Scissor. telescope. brodie. bite

Scissor, Telescope, Brodie – Bite what is it and how to manage?? Prof. Dr. Maher Fouda Yasmine M. Hammad

Definition It’s a malocclusion where the maxillary posterior teeth occludes completely buccal to the mandibular posterior teeth. Scissor Normal Cross

Introduction When one tooth or several teeth are positioned more buccally or lingually in relation to the opposing teeth, the malocclusion is called “ Crossbite ”. The more severe form of crossbite is “ Scissors-bite ” in which in habitual occlusion the mandibular dentition is contained in the maxillary arch. Scissors-bite may develop from a maxillary buccal or mandibular lingual crossbite . When scissors-bite on multiple molars is a result of transverse skeleta l discrepancy, the malocclusion is termed “ Brodie bite .” Scissors-bite may appear as unilateral or bilateral. Treatment of a Bilateral Scissors-Bite in an Adolescent With Fixed Appliances Ahmad Sodaga et al. Iran J Ortho. In Press; online 2016 May 30.

Introduction Treatment of a Bilateral Scissors-Bite in an Adolescent With Fixed Appliances Ahmad Sodaga et al. Iran J Ortho. In Press; online 2016 May 30. A , An illustration of scissors bite at the distal aspect (black line normal occlusion).;Intrusion and palatal tipping are necessary for correction of scissors bite , B , after intrusion and palatal tipping of the maxillary molar to allow the mandibular molar to move without resistance, the mandibular molar can easily be uprighted ; C , the maxillary molar descended for settling after correction of the mandibular molar into the proper position; D , an illustration of the post-treatment appearance

Classification

Introduction Severe forms of scissor bite or Brodie syndrome is rare orthodontic malocclusion that occurs with a frequency of 0.01% in general population. Several methods have been described to obtain a correction from a dental, skeletal and soft tissue points of view. In the literature various approaches were described : from jaws osteotomies , surgery first approach, to the use of orthopedic-functional devices and extractions along with the fixed multibrackets orthodontics combined with miniscrews for the skeletal anchorage. Fantasia E, D'Emidio M, Padalino G, Rodi G. Comparison of Orthodontic Techniques used for treating patients with severe form of scissor bite: a systematic review . WebmedCentral ORTHODONTICS 2016

Content

Treatment options of Brodie -bite in children 4 case reports . - Bilateral Brodie Bite in Early Mixed Dentition Using Bonded Constriction Quad-helix Appliance. - Occlusal gujdance for unilateral scissors bite in primary dentition. - Scissor bite in a young patient treated with an orthodontic-orthopedic device. - Treatment and retention of a mandibular arch telescoped within the maxillary arch

Brodie bite, adversely affects chewing and muscle functions, but also impairs normal growth and development of the mandible. This syndrome is rare occuring in 1-2% of the mixed dentition population. As it does not affect the aesthetics, parents are not aware of its presence amounting to the few case reports of this condition in the literature. Like posterior crossbite (transverse discrepancy) it does not self corrected. Problems of Brodie Bite: Affect chewing function Muscle function Impairs normal growth and development of the mandible. This makes the early correction of this condition rather essential. Possible causes of Brodie bite include: microglossia , hypoglossia , neurological and muscular mechanisms causing oral habits, skeletal Class II factors, and abnormal tooth germ position or eruption direction. A Case report Bilateral Brodie Bite in Early Mixed Dentition Using Bonded Constriction Quad-helix Appliance.. Nojima K. et al Bull Tokyo Dent Coll 2011 52: 39 - 46

A boy aged 9 yrs and 2 months with symmetric frontal facial features and convex profile. Intraorally patient had: +5mm overbite +8 overjet Spacing in maxillary anterior Bilateral Brodie bite. (excessive upper width, narrow lower arch width) Class II molar relationship

Full permanent dentition noted in the Panoramic x-ray. Cephalometric analysis indicated slight mandibular retrognathism . The case was diagnosed with bilateral Brodie bite with mandibular retrusion

Treatment Objective To reduce the upper arch width, expand the lower arch to establish stabilized molar occlusion relation and achieve Class I molar relation along with appropriate overbite and overjet until eruption of permanent dentition is completed. Reducing the maxillary arch width by covering the occlusal surfaces of the upper D, E and 6 on both sides with resin to raise the bite and activate the constriction of quad-helix appliance. A bi-helix appliance was fitted to the mandibular first molars to expand the mandibular arch. A 5 month follow-up showed improvement, a cervical headgear was then fitted to correct the Class II molar relation. Patient was observed until the eruption of permanent dentition was completed. Treatment Plan and progress

After 2 years and 6 months, a Class I molar relation was achieved although spacing in both the maxillary and mandibular dentition remained.

Cephalometric superimposition before and after treatment showed that in the skeletal pattern, anterior growth of the maxilla had been controlled, while the mandible had grown markedly in the anterio -inferior direction with no clockwise rotation. Major skeletal improvement was achieved in the ANB angle from 4 degrees to 1.5 degrees. No antero -posterior or vertical movement occurred in either the maxillary anterior teeth and molars had shifted slightly in a mesial direction, with almost no vertical change.

Scissor bite in a young patient treated with an orthodontic-orthopedic device. A case report. Favero v., Et al. European journal of paediatric dentistry 2013 vol. 14/2 An 8-year-old girl in mixed dentition presented with right complete scissor bite, including the first permanent molar. Class I occlusion on both sides, an increased overjet and a decreased overbite . The midline lines were not coincident. On the right side, a scissor bite on all the lateral posterior teeth was remarkable. The palate was very large and overexpanded , with presence of diastema between the incisors. The lower arch showed a contraction on the right side with lingual torque of the teeth and due to the torque the arch form was symmetric. The oral movements were not perfect, while opening and protruding the mandible an initial left movement was remarkable. The patient neither referred pain, nor functional limitations.

