Your search keyword '"Dan L. Romanyk"' showing total 17 results

1. An in vitro evaluation of orthodontic aligner biomechanics around the maxillary arch

Author

Dan L. Romanyk, Paul W. Major, Jason Truong, Harsimrat Kaur, Giseon Heo, and James Mah

Subjects

Tooth Movement Techniques, Orthodontics, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, Maxilla, Premolar, medicine, Orthodontic Appliance Design, Displacement (orthopedic surgery), Maxillary central incisor, Arch, 030304 developmental biology, 0303 health sciences, Maxillary arch, business.industry, Biomechanics, 030206 dentistry, Biomechanical Phenomena, Incisor, stomatognathic diseases, Dental arch, medicine.anatomical_structure, Tooth movement, business

Abstract

The objective of this study was to evaluate the forces and moments exerted by orthodontic aligners on 3 different displaced maxillary teeth and their adjacent supporting teeth.An in vitro orthodontic simulator was used to measure the forces and moments of a 0.75-mm thick glycol-modified polyethylene terephthalate material for 3 maxillary teeth: central incisor, canine, and second premolar. Forces and moments were recorded for tested teeth displaced lingually one by one for 0.20 mm. Repeated measures of multivariate analysis of variance was used to assess the outcome.The mean buccolingual force applied on a displaced canine (2.25 ± 0.38 N) was significantly (P 0.001) more than the central incisor (1.49 ± 0.18 N) and second premolar (1.50 ± 0.16 N). The mean moment (that tends to tip the teeth buccally) exerted on a canine (-20.11 ± 5.27 Nmm) was significantly more (P 0.001) than the central incisor (-8.42 ± 1.67 Nmm) and second premolar (-11.45 ± 1.29 Nmm). The forces and moments acting on teeth adjacent to the displaced tooth were clinically significant and acted in opposing directions to those on the displaced tooth.The results of this study highlighted that for the same amount of displacement on a given tooth, the forces and moments imposed by the orthodontic aligner depend on location around the arch. These findings highlight the need to further study aligner mechanics around the dental arch and optimize aligner design to impose desired mechanical loads to avoid detrimental effects during orthodontic tooth movement.

Published

2021

2. Biomechanical behavior of an alveolar graft under maxillary therapies

Author

E.B. Las Casas, J. A. Guerrero-Vargas, Dan L. Romanyk, Diego Alexander Garzón-Alvarado, Elissa Talma, and S. M. Velez-Muriel

Subjects

medicine.medical_specialty, business.industry, Ossification, Mechanical Engineering, 0206 medical engineering, Dentistry, Maxillary protraction, 02 engineering and technology, Oral cavity, 020601 biomedical engineering, Osseointegration, Bone remodeling, Skull, surgical procedures, operative, medicine.anatomical_structure, Modeling and Simulation, Orthopedic surgery, medicine, medicine.symptom, business, Biotechnology

Abstract

Cleft lip and palate is a congenital defect that affects the oral cavity. Depending on its severity, alveolar graft surgery and maxillary orthopedic therapies must be carried out as a part of the treatment. It is widely accepted that the therapies should be performed before grafting. Nevertheless, some authors have suggested that mechanical stimuli such as those from the maxillary therapies could improve the success rate of the graft. The aim of this study is to computationally determine the effect of maxillary therapies loads on the biomechanical response of an alveolar graft with different degrees of ossification. We also explore how the transverse width of the cleft affects the graft behavior and compare results with a non-cleft skull. Results suggest that stresses increase within the graft as it ossifies and are greater if maxillary expansion therapy is applied. This has consequences in the bone remodeling processes that are necessary for the graft osseointegration. Maxillary orthopedic therapies after graft surgery could be considered as a part of the treatment since they seem to act as a positive extra stimulus that can benefit the graft.

