Academic literature on the topic 'MARPE, surgically assisted rapid palatal expansion (SARPE)'

This review was undertaken to compare the effects of surgically assisted rapid palatal expansion (SARPE) and mini-screw assisted rapid palatal expansion (MARPE). Discrepancies in the transverse relation between maxillary and mandibular dentition can result in the development of posterior cross bite. For the correction of posterior cross bite, maxillary expansion is frequently undertaken. The conventional approach for maxillary expansion includes expansion screw being anchored to the maxillary teeth and is known and rapid palatal expansion (RPE) appliance. However, RPE can only be applied in growing individuals and is not as effective in late adolescents and adults. In such patients, surgically assisted rapid palatal expansion (SARPE) technique is used to expand the maxillary arch. As this procedure involves surgery, it deters many patients from choosing SARPE as a treatment option. Recently a non-surgical technique of expansion of maxillary arch has been introduced that can be applied to late adolescents and adults using palatal mini-screws. This technique is known as mini-screw assisted rapid palatal expansion (MARPE). In this review, the studies in the current literature regarding the SARPE and MARPE expansion techniques as compared to conventional RPE were included. It was observed that both SARPE and MARPE are effective methods for achieving maxillary expansion. With both techniques being effective, the advantage of MARPE over SARPE is the non-surgical approach which leads to higher patient acceptance and lower rate of complications.

Abstract A maxillary transverse deficiency is a common craniofacial problem. Rapid palatal expansion (RPE) has been traditionally considered for the treatment of children and young adolescents, but this is not applicable in late adolescents or adults due to the ossification of facial sutures. A surgically assisted rapid palatal expansion (SARPE) was initially advocated for this group of patients, but the surgical procedure is associated with morbidity. As temporary anchorage devices (TADs) have been recently and popularly applied in clinical orthodontics, micro-implant-assisted rapid palatal expansion (MARPE) has been employed to facilitate maxillary expansion in skeletally mature patients. There have been various proposed MARPE designs and the outcomes appear promising. The aim of the present article is to discuss the role of MARPE in clinical orthodontics by reviewing its background, design, indications, treatment effects, stability, and limitations in the current literature. The treatment effects of two types of MARPE, bone-borne and tooth-bone-borne (hybrid), will be individually assessed.

ABSTRACT Introduction: Maxillary transverse deficiency is a highly prevalent malocclusion present in all age groups, from primary to permanent dentition. If not treated on time, it can aggravate and evolve to a more complex malocclusion, hindering facial growth and development. Aside from the occlusal consequences, the deficiency can bring about serious respiratory problems as well, due to the consequent nasal constriction usually associated. In growing patients, this condition can be easily handled with a conventional rapid palatal expansion. However, mature patients are frequently subjected to a more invasive procedure, the surgically-assisted rapid palatal expansion (SARPE). More recently, researches have demonstrated that it is possible to expand the maxilla in grown patients without performing osteotomies, but using microimplants anchorage instead. This novel technique is called microimplant-assisted rapid palatal expansion (MARPE). Objective: The aim of the present article was to demonstrate and discuss a MARPE technique developed by Dr. Won Moon and colleagues at University of California - Los Angeles (UCLA). Methods: All laboratory and clinical steps needed for its correct execution are thoroughly described. For better comprehension, a mature patient case is reported, detailing all the treatment progress and results obtained. Conclusion: It was concluded that the demonstrated technique could be an interesting alternative to SARPE in the majority of non-growing patients with maxillary transverse deficiency. The present patient showed important occlusal and respiratory benefits following the procedure, without requiring any surgical intervention.