2 3 4 5

7 8 6

Occlusal gujdance for uniiateral scissors bite in primary dentition: A case report Sachiko Hayashi-Sakai , et al. PEDIATRIC DEAXTAL JOURNAL 2007 17(2 ).• 160-166 . A 5 year and 5-month-old Japanese boy was brought to the Pediatric Dental clinic with the complaint of an eating disorder. His mother noticed that his eating time was longer that that of his faternal twin brother. Clinical examination showed normal age-appropriate development of his face and dentition except for the severe scissor bite in the left molar region, which allowed no occlusal contact between the opposite teeth. Terminal planes: on the unaffected side were of the distal step type . ??What does that mean? The patient's fraternal twin brother had normal occlusion.

Frontal cephalogram was obtained and the width of the inter-cervical line of the primary 2 nd molars on maxilla and mandible were measured to be compared with that of normal Japanese children standards. It was found that the maxillary width was remarkably larger beyond normal. Study models were also examined and both arch length and width between the primary C and E were obtained.. This also indicated an above than normal reading for the upper arch. Other measures were within normal range, Overbite was 2.8mm and overjet was 2mm.

Treatment Plan For occlusal guidance, the authors designed a removable type appliance for reducing the maxillary dental arch width. To provide a constrictive effect , a conventional expansion screw was modified to give reverse rotation . Technique: the master maxillary cast was sectioned in half and trimmed so that the desired mxillary width was obtained, the halves were glued together then the appliance with expansion screw was fabricated on that cast. Here, the appliance was transferred to the original maxillary cast and activated to fit it. It was expected that by covering the occlusal surfaces the maxillary left primary first and second molars would move toward the palatal side smoothly.

In order to raise the occlusal vertical dimension and to anchor the unaffected teeth at the same time, the appliance covered the occlusal surfaces between the right primary lateral incisor and the second molar . The authors directed the patient's mother to ensure that the boy use this appliance all day long except at meals and when brushing his teeth and exercising , and to give the screw a one-quarter reverse turn (0.1mm) each week. During follow up the period of the screw turn was gradually shortened from once a week to every 4 days.

Evaluation of treatment. When the patient finished using the retainer at the age of 6 years and 10 months , a frontal cephalogram and study models were taken and examined again to evaluate the treatment. Measurements of the same inspection items were made as described earlier in methods and compared to their pretreatment values. The most significant change was recognized in the arch width of the inter- buccal groove of the maxillary primary second molars. Overbite and overjet remained unchanged.

Treatment and retention of a mandibular arch telescoped within the maxillary arch: case report Milton E. Gellin , DDS PEDIATRIC DENTISTRY: MAY/JUNE, 1991 ~ VOLUME 13, NUMBER 3 At 6 years , 4 months old, a male Caucasian was examined with the chief complaint of "difficulty in eating ." The patient was unable to establish centric occlusion because the right mandibular posterior teeth were telescoped within the maxillary arch. Skeletal midlines were correct, but the mandibular dental midline deviated to the left of the maxillary midline (Fig 1 ). With the midlines approximately aligned, posterior occlusion was minimal (Fig 2). The maxillary arch width was greater than one standard deviation from the mean of 41.85mm , whereas the mandibular arch was significantly deficient by more than two standard deviations from the mean of 40.2 mm. The mandibular posterior teeth had severe lingual inclination.

Treatment objective Was to expand the mandibular arch bilaterally, so that the posterior teeth would have an acceptable interdigitation . After expansion , the mandibular arch would be retained with a lingual arch until the late mixed dentition; then the patient would be placed on periodic recalls to evaluate the stability of expansion in the permanent dentition . When the patient was 7 years, 9 months old, the mandibular permanent incisors were erupted fully. A lingual arch was selected to accomplish the expansion, along with a maxillary bite plane to disengage the posterior occlusion. The lingual arch was expanded to one half of the buccolingual width of the first permanent molars. Three additional activations followed at approximately one month intervals. When the lingual cusps of the mandibular posterior teeth began to occlude with the maxillary posterior teeth, the maxillary bite plane was discontinued. The lingual arch served as a retainer for 15 months.

When the patient was 11 years , 8 months old, the maxillary right first and second premolars and the maxillary right second molar were noted to be completely buccal to the mandibular teeth, with mild crowding of the maxillary and mandibular incisors. The first permanent molars and right permanent canine were in a Class I relationship, but the left permanent canine was in a Class II relationship( Fig 3). In addition, there were no nonworking interferences. The patient had a normal range of mandibular movement with no joint sounds. Treatment time was 18 months.

The last observation was made when the patient was 18 years old , with the maxillary arch out of retention for four years , and the mandibular anterior incisors out of retention for two years three months (Fig 4). Cephalometric appraisal at 18 years of age revealed a Class I dentition superimposed on a Class II relationship due to a posteriorly positioned mandible.

Content

Treatment options of Scissor-bite in Adolescents 3 case reports . Scissor Bite Correction by Bite Plane Crowding , Protrusion and Scissors Bite: Extractions and Extra-Alveolar Bone Screws Treatment of a Bilateral Scissors-Bite in an Adolescent With Fixed Appliances

Features in scissor bite: Facial profile -The scissor bite has no significant influence on the facial profile. Airway -The scissor bite is not known to reduced airway. Chewing function -The chewing function is bad since the molars make no contact with each other. Jaw joints -Patients may experience a clicking or pain in the jaw joints since the jaw is usually forced to function in a deviated position during the chewing process. Teeth wear -Molar wear is unlikely since the molars do not come in contact with each other.

Scissor Bite Correction by Bite Plane Amit Prakash et al Indian J Dent Adv 2013; 5(4): 1425-1427 A female patient, 16 years and 3 months of age, consulted with a chief complaint of improper occlusion and irregular teeth. She had a convex profile and a symmetric frontal view. She gives history of surgical treatment for the cleft lip ( Figure1 ). On clinical examination, both canine and molar relationships were Class I on both sides, but a scissors-bite of the posterior arch on the right side was observed. Overbite was 6.5 mm and overjet was1.1 mm. The dental midline was deviated to right by 3 mm. On cast analysis, the arch-length discrepancy was 2.2 mm in the maxilla and 8.3 mm in the mandible .

