Skeletal Effects Induced By Maxillary Skeletal Expander Mse And Hyrax Appliance In The Midface PDF Download

Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download Skeletal Effects Induced By Maxillary Skeletal Expander Mse And Hyrax Appliance In The Midface PDF full book. Access full book title Skeletal Effects Induced By Maxillary Skeletal Expander Mse And Hyrax Appliance In The Midface.

Skeletal Effects Induced by Maxillary Skeletal Expander (MSE) and Hyrax Appliance in the Midface

Skeletal Effects Induced by Maxillary Skeletal Expander (MSE) and Hyrax Appliance in the Midface
Author: Daniele Cantarella
Publisher:
Total Pages: 140
Release: 2017
Genre:
ISBN:
GET BOOK

Download Skeletal Effects Induced by Maxillary Skeletal Expander (MSE) and Hyrax Appliance in the Midface Book in PDF, ePub and Kindle

Introduction: The purpose of this study was to evaluate the skeletal changes induced by Maxillary Skeletal Expander (MSE) and Hyrax appliance in the midface with the use of Cone-Beam Computed Tomographic images. A novel methodology to study the skeletal changes was developed. Our hypothesis is that MSE and Hyrax result in a dissimilar expansion pattern and magnitude. Materials and Methods: A novel methodology was developed that included three main reference planes (maxillary sagittal plane, axial palatal plane and V-coronal plane), three axial CBCT sections through the maxilla and the pterygoid plates (axial palatal section, lower nasal section, and upper nasal section), one coronal section through the zygomatic and maxillary bones (coronal zygomatic section), and one axial section through the zygomatic arch and maxillary bone (axial zygomatic section). Fifteen and six patients were included in the MSE and Hyrax groups respectively. Parametric or non-parametric tests as appropriate were used to evaluate the treatment changes observed in the MSE group and Hyrax group. Results: In MSE patients, the midpalatal suture split, and the maxilla moved laterally and forward. Skeletal changes were largest in the axial palatal section, smaller in the lower nasal section and smallest in the upper nasal section. Also, skeletal changes were larger in the anterior than the posterior regions of the skull. The pterygoid processes of the sphenoid bone bent laterally with a center of rotation located in proximity of the cranial base. The pterygopalatine suture underwent substantial loosening in all parts. In the lower part, the pyramidal process of the palatine bone was pulled out from the pterygoid plates of the sphenoid bone, leaving detectable openings in 53% of the sutures. In the middle part, the tuberosity of the maxilla slid laterally and anteriorly relatively to the pterygoid processes. In the upper part, the posterior portion of the perpendicular plate of the palatine bone bent medially. In the coronal plane, the zygomaticomaxillary complex rotated outwards with a center of rotation located in proximity of the frontozygomatic suture in both MSE and Hyrax patients. In the horizontal plane, the zygomaticomaxillary complex rotated outwards with a center of rotation located in the proximal part of the zygomatic process of the temporal bone for MSE group. However, the center of rotation for the maxilla was located in proximity of the pterygoid process for Hyrax group. Several differences were found between the MSE and Hyrax groups. Skeletal changes were considerably larger in MSE than in Hyrax patients for almost all parameters. The pattern of lateral movement of the maxilla was more parallel in both coronal and horizontal planes with MSE. Moreover, in the horizontal plane, the center of rotation of the zygomaticomaxillary complex in MSE group was located more posteriorly and laterally than that of the Hyrax group. Furthermore, MSE was able to split the pterygopalatine suture while Hyrax appliance could not. Conclusions: MSE induced significantly more skeletal changes in the midpalatal suture, pterygopalatine suture, maxilla and circummaxillary bones in post-pubertal age patients, compared to Hyrax appliance. MSE and Hyrax resulted in dissimilar expansion pattern and varying magnitude.

