Chin plate with a detachable C-tube head serves for both osteotomy fixation and orthodontic anchorage

Risk of root damage after using lateral cephalogram and intraoral scan for guided insertion of palatal miniscrews

Background

Guided insertion of palatal miniscrews using a lateral cephalogram instead of cone beam computed tomography (CBCT) significantly reduces the radiation level for the patient. Till now no data are available on the risk of hitting the incisors in this regard, which is one of the worst clinical complications when inserting a paramedian miniscrew. Hence, this study aims to investigate the distance between the mini-implant and the roots of the central and lateral incisors.

Methods

Lateral cephalogram, an intraoral scan, and CBCT of 20 patients were superimposed. After a miniscrew (1.7 × 8 mm) placement based on intraoral scan and lateral cephalogram, the CBCT was used as control for the distance between the miniscrews and the roots of the incisors.

Results

The mean value of the shortest distance between the miniscrew and roots of the incisors in the lateral cephalogram was 4.74 ± 1.67 mm. The distance between both miniscrews and the central incisors measured in the CBCT was 5.03 ± 2.22 mm and 5.26 ± 2.21 mm and between the two miniscrews and the lateral incisors was 4.93 ± 1.91 mm and 5.21 ± 2.64 mm. No significant differences between the distances in the CBCT and the lateral cephalogram could be observed. In one case, the CBCT control revealed the penetration of two palatally displaced canines after insertion based on intraoral scan and lateral cephalogram.

Conclusions

The use of an intraoral scan and a lateral cephalogram for guided paramedian insertion of palatal miniscrews can prevent incisor root damage. This may reduce the radiation since no CBCT seems necessary. The current investigation focuses on the anterior paramedian area of the palate. Outside that region and in complex cases with displaced teeth in the palatal area, a CBCT might be indicated.

Critical issues concerning biocreative strategy in contemporary temporary skeletal anchorage device orthodontics: A narrative review

Biocreative Orthodontic Strategy (BOS) is designed to establish a physiologically stable occlusion in harmony with masticatory and TMJ function and healthy supporting tissues with strategic use of temporary skeletal anchorage devices (TSADs). This narrative review surveys current research that demonstrates how BOS with TSADs uses a target approach to overcome the limitations experienced with conventional orthodontic treatment. A narrative review article including research on TSADs orthodontics in the permanent dentition. This review is a brief survey of five BOS principles for contemporary TSAD orthodontics: elegant selection of TSADs, bracket prescription to enhance TSAD orthodontics, antero-posterior dimension control, transverse dimension control and airway control issues. Severe malocclusion and craniofacial dysmorphology can be treated with Biocreative Orthodontic Strategy with a minimum number of TSADs. In order to achieve successful treatment outcome using TSADs, it is critical to understand the key diagnosis and treatment principles of BOS and how to develop a target approach for the tooth and bone movement.

Corticotomy With a Palatal Bone-Borne Retractor for Correcting Severe Bimaxillary Protrusion

BACKGROUND

This article presents an alternate surgical treatment method to correct a severe anterior protrusion in the adult patient with an extremely thin alveolus.

METHODS

In the maxilla, a wide linear corticotomy was performed under local anesthesia. Cortical alveolar bone of the upper first bicuspids area was widely removed. Orthopedic force for bony block movement was applied by a palatal bone-borne type retractor supported by skeletal anchorage. Residual extraction space closure was performed by biocreative orthodontics strategy (BOS). In the mandible, an anterior segmental osteotomy (ASO) and extraction of 1st premolars were performed under local anesthesia.

RESULTS

In the maxilla, bony block movement followed by the wide linear corticotomy with a palatal bone-borne type retractor was implemented without complications. Remaining extraction space after the bony block movement was closed effectively by BOS. In the mandible, anterior segmental retraction was achieved effectively by ASO.

CONCLUSIONS

Wide linear corticotomy with a palatal bone-borne type retractor and ASO under local anesthesia can be an effective alternative to orthognathic surgery in adults with protrusion and an extremely thin alveolus. The biocreative strategy also provides a simple and effective method to retract the 6 anterior teeth.

Wide Linear Corticotomy and Anterior Segmental Osteotomy Under Local Anesthesia Combined Corticision for Correcting Severe Anterior Protrusion With Insufficient Alveolar Housing

BACKGROUNDS

This article presents an alternate surgical treatment method to correct a severe anterior protrusion in an adult patient with an extremely thin alveolus. To accomplish an effective and efficient anterior segmental retraction without periodontal complications, the authors performed, under local anesthesia, a wide linear corticotomy and corticision in the maxilla and an anterior segmental osteotomy in mandible.

METHODS

In the maxilla, a wide linear corticotomy was performed under local anesthesia. In the maxillary first premolar area, a wide section of cortical bone was removed. Retraction forces were applied buccolingually with the aid of temporary skeletal anchorage devices. Corticision was later performed to close residual extraction space. In the mandible, an anterior segmental osteotomy was performed and the first premolars were extracted under local anesthesia.

RESULTS

In the maxilla, a wide linear corticotomy facilitated a bony block movement with temporary skeletal anchorage devices, without complications. The remaining extraction space after the bony block movement was closed effectively, accelerated by corticision. In the mandible, anterior segmental retraction was facilitated by an anterior segmental osteotomy performed under local anesthesia. Corticision was later employed to accelerate individual tooth movements.

CONCLUSIONS

A wide linear corticotomy and an anterior segmental osteotomy combined with corticision can be an effective and efficient alternative to conventional orthodontic treatment in the bialveolar protrusion patient with an extremely thin alveolar housing.