Treatment objectives The patient was given the diagnosis of Angle Class I malocclusion, with a skeletal Class I jaw base relationship , lip protrusion, moderate anterior teeth crowding , and a scissors-bite of the right side . W ere to correct incisor crowding , obtain a good facial profile, achieve acceptable occlusion with a good functional Class I occlusion , and eliminate the scissors-bite. Bite plane was used for the correction of scissor bite. ( Figure2 ).

After achieving acceptable occlusion, fixed appliance treatment with 0.022 MBT prescriptions were done for achieving the treatment objectives(Figure 3).

Post treatment results were good and stable As a result, complete treatment of a scissors-bite in the present case was achieved in 5 months . ( Figure 4)..

BEFORE AFTER

Treatment of a Bilateral Scissors-Bite in an Adolescent With Fixed Appliances Ahmad Sodaga et al. Iran J Ortho. In Press; online 2016 May 30 . The patient was a 13-year-old boy, his chief complaints were crooked teeth and difficulty in chewing. In temporo -mandibular joint examination, there was subluxation and clicking on closing. He had a skeletal class II relationship with retruded upper incisors, deviated chin to the right, mandibular deficiency and deep bite . Posterior crossbite from the left first premolar to the right first molar was observed. Maxillary and mandibular dental midlines were deviated to right. The transverse cant of the occlusal plane was minor. There was severe space deficiency in both arches and the right mandibular canine was impacted.

In the lateral cephalometry analysis (Table 1), mandibular deficiency was noticed. The major problems were summarized as chin deviation, bilateral scissors-bite, class II division 2, deep bite, midline deviation, severe space deficiency and impacted lower right canine. The patient had a slight centric relation-centric occlusion shift. Variables Pre ttt Post ttt ANB +7 +4 FMA 27 29 U1 to FH 109 115 U1 to SN 98 106 IMPA 94 113 Inter- incisal angle 130 100

Treatment Objectives Treatment objectives were correcting dental crowding, traction of impacted canine to the arch, create normal overjet and overbite relationships with good functional occlusion, and eliminate scissors-bite. We planned to constrict maxillary arch with transpalatal arch and expand the mandibular arch with an active lingual arch, with aid of criss -cross elastics. Treatment Alternatives According to patient chief complaint, correction of scissors-bite was the first priority. However, in our view, correction of dental and skeletal class II relation was another major issue. Because of deep bite and reduced overjet , there was no option for growth modification at the first step . Therefore, we started the treatment with fixed appliance at the upper arch . Moreover, right mandibular canine was unerupted . As the lower dental arch was crowded and severely constricted, for traction of impacted tooth we could not extract any teeth. Therefore, we decide to expand the arch orthodontically and postpone growth modification; because it usually increases IMPA too.

Treatment Progress Metal brackets (0.022-in slot, MBT prescription) were used for this treatment. Upper arch was banded and bonded first. For initial aligning and leveling 0.014 and 0.016-in nickel titanium arch wires were used. After aligning and leveling of upper arch, palatal miniscrew was inserted between upper right first and second premolars, for intrusion and lingual tipping of the first molar. After two weeks and before loading, the miniscrew failed . Because of patient discomfort, we did not try miniscrew insertion for the next time. 0.018-in stainless steel archwire was used for leveling. We started wire constriction from this archwire , followed by 19 × 25-in nickel titanium and 19 × 25-in stainless steel. A transpalatal arch was fabricated from 1.0 mm stainless steel to help arch constriction.

It was placed 3mm away from palatal mucosa in order to help in intrusion of molars. It had slightly constricted and inserted in the lingual sheaths of the molar bands. A lingual arch with expansion arms was made for lower arch. It was expanded and then inserted once-a-month. After creation of proper overjet , lower arch was bonded.

Treatment Results The final records show that scissors-bite was completely resolved, overjet and overbite were appropriate and the impacted tooth was in its proper position. We reached a good functional occlusion and patient’s chewing function was improved. Canine relationship and dental midline were not ideal at the end of treatment. We suggested extraction of one premolar, but the patient and his parents refused. At the end of treatment, patient was referred to a periodontist for lower arch inflammation and gingival hyperplasia.

As like the other non-extraction therapies in mandibular deficiency cases, IMPA increased. We suggested the parents to perform advancement genioplasty procedure at 18-year-old to enhance his profile. By this means, Holdaway ratio would greatly improve.

BEFORE AFTER This patient had class II division 2 malocclusion, with bilateral scissors-bite and unerupted tooth. With constricted transpalatal arch and modified active lingual arch followed by repeated arch coordinations , we reached good alignment and functional occlusion. This procedure rescued the patient from future orthognathic surgery.

Crowding, Protrusion and Scissors Bite: Extractions and Extra-Alveolar Bone Screws Hui-Hwa Chen, Chris Chang et al. Int J Orthod Implantol;39:54-70) A 16-year-3-month girl presented with concern about decreased masticatory function due to lingual tipping of her posterior teeth, lip protrusion, and a small maxillary midline diastema with a black triangle. The facial profile ( convexity ) was good , but there was a bimaxillary protrusion with a particularly prominent lower lip. Moreover, there was no evidence of contributing oral habits or temporomandibular dysfunction.

Skeletal: • Class I ( SNA 90 ° , SNB 88 ° , ANB 2 ° ) • Low mandibular plane angle ( SN-MP 30 ° , FMA 23 ° ) • Condylar heads symmetric in length and position Dental: • Mandibular dental midline was 2mm to the left of the facial and maxillary midlines. • Small maxillary midline diastema with a black triangle • Bilateral Class I canine and molar relationships. . Lingual crossbite of the maxillary left lateral incisor ( #10 ) • Buccal crossbite of three molars: one on the right (#2), and two on the left (#14 &15).

Objectives of Treatment Resolve maxillary and mandibular crowding. Correct bilateral buccal crossbites . Achieve an ideal overjet and overbite relationship Maintain the maxillary and mandibular skeletal bases in all planes of space Maxillary Dentition: Retract incisors, i ntrude incisors, maintain inter-molar/inter-canine width Mandibular Dentition: Retract incisors and decrease their axial inclination .

