View clinical trials related to Malocclusion.
Filter by:The purpose of this study is to determine if the Forsus Fatigue resistant Device appliance with direct skeletal mini plates anchorage is capable of achievement of skeletal mandibular effects while preventing the excessive proclination of the lower incisors at the end of the treatment when compared to the conventional Forsus Fatigue resistant Device appliance applied to the upper and lower dental arches in female patients with skeletal Class II malocclusion
The purpose of this study is determine the effect the Microosteoperforation (MOPs) using the miniscrew on the rate tooth movement. Moreover, measurement of the level of the pain and pain's interference, the level of satisfaction and comfort using this protocol. Finally root resorption associate with this technique will be evaluated.
The aim of the study is to perform a three-dimensional (3D) evaluation of the dentoskeletal changes in pubertal Class II malocclusion subjects treated with the Herbst appliance (HAG), in comparison with a Class II comparison group (CG). 3D virtual models generated from three time-point CBCTs (T0, baseline; T1, immediately after Herbst insertion; and T2, 8 months after) of 25 HAG patients will be evaluated. Virtual models obtained from 25 Class II malocclusion patients, in the same stage of biologic maturation and skeletal abnormality, but with no orthopedic treatment will be constructed for the CG subjects. These CG patients are under orthodontic treatment, but only with teeth alignment. Voxel based registration on the anterior cranial fossa will be used to assess maxillary and mandibular displacement/articular fossa remodeling; regional registration on the mandibular corpus will be performed to evaluate mandibular growth and mandibular dental changes; and regional registration on the anterior region of the maxilla will be performed to evaluate maxillary growth and maxillary dental changes.
The AcceleDent® device has been introduced to the specialty of orthodontics in order to reduce treatment time. The theory behind AcceleDent® is that high frequency vibratory forces (30Hz) delivered to the teeth will stimulate the bone remodeling that is necessary for tooth movement to occur more quickly. Additionally, one claim of the AcceleDent® product is that it may reduce pain and discomfort during orthodontic treatment. This study will be a parallel group, triple-blind randomized clinical trial comparing two groups of subjects with 12 participants in each group. Subjects will be randomized to receive one of two vibrational units, which will differ in frequency and/or amplitude of vibration. The subjects will be asked to change their aligners every week instead of every 2 weeks, which is common with Invisalign.
Thermoplastic devices are used in orthodontic treatment and consists of a series of nearly invisible, removable aligners. However, every device used in the mouth can change the buccal flora and increase the number of bacterias. This is a risk factor for enamel demineralization. The treatment can vary in time of use per day. The patient under orthodontic treatment has to use the device for 22 hour each day. When the period of retention comes, it is reduced to 8 hours. The investigators want to know if the concentration of bacterias in saliva and dental plaque will increase, and if the material can cause damage on gingiva.
The purpose of this research study is to assess the clinical effectiveness of a minimally invasive alveolar microperforation procedure to achieve accelerated tooth movement in patients undergoing orthodontic treatment for orthognathic surgery. "Accelerated tooth movement" means that Microperforation technique may help complete orthodontic treatment sooner than would be expected in conventional orthodontic treatment
To demonstrate that growing teenagers which present up to full cusp Class II malocclusions can be treated using the Invisalign System.
INTRODUCTION: Dentoalveolar surgeries such as piezocision, have been developed with the aim to accelerate the tooth movement and therefore reduce the length of orthodontic treatment. Although this surgical technique seems to present several advantages, such as decreased risk of decalcification or orthodontic relapse, its use as a routine practice is not yet recommended. The main purpose of this study is to determine the duration of orthodontic treatment by using the piezocision. The secondary objectives are to evaluate the effect of this surgical technique on bone density, root resorption, osteoclast activity, inflammatory events and pain assessment. MATERIAL AND METHODS: The investigators will conduct a prospective study. The experimental group will consist of 14 adults, subjects from 18 to 40 years-old (10 women, 4 men). The control group will consist of 30 matched patients, who have been already treated in the orthodontic clinic of the University of Montreal. The reliabilities of Intra and Inter assesors will be measured for each doctor. After completion of the surgical guides from CBCT, the Piezocision will be performed the same day of the bracket indirect placement. The surgical procedure will be standardized and did it by the same surgeon. The appointments will be every 2 weeks for 4 months, then every month. The investigators will make an assessment of pain by using a numerical visual scale, during the first 7 days after surgery. Analysis of inflammatory markers (IL-1) and osteoclast activity (RANKL, OPG) will be evaluated from the gingival sulcus fluid collected at day 0, 1, 3, 5, 8, 12, 16 and 24 weeks. At the end of the treatment, the overall quality evaluation of treatment using the "American Board of Orthodontics' grading system" would be realized by two blind external observers to limit bias.
Advances in orthodontics have improved the quality of appliances and treatment protocols, raising the standard of patient care. However, enamel demineralization is still a problem associated with orthodontic treatment, leading to the formation of white spot lesions; this is a grave concern to orthodontists and patients. The overall prevalence of white spot lesions among orthodontic patients has been reported to be between 4.9% and 84%.1 When basic oral hygiene is poor, orthodontic appliances create areas of plaque stagnation, especially around brackets, bands, wires, and other attachments. Levels of acidogenic bacteria, present in the plaque, notably Streptococcus mutans (S mutans), are higher in orthodontic patients than in non-orthodontic patients. This causes demineralization around the brackets and leads to white spot lesions. They are most prevalent around the cervical region of bands in the posterior region, whereas in the anterior region, the lateral incisors in both arches, followed by the canines, are most commonly affected.
This study evaluates the effects of a finishing protocol in orthodontic outcomes using ABO-OGS scores. Patients who finish orthodontic treatment and fulfill the inclusion and exclusion criteria receive a treatment using a finishing protocol and their scores are compare with 40 patients who don't receive a finishing protocol