In postpubertal patients, maxillary transverse discrepancy is a common condition often requiring surgical approaches. To overcome the excess morbidity and discomfort, maxillary expansion through miniscrew-assisted rapid palatal expansion (MARPE) was proposed and studied in the last few years. This umbrella review aims to critically appraise the quality of evidence and the main clinical outcomes of available systematic reviews (SRs) on MARPE. An extensive search was carried out in five electronic databases (PubMed-Medline, Cochrane Database of SRs, Scielo, Web of Science, and LILACS) until December 2021. The methodological quality was appraised using the A Measurement Tool to Assess SRs criteria 2 (AMSTAR2). The primary outcome was the methodological quality of SRs. Overall, four SRs were included and analyzed, one of high methodological quality, one of low and two of critically low. Despite the verified methodological constraints, MARPE seems to present significant clinical changes when compared to conventional RPE, SARPE or controls and less adverse clinical outcomes. The quality of evidence produced by the available SRs was not favorable. Future high standard SRs and well-designed clinical trials are warranted to better clarify the clinical protocols and outcomes success of MARPE.

Introduction: The effects of rapid palatal expansion on condylar response is not described very well. The purpose of this review is to describe whether rapid palatal expansion has an influence on the condylar position. Methods: This review article describes the three main types of expanders namely Rapid palatal expansion (RPE), mini-screw assisted rapid palatal expansion (MARPE), and surgically assisted rapid palatal expansion (SARPE) and their effects on condylar position from the current literature. Results: The palatal expanders can have an effect on the Class II malocclusion patients in helping to decrease the overjet in some patients. It also helps in the lowering the nasal resistance and increases the airway volume. The palatal expanders can lead to molar extrusion which results in increased joint spaces in the temporomandibular joint and an alteration of condylar position. Conclusions: The design of expanders can influence the effects on dentition such as molar extrusion, the joint space, and the condylar position. Dentists and orthodontists can have a better discernment of effects of expanders and condylar position by understanding in detail the effects of the palatal expanders on occlusal alterations and condylar position.

One of the most common problems faced by an orthodontist while treating young as well as adult patients is the constricted maxillary arch. Expansion of the maxillary arch has been a topic of debate since centuries. The commonly used methods for constricted arch include slow maxillary expansion, rapid maxillary expansion and surgically assisted rapid palatal expansion (SARPE). Slow palatal expansion is a procedure to expand the maxillary arch in transverse dimension to correct the constricted maxillary arch with light forces. The following review article provides detailed information of various slow maxillary expansion appliances with their implications in orthodontics.

Surgically assisted rapid palatal expansion (SARPE) is a successful method for treating transverse discrepancies in adult patients. The relocation of maxillary segments may induce changes at the surrounding soft tissues as well. The aim of this systematic review was to examine the possible effects that SARPE may have in the soft tissues of the face. Our search strategy included electronic databases (Pubmed, Scopus, ProQuest, Google Scholar, Cochrane Library) and a hand search of the reference list of found reviews. A priori definition of inclusion and exclusion criteria was made. Finally, 15 articles were included in qualitative synthesis. Risk of bias was generally high among the included studies. Study outcomes included nasal, labial, nasolabial and other facial soft tissue measurements. The evaluation of the changes was two-dimensional in six studies, and three-dimensional in nine studies. Meta-analysis was unfeasible due to lack of standardization, important methodological limitations, and shortcomings of the studies. A post-surgical increase in the dimensions of the alar width and the alar base width was commonly reported among the included studies. However, the above should be considered with caution due to the high risk of bias and the inability for quantitative synthesis.

