Avaliação da aplicação de um campo magnético permanente sepultado em área de enxerto ósseo alógeno e dento-alveolar : estudo experimental em ratos

Azambuja, Henrique Voltolini de

January 2007

Proposição: O presente trabalho propõe o estudo histológico descritivo da aplicação de um campo magnético sepultado, estático e permanente em área de enxerto ósseo alógeno liofilizado e dento-alveolar associada a defeito cirúrgico em mandíbulas de ratos. Metodologia: estudo experimental in vivo, randomizado. Amostra foi composta por 21 ratos, da espécie Rattus novergicus albinus, linhagem Wistar, machos, divididos em três grupos, correspondendo aos tempos experimentais de sete, 21 e 45 dias. Foram realizadas ostectomias associadas a odontossecções, na face lateral externa do corpo mandibular e no ramo ascendente, atingindo transversalmente a raiz do incisivo inferior e os ápices dos molares. Este defeito cirúrgico permitiu a adaptação de dispositivos metálicos magnetizados (grupo teste) e não magnetizados (grupo controle) associados às regiões apicais dos molares e ao coto distal do incisivo inferior, local este onde realizou-se enxertia óssea alógena liofilizada. A intensidade média do campo magnético sepultado e permanente foi de 250 gauss.Resultados: observou-se no grupo teste e controle, nos diferentes tempos experimentais a gradativa integração do enxerto ósseo alógeno liofilizado, a manutenção da vitalidade pulpar dos molares e coto proximal do incisivo inferior, além da contínua erupção do incisivo inferior do rato. Nos grupos teste, principalmente aos 45 dias, constatou-se uma diferenciada e exuberante neoformação óssea centrípeta em direção aos dispositivos metálicos imantados. Conclusão: o campo magnético sepultado in vivo foi capaz de favorecer o processo de cicatrização óssea no defeito cirúrgico criado. / Purpose: The present study provides a descriptive histological analysis of the use of a buried, static and permanent magnetic field in lyophilized bone allografts in a dentoalveolar area associated with surgical defects in rat mandibles. Method: a randomized in vivo experimental study was carried out with 21 male Wistar rats (Rattus norvegicus albinus), which were split into three groups, corresponding to 7, 21 and 45 experimental days. Ostectomies associated with odontotomies were performed on the outer lateral face of the mandibular body and in the ascending branch, cross-sectionally to the root of the lower incisor and to the molar apices. This surgical defect allowed for the use of magnetized (test group) and non-magnetized (control group) metal devices associated with molar apices and with the distal stump of the lower incisor, where the lyophilized bone allograft was performed. The intensity of the buried and permanent magnetic field amounted to 250 gauss. Results: In the test and control groups, there was gradual integration of the lyophilized bone allograft, maintenance of pulp vitality of the molars and of the proximal stump of the lower incisor, in addition to continuous eruption of the lower incisor. In the test groups, especially at 45 days, there was distinct and pronounced centripetal new bone formation in a direction toward the magnetized metal devices. Conclusion: the in vivo buried magnetic field favored bone healing at the site of the surgical defect.

Cirurgia bucal

Enxerto osseo

Oral and maxillofacial surgery

Static magnetic field

Alveolar wound healing

Lyophilized bone allograft

Cefalometria manual e digital em pacientes com anomalias dento-faciais esqueléticas / Manual and digital cephalometry in patients with facial dento-skeletal anomalies