Treatment Plan Extract all four first premolars to resolve crowding. Reduce bimaxillary protrusion to improve lip profile . Place an extra-alveolar ( E-A ) OrthoBoneScrew ® ( Newton’s A, Hsinchu City, Taiwan ) in each buccal shelf of the mandible ( Fig. 11 ) to serve as anchorage for elastics to correct the lingually tipped molars ( #18, 19 and 31 ). Intermaxillary elastics to correct the sagittal discrepancy. Detail occlusion with finishing bends and settling elastics . Retention with clear overlay retainers in both arches .

A 022 ” slot Damon Q® passive self-ligating ( PSL ) bracket system ( Ormco , Glendora, CA ) was selected. High torque brackets were bonded on the maxillary incisors and the arch was aligned with an . 014” CuNiTi archwire . Bite turbos , constructed with Fuji II® glass ionomer cement, were placed on the occlusal surfaces of the lower left lateral incisor and canine ( #22 & #23 ) to facilitate correction of the crossbite of the maxillary left lateral incisor ( #10 ). Appliances and Treatment Progress

One month later, when the crossbite ( #10 ) was corrected, the anterior bite turbos were removed, and occlusal bite turbos were bonded on the lower first molar ( #30 ) and the lower left second premolar ( #20 ). Standard torque brackets were then bonded on all mandibular teeth, except the second molars, and an .014” CuNiTi archwire was placed. At the same appointment, buttons were bonded on the lingual surfaces of the mandibular left 1st molar ( #19 ), and both lower second molars ( #18 & 31 ). Cross elastics ( Chipmunk 1/8” 3.5oz ) were applied to correct the posterior crossbites bilaterally.

In the 4 th month of treatment, an OrthoBoneScrew ® ( OBS ) ( 2x12mm) was inserted in each mandibular buccal shelf, lateral to the second molars ( Fig. 14 ). Power chains were stretched between the miniscrews and the lingual buttons on the mandibular second molars.

The occlusal height of the bite turbos on teeth #20 and 30 were increased to avoid contact between the OBSs and the maxillary dentition. The power chains anchored by the OBSs, began to efficiently up-right the lower second molars in three dimensions .

In the 15 th month , an .016x.025” SS archwire was placed on the lower arch. L-type elastics (Bear 1/4” 4.5oz) were applied from the upper canines to the lower second molars, bilaterally. The paths of the elastics were positioned gingival to the bracket on the lower first molars In the 17th month, the L-type Class II elastics were continued. Proximal enameloplasty was performed on the four upper incisors. Torque springs were applied bilaterally on the lateral incisors to decrease their labial root torque.

Maxillary Dentition Antero-post: Retraction of incisors and protraction of the buccal segments. Vertical : Maintained . Inter-molar/Inter-canine Width: Crowding corrected with first premolar extraction After 21 months of active treatment, the appliances were removed and retainers were delivered for both arches. Mandibular Dentition Antero-post: Retraction of incisors and protraction of the buccal segments. Vertical: Maintained. Inter-molar / Inter-canine Width: Crowding corrected with first premolar extraction

Retention Clear overlays were delivered for both arches. The patient was instructed to wear them full time for the first 6 months and nights only thereafter. Instructions were provided for the home hygiene and maintenance of the retainers.

Final Evaluation of the Treatment T h e p a t i e n t w a s p l e a s e d w i t h t h e r e s u l t , particularly with regard to masticatory function and facial harmony. Post-treatment intraoral photographs and study casts show a Class I molar and canine on the right side, with Class II canine and Class I molar relationships on the left side. The dental and facial midlines were coincident. Superimpositions of tracings demonstrate the retraction of the incisors and protraction of the buccal segments to close the first premolar extraction spaces. The lower lip was retracted to relieve the lip protrusion and produce the lip balance that the patient expected. The upper incisor to SN angle was decreased from 115 to 112 °, and the lower incisor to the mandibular plane angle was reduced from 106 to 95°.

Case report conclusions :) Using extra-alveolar bone screws and bite turbos provided optimal mechanics for correcting a bilateral scissors bite. This innovative method was consistent with an overall excellent resolution of a challenging, asymmetric malocclusion. Premolar extractions and space closure were an efficient solution for resolving the bimaxillary protrusion in a timely manner . Bimaxillary retraction with bone screws to correct bimaxillary protrusion would have increased treatment time for the present patient, because they could not be placed in an optimal location initially .

V. I. NOTE!!!

You should Know When to take a break ;) ASWAN - EGYpt

Content

Treatment options of Scissor-bite (Surgery) 6 case reports . Mandibular Widening by Distraction Osteogenesis in the Treatment of a Constricted Mandible and Telescopic Bite. Unilateral Brodie bite treated with distraction Osteogenesis . Treatment of unilateral buccal crossbite with mandibular symphyseal distraction osteogenesis . Orthognathic treatment for a patient with facial asymmetry associated with unilateral scissors-bite and a collapsed mandibular arch. Advantages of symphyseal distraction in the treatment of Brodie’s Syndrome.

To correct the Brodie –bite malocclusion, many treatment options were proposed. They include dental extractions, interproximal reduction and orthodontic compensation . The last option could damage the periodontium , particularly if there is a vestibuloversion of the lower anterior teeth, because it forces the teeth out of their alveolar bone. Advantages of symphyseal distraction in the treatment of Brodie’s Syndrome Christine SAUVE, Thomas WOJCIK, Joe FERRI, J Dentofacial Anom Orthod 2013;16:405

To treat the increased maxillary width, some authors have suggested palatal constriction, such as a segmental Lefort I osteotomy. This more delicate technique only allows for constriction of about five to six millimeters by resecting the bone between the segment. This approach risks damage to the palatal mucosa and creation of an oral- antral communication

Other options are possible. For example , osteotomy to enlarge the mandible , as a treatment for a constricted mandible , is described. This include surgical separation at the mandibular symphyseal midline . F ragments are then positioned by rotational and translational movements at locations and are stabilized with the help of plates and screws. Also a bone graft is necessary in order to fill the gap defect that is created at the osteotomy site. This technique has however been abandoned in light of the increased number of gingival dehiscences , of periodontal problems and of relapses. Since all these options present a number of disadvantages, such as instability or esthetic compromise, symphyseal distraction is an alternative treatment to consider in the correction of Brodie’s Syndrome.

