View clinical trials related to Impacted Tooth.
Filter by:The first choice therapy in case of palatally impacted canines is their exposure and orthodontic eruption to improve facial esthetics and prevent pathologies associated with impacted teeth and Temporomandibular Joint Disorders. Current solutions in digital dentistry allow the registration of three dimensional imaging datasets such as cone beam computed tomography (CBCT) and digital impression of the dentition and soft tissues obtained via intraoral scanning using orthodontic planning software. This allows the surgeon to visualize the position of the impacted canine prior to surgery and to design and manufacture a surgical guide to aid in the localization of the impacted tooth during surgery. The aim of this randomized clinical trial is to assess the feasibility of surgical exposure of palatally impacted upper canines with open-eruption technique using a surgical template. The secondary purpose of this study is to compare this method with the conventional free-hand surgical exposure. Patients included in this study are randomly assigned to two study groups. In Group 1 surgical exposure for open eruption of palatally impacted canines is performed following virtual planning using a surgical template. In Group 2 surgical exposure for open-eruption of palatally impacted canines is carried out using the conventional free-hand method. We hypothesize that guided exposure of the impacted canines will be as successful as the conventional method with shorter surgical intervention and higher associated costs.
This single-center prospective cohort study includes patients aged 18-30 years aimed to compare the effects of bilateral extraction of wisdom teeth at a single appointment (Group A) versus two separate appointments (Group B) on patients' oral health-related quality of life (OHRQoL). The primary outcome is Oral Health Impact Profile 14 score, while secondary outcomes included postoperative pain and maximum interincisal opening.
A digital workflow was used to assist the oral surgeon in pre-orthodontic exposure of a vestibular impacted canine using Augmented Reality. Through software for the Object Recognition and Tracking, the researchers expand reality with cone beam computer tomography digital contents to optimize the outcome of surgery. The real-time video frames of the operating field aligned with the three-dimension file of the impacted tooth, were used as a guide to evaluate the surgical access to perform a minimally invasive flap and osteotomy.
The aim of this prospective study was to assess the effectiveness of concentrated growth factors (CGFs) in preventing the development of alveolar osteitis (AO) after the extraction of partially-erupted mandibular third molars. This study was designed as a randomized controlled clinical trial. In each case, one socket received CGFs and the other served as a control. The predictor variable was the CGFs application and the sides were categorized as 'CGFs' and 'non-CGFs'. The outcome variable was the development of AO during the first postoperative week. Also, demographic variable included age and gender was noted.
Research questions: 1. Will the panoramic images derived from cone beam CT data give better diagnostic ability than conventional panoramic radiographs? 2. Will 3D cephalometric analysis offer the orthodontists and surgeons better information for treatment planning? 3. Will the 3D cephalometric analysis give more accurate treatment plan and better treatment outcome? General hypothesis and special aims Overall aims: - To compare 2D versus 3D cephalometric analysis: treatment planning and therapeutic outcome. - To determine the accuracy and diagnostic ability and usability of the 3D cephalometric analysis. - To evaluate the diagnostic ability and usability of the panoramic image derived from cone beam CT data as compared to 2D panoramic images. - To evaluate the value of the cone beam CT data in cephalometric analysing process for orthodontic and maxillofacial surgery treatment. Hypotheses: 1. The availability of the 3D cephalometric analysis influences the orthodontic and maxillofacial treatment plan and decision, and might change the treatment outcome. 2. Panoramic images derived from cone beam CT data may provide equal information for diagnosis as conventional panoramic images. 3. Cone beam CT will be able to replace "classic orthodontic imaging" being more time and dose efficient and having a beneficial effect on treatment outcome.