Bemfica, Jules Renan Dutra

January 2013

As cirurgias ortognáticas são aceitas como alternativa de tratamento para anomalias dento-faciais de diferentes padrões morfológicos e magnitudes de discrepância maxilo-mandibular. Diferentes metodologias foram propostas na literatura para sua realização, a maior parte delas envolvendo múltiplas etapas de planejamento e métodos físicos de transferência deste para o campo operatório, envolvendo guias cirúrgicos físicos dento-suportados, bem como diferentes tipos de cirurgias de modelos ou tecnologias complexas. A análise cefalométrica é indicada para o diagnóstico, planejamento e o acompanhamento do resultado destas cirurgias, podendo ser obtida de forma manual ou por meio de traçado digital. O objetivo deste estudo foi comparar dados obtidos com cefalometria manual e digital, para determinar a existência de diferenças ente as grandezas cefalométricas analisadas. Foram realizados traçados cefalométricos em 38 telerradiografias laterais de pacientes diagnosticados com anomalia dento-facial pelo mesmo cirurgião, utilizando-se ambos os métodos. Os valores aferidos foram comparados utilizando-se o teste tpareado, o qual demonstrou diferença estatística para os ângulos IMPA e PHF.PO (p<0,05). Conclui-se que pode haver diferença nos valores quando utiliza-se um ou outro método, no entanto sugere-se que essas discrepâncias não são clinicamente válidas. Portanto, tanto o método manual como o digital, apresentam vantagens e desvantagens, mas parecem ser confiáveis para realização de diagnóstico e conseguinte planejamento de cirurgia ortognática. / Combined orthognathic surgery are accepted as alternative treatment for dentofacial anomalies with different morphological patterns and magnitudes of maxillo-mandibular discrepancy. Different methods were proposed in the literature for its realization, most of them involving multiple stages of planning and physical methods of transferring this to the operative field, involving surgical guides dental-supported as well as different types of surgeries models or complex technologies. The cephalometric analysis is indicated for the diagnosis, treatment planning and evaluation of the surgical outcome, either by manual or digital tracing. The aim of this study was to compare data obtained from manual and digital cephalometric tracings, evaluatingpossible differences between the methods. Digital and manual cephalometry were performed in 38 lateral cephalometric radiographs of patients previously diagnosed with dentofacial anomalies, and the data was compared using the paired t test. Significant differences were found for the angles PHF.PO and IMPA angles (p <0,05). However the magnitude of the differences was low. The findings reinforce previous data suggesting that there may be differencein measurement values obtained by these methods, however these differences have no clinical impact. Both the manual and digital methods seem to bereliable for diagnosis and treatment planning of skeletal dentofacial anomalies.

Cirurgia bucal

Cefalometria

Face : Anomalias

Orthognathic surgery

Cephalometrics

Oral and maxillofacial surgery

Nitrous Oxide and Post-Operative Nausea and Vomiting: A Randomized Controlled Trial

Alsup, Natalie Marie

January 2016

No description available.

Dentistry

nitrous oxide

PONV

post operative nausea and vomiting

general anesthesia

oral and maxillofacial surgery

dentoalveolar

sevofurane

Perception of Differences in Lip Profile between 2-D and 3-D

Hansen, Andrew

01 January 2016

Past studies evaluating the esthetics of orthodontic treatment have been done using 2-D images. New 3-D imaging offers an improved, real-life representation of a subject. The purpose of this study was to determine how laypeople perceived differences in lip position (flat versus ideal lip fullness) in 2-D compared to 3-D. 3dMD images of 8 Caucasian subjects were adjusted to an ideal and flat lip position in 3-D and then in 2-D from the profile view. 2 surveys were created with paired ideal and flat images on the screen, either in 2-D or 3-D, and evaluators were asked to choose which image they preferred and by how much. Evaluators were more likely to be neutral, and were less decisive of their preference in 3-D compared to 2-D. People might be less sensitive to small differences in facial soft tissue and esthetics than previous research in 2-D has led orthodontists to believe.

soft tissue profile

esthetics

3dmd

computer imaging

orthodontics

Oral and Maxillofacial Surgery

Orthodontics and Orthodontology

Plastic Surgery

Recalages non-linéaires pour la génération automatique de modèles biomécaniques patients-spécifiques à partir d'imagerie médicale / Non-linear registration for the automatic generation of patient-specific biomechanical models from medical images