Published

2021

3. Effectiveness of clear aligner therapy for orthodontic treatment: A systematic review

Author

Carlos Flores Mir, Dan L. Romanyk, Nathalia Carolina Fernandes Fagundes, Paul W. Major, Harsimrat Kaur, and Lindsay Robertson

Subjects

medicine.medical_specialty, Tooth Movement Techniques, Treatment outcome, MEDLINE, Orthodontics, law.invention, 03 medical and health sciences, 0302 clinical medicine, Randomized controlled trial, law, Orthodontic Appliances, Removable, Humans, Medicine, Certainty level, 030212 general & internal medicine, Randomized Controlled Trials as Topic, Retrospective Studies, business.industry, Quality assessment, Retrospective cohort study, 030206 dentistry, Fixed appliance therapy, Incisor, Otorhinolaryngology, Physical therapy, Surgery, Observational study, Oral Surgery, business, Malocclusion

Abstract

Objective To analyse through a systematic review the effectiveness of clear aligners by assessing: (a) predictability of clear aligners and (b) treatment outcome comparison of clear aligner therapy with fixed appliance therapy. Methods An electronic search was made from January 2014 to April 2019 using MEDLINE, Embase, Web of Science and LILACS databases without any limitations on language. Three reviewers independently assessed the articles. Quality assessment of observational studies and randomized control trial was done by using the ROBINS tool and Cochrane risk of bias tool, respectively. GRADE instrument was used to assess certainty level for each identified outcome. Results Seven eligible articles (one randomized controlled trial and six retrospective cohort) were included in our systematic review. Most of the studies (six out of seven) had a moderate risk of bias and one had a high risk of bias. Conclusions 'Low to moderate level' of certainty in regard to specific clear aligner therapy tooth movements' efficiency was identified. Clear aligners may produce clinically acceptable outcomes that could be comparable to fixed appliance therapy for buccolingual inclination of upper and lower incisors in mild to moderate malocclusions. However, not all potential clinical scenarios have been assessed in the included studies. Most of the tooth movements may not be predictable enough to be accomplished with only one set of trays with clear aligners despite the recent advances in technology.

Published

2020

4. Three-dimensional in vitro measurement of initial forces and moments acting on maxillary canine teeth using various Class II elastic configurations with a straight archwire fixed lingual appliance

Author

Bennett Bolen, Brandon Owen, Dan L. Romanyk, Giseon Heo, Berhanu A. Wubie, Jason P. Carey, and Paul W. Major

Subjects

Orthodontics, Typodont, 050402 sociology, Materials science, 05 social sciences, Maxillary canine, 030206 dentistry, Lingual orthodontics, medicine.disease, Mandibular first molar, stomatognathic diseases, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, 0504 sociology, medicine, Cusp (anatomy), Arch, Malocclusion

Abstract

Purpose The presented study utilized an in vitro Orthodontic SIMulator (OSIM) to study how Class II elastic configuration effects the forces and moments acting on maxillary canine teeth when using a straight archwire fixed lingual appliance. Materials and methods Maxillary in-Ovation L self-ligating brackets were bonded to anatomically shaped stainless steel teeth on OSIM. A 0.016″ × 0.022″ stainless steel straight lingual archwire was used to provide a relevant arch shape and to position simulated teeth in a passive position. A mandibular typodont was positioned above the OSIM arch in a half cusp Class II malocclusion to serve as attachment points for elastics. Four different elastic configurations were tested: 1. maxillary–buccal to mandibular-buccal; 2. maxillary–lingual to mandibular–lingual; 3. maxillary–buccal to mandibular–lingual; 4. maxillary–lingual to mandibular–buccal. A new 4.5 oz 3/16″ elastic (n = 40 per configuration) was attached to the maxillary canine and mandibular first molar teeth for each trial. Forces and moments at the maxillary canine simulated center of resistance were considered. ANOVA was used to assess the effect of elastic configuration, and pairwise comparisons using Bonferroni correction were conducted to investigate configuration differences. Results Of the thirty-four pairwise comparisons, only two were statistically insignificant. Configurations 1, 2, and 4 were found to produce over 1 N of force in the desired distal direction, whereas Configuration 3 was significantly lower at 0.65 N. Conclusions Overall, the configuration of Class II elastics had a significant effect on forces and moments at maxillary canine teeth for a simulated straight archwire fixed lingual appliance.