Introduction The aim of the present study is to evaluate the skeletal modifications induced by maxillary expansion supported by palatal micro-implants and localized osteotomies produced with minimally invasive surgical technique in young-adult and adult patients. In the present investigation, osteotomies had a lower extension than the ones used in conventional surgically assisted rapid palatal expansion (SARPE), to adopt a minimally invasive surgical technique that can be performed with greater comfort for the patient and less post-operative sequelae. More in detail, the localized osteotomies were executed only in the anterior part of the midpalatal suture and bilaterally at the basis of the zygomatic process of the maxilla without involvement of the piriform rim. These areas represent a great resistance to the lateral maxillary movement. Furthermore, they are of simple surgical access and don’t present important arterial plexuses. Patients requiring micro-implant supported maxillary expansion and/or SARPE routinely undergo a pre-treatment cone-beam computed tomography (CBCT) of the skull, to plan the surgical operation and, one month after treatment a secondary CBCT for a surgical and orthodontic control. CBCT is a low radiation tomography, extensively used in maxillofacial surgery and in dentistry. For the implementation of this study, that aims at evaluating the efficacy of micro-implant-supported maxillary expansion in combination with localized osteotomies, only radiologic exams that are anyway needed for the planning and post-treatment evaluation were used. Aim The aim of the present study is to evaluate the advantages introduced in the treatment of maxillary constriction by the therapy with micro-implant supported Maxillary Skeletal Expander (MSE) and localized osteotomies in young-adult and adult patients. The main objective is to evaluate the efficacy of the technique, by measuring the movement of skeletal landmarks in the midface, particularly on the maxillary and zygomatic bones, and on the lateral wall of the nose, by comparing the pre-treatment and post-treatment CBCT. For this particular technique, a new methodology for digital planning of position of MSE and miniscrews on patient CBCT was developed. Furthermore, incorporation of 2 additional miniscrews to the original MSE design, which conventionally features only 4 miniscrews, was developed with the aid of computer aided design – computer aided manufactured (CAD-CAM) technology. Methods The study presented the following steps: ▪ Development of a digital planning methodology for positioning the miniscrews and MSE appliance on pre-treatment CBCT ▪ Development of a CAD-CAM methodology for incorporating 2 additional miniscrews to the original MSE design with 4 miniscrews ▪ Selection of patients with age above 17 years, without congenital craniofacial syndromes, who require intervention of maxillary skeletal expansion ▪ Acquisition of initial CBCT with 17 x 13.5 cm field of view (FOV) ▪ Intervention of maxillary expansion supported by palatal micro-implants and localized osteotomies executed with minimally invasive surgical technique ▪ One month after treatment, acquisition of post-treatment CBCT with 17 x 13.5 cm FOV ▪ Analysis of skeletal modifications in the midface (maxillary bone, sphenoid bone, zygomatic arch, nasal cavity, etc.), by comparing the pre- and post- treatment CBCT with a 3D software (OnDemand software by Cybermed) Results The new methodology allowed the digital planning of MSE and miniscrews positioning on patients’ CBCTs, and the incorporation of two additional miniscrews to the original MSE design through CAD-CAM technology. In the clinical trial, a total of four patients had an average age of 27.6 years (range 22.1 – 39.9 years). MSE appliance was activated by an average of 6.0 mm and generated a parallel split of the midpalatal suture of 3.4 mm, 3.0 mm and 3.6 mm at anterior nasal spine (ANS), nasopalatine foramen (NPF) and posterior nasal spine (PNS), respectively. Skeletal modifications were found in all CBCT sections evaluated in the study (axial palatal, upper nasal, coronal zygomatic, axial zygomatic), indicating that all midfacial bones are affected by maxillary expansion with MSE and localized osteotomies. Particularly, skeletal changes were noticed also in CBCT sections above the lateral maxillary osteotomies (LMOs), in the maxilla, zygomatic bone, zygomatic arches, and nasal cavity. In the upper nasal section (UNS) the maxilla was laterally displaced by 2.4 mm and 0.9 mm, at its anterior and posterior extremities, respectively. The frontozygomatic angle (FZA) increased by 1.9° (average of right and left side), while the lower interzygomatic distance increased by 2.9 mm, indicating a rotation of the zygomatic bone in a lateral direction. The zygomatic arch was affected by bone bending phenomena and was deflected in an outward direction, with increase in the anterior intermaxillary distance by 1.7 mm and in the posterior inter-zygomatic distance by 1.6 mm. The nasal width (NW) parameter increased by 2.9 mm with treatment: this anatomical finding is the basis for a potential improvement in nasal breathing for patients suffering from increased nasal airway resistance. The cited modifications in skeletal structures above lateral maxillary osteotomies (LMOs) are most likely due to the fact that LMOs didn’t involve the piriform rim of the maxilla, and this point needs further investigations. Regarding dentoalveolar modifications, the inter-molar distance increased by 7.4 mm, and molars underwent a small dentoalveolar tipping in a buccal direction by 1.1° (average of right and left side), as evidenced by the change in molar basal bone angle (MBBA). No intra-operatory hemorrhage nor post-operatory bleeding was reported in treated patients, probably due to the lack of pterygopalatine suture surgical disjunction. A limitation of the study is its small sample size, represented by 4 patients. A larger number of patients is required to confirm the above results.

