Introduction: This systematic literature review was performed to establish the mechanism, methodology, characteristics, clinical application and opportunities of the T-Scan III System as a diagnostic tool for digital occlusal analysis in different fields of dentistry, precisely in orthodontics. Methods: Searching of electronic databases, using MEDLINE and PubMed, hand searching of relevant key journals, and screening of reference lists of included studies with no language restriction was performed. Publications providing statistically examined data were included for systematic review. Results: Twenty potentially relevant Randomized Controlled Trials (RCTs) were identified. Only ten met the inclusion criteria. The literature demonstrates that using digital occlusal analysis with T-Scan III System in orthodontics has significant advantage with regard to the capability of measuring occlusal parameters in static positions and during dynamic of the mandible. Conclusion: Within the scope of this systematic review, there is evidence to support that T-Scan system is rapid and accurate in identifying the distribution of the tooth contacts and it shows great promise as a clinical diagnostic screening device for occlusion and for improving the occlusion after various dental treatments. Additional clinical studies are required to advance the indication filed of this system. Importance of using digital occlusal T-Scan analysis in orthodontics deserves further investigation.
The presence of supernumerary teeth is not uncommon in the general population. Supernumerary teeth (hyperodontia) appear more in permanent dentition. Supernumerary teeth which are in the premolar region occur more often in the mandible with different shape and size. They might occur singly or in multiples, be erupted or impacted. The reason of hyperodontia is still unknown. There are a lot of theories. Various theories have been suggested to explain the etiology of supernumerary teeth in general including both, the genetic theory and environmental factors.Furthermore, it has been suggested that supernumerary premolar teeth belong to a third (postpermanent) series. Proliferation of dental lamina has been implicated. The presence of supernumerary teeth usually is connected with some disease or syndromes. Treatment of hyperodontia depends on the area where supernumerary teeth occur.This article presents a case report of an 11-year-old girl with hyperodontia of the first premolar, erupted palatinally in the left side of maxilla. This is supplemental tooth that looks like the permanent premolar. The orthopantomogram and 3D radiograph showed a big possibility of concrescence of both premolars. To make a definitive diagnosis and a plan for orthodontic treatment, OPG and 3D radiograph were crucial.
Correct positioning of the canines after their retraction is of great importance for the function, stability and esthetics. Aim: Two case reports were presented to compare the efficiency of two techniques for canine retraction, segmented mechanics using 0.017 x 0.025 TMA T-loop vs sliding straight-wire mechanics usingelastomeric chains. Material and methods: The first case describes orthodontic treatment with 0.017 x 0.025 TMA T-loop whereas the second case describes a 9 mm canine retraction using elastomeric chains. Results: Depending on the type of malocclusion both techniques for canine retraction can be used. Post treatment results showed canine retraction with good anchorage control and no mesial movement of the molars.Conclusion: Both techniques provide an optimum rate of tooth movement and none of the methods can be considered superior in terms of tooth movement or side effects, including rotation, tipping, root resorption, anchorage loss, as well as associated pain.
Early loss of mandibular permanent molars with supraeruption of maxillary permanent molars is a common clinical finding causing functional posterior occlusion problems. Rehabilitation of the stomatognathic system often requires preprosthodontic intervention with molar intrusion which is one of the most difficult movements in orthodontic mechanics requiring efficient anchorage to achieve success.The aim of this study was to present two case reports, with orthodontic mini-implants used for molar intrusion as preprosthetic treatment, reducing the need for prosthetic crown reduction in patients with edentulous space discrepancy. With the aid of chain elastics, the force of intrusion passing through the center of resistance of the tooth, supraerupted maxillary molars were intruded approximately 0.5 mm per month. The intrusive tooth movement maintained the vitality of the intruded teeth and was not aggressive to the periodontal structures, did not cause root resorption and no change of the pulp flow was detected. In contrast to traditional orthodontics, mini-implants were demonstrated to be clinically efficient in providing sufficient anchorage against orthodontic forces. With these devices, using well-controlled magnitude and direction of the force, we reestablished successfully the functional posterior occlusion. By presenting these case reports, we emphasize the versatility of orthodontic mini-implants as a form of temporary anchorage devices (TADs) in the biomechanics of molar intrusion attempted to create interocclusal space for adequate prosthodontic restoration with osseointegrated implants and prosthesis.
Deep overbite as one of the most common malocclusion that can occur along with other associated malocclusions can be treated with several mechanisms.One such mechanics is true intrusion of anterior teeth. Deep overbite correction by intrusion of anterior teeth affords a number of advantages and is the desired treatment option for gummy smile correction, esthetics improvement as well as correction of mandible rotation in order to improve vertical dimension and to correct Class II malocclusion.This case report describes the orthodontic treatment of a 17-year-old patient diagnosed as severe Angle's Class II malocclusion with maxillary prognathism and skeletal deep bite, dental Class II division 1 malocclusion associated with 4 mm overbite, an increased overjet and excessive gingival display on smiling.After the analyses and due to the fact that the patient avoided surgical method for her malocclusion correction, our treatment plan in this case was alternative (camouflage) with upper premolars extraction.In the first phase we did 9 mm canine retraction with preserved vertical dimensions of upper incisors. In the second phase of our treatment we did incisor intrusion and en masse retraction of the incisors. Intrusion of upper incisors was done using a 0.017 × 0.025 Connecticut intrusion arch and 0.019 x 0.025 stainless steel as base archwire was used. Outstanding results were achieved with an improved facial profile, smile harmony and stable occlusal relationships.Through this case report we highlight the efficiency of Connecticut intrusion arch as а clinically manageable biomechanical system to optimize the orthodontic treatment. The use of good biomechanical principles helped us to achieve all treatment goals and objectives with minimal side effects.
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