Published

2019

5. Mechanically Induced Structural Adaptations Of Cranial Sutures

Author

Tsolmonbaatar Khurelbaatar, Michael R. Doschak, and Dan L. Romanyk

Subjects

business.industry, Cranial sutures, Medicine, Anatomy, business

Published

2021

6. On the ability of experimental impact measures to predict tooth injuries in an ex vivo swine model

Author

Maria Alexiou, Christopher R. Dennison, Kevin Adanty, Liran Levin, Kathryn P. Houg, Lowell McAllister, Samantha R. MacGillivray, Daniel Graf, and Dan L. Romanyk

Subjects

Orthodontics, Receiver operating characteristic, Dentition, business.industry, Swine, Work (physics), Tooth Fracture, Tooth Injuries, 030229 sport sciences, 030206 dentistry, Logistic regression, Tooth Avulsion, Incisor, 03 medical and health sciences, Tooth Fractures, 0302 clinical medicine, Medicine, Animals, Maxillary central incisor, Oral Surgery, Impact, Proxy (statistics), business

Abstract

BACKGROUND/AIM Impact to the orofacial region, in particular teeth, is a frequent incident leading to injury in many sports and can result in health and economic costs for the injured individual. The majority of previous work has applied synthetic models such as plaster or stone, to form analogs of relevant structures to study the potential for impact-induced injury. Biomechanical studies that have applied tissue models (animal or human) for the purpose of determining the biomechanical measures associated with dental injury are rare. The aim of this study was to apply a simple ex vivo model based on swine dentition to ascertain which of a select list of measurable quantities associated with impact mechanics could predict luxation and fracture of teeth due to impact. METHODS Mandibular central incisors of ex vivo swine dentitions were impacted using a linear drop tower with heights ranging from 1.20 m to 2.42 m. Seven mechanical predictors were assessed at impact and were then subjected to binary logistic regression techniques to determine which was the best predictor of luxations or fractures of the teeth. RESULTS Of the seven mechanical predictors, (1) the velocity of the impacting body (R2 = 0.477), (2) a proxy measure for the change in kinetic energy of the impacting body (R2 = 0.586), and (3) the approximate energy absorbed by the tissue (R2 = 0.722) were found to be statistically significantly different (p

Published

2020

7. Cortical and trabecular morphometric properties of the human calvarium

Author

Thomas A. Plaisted, Sikhanda Satapathy, James D. Hogan, Samer Adeeb, Michael R. Doschak, Dan L. Romanyk, Simon Ouellet, Christopher R. Dennison, Kapil Bharadwaj Bhagavathula, Karyne N. Rabey, and Kevin Adanty

Subjects

0301 basic medicine, Male, Histology, Physiology, Head impact, Endocrinology, Diabetes and Metabolism, Skull, 030209 endocrinology & metabolism, Anatomy, X-Ray Microtomography, Biology, Models, Theoretical, Fractal dimension, 03 medical and health sciences, Trabecular bone, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Bone Density, medicine, Humans, Female, Tomography, Porosity

Abstract

There is currently a gap in the literature that quantitatively describes the complex bone microarchitecture within the diploe (trabecular bone) and cortical layers of the human calvarium. The purpose of this study was to determine the morphometric properties of the diploe and cortical tables of the human calvarium in which key interacting factors of sex, location on the calvarium, and layers of the sandwich structure were considered. Micro-computed tomography (micro-CT) was utilized to capture images at 18 μm resolution of male (n = 26) and female (n = 24) embalmed calvarium specimens in the frontal and parietal regions (N = 50). All images were post-processed and analyzed using vendor bundled CT-Analyzer software to determine the morphometric properties of the diploe and cortical layers. A two-way mixed (repeated measures) analysis of variance (ANOVA) was used to determine diploe morphometric properties accounting for factors of sex and location. A three-way mixed ANOVA was performed to determine cortical morphometric properties accounting for factors of cortical layer (inner and outer table), sex, and location. The study revealed no two-way interaction effects between sex and location on the diploe morphometry except for fractal dimension. Trabecular thickness and separation in the diploe were significantly greater in the male specimens; however, females showed a greater number of trabeculae and fractal dimension on average. Parietal specimens revealed a greater porosity, trabecular separation, and deviation from an ideal plate structure, but a lesser number of trabeculae and connectivity compared to the frontal location. Additionally, the study observed a lower density and greater porosity in the inner cortical layer than the outer which may be due to clear distinctions between each layer's physiological environment. The study provides valuable insight into the quantitative morphometry of the calvarium in which finite element modelers of the skull can refer to when designing detailed heterogenous or subject-specific skull models to effectively predict injury. Furthermore, this study contributes towards the recent developments on physical surrogate models of the skull which require approximate measures of calvarium bone architecture in order to effectively fabricate a model and then accurately simulate a traumatic head impact event.