Introduction: L’expansion palatine du maxillaire a beaucoup d’effets positifs sur la respiration et la qualité du sommeil, mais peu d'études ont examiné ces données sur des adultes ayant dépassé l’âge permettant de bénéficier d'une expansion palatine conventionnelle. Le but de cette recherche est d’évaluer la stabilité de l’EPRAC (expansion palatine rapide assistée chirurgicalement) et son effet sur les troubles respiratoires après l’ablation des appareils orthodontiques. Méthodes: Neuf patients (Âge moyen 21, entre 16-39 ans) nécessitant une EPRAC ont passé des nuits dans un laboratoire de sommeil, et ce avant l’EPRAC, après l’EPRAC, et après l’ablation des appareils fixes. Les radiographies céphalométriques postéroantérieures ainsi que les modèles d’étude ont été pris pendant ces trois périodes de temps. Résultats: L’analyse des modèles d’étude a démontré une récidive significative au niveau des distances inter-molaires et inter-canines au niveau du maxillaire seulement. Les analyses céphalométriques ont démontré une récidive au niveau de la largeur maxillaire. Aucun changement important n'a été observé dans les stades de sommeil, mais une réduction importante dans l’index de ronflement a été notée. De plus, il y avait moins de changements entre les stades de sommeil. Conclusions: La récidive squelettique est minime et cliniquement non significative. Par contre, les changements dans les distances intermolaires et intercanines sont cliniquement importants. Il semble également qu'une EPRAC ait un effet positif sur la qualité de sommeil par la réduction de l’indice de ronflement ainsi que sur la diminution des changements entre les stades de sommeil.
Introduction: Orthopedic expansion appears to have several positive effects on respiration as well as sleep quality, but a lack of studies examine these findings using SARPE on skeletally mature individuals. The aim of this study was to evaluate post-SARPE stability as well as its effect on sleep disordered breathing after completing full fixed orthodontics. Methods: 9 patients (average age 21, range 16-39) requiring SARPE underwent polysomnographic testing in sleep laboratory before SARPE (T0), after SARPE (T1), and after removal of full fixed appliances (T2). Study models and anteroposterior cephalometric radiographs were also taken at the 3 time points. Results: Study model analysis showed significant relapse for intermolar and intercanine widths. Anteroposterior cephalometric results were significant only for effective maxillary width. There were no significant changes in any sleep stages, however a dramatic reduction in snoring as well as fewer stage shifts were observed. Conclusions: Although statistically significant relapse was observed on study models and anteroposterior cephalometric radiographs, the dental relapse appears to be more clinically significant than the skeletal relapse. SARPE appears to have a positive effect on sleep quality by reducing the snoring index as well as reducing transitions between sleep stages.