SYMPHYSEAL DISTRACTION This distraction technique is utilized in order to increase the transverse dimension of the symphysis . It presents a certain advantage when the dentoalveolar or skeletal anomaly cannot be corrected by traditional orthodontic therapies. These transverse deficits are found in an underdeveloped symphysis , in cases of significant lower incisor overlapping, in syndromic malocclusions such as Pierre Robin, Franceschetti and of course , Brodie’s Syndrome. Osseous distraction is a procedure that allows the creation of new bone between two osseous segments that are gradually separated by traction. which is achieved progressively by daily activations of the distraction device . The mineralization of the callus is initiated after the third week following the end of activations (consolidation period).

Timing ?? Mandibular symphysis fuses around the first year of life, the procedure of symphyseal distraction can be performed on a patient during the growth phase, as soon as the incisors and the permanent mandibular canines erupt, and on adults. Before planning this type of surgery, a complete oral and dental examination is mandatory A panoramic x-ray makes it possible to assess the position of the dental roots. If significant dental crowding is also present, cone-beam is an invaluable tool for optimal visualization

A few days after surgery, the distraction device can be activated. The latency period certainly allows for the creation of an osseous callus, but also the healing of the mucosa. One or several activations can be prescribed, without however exceeding three millimeters a day. An excessively fast pace of activation lowers the quality of the callus whereas a too slow rate of activation can lead to a premature osseous consolidation and therefore, an insufficient expansion

However , in the course of distraction, the adjacent teeth migrate during callotasis if they are not orthodontically retained. This phenomenon called ‘‘walking-teeth phenomenon ’’ is due to the elastic traction of the transseptal fibers of the periodontal ligament. Once the activations are stopped, a period of consolidation is necessary. Some authors recommend maintaining this phase for two months before beginning orthodontic movements.

In Conclusion Even if Brodie’s Syndrome is not a common malocclusion, it is important to know all the available therapeutic options to improve patient’s occlusion, function and esthetics.. Symphyseal distraction has proven to be a highly recommended treatment solution given its many advantages, particularly concerning osseous growth and periodontal preservation

Severe Unilateral scissor-bite and bimaxillary protrusion treated by horseshoe Le Fort I osteotomy combined with mid-alveolar osteotomy . Shimazaki k. et al, Angle Orthodontist, Vol 84, No 2, 2014 a female aged 26 years, months, came complaining chiefly of dysmasesis caused by the right-sided scissor bite, an ‘‘unsettling’’ feeling around the area of the right molars and protrusion of the lips. The patient had been aware of her right-sided scissor bite since the age of 18, but she had not sought treatment prior to this point.

Lefort 1 Osteotomy During this part of the surgery, the upper jaw is removed and repositioned in order to correct a “maxillary deformity”

Frontal photographs showed a symmetrical mandible and chin, difficulty in lip closure, and a gummy smile . The patient had a convex profile. Intraoral examination revealed that the overjet was +3.0 mm and that the overbite was +4.0 mm, with a leftward midline discrepancy of 2.0 mm ( measured as a 2.0- mm deviation of the lower right central incisor to the left ). Mandibular right premolars and molars were lingually inclined, and the scissor bite in question was noted

Cephalometric analysis indicated a slight skeletal Class II tendency with SNA of 85.0u, SNB of 80.0u, and ANB of 5.0u. Labial inclination of the maxillary anterior teeth (U1 to FH) was 117.7u. The upper and lower lips were placed anterior to the E-line by 2.5 mm and 4.5 mm, respectively .

A postero -anterior cephalometric radiograph showed an inclination of the maxilla and the mandible in the frontal dimension. The cephalometric tracing showed that the maxillary occlusal plane inclination was 4.0u, and the menton was deviated 2.0 mm to the right. Tracing of the pretreatment postero -anterior cephalometric radiograph . Lo indicates right latero-orbitale ; Lo’, left latero-orbitale ; and Me, lowest point on the midline curve of the symphysis .

Treatment objectives The patient refused tooth extraction; therefore, to correct labial inclination of the maxillary anterior teeth, the maxilla required transposition upward and backward and clockwise rotation. Furthermore, to eliminate the occlusal cant due to the overerupted right maxillary premolars and molars and the lingual tipping of the right mandibular premolars and molars the right maxillary dental arch needed to be moved superiorly and medially. For these corrections, two-jaw surgery involving an HLFO combined with mid-alveolar osteotomy and BSSRO was planned .

. Presurgical orthodontic treatment was planned to gain approximately 3.0 mm of space between the maxillary central incisors to protect their roots from damage during the mid-alveolar osteotomy

Also, before orthodontic brackets could be applied to the right mandibular molars involved in the scissor bite, the occlusal surfaces of these molars needed to be built up with composite resin to raise the bite. This treatment plan was designed to deliver a faster resolution of the scissor bite by orthognathic surgery. The procedures, risks, advantages, disadvantages, and costs were explained to the patient, and she was able to give full informed consent prior to the start of treatment .