Stability of Skeletal, Alveolar, and Dental Components in Microimplant-supported Midfacial Skeletal Expander (MSE) Expansion

Stability of Skeletal, Alveolar, and Dental Components in Microimplant-supported Midfacial Skeletal Expander (MSE) Expansion
Author: Catherine Ding
Publisher:
Total Pages: 29
Release: 2021
Genre:
ISBN:
GET BOOK

Download Stability of Skeletal, Alveolar, and Dental Components in Microimplant-supported Midfacial Skeletal Expander (MSE) Expansion Book in PDF, ePub and Kindle

Maxillary transverse deficiency is one of the most common skeletal problems in the craniofacial region. Rapid palatal expansion (RPE) has been the preferred standard treatment when transverse deficit is present, especially in young patients. While the main goal of RPE is to split the midpalatal suture, the circum-maxillary sutures are also affected and alveolar bone bending, and dental tipping are common. The desire is to produce a greater skeletal effect than dentoalveolar side-effects; however, the latter are commonly expressed in substantive magnitude. In order to assess skeletal expansion, alveolar bone bending and dental tipping after maxillary expansion, linear and angular measurements has been performed utilizing different craniofacial references. Since the expansion with Midfacial Skeletal Expander (MSE) is archial in nature, the aim of this paper is to quantify the differential components of MSE expansion using an angular measurement system described in a previous study, and assessing the stability of each component after orthodontic treatment. Methods: A total of fourteen subjects with a mean age of 20.4 3.5 years were treated with MSE. Pre-expansion (T0), post-expansion (T1), and post-treatment (T2) CBCT records were superimposed and compared. Based on methods in a previous study, the rotational fulcrum of the zygomaticomaxillary complex were identified and angular measurements were generated to assess changes of the zygomaticomaxillary complex (skeletal expansion), dentoalveolar bone (alveolar bone bending), and maxillary first molars (dental tipping). The stability of all three components after orthodontic treatment were also assessed by comparing measurements between post-expansion and post-treatment. Results: Immediately following MSE expansion, angular measurements showed that skeletal expansion accounted for 87.50% and 88.56% of total expansion, alveolar bone bending for 7.09% and 5.23%, and dental tipping for 5.41% and 6.21% on the right and left sides, respectively. At the end of orthodontic treatment, data showed that skeletal expansion relapsed by 11.20% and 13.28% on the right and left sides, respectively. Changes in alveolar bone bending and dental tipping between post-expansion and post-treatment varied greatly due to orthodontic dental decompensation after expansion. Conclusions: Maxillary skeletal expansion using the microimplant-supported Midfacial Skeletal Expander (MSE) produces mainly skeletal changes with insignificant dentoalveolar changes immediately after expansion. In the long term, the majority of the skeletal expansion was maintained. Long-term dentoalveolar changes were in the magnitude of 300-1500% in the opposite direction, induced by orthodontic decompensation of the pre-existing dental compensation. However, net gains in the intermolar width were maintained despite these changes due to the long-term stability of skeletal expansion.

A Three-dimensional Analysis to Investigate the Midface Changes with MSE

A Three-dimensional Analysis to Investigate the Midface Changes with MSE
Author: Luca Sfogliano
Publisher:
Total Pages: 43
Release: 2019
Genre:
ISBN:
GET BOOK

Download A Three-dimensional Analysis to Investigate the Midface Changes with MSE Book in PDF, ePub and Kindle