Bijar, Ahmad

07 March 2017

Les techniques de chirurgie assistée par ordinateur suscitent depuis quelques années un vif intérêt, depuis l’aide au diagnostic jusqu’à l’intervention chirurgicale elle-même, en passant pas les prises de décision. Dans ce but, l’Analyse par Éléments Finis (AEF) du comportement de modèles biomécaniques tridimensionnels est une des méthodes numériques les plus utilisées et les plus efficaces. Cependant, la fiabilité des solutions de l’AEF dépend fortement de la qualité et de la finesse de la représentation des organes sous la forme de maillages d'éléments finis (MEF). Or la génération de tels maillages peut être extrêmement longue et exigeante en ressources computationnelles, car il est nécessaire de procéder à l’extraction précise de la géométrie de l’organe-cible à partir d’images médicales avant de recourir à des algorithmes sophistiqués de maillage. Confrontés à ces enjeux, certains travaux se sont attachés à éviter la procédure de maillage en exploitant des méthodes fondées pour chaque patient sur la déformation géométrique d’un maillage défini sur un sujet de référence, dit « Atlas ». Mais ces méthodes nécessitent toujours une description géométrique précise de l’organe-cible du patient, sous la forme de contours, de modèles surfaciques tridimensionnels ou d’un ensemble de points de référence. Dans ce contexte, le but de la thèse est de développer une méthodologie de conception automatique de maillages « patient-spécifiques », basée sur un Atlas, mais évitant cette étape de segmentation de la géométrie de l’organe-cible du patient. Dans une première partie de la thèse, nous proposons une méthode automatique qui, dans une première phase, procède au recalage volumétrique de l'image anatomique de l’Atlas sur celle du patient, afin d’extraire la transformation géométrique permettant de passer de l’Atlas au patient, puis, dans une seconde phase, déforme le maillage de l’Atlas et l’adapte au patient en lui appliquant cette transformation. Le processus de recalage est conçu de telle manière que la transformation géométrique préserve la régularité et la haute qualité du maillage. L’évaluation de notre méthode, à savoir l'exactitude du processus de recalage inter-sujets, s’est faite en deux étapes. Nous avons d’abord utilisé un ensemble d’images CT de la cage thoracique, en accès libre. Puis nous avons exploité des données IRM de la langue que nous avons recueillies pour deux sujets sains et deux patients souffrant de cancer de la langue, en condition pré- et post-opératoire.Dans une seconde partie, nous développons une nouvelle méthode, toujours basée sur un Atlas, qui exploite à la fois l'information fournie par les images anatomiques et celle relative à la disposition des fibres musculaires telles qu’elle est décrite par imagerie par résonance magnétique du tenseur de diffusion (RM-DT). Cette nouvelle démarche s’appuie ainsi, d’abord sur le recalage anatomique proposé dans notre première méthode, puis sur l’identification et le recalage d’un ensemble de faisceaux de fibres musculaires qui seront ensuite intégrés aux maillages « patient-spécifiques ». Contrairement aux techniques usuelles de recalage d’images RM-DT, qui impliquent pour chaque image la réorientation des tenseurs de diffusion soit au cours de l'estimation de la transformation géométrique, soit après celle-ci, notre technique ne nécessite pas cette réorientation et recale directement les faisceaux de fibres de l’Atlas sur ceux du patient. Notre démarche est très importante, car la détermination et l’identification précises de toutes les sous-structures musculaires nécessiteraient une intervention manuelle pour analyser des milliers, voire des millions, de fibres, qui sont grandement influencées par les limitations et aux distorsions inhérentes aux images RM-DT et aux techniques de tractographie des fibres. L’efficacité de notre méthodologie est démontrée par son évaluation sur un ensemble d’images IRM et RM-DT de la langue d’un sujet. / During the last years, there has been considerable interest in using computer-aided medical design, diagnosis, and decision-making techniques that are rapidly entering the treatment mainstreams. Finite Element Analysis (FEA) of 3D models is one of the most popular and efficient numerical methods that can be utilized for solving complex problems like deformation of soft tissues or orthopedic implant designs/configurations. However, the accuracy of solutions highly depends upon the quality and accuracy of designed Finite Element Meshes (FEMs). The generation of such high-quality subject/patient-specific meshes can be extremely time consuming and labor intensive as the process includes geometry extraction of the target organ and meshing algorithms. In clinical applications where the patient specifiity has to be taken into account via the generation of adapted meshes these problems become methodological bottlenecks. In this context, various studies have addressed these challenges by bypassing the meshing phase by employing atlas-based frameworks using the deformation of an atlas FE mesh. However, these methods still rely on the geometrical description of the target organ, such as contours, 3D surface models, or a set of land-marks.In this context, the aim of this thesis is to investigate how registration techniques can overcome these bottlenecks of atlas-based approaches.We first propose an automatic atlas-based method that includes the volumetric anatomical image registration and the morphing of an atlas FE mesh. The method extracts a 3D transformation by registering the atlas' volumetric image to the subject's one. The subject-specific mesh is then generated by deforming a high-quality atlas FE mesh using the derived transformation. The registration process is designed is such a way to preserve the regularity and the quality of meshes for subsequent FEAs. A first step towards the evaluation of our approach, namely the accuracy of the inter-subject registration process, is provided using a data set of CT ribcage. Then, subject-specific tongue meshes are generated for two healthy subjects and two patients suffering from tongue cancer, in pre- and post-surgery conditions. In order to illustrate a tentative fully automatic process compatible with the clinical constraints, some functional consequences of a tongue surgery are simulated for one of the patients, where the removal of the tumor and the replacement of the corresponding tissues with a passive flap are modeled. With the extraction of any formal priorknowledge on the shape of the target organ and any meshing algorithm, high-quality subject-specific FE meshes are generated while subject’s geometrical properties are successfully captured.Following this method, we develop an original atlas-based approach that employs the information provided by the anatomical images and diffusion tensor imaging (DTI) based muscle fibers for the recognition and registration of fiber-bundles that can be integrated in the subject-specific FE meshes. In contrast to the DT MR images registration techniques that include reorientation of tensors within or after the transformation estimation, our methodology avoids this issue and directly aligns fiber-bundles. This also enables one to handel limited or distorted DTIs by deformation of an atlas fibers’ structure according to the most reliable and non-distorted subject’s ones. Such a manner becomes very important, since the classification and the determination of muscular sub-structures need manual intervention of thousands or millions of fibers for each subject, which are influenced by the limitations associated with the DTI image acquisition process and fiber tractography techniques. To evaluate the performance of our method in the recognition of subject’s fiber-bundles and accordingly in the deformation of the atlas ones, a simulated data set is utilized. In addition, feasibility of our method is demonstrated on acquired human tongue data set.