Published

2020

8. Reliability and accuracy of a method for measuring temporomandibular joint condylar volume

Author

Dan L. Romanyk, Neelambar R. Kaipatur, Manuel O. Lagravère, Paul W. Major, and Justin J Kim

Subjects

Cone beam computed tomography, Intraclass correlation, Condyle, Pathology and Forensic Medicine, 03 medical and health sciences, Standard anatomical position, 0302 clinical medicine, Imaging, Three-Dimensional, Medicine, Humans, Radiology, Nuclear Medicine and imaging, Dentistry (miscellaneous), Segmentation, Reliability (statistics), Orthodontics, Temporomandibular Joint, business.industry, Mandibular Condyle, Reproducibility of Results, 030206 dentistry, Cone-Beam Computed Tomography, Temporomandibular joint, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Surgery, Oral Surgery, business, Volume (compression)

Abstract

The aim of this study was to develop and validate a technique for mandibular condyle segmentation and volume determination by using cone beam computed tomography (CBCT).A dry skull was used to generate 3 dimensional (3-D)-printed mandible models that were then imaged by using CBCT. Semiautomatic segmentation of condyles was completed. The Frankfurt plane was established and translated to the most inferior point of the sigmoid notch, and the condylar volume superior to the plane was determined. This procedure was repeated on 3-D-printed mandibles by using physical landmarks and the water displacement method to obtain the physical volume. This was repeated 3 times to evaluate reliability. Sensitivity analysis was performed to demonstrate the effect of discrepancies in locating landmarks in the Frankfurt plane. Condylar volume measurements obtained from CBCT were compared with physical measurements through repeated-measures analysis of variance (ANOVA) to determine accuracy.Condylar volume obtained from CBCT and physical measurements resulted in an intraclass correlation coefficient of 0.988 (0.918, 0.998) (P.01) with both modalities, demonstrating excellent intrarater reliability. The mean difference of volume measurements between the modalities was not statistically significant (P = .365). Potential discrepancies in porion coordinates had minimal impact on condylar volume change.The condylar segmentation technique proved to be a reliable and accurate method for evaluating condylar volume.

Published

2020

9. Measurement of forces and moments around the maxillary arch for treatment of a simulated lingual incisor and high canine malocclusion using straight and mushroom archwires in fixed lingual appliances

Author

Dan L. Romanyk, Brandon Owen, Giseon Heo, Jason P. Carey, Geoffry Gullion, and Paul W. Major

Subjects

Dental Stress Analysis, Orthodontic Appliances, Fixed, Materials science, Tooth Movement Techniques, Orthodontic Brackets, 0206 medical engineering, Dentistry, Orthodontics, 02 engineering and technology, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, Incisor, Nickel, Tongue, Maxilla, Orthodontic Wires, medicine, Humans, Orthodontic Appliance Design, Displacement (orthopedic surgery), Arch, Titanium, Maxillary arch, business.industry, 030206 dentistry, medicine.disease, 020601 biomedical engineering, stomatognathic diseases, medicine.anatomical_structure, Stress, Mechanical, Malocclusion, business, Dental Alloys

Abstract

Introduction An Orthodontic SIMulator (OSIM) was used to investigate the propagation of forces and moments around a simulated archform for a gingival displaced canine and lingual displaced lateral incisor using fixed lingual orthodontic appliances. Methods In-Ovation L self-ligating lingual brackets were bonded to anatomically shaped teeth on the OSIM, and the teeth were positioned such that a G4 NiTi 0.016" large maxillary mushroom archwire could be ligated in passive position. Each trial consisted of two movements: a 3mm lingual displacement of the 1-2 lateral incisor at 0.2 mm increments, and a 1.5 mm gingival displacement of the 2-3 canine at 0.15 mm increments (n = 50). Anterior brackets were repositioned to accommodate G4 NiTi 0.016" universal straight archwires (n = 50). Tests were completed at 37°C, and force and moment data in all directions was collected for each tooth around the arch at all increments. Results In general, the straight archwire produced significantly larger forces and moments at the centre of resistance for teeth of interest than did mushroom archwires. Specifically, the straight archwire produced 2.62 N and 3.81 N more force in the direction of tooth movement on the tooth being moved for a gingival displaced canine and lingual displaced lateral incisor, respectively, as compared to mushroom archwires. Conclusions Results from this study suggest that mushroom archwires may provide better mechanics for movement of teeth in the anterior segment when using a round archwire; however, only biomechanical data was considered in this study and there are many factors that need to be considered in treatment planning.