Maxillary Corticotomies With Bone-to-Bone Retraction and Mandibular Segmental Osteotomy for Correcting an Anterior Double Protrusion

BACKGROUNDS

This article presents maxillary corticotomies with bone-to-bone retraction and anterior segmental osteotomy (ASO) as an alternative to 2-jaw orthognathics in the bimaxilary protrusion patient with partially anchylosed maxillary anterior tooth.

METHODS

The 18-year-old male, complaining of anterior protrusion, with a trauma history to the maxillary central incisor, and requesting rapid treatment, was treated with maxillary corticotomies in 2 stages and ASO in the mandible. The mandibular ASO and palatal corticotomy were done under local anesthesia and 2 weeks later, labial corticotomy followed. The anterior segment was retracted bodily using buccal C-tubes and a combination of the C-lingual retractor and palatal C-plate.

RESULTS

Due to a concern about ankylosis of the maxillary right central incisor, retraction of the anterior bone/tooth segment was chosen over any attempt to move teeth through the bone. After bone-to-bone retraction, the remaining extraction space was closed by protraction of posteriors. The total treatment period was 18 months. There was good retraction of the anterior segment and retrusion of the lips.

CONCLUSIONS

A combination of maxillary corticotomies with skeletal anchorage for bone-to-bone retraction and a mandibular ASO under local anesthesia might be an alternative treatment option for excellent profile change in a short treatment period.

Double Anterior Segmental Osteotomy Under Local Anesthesia for Correcting Adult Protrusion With Thin Alveolus and Ankylosed Tooth

BACKGROUNDS

This paper describes an additional benefit in double anterior segmental osteotomy to correct severe anterior protrusion in adult patients with extremely thin mandibular alveolus and ankylosed tooth. For the optimal anterior segmental retraction, an ankylosed posterior tooth needed surgical inclination reposition. During anterior segmental osteotomy surgery under local anesthesia, additional single tooth osteotomy was performed without challenge.

METHODS

For anterior segment retraction, osteotomy cuts were made by the surgeon to define a block of bone embedding 6 mandibular anterior teeth. First premolars were extracted during initial orthodontic treatment period. But the ankylosed lower left lateral incisor and lower right second premolar root which remains mesially with uprighted crown hindered further anterior segment retraction. The authors removed cortical bone around second premolar root and repositioned to be upright. Anterior segment was retracted to proper position utilizing the space gained.

RESULT

Thin alveolar mandibular anterior segment retraction and the second premolar uprighting were managed effectively with additional single tooth segmental osteotomy during anterior segmental osteotomy.

CONCLUSION

Double anterior segmental osteotomy can be an effective alternative to conventional orthognathic surgery in selected adult patients.

Single-Tooth Osteotomy Combined Wide Linear Corticotomy Under Local Anesthesia for Correcting Anterior Protrusion With Ectopically Erupted Canine

BACKGROUNDS

This article presents the alternative surgical treatments of both anterior protrusion by carrying out retraction on mandibular anterior fragment, meanwhile applying retraction force on maxilla anterior teeth and ectopically erupted canine with using platelet-rich fibrin (PRF).

METHODS

Anterior segmental osteotomy was combined with linear corticotomy under local anesthesia. The correction of right ectopic canine was achieved through 2 stages. First, dento-osseous osteotomy on palatal side was performed. Then second osteotomy with immediate manual repositioning of the canine with concomitant first premolar extraction was enhanced with PRF, which was prepared by centrifuging patient's blood, applied into buccal side of high canine during osteotomy. Mandibular retraction was accomplished by anterior segmental osteotomy.

RESULTS

Single-tooth osteotomy is a more effective surgical method for ankylosed or ectopically erupted tooth in orthodontic treatment. It can reduce the total orthodontic treatment time and root resorption, 1 common complication. Significant improved bone formation was seen with the addition of PRF on noncritical size defects in the animal model. It is reasonable to think that PRF can promote bone regeneration. So early bone formation also can reduce the complication such as postoperative infection.

CONCLUSIONS

As an alternative to anterior protrusion and ectopically erupted canine treatment, segmental osteotomy and corticotomy combined platelet-rich plasma can enhance orthodontic treatment outcome.

Modification protocol for an early class III treatment using 3 miniplates for bone-anchored maxillary orthopedic traction

INTRODUCTION

This article introduces the modification of 4-miniplate-assisted orthopedic protocol for class III correction. Instead of bilateral mandibular miniplates between lateral incisors and canine, the single modified Y-type C-tube with extension arms can replace 2 miniplates for temporary skeletal anchorage with advantages.

METHODS

Y-type C-tube was modified to have 2 extension arms for the application of class III elastics to replace 2 separate miniplates on either side of the mandible. A patient who declined a facemask therapy was selected to receive the modified protocol using only 3 C-tubes for bone-anchored maxillary orthopedic traction. The modified Y-type C-tube was inserted at the mandibular symphysis, and the bifurcation of the extension arms exited the tissue near the mucogingival junction.

RESULTS

The modified Y-type C-tube was placed on the mandibular symphysis, and this provided 3 advantages compared with conventional miniplates: (1) 1 C-tube placement warrants less surgical sites than 2-miniplate installation, (2) placing the C-tube in between mandibular incisors prevents damage to developing or erupting permanent canines and allows early treatment start, and (3) the characteristic bendability of extension arms permits easy alteration on position and results in the vertical and sagittal vector controls of class III elastics. When the treatment is finished, it can be also simply removed like any other C-tubes with simple detachment of extension arms.

CONCLUSIONS

The modification of 4-miniplate-assisted orthopedic protocol for class III correction provides easier surgical placement of miniplates by minimizing complications, early initiation of treatment, and more vector control with bendable extension arms of the modified Y-type C-tube.