Maxillary width deficiencies are a common occurrence in orthodontic patients being one of the most pervasive skeletal problems in the craniofacial region. An early orthodontic treatment can improve a transverse as well as an anteroposterior maxillary discrepancy and it consists of a true skeletal expansion or of an arch development obtained through the orthodontic wire. A pure skeletal expansion can be achieved with conventional appliances when the palatal suture is not completely fused. The introduction of TAD's in common orthodontic practice has found several implications in the treatment of maxillary transverse deficiency. Using a micro-implants anchorage, the MSE has been proved to be a powerful tool to achieve a pure skeletal expansion even in adult subjects whose midpalatine maxillary suture is already fused. Studies analyzing 2D measurements conducted on CBCT reported generalized changes in the skeletal structure of patients successfully treated with MSE, evidencing a more parallel expansion compared to the conventional expanders. These findings gave rise to the desire of closely studying the impact of MSE on the entire midface skeletal structure utilizing a pure three-dimensional approach. Describing the three-dimensional movement that each bone undergoes during MSE is the major purpose of this study. No studies have previously used a pure tridimensional analysis to investigate the impact of MSE on the skeletal structures of the midface. An innovative method for pure 3D analysis has been developed utilizing modern imaging software proving that Micro-Implant Assisted Maxillary Skeletal Expander (MSE) has a significant impact in the mid-facial bone structures. The new analysis confirmed the previous finding obtained with 2D measurements and gave a better understanding of effect of MSE on the midfacial structures.

Clinical Implications of Maxillary Skeletal Expander Placement in Microscrew-Assisted Rapid Palatal Expansion Treatment

Clinical Implications of Maxillary Skeletal Expander Placement in Microscrew-Assisted Rapid Palatal Expansion Treatment
Author: Hannah Bodnar
Publisher:
Total Pages: 0
Release: 2024
Genre:
ISBN:
GET BOOK

Download Clinical Implications of Maxillary Skeletal Expander Placement in Microscrew-Assisted Rapid Palatal Expansion Treatment Book in PDF, ePub and Kindle

The specialty of orthodontics aims to optimize patients' skeletal and dental relationships, creating a harmonious orofacial complex and improving facial aesthetics and occlusal function. One common orthodontic problem is transverse maxillary constriction. Clinically, a transverse deficiency in the upper jaw presents as a narrow palate, dental crowding, crossbite, or a combination of these findings. If this orthodontic problem is diagnosed during the primary or mixed dentition years, it can be readily corrected with rapid palatal expansion. However, adult patients may also present with transverse maxillary constriction, which at this stage of skeletal maturation, requires more invasive treatment. Two treatment options that can address transverse deficiency in non-growing patients are surgically-assisted rapid palatal expansion (SARPE) and microimplant-assisted-rapid-palatal Expansion (MARPE). The MARPE technique involves the use of a maxillary skeletal expander (MSE) appliance anchored to the maxilla with mini-screws, applying expansile forces directly to the skeleton, rather than distributing them across the palate and dentition. Symmetric mid-palatal sutural separation is the anticipated therapeutic effect; however, midfacial changes may occur at other circummaxillary sutures. MARPE treatment outcomes must be evaluated clinically and radiographically. CBCT is the radiographic imaging modality of choice for patients treated with MARPE because of the effects that occur in all three planes of space. Mid-palatal suture measurements, and an abundance of additional information, can be obtained from 3D imaging analysis. The current evidence base surrounding clinical considerations of MSE placement for MARPE therapy is limited. The primary goal of this study was to assess if the skeletal position of MSE mini-screw/temporary anchorage device (TAD) placement influences the magnitude of mid-palatal suture separation and/or is associated with asymmetric skeletal changes during MARPE therapy, using CBCT imaging. We hypothesized that significant differences in mini-screw angulation relative to the palatal plane and the anteroposterior position of the MSE appliance in the hard palate may be associated with asymmetric mid-palatal suture separation. Subjects were grouped based on magnitude of asymmetric separation at the mid-palatal suture. Circummaxillary suture separation symmetry was compared between groups, along with anteroposterior positioning of the appliance, and mini-screw angulation. Our data analyses showed that the only statistically significant correlation for right and left suture separation occurred at the medial pterygoid plate suture in subjects with symmetric mid-palatal suture separation. Analysis of MSE placement and mini-screw angulation in all subjects revealed that the anteroposterior position of the mini-screws is associated with asymmetric expansion, while TAD angulation was not significant. Our findings provide guidance for clinicians' placement of the MSE appliance in the hard palate. Careful planning and execution of MARPE therapy is likely to lead to improved predictability of mid-palatal suture separation and subsequent changes to other circummaxillary structures.