Introduction : L’expansion palatine rapide assistée chirurgicalement (EPRAC) est une option de traitement privilégiée chez les patients ayant atteint la maturité squelettique et présentant une déficience transverse du maxillaire. L’effet bénéfique de l’EPRAC sur la fonction respiratoire est régulièrement mentionné, toutefois, encore peu d’études ont évalué son impact sur les voies aériennes supérieures. L’objectif de cette étude clinique prospective comparative consistait à évaluer les effets tridimensionnels de l’EPRAC sur la cavité nasale, le nasopharynx et l’oropharynx à l’aide de la tomodensitométrie. Méthodologie : L’échantillon était constitué de 14 patients (5 hommes, 9 femmes) dont l’âge moyen était de 23,0 ± 1,9 ans (16 ans 4 mois à 39 ans 7 mois). Tous ont été traités avec un appareil d’expansion de type Hyrax collé et l’expansion moyenne a été de 9,82 mm (7,5 - 12,0 mm). Tous ont eu une période de contention d’une année avant le début de tout autre traitement orthodontique. Une évaluation par tomodensitométrie volumique à faisceau conique a été réalisée aux temps T0 (initial), T1 (6 mois post-expansion) et T2 (1an post-expansion) et le volume des fosses nasales, du nasopharynx et de l’oropharynx ainsi que les dimensions de la zone de constriction maximale de l’oropharynx ont été mesurés sur les volumes tridimensionnels obtenus. Résultats : Les résultats radiologiques ont démontré une augmentation significative du volume des fosses nasales et du nasopharynx ainsi qu’une augmentation de la zone de constriction maximale de l’oropharynx à 6 mois post-expansion. Par la suite, une portion du gain enregistré pour ces trois paramètres était perdue à un an post-EPRAC sans toutefois retourner aux valeurs initiales. Aucun effet significatif sur le volume de l’oropharynx n’a été observé. De plus, aucune corrélation significative entre la quantité d’expansion réalisée et l’ensemble des données radiologiques n’a été observée. L’analyse de la corrélation intra-classe a démontré une excellente fiabilité intra-examinateur. Conclusions : L’EPRAC entraîne un changement significatif du volume de la cavité nasale et du nasopharynx. L’EPRAC ne modifie pas le volume de l’oropharynx, par contre, un effet significatif sur la zone de constriction maximale de l’oropharynx est noté. Les effets observés n’ont pas de corrélation avec le montant d’activation de la vis d’expansion.
Introduction: Surgically assisted rapid palatal expansion (SARPE) is a treatment of choice for patients who have reached skeletal maturity and present a maxillary transverse deficiency. It is often mentioned that SARPE has the benefit to improve respiratory function, however, only a few research projects have investigated the effects of SARPE on the upper airways. The objective of this clinical prospective comparative study was to evaluate the three-dimensional effects of SARPE on the nasal cavity, the nasopharynx and the oropharynx using computed tomography. Materials and Methods: The sample consisted of 14 subjects (5 males, 9 females) whose mean age was 23.0 ± 1.9 years (range: 16 y. 4 mo. to 39 y. 7 mo.). All patients were treated using a bonded Hyrax expander and the mean expansion was 9.82 mm (7.5-12.0 mm). A one-year retention period was undertaken before the beginning of any other orthodontic treatment. A cone-beam computed tomography (CBCT) evaluation was performed at T0 (initial), T1 (6 months post-expansion) and T2 (1 year post-expansion), and then the nasal cavity, nasopharyngeal and oropharyngeal volumes and the oropharyngeal minimal cross-sectional area were measured on the three-dimensional volumes that were obtained. Results: Radiological results have demonstrated a significant increase of the nasal and nasopharyngeal volumes and also an increase of the oropharyngeal minimal cross-sectional area at 6 months post-expansion. At one year post-SARPE, for these three parameters, a part of the gain was lost but did not return to the initial values. No significant effect on oropharyngeal volume was found. No significant correlation between expansion screw activation and radiological parameters were noted. Intra-class correlation analysis showed excellent intra-examiner reliability. Conclusions: SARPE causes significant changes of the nasal cavity and nasopharyngeal volumes. SARPE does not modify the oropharyngeal volume, but induces significant changes of the oropharyngeal minimal cross-sectional area. The observed effects do not have a correlation with the amount of expansion screw activation.