irregularity, disproportionate jaw relationships, or both.
Occlusion, in a dental context, means simply the contact between teeth. More technically, it is the relationship between the maxillary (upper) and mandibular (lower) teeth when they approach each other, as occurs during chewing or at rest.
In dentistry, overjet is the extent of horizontal (anterior-posterior) overlap of the maxillary central incisors over the mandibular central incisors. In class II malocclusion the overjet is increased as the maxillary central incisors are protruded.
In dentistry, crossbite is a form of malocclusion where a tooth has a more buccal or lingual position than its corresponding antagonist tooth in the upper or lower dental arch. In other words, crossbite is a lateral misalignment of the dental arches.
A jaw abnormality is a disorder in the formation, shape and/or size of the jaw. In general abnormalities arise within the jaw when there is a disturbance or fault in the fusion of the mandibular processes. The mandible in particular has the most differential typical growth anomalies than any other bone in the human skeleton. This is due to variants in the complex symmetrical growth pattern which formulates the mandible.
Overbite is the extent of vertical (superior-inferior) overlap of the maxillary central incisors over the mandibular central incisors, measured relative to the incisal ridges.
Serial extraction is the planned extraction of certain deciduous teeth and specific permanent teeth in an orderly sequence and predetermined pattern to guide the erupting permanent teeth into a more favorable position.
Interproximal reduction is the practice of mechanically removing enamel from between the teeth to achieve orthodontic ends, such as to correct crowding, or reshape the contact area between neighboring teeth. After reducing the enamel, the procedure should also involve anatomic re-contouring and the protection of interproximal enamel surfaces.
Lingual braces are one of the many types of the fixed orthodontic treatment appliances available to patients needing orthodontics. They involve attaching the orthodontic brackets on the inner sides of the teeth. The main advantage of lingual braces is their near invisibility compared to the standard braces, which are attached on the buccal (cheek) sides of the tooth. Lingual braces were invented by Craven Kurz in 1976.
Anchorage a medical term in orthodontics is defined as a way of resisting movement of a tooth or number of teeth by using different techniques. Anchorage is an important consideration in the field of orthodontics as this is a concept that is used frequently when correcting malocclusions. Unplanned or unwanted tooth movement can have dire consequences in a treatment plan, and therefore using anchorage stop a certain tooth movement becomes important. Anchorage can be used from many different sources such as teeth, bone, implants or extra-orally.
Elastics are rubber bands frequently used in the field of orthodontics to correct different types of malocclusions. The elastic wear is prescribed by an orthodontist or a dentist in an orthodontic treatment. The longevity of the elastic wear may vary from two weeks to several months. The elastic wear can be worn from 12 to 23 hours a day, either during the night or throughout the day depending on the requirements for each malocclusion. The many different types of elastics may produce different forces on teeth. Therefore, using elastics with specific forces is critical in achieving a good orthodontic occlusion.
Activator Appliance is an Orthodontics appliance that was developed by Viggo Andresen in 1908. This was one of the first functional appliances that was developed to correct functional jaw in the early 1900s. Activator appliance became the universal appliance that was used widely throughout Europe in the earlier part of the 20th century.
Frankel appliance or Frankel Functional Regulator is an orthodontic functional appliance which was developed by Rolf Fränkel in 1950s for treatment to patients of all ages. This appliance primarily focused on the modulation of neuromuscular activity in order to produce changes in jaw and teeth. The appliance was opposite to the Activator appliance and Bionator appliance.
Pendulum is an orthodontic appliance, developed by James J. Hilgers in 1992, that use forces to distalize the upper 1st molars to create space for eruption of impacted teeth or allowing correction of Class 2 malocclusion. This appliance is a fixed type of distalizing appliance that does not depend on the compliance of each patient to work. Hilgers published an article in Journal of Clinical Orthodontics in 1992 describing the appliance.
Intrusion is a movement in the field of orthodontics where a tooth is moved partially into the bone. Intrusion is done in orthodontics to correct an anterior deep bite or in some cases intrusion of the over-erupted posterior teeth with no opposing tooth. Intrusion can be done in many ways and consists of many different types. Intrusion, in orthodontic history, was initially defined as problematic in early 1900s and was known to cause periodontal effects such as root resorption and recession. However, in mid 1950s successful intrusion with light continuous forces was demonstrated. Charles J. Burstone defined intrusion to be "the apical movement of the geometric center of the root (centroid) in respect to the occlusal plane or plane based on the long axis of tooth".
Open bite is a type of orthodontic malocclusion which has been estimated to occur in 0.6% of the people in the United States. This type of malocclusion has no vertical overlap or contact between the anterior incisors. The term "open bite" was coined by Carevelli in 1842 as a distinct classification of malocclusion. Different authors have described the open bite in a variety of ways. Some authors have suggested that open bite often arises when overbite is less than the usual amount. Additionally, others have contended that open bite is identified by end-on incisal relationships. Lastly, some researchers have stated that a lack of incisal contact must be present to diagnose an open bite.
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