Published

2017

10. Strength-limiting damage and its mitigation in CAD-CAM zirconia-reinforced lithium-silicate ceramics machined in a fully crystallized state

Author

Garry J.P. Fleming, Slobodan Sirovica, Dan L. Romanyk, Yilan Guo, Nyssa Rae, Owen Addison, and Sydney Veldhuis

Subjects

Ceramics, Materials science, Annealing (metallurgy), Surface Properties, medicine.medical_treatment, 02 engineering and technology, Lithium, law.invention, 03 medical and health sciences, 0302 clinical medicine, Machining, law, Materials Testing, Surface roughness, medicine, General Materials Science, Cubic zirconia, Ceramic, Composite material, General Dentistry, Glass-ceramic, Silicates, 030206 dentistry, 021001 nanoscience & nanotechnology, Microstructure, Dental Porcelain, Mechanics of Materials, visual_art, visual_art.visual_art_medium, Computer-Aided Design, Zirconium, 0210 nano-technology, Dental restoration

Abstract

The objective was to explore how clinically relevant machining process and heat treatment influence damage accumulation and strength degradation in lithium silicate-based glass ceramics machined in the fully crystallized state.A commercial zirconia-reinforced lithium silicate (ZLS) glass ceramic with a fully developed microstructure (Celtra® Duo) was studied. Disk-shaped specimens (nominal 10 mm diameter and 1 mm thickness) were fabricated either using a CAD-CAM process, creating a clinically relevant dental restoration surface, or were sectioned from water-jet cut cylindrical blocks with their critical surfaces consistently polished. Bi-axial flexure strength (BFS) was determined in a ball-on-ring configuration, and fractographic analysis was performed on failed specimens. XRD, AFM and SEM measurements were conducted before and after heat treatment. For each sample group, BFS was correlated with surface roughness. A two-way ANOVA and post-hoc Tukey tests were used to determine differences in BFS between machining and heat treatment groups (ɑ = 0.05).A two-way ANOVA demonstrated that BFS was influenced by fabrication route (p0.01) with CAD-CAM specimens exhibiting significantly lower mean BFS. A factorial interaction was observed between heat treatment and machining route (p0.01), where a significant strengthening effect of post-manufacture heat treatment was noted for CAD-CAM specimens but not sectioned and polished samples. CAD-CAM specimens exhibited sub-surface lateral cracks alongside radial cracks near fracture origin which were not observed for polished specimens. BFS did not correlate with surface roughness for polished specimens, and no change in microstructure was detectable by XRD following heat treatment.The mechanical properties of the ZLS ceramic material studied were highly sensitive to the initial surface defect integral associated with manufacturing route and order of operations. CAD-CAM manufacturing procedures result in significant strength-limiting damage which is likely to influence restoration performance; however, this can be partially mitigated by post-machining heat treatment.

Published

2020

11. Strength-limiting damage in lithium silicate glass-ceramics associated with CAD-CAM

Author

Sydney Veldhuis, Yilan Guo, Nyssa Rae, Ysidora Torrealba Martinez, Dan L. Romanyk, Owen Addison, Garry J.P. Fleming, and Slobodan Sirovica

Subjects

Ceramics, Fabrication, Materials science, Annealing (metallurgy), Surface Properties, medicine.medical_treatment, 02 engineering and technology, Lithium, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Machining, Materials Testing, Surface roughness, medicine, General Materials Science, Ceramic, Composite material, General Dentistry, Silicates, 030206 dentistry, 021001 nanoscience & nanotechnology, Microstructure, Dental Porcelain, Silicate, chemistry, Mechanics of Materials, visual_art, visual_art.visual_art_medium, Computer-Aided Design, Zirconium, 0210 nano-technology, Dental restoration

Abstract

Objective The fabrication of all-ceramic restorations using Computer Aided Design and Computer Aided Manufacturing (CAD–CAM) most commonly involves subtractive machining which results in strength-limiting, surface and sub-surface damage in the resultant prosthesis. The objective was to explore how clinically relevant machining-process variables, and material variables, affect damage accumulation in lithium silicate glass-ceramics. Methods Three commercial lithium silicate glass-ceramics (IPS e.max® CAD, Celtra® Duo and Vita Suprinity®) were selected. For each material, two groups of disk-shaped specimens were fabricated (n = 15), using a CAD–CAM process, creating surfaces equivalent to those generated for a dental restoration, or alternatively, using a highly controlled laboratory process generating disk-shaped test specimens with a consistent polished surface. Bi-axial flexure strength (BFS) was determined in a ball-on-ring configuration and fractographic analyses performed. For each material BFS was correlated with machining sequence and with surface roughness. Results BFS was significantly influenced by material substrate (p Significance All CAD–CAM specimens showed evidence of machining introduced damage in the form of median and radial cracks at sites either coincident with, or peripheral to the failure origin. Subtractive machining introduced significant strength limiting damage that is not eliminated by heat treatments applied for either microstructure development (IPS e.max® CAD and Vita Suprinity®) or annealing/crack blunting (Celtra® Duo).