Chirurgie oro-faciale

Techniques de recalage 3D

Oral and maxillofacial surgery

Patient-specific biomechanical models

3D registration techniques

610

The Acute Maxillofacial Infection- a retrospective medical journals analysis of patients in inpatient care

Al-Faisal, Hanien, Alkheder, Bayan

January 2022

Introduction: An absolute majority of dental infections are treated without major complications. In exceptional situations dental infections can spread to surrounding structures such as the airways or even the brain leading to a life-threatening condition that requires hospitalization. According to literature, some qualified risk factors appear to be common in hospitalized patients. Aim: To outline factors typically seen in patients with acute maxillofacial infections with dental origin at Norrland University Hospital (NUS) and find possible association between these factors and the length of hospital stay.  Methods: A literature review using keywords associated with dental infections and acute throat and head infections was performed. Retrospective structured medical journal reviews of 58 patients suffering from acute maxillofacial infections which required hospitalization at NUS were analyzed. The results were analyzed using IBM SPSS Statistics software and Microsoft Office Excel. Results: The results indicated that overweight/obese people (Body Mass Index ⊵25) require longer care at the hospital due to their infection. Every other of the hospitalized patients had received dental treatment within 14 days prior to hospitalization.  Conclusions: In situations with acute maxillofacial infections of dental origin requiring hospitalization, BMI ⊵25 is eventually a risk factor. A group of patients received dental treatment for their infection, but the infection still exacerbated. How come? This requires deeper analysis with further studies.

Acute dental abscess

Acute maxillofacial infections

Acute oromaxillofacial infections

Infections of the Oral Cavity

Neck

and Head

Odontogenic Abscess Hospital

Odontogenic Abscess Hospital length

Oral and Maxillofacial Surgery

Maxillofacial Surgery

Surgery

Kirurgi

BIOERODIBLE CALCIUM SULFATE BONE GRAFTING SUBSTITUTES WITH TAILORED DRUG DELIVERY CAPABILITIES

Orellana, Bryan R

01 January 2014

Bone regeneration or augmentation is often required prior to or concomitant with implant placement. With the limitations of many existing technologies, a biologically compatible synthetic bone grafting substitute that is osteogenic, bioerodible, and provides spacing-making functionality while acting as a drug delivery vehicle for bioactive molecules could provide an alternative to ‘gold standard’ techniques. In the first part of this work, calcium sulfate (CS) space-making synthetic bone grafts with uniformly embedded poly(β-amino ester) (PBAE) biodegradable hydrogel particles was developed to allow controlled release of bioactive agents. The embedded gel particles’ influence on the physical and chemical characteristics of CS was tested. Namely, the compressive strength and modulus, dissolution, and morphology, were studied. All CS samples dissolved via zero-order surface erosion consistent to one another. Compression testing concluded that the amount, but not size, of embedded gel particles significantly decreased (up to 75%) the overall mechanical strength of the composite. Release studies were conducted to explore this system’s ability to deliver a broad range of drug types and sizes. Lysozyme (model protein for larger growth factors like bone morphogenic protein [BMP]) was loaded into PBAE particles embedded in CS matrix. The release of simvastatin, a small molecule drug capable of up regulating BMP production, was also examined. The release of both lysozyme and simvastatin was governed by dissolution of CS. The second part of this work proposed a bilayered CS implant. The physical and chemical properties were characterized similarly to the CS composites above. Release kinetics of directly loaded simvastatin in either the shell, core, or both were investigated. A sequential release of simvastatin was witnessed giving foresight of the composite’s tunability. The sequential release of an antibacterial, metronidazole, loaded into poly(lactic-co-glycolic acid) (PLGA) particles embedded into the shell along with directly loaded simvastatin either in the shell, core, or both layers was also observed. Through controlled release of bioactive agents, as well as a tunable layered geometry, CS-based implants have the potential to be optimized in order to help streamline the steps required for the healing and regeneration of compromised bone tissue.

Calcium Sulfate

Bone Graft Substitutes

Multiple Drug Release

Osteogenic Agents

Antimicrobial Agents

Biomaterials

Biomedical and Dental Materials

Dental Materials

Medical Biotechnology

Oral and Maxillofacial Surgery

Periodontics and Periodontology