The treatment alternative was orthodontic treatment only. The critical procedures for scissor bite correction are intrusion and palatal or buccal tipping of the involved teeth when they are both extruded and tilted. After the scissor bite is corrected, additional premolar extractions are needed to resolve bimaxillary protrusion. However, the orthodontic procedure was deemed to be severe, and the patient was informed that the treatment would be complicated and prolonged if orthodontic procedures alone were used. The patient was given the option (together with the advantages and disadvantages) of having orthognathic surgery combined with orthodontic treatment as an alternative. The patient chose to accept this option . Treatment Alternatives

Presurgery orthodontic treatments involved occlusal surface buildup with composite resin to raise the bite, followed by attachment of preadjusted edgewise appliances, wires placed in both arches for leveling, alignment, and space creation between the maxillary central incisors . After 3 months both archwires were replaced with 0.016 x 0.022–inch stainless-steel archwires with crimp-on surgical hooks in preparation for orthognathic surgery. Two-jaw surgery took place under anesthesia. Presurgical photographs are shown Treatment Progress

Before surgery, a maxillary splint was constructed on articulated models mounted in centric relation for positioning of the left-side dento -alveolar segment. In addition , we used these models to determine the optimal positioning of a continuous archwire and resin plate to be placed in the right dento -alveolar segment of maxilla, such that it was positioned as parallel to the Frankfurt horizontal plane as possible.

These appliances were used to assist in fixing the left and right dento -alveolar segments during the operation. The thickness of the resin plate was 1.2 mm.

After Le Fort I osteotomy and down-fracture, horseshoe osteotomy was performed from the superior surface of the maxilla. The dento alveolar segment was then halved between the maxillary central incisors using a surgical saw .

The left dento -alveolar segment was then moved into its predicted position using the maxillary splint to position it 4.0 mm posterior and 1.5 mm superior at the left first molar and 6.0 mm posterior and 4.0 mm superior at the maxillary incisors, before fixing it with titanium plates.

The left dento -alveolar segment. The right dento -alveolar segment was moved into its predicted position using the resin plate and continuous archwire to align it 6.0 mm posterior, 8.0 mm superior, and 4.0 mm medial at the right first molar before fixing it, again with titanium plates .

Before After

Unilateral Brodie bite treated with distraction osteogenesis John W. King, and James C. Wallace, Am J Orthod Dentofacial Orthop 2004;125:500-9 A girl, aged 11 years 10 months , Although the patient had the sickle cell anemia trait, she was in excellent physical and dental health. Pretreatment facial photographs showed a convex profile, mildly protrusive lips, and facial symmetry with competent lips.

The maxillary dental midline was 1.0 mm to the left of the facial midline; the mandibular dental midline was 1.6 mm to the left of the facial midline. The patient had a Class I malocclusion, 3 mm of overjet , a 75% overbite, and a mild curve of Spee .

The panoramic radiograph showed a complete permanent dentition , with erupting second molars and impacted third molars . Although the patient’s profile was convex and her lips were full, the lateral cephalometric radiograph indicated that the maxillary and mandibular incisors were in upright positions in their respective apical bases and that there was a moderate skeletal Class II discrepancy with an ANB angle of 7 °. With a Frankfort-mandibular plane angle (FMA) of 36.5 °, the patient demonstrated a hyperdivergent skeletal pattern . Despite evidence of a significant airway deficiency and enlarged adenoids, there was no clinical evidence of mouth breathing .

Treatment objectives The main objective in treating this malocclusion was to correct the left-side posterior buccal crossbite and establish occlusal interdigitation . Because the patient’s smile was attractive and the maxillary width was normal , we would attempt to maintain this width . The overbite and overjet would be reduced to an ideal relationship . Interdental spacing —the patient’s chief complaint—would be eliminated . Although the maxillary and mandibular incisors were in acceptable positions, some uprighting would be needed to eliminate the arch length excess.

Treatment Alternatives The 1 st treatment option : was to use intermaxillary crossbite elastics to tip the mandibular left posterior teeth labially and the maxillary left posterior teeth lingually . But because the diagnosis indicated the crossbite was primarily a skeletal problem , long-term stability was a concern. A lso, lingual tipping of the maxillary left posterior teeth might alter the pleasing pretreatment smile. The 2 nd option: was to place a Hyrax expander in an “open” position, to produce palatal constriction and narrow the maxilla bilaterally. This technique would correct the left buccal crossbite but might also create a right posterior crossbite . Also, there was some concern about changing the preexisting broad smile . The 3 rd option: involved closing the mandibular interdental spacing and maintaining the mandibular intercanine and intermolar widths. A maxillary segmental osteotomy could be used to correct the crossbite . The 4 th option : involved maintaining the maxillary width and closing the interdental spaces. The left posterior buccal crossbite would be corrected through mandibular widening by midsymphyseal distraction osteogenesis . Because the buccal crossbite was a true unilateral problem, the widening would have to be primarily on the left side while the right occlusion was maintained.

The patient and her mother selected the fourth option , which targeted the primary orthodontic problem (the mandibular transverse deficiency). If the right posterior occlusion could be maintained, this treatment option would provide the best combination of occlusal function , optimal esthetics, and long-term stability.

Treatment progress Preadjusted fixed appliance was placed in the maxillary arch for leveling and alignment. Three months later, a biteplate was constructed, and the mandibular appliances were placed. The orthodontic brackets were angulated to allow root divergence between the mandibular central incisors. A “figure 8 ” ligature wire was placed on each side of the osteotomy site, connecting the central incisor, the lateral incisor, and the canine to prevent “walking teeth” during the distraction period. During the predistraction phase of orthodontics. A . 016 x .022-in stainless-steel arch wire was placed before the osteotomy . The archwire was cut at the osteotomy site at the initiation of distraction. This provided segmental anchorage during the distraction phase.

Before the mid symphyseal osteotomy, a full-coverage maxillary splint was constructed on an articulator that was mounted in centric relation. The splint was modified by creating a deep intercuspation on the mandibular right side and a flat plane occlusion on the left. This stabilized the occlusion on the right side and allowed for transverse widening on the left.

Before surgery, crimp-on surgical hooks were placed in both arches between the brackets on the patient’s right side. A hybrid distractor (bone-borne and tooth-borne) was constructed before the mid- symphyseal osteotomy. The mid- symphyseal osteotomy was then performed. After the 7-days latency period, she returned to our office, and we initiated distraction by making 0.5-mm turns twice per day, 1 in the morning and 1 at night. During the distraction period, the patient was instructed to wear the maxillary splint and right-side intermaxillary elastics full time, except for eating and brushing. Distraction was stopped when the canines were in an ideal transverse relationship and the buccal crossbite was corrected .