Published

2018

12. Changes in the Mechanical Response of Dental Stone to Submersion in Saline

Author

Kathryn P. Houg, Joanne Cai, and Dan L. Romanyk

Subjects

Orthodontics, medicine.medical_treatment, Significant difference, Compression (physics), Submersion (mathematics), Dental stone, Saline solutions, medicine, General Earth and Planetary Sciences, Periodontal fiber, Saline, Dental alveolus, General Environmental Science, Mathematics

Abstract

Previously, dental stone has been utilized in mechanical testing of the periodontal ligament, which connects the tooth to the alveolar bone. This was achieved by casting swine mandibles in dental stone for displacement controlled testing. The stone was used as a riding base to hold the mandible in place. However, this was done in dry, ex vivo conditions, failing to simulate the natural presence of vascular fluid in the periodontal ligament. While this can be simulated with submersion in saline, the mechanical response of dental stone to saline is currently unknown, and thus cannot yet be used to secure the mandible in saline. To identify differences in the strength of dental stone after submersion in saline, Coecal Type III Dental Stone samples were cast in a 3D printed mold, then submerged in 0.9% NaCl solution for varying time periods: 0 hours, 0.5 hours, 1 hour, 4 hours, and 24 hours. Samples were then removed from the solutions, patted dry, and placed in an Instron ElectroPuls E3000 for compression tests. The Instron preloaded samples to 3 N, displaced them to 0.1 mm at 0.025 mm/s, held them for 10 s, then offloaded at 0.025 mm/s. This cycle was repeated five times per test, with each sample undergoing two tests. Results showed that the last three cycles of each test were most consistent, and were the only ones considered in further analysis of results. The average peak force and average force during the 10 s hold of each test were compared across submersion times, and, considering standard deviation, showed no consistent differences. A linear regression was completed to determine statistical differences between the force values. The p-values of the average peak force and average force were 0.624 and 0.892 respectively, approaching the required value of 1, and therefore failed to reject the null hypothesis, representing no significant difference in the average force across submersion times. As a result, it can be assumed that submersion in saline has no effect on the strength of dental stone. These results can be applied to further research on the periodontal ligament, involving submersion of the swine mandible in saline solutions.

Published

2019

13. Effect of Ligation Method on Maxillary Arch Force/Moment Systems for a Simulated Lingual Incisor Malalignment

Author

Jason P. Carey, Paul W. Major, Roger W. Toogood, Dan L. Romanyk, and Surbhi Seru

Subjects

Maxillary arch, Elastic ligation, business.industry, Biomedical Engineering, lingual incisor, Medicine (miscellaneous), Dentistry, Bioengineering, orthodontic simulator, Article, force measurement, Interaction factor, medicine.anatomical_structure, Incisor, Moment (physics), passive ligation, medicine, Arch, orthodontics, business, Ligation, Mathematics

Abstract

Introduction: The objectives of this study were to determine whether there is a difference in the magnitude of forces and moments produced by elastic ligation when compared to passive ligation, and whether these forces and moments propagate differently along the arch for the two ligation types. A lingual incisor malalignment was used in this study. Methods: The Orthodontic Simulator (OSIM) was used to quantify the three-dimensional forces and moments applied on the teeth given a lingually displaced incisor. A repeated measures MANOVA was performed to statistically analyze the data. Results: The interaction factor illustrated convincing evidence that there is a difference in maximum force and moment values for all outcome variables between ligation types considering all tooth positions along the arch. The mean differences for FX and FY between ligation types were found to be clinically significant, with values for elastic ligation consistently higher than passive ligation. Conclusion: It was found that the maximum forces and moments produced by elastic ligation are greater than those produced by passive ligation and that the magnitude of this difference for the mesiodistal and buccolingual forces is clinically relevant. Additionally, it was determined that elastic ligation causes forces and moments to propagate further along the arch than passive ligation for all outcome variables.