Assessment of the Magnitude and Asymmetry of Micro-Implant-Assisted Rapid Maxillary Expansion

Assessment of the Magnitude and Asymmetry of Micro-Implant-Assisted Rapid Maxillary Expansion
Author: Islam Elkenawy
Publisher:
Total Pages: 50
Release: 2020
Genre:
ISBN:
GET BOOK

Download Assessment of the Magnitude and Asymmetry of Micro-Implant-Assisted Rapid Maxillary Expansion Book in PDF, ePub and Kindle

Micro-implant assisted rapid palatal expander such as the Maxillary Skeletal Expander (MSE) have been utilized to achieve skeletal expansion as an alternative to surgically assisted expansion with some success. Previous studies show significant effects on the mid-face, including a degree of asymmetry. The aim of this study is to quantify the magnitude, parallelism, and asymmetry of expansion in non-growing patients and to explore possible factors that can predict the pattern of asymmetry of expansion. We examined orthodontic non-growing patients (n=31) with an average age of 20.4 years old, with Cone Beam Computed Tomography (CBCT) images taken before and right after expansion using MSE. Those images were superimposed, and expansion was analyzed utilizing the Mid-Sagittal Plane (MSP) as a reference plane. Average magnitude of total expansion was 5 mm at the Anterior Nasal Spine (ANS), and 4.77 mm at the Posterior Nasal Spine (PNS) which showed statistical significance using a paired t-test with p

Measuring Airway Changes After Treatment with the Maxillary Skeletal Expander Using Three Dimension Cone Beam Computed Tomography and Computational Fluid Dynamic Analysis

Measuring Airway Changes After Treatment with the Maxillary Skeletal Expander Using Three Dimension Cone Beam Computed Tomography and Computational Fluid Dynamic Analysis
Author: Zachary Philip Hollander
Publisher:
Total Pages: 38
Release: 2021
Genre:
ISBN:
GET BOOK

Download Measuring Airway Changes After Treatment with the Maxillary Skeletal Expander Using Three Dimension Cone Beam Computed Tomography and Computational Fluid Dynamic Analysis Book in PDF, ePub and Kindle

Transverse maxillary deficiency is a common skeletal malocclusion that is diagnosed when the maxilla is narrow in relation to the mandible. The malocclusion develops during growth and usually does not correct without treatment. Some health problems thought to be associated with a narrow maxilla include narrowing of the pharyngeal airway and the nasal cavity and increased nasal resistance. In short, problems that make it more difficult to breath. Adult patients seeking an alternative to surgical expansion can now turn to bone-borne expanders utilizing Temporary Anchorage Devices (TADs) such as the maxillary skeletal expander (MSE) which is able to orthopedically expand the maxilla transversely at any age. A preliminary study performed at UCLA suggested that patients treated with MSE had improvement in airway volume and airflow immediately following expansion. This study investigated the effects of MSE on airway improvement using three-dimensional cone beamed computed tomography (CBCT) to measure volume changes in the upper airway and a computational fluid dynamic model (CFD) to evaluate the changes in airflow for sixteen patients at the UCLA Orthodontics Clinic at two timepoints: pre-expansion (T0) and post-expansion (T1). Treatment with the MSE caused a statistically significant increase in the volume of the airway after expansion as compared with the control group. Furthermore, CFD analysis showed that treatment with the MSE caused a statistically significant reduction in the airway resistance. The airway resistance of the MSE group was no longer statistically different from the control group after expansion. There was no correlation between the volume increase and the decrease in airway resistance. Overall, there was a significant increase in total airway volume, oropharyngeal volume, nasopharyngeal volume, and nasal cavity volume with MSE treatment immediately after expansion, but there was no correlation between volume increase and the improvement in breathing metrics, namely airway resistance. These results suggest that treatment of maxillary constriction using the MSE appliance may show positive effects in improvement of the upper airway volumes and reduction of the upper airway resistance.