The total distraction, measured by the distraction screw expansion, was 6.0 mm. A denture tooth was placed in the distraction site on an anterior segmental archwire .

Periapical radiographs were taken every 4 weeks during the consolidation period to monitor the osteogenesis (Fig 13). During the10-week consolidation period, no tooth movement was attempted.

Treatment results The Brodie bite was successfully corrected, and the excellent right posterior occlusion was maintained. At the end of treatment, the shift from centric relation to centric occlusion was less than 0.5mm ; this was verified through bilateral manipulation . During the mandibular distraction osteogenesis , significant widening occurred, from 6.04 mm at the intercanine position to 2.59 mm at the intermolar position.

Thus, there was nearly parallel distraction of the skeletal and dental components, as measured on the dental casts and the antero -posterior cephalometric radiograph. Mandibular symphyseal distraction with the hybrid distractor produced a greater transverse increase in the anterior part of the arch than in the posterior. During the post distraction phase of orthodontic treatment, the mandibular interdental arch dimensions were reduced to near predistraction amounts.

Life is all about sharing ;)

Content

Simple and Efficient Technique for Correction of Unilateral Scissor Bite Using Straight Wire Gajanan Dolas et al. Journal of Clinical and Diagnostic Research, 2016 A 14 year old boy reported with the chief complaint of irregularly placed upper and lower front teeth. The patient found it difficult to masticate on right side because of scissor bite malocclusion of molars and premolars. The patient had a straight profile with competent lips. On intra-oral examination the canine and molar relation was Class I on both sides and scissor bite of molars and premolars on right side.

Treatment plan and progress A 0.022” × 0.028” MBT slot prescription was used. Mandibular first molar was banded and mandibular left first and second premolar brackets were bonded. • A 0.020 S.S. A. J. Wilcock wire (premium plus) out of the spool, made minimal adjustments and placed in mandibular arch.

Treatment plan and progress The wire without making arch form was placed such that its one side was engaged on left sided molar tube, and the other side was engaged on the molar tube on scissor bite side. An acrylic bite block was placed on left side; to reinforce the anchorage from molars and premolars on one side to relieve the scissor bite on other side. It was based on the concept of using light continuous force.

After about six weeks time good amount of correction was seen in lower arch and the lower molar had been relieved of scissor bite. About 5mm expansion was seen in lower arch.

Nonsurgical correction of a severe anterior deep overbite accompanied by a gummy smile and posterior scissor bite using a miniscrew -assisted straight-wire technique in an adult high-angle case. Xue -Dong Wang et al. Korean J Orthod 2016;46(4):253-265] A 26-year-old Chinese woman presented with a chief complaint of crooked teeth and a protrusive mouth. The patient stated that her facial profile was similar to that of her aunt . Along with profile convexity, an increased lower facial height was noted. An acute nasal–labial angle, an incompetent lip, strain in the circumoral musculature on lip closure, and a gummy smile were also observed.

Angle Class II molar relationship with a severe anterior deep bite and moderate crowding of the mandibular teeth. The mandibular midline was shifted to the patient’s right by 1 mm. A scissor bite was also observed between the maxillary and mandibular left second molars. The mandibular right second premolar was receiving root canal treatment. The maxillary incisors showed old crown restorations with gingival inflammation.

Panoramic radiographs showed post and cores, but no signs or symptoms of temporomandibular disorders. Lateral cephalometric analysis revealed skeletal Class II malocclusion with a retrognathic mandible (A-point − nasion −B point [ANB], 10.6o) and a high mandibular plane angle ( sella-nasion plane to mandibular plane angle [MP/SN], 53.2o). The maxillary incisors were lingually inclined and angled between the crowns and roots because of the presence of post–core restorations.

Treatment objectives The principal treatment objectives including the following : tooth alignment, achievement of an optimal overjet and overbite. establishment of Class I canine and molar relationships, and correction of the gummy smile and facial profile . Different treatment options were presented to the patient involving leForte I osteotomy, geneoplasty as well as fixed appliance ith extraction ot with miniscrew . The patient chose the last ( miniscrew ) option. Treatment alternatives

Under local anesthesia, the maxillary right and left first premolars , mandibular right and left second premolars, and the maxillary and mandibular right third molars were extracted. A pre-adjusted edgewise appliance with 0.022-inch slots was bonded on both arches. Alignment and leveling with sequential nickel-titanium archwires were achieved in 6 months miniscrews diameter , 1.5 mm; length, 8 mm were inserted into the buccal and palatal alveolar bone in the maxillary posterior region on both side.

An elastic tieback with a single power-chain unit was tied from the maxillary left palatal miniscrew to the maxillary left second molar for correction of the scissor bite between the maxillary and mandibular left second molars and for avoiding mesial movement of the maxillary left first molar

The force used to correct the scissor bite was 50 gN , and the bite was corrected after two appointments. The bilateral maxillary molars were intruded using elastic chains extending from the miniscrews to the buccal tubes , with a force of approximately 50 gN on each side.

A classic sliding mechanism with a 0.019 . 0.025- inch stainless steel archwire was used for space closure in both arches. All the tiebacks were placed on the miniscrews to avoid mesial movement of the molars. Another 2 miniscrews (diameter, 1.5 mm; length, 7 mm) were inserted into the maxillary anterior alveolar bone on both sides for incisor intrusion, with a force of approximately 50 gN per side.

Long-distance elastics were not used for space closure and retraction to avoid molar extrusion. A helical spring was used to reserve space for maxillary incisor crown or veneer placement at 19 months after bonding, in the finishing and detailing stage, when an obvious improvement in her gummy smile was observed. A short vertical elastic was used to increase intercuspation and co-ordinate the maxillary and mandibular midlines .

The overall duration of active orthodontic treatment was 25 months.

The gummy smile is dramatically improved. The post-treatment intraoral photographs show Class I molar and canine relationships with normalized overjet and overbite Facial and intraoral photographs obtained after final restorations. The posttreatment facial photographs show the facial esthetics has been obviously improved with the chin deficiency corrected and the lower facial height decreased .

Post-treatment cephalogram , cephalometrict racing, and panoramic radiograph . The post-treatment cephalogram shows. Decreased mandibular plane angle and A-point − nasion −B point angle. The post-treatment panoramic radiograph shows acceptable root parallelism and no obvious apical root resorption

ASWAN The Egyptian paradise

Bilateral posterior telescopic crossbite correction through the use of Goshgarian palatal bar and bite turbos . Carolina Aguilar González , Oropeza Sosa. Revista Mexicana de Ortodoncia April-June 2016, Vol. 4 ,(2) : 109-116 A male patient, 25 of age was presented with mild upper and lower moderate dental crowding as well as a telescopic crossbite of the second molars. The patient said he was constantly biting his cheek. Extraoral photograph analysis revealed a mild dolichofacial patient with an oval-shaped face, straight profile and gibbous nose; thin, competent lips, positive smile and a fa cial midline that did not coincide with the dental midline.

Upon intraoral clinical examination it was noted: that the upper dental midline was deviated to the right and the lower, to the left; a mild upper dental crowding and moderate lower dental crowding, labially inclined upper second molars, lingually positioned lower second molars, bilateral molar class III and canine class I; 2 mm overbite and 1.5 mm overjet and curve of Spee of 3.5 mm on both sides.

Panoramic x-ray revealed that the condyles and mandibular ramus were asymmetrical absence of radicular parallelism, mild loss of the alveolar crests and a crown-root ratio of 1:2 Cephalometric data revealed a skeletal class I with a soft dolichofacial growth direction, upper incisor protrusion and normally inclined incisors

Treatment plan Two treatment options were suggested to the patient . One of them involved using 0.022” x 0.025 ” Roth GAC In-Ovation®R self-ligating appliances and 2 mini-implants, either with or without corticotomies . The second treatment option was 0.022” Roth GAC In-Ovation®R appliances and for the correction of the upper second molars, a 0.036” TMA removable palatal bar. The patient did not accept the mini-implants or the corticotomies , so the second option was chosen.

Self-ligating 0.022” Roth fixed appliances were placed with bands in the upper and lower first molars . After three months of leveling 0.022 Roth tubes were placed in the lower second molars and bands with lingual boxes in the upper second molars for placing the 0.036” TMA palatal bar. Glass ionomer bite turbos were placed in the palatal cusps of the fi rst molars in order to open the bite and allow the second molars to move. Transverse measurement of these molars was taken and it was 61.5 mm.

N ext step in treatment was the alternate activation on each side of the palatal bar and after eight months of activation we managed to bring the second molars into their basal arch obtaining a 54 mm transverse distance. At the same time, the archwire sequence indicated by Roth philosophy was followed in both arches until the final stage of treatment was completed with 0.019” x 0.025” stainless steel archwires . The use of ¼ inch and 3.5 oz class III elastics was instructed for a better intermaxillary relationship

Retention

The maxillary left second molar was in scissor bite with its antagonists. A Self tapping mini screw of 7 mm in length ( Dentos ) was inserted with direct method under local anesthesia. A registration point was marked within the safe zone area of the palate and the mini screw was placed with the provided screwdriver. Scissor bite correction of Maxillary 2nd Molar using Palatal Mini screw Implant Neetu Dabla , et al. Indian Journal of Orthodontics and Dentofacial Research, October-December, 2015;1(1):32-34

MBT 0.022" appliance was bonded and a fixed posterior bite plane with a Trans palatal arch was placed and a lingual button bonded with respect to maxillary left 2nd molar.

A short elastomeric chain was attached from the head of palatal mini-implant to the lingual button bonded on the 2nd molar band. Appointments were scheduled every 21 days and the elastomeric chain was changed for adequate force to be delivered .

The correction of scissor bite was achieved within a span of three and a half months.

CONCLUSION There isn’t a standard approach !! Each form of clinical case requires a proper evaluation considering the age of patient , the features of pathology as the presence of other complications . The ortho -surgical correction remains the golden standard in severe dentofacial deformities because of its more applicability, lower risks of failure and rapidity, as it doesn’t need patient compliance. However not all the patients accept to undergo surgery, so pure orthodontic approach is need. So the combination of fixed orthodontics with skeletal anchorage has proven the best effective and stable to 5 years from therapy . Moreover in young patient with mild form of malocclusion when it was intercepted early, a functional therapy should be attempted. Fantasia E, D'Emidio M, Padalino G, Rodi G. Comparison of Orthodontic Techniques used for treating patients with severe form of scissor bite: a systematic review . WebmedCentral ORTHODONTICS 2016

Thanks !!

Scissor. telescope. brodie. bite

About This Presentation

Slide Content

Tags

Categories

Download

Quick Actions

Statistics

Related Slideshows

Scissor. telescope. brodie. bite

About This Presentation

Slide Content

Slide 1

Slide 2

Slide 3

Slide 4

Slide 5

Slide 6

Slide 7

Slide 8

Slide 9

Slide 10

Slide 11

Slide 12

Slide 13

Slide 14

Slide 15

Slide 16

Slide 17

Slide 18

Slide 19

Slide 20

Slide 21

Slide 22

Slide 23

Slide 24

Slide 25

Slide 26

Slide 27

Slide 28

Slide 29

Slide 30

Slide 31

Slide 32

Slide 33

Slide 34

Slide 35

Slide 36

Slide 37

Slide 38

Slide 39

Slide 40

Slide 41

Slide 42

Slide 43

Slide 44

Slide 45

Slide 46

Slide 47

Slide 48

Slide 49

Slide 50

Slide 51

Slide 52

Slide 53

Slide 54

Slide 55

Slide 56

Slide 57

Slide 58

Slide 59

Slide 60

Slide 61

Slide 62

Slide 63

Slide 64

Slide 65

Slide 66

Slide 67

Slide 68

Slide 69

Slide 70

Slide 71

Slide 72

Slide 73

Slide 74

Slide 75

Slide 76

Slide 77