Published

2014

14. Towards a viscoelastic model for the unfused midpalatal suture: Development and validation using the midsagittal suture in New Zealand white Rabbits

Author

Michael G. Lipsett, Jason P. Carey, Roger W. Toogood, Dan L. Romanyk, S. S. Liu, M. O. Lagravere, and Paul W. Major

Subjects

Palatal Expansion Technique, medicine.medical_specialty, Biomedical Engineering, Biophysics, Models, Biological, Viscoelasticity, Standard deviation, 03 medical and health sciences, 0302 clinical medicine, Suture (anatomy), medicine, Animals, Orthopedics and Sports Medicine, Mathematics, Orthodontics, Palate, Viscosity, Rehabilitation, Linear elasticity, 030206 dentistry, Coil spring, Elasticity, Finite element method, Surgery, Maxilla, Rabbits, 030217 neurology & neurosurgery

Abstract

Maxillary expansion treatment is a commonly used procedure by orthodontists to widen a patient's upper jaw. As this is typically performed in adolescent patients, the midpalatal suture, connective tissue adjoining the two maxilla halves, remains unfused. Studies that have investigated patient response to expansion treatment, generally through finite element analysis, have considered this suture to behave in a linear elastic manner or it was left vacant. The purpose of the study presented here was to develop a model that could represent the midpalatal suture's viscoelastic behavior. Quasilinear viscoelastic, modified superposition, Schapery's, and Burgers modeling approaches were all considered. Raw data from a previously published study using New Zealand White Rabbits was utilized for model parameter estimation and validation. In this study, Sentalloy(®) coil springs at load levels of 0.49N (50g), 0.98N (100g), and 1.96N (200g) were used to widen the midsagittal suture of live rabbits over a period of 6 weeks. Evaluation was based on a models ability to represent experimental data well over all three load sets. Ideally, a single set of model constants could be used to represent data over all loads tested. Upon completion of the analysis it was found that the modified superposition method was able to replicate experimental data within one standard deviation of the means using a single set of constants for all loads. Future work should focus on model improvement as well as prediction of treatment outcomes.

Published

2013

15. Initial forces experienced by the anterior and posterior teeth during dental-anchored or skeletal-anchored en masse retraction in vitro

Author

Dan L. Romanyk, Paul W. Major, David P. Lee, Jason P. Carey, Tarek El-Bialy, and Giseon Heo

Subjects

Orthodontics, Dental Stress Analysis, Maxillary arch, Tooth Movement Techniques, business.industry, Dentistry, 030206 dentistry, Original Articles, Models, Biological, Biomechanical Phenomena, 03 medical and health sciences, Force analysis, 0302 clinical medicine, Materials Testing, Posterior teeth, Orthodontic Anchorage Procedures, Orthodontic Wires, Medicine, Humans, Arch, business, 030217 neurology & neurosurgery

Abstract

Objective: To investigate initial forces acting on teeth around the arch during en masse retraction using an in vitro Orthodontic SIMulator (OSIM). Materials and Methods: The OSIM was used to represent the full maxillary arch in a case wherein both first premolars had been extracted. Dental and skeletal anchorage to a posted archwire and skeletal anchorage to a 10-mm power arm were all simulated. A 0.019 × 0.025-inch stainless steel archwire was used in all cases, and 15-mm light nickel-titanium springs were activated to approximately 150 g on both sides of the arch. A sample size of n = 40 springs were tested for each of the three groups. Multivariate analysis of variance (α = 0.05) was used to determine differences between treatment groups. Results: In the anterior segment, it was found that skeletal anchorage with power arms generated the largest retraction force (P < .001). The largest vertical forces on the unit were generated using skeletal anchorage, followed by skeletal anchorage with power arms, and finally dental anchorage. Power arms were found to generate larger intrusive forces on the lateral incisors and extrusive forces on the canines than on other groups. For the posterior anchorage unit, dental anchorage generated the largest protraction and palatal forces. Negligible forces were measured for both skeletal anchorage groups. Vertical forces on the posterior unit were minimal in all cases ( Conclusions: All retraction methods produced sufficient forces to retract the anterior teeth during en masse retraction. Skeletal anchorage reduced forces on the posterior teeth but introduced greater vertical forces on the anterior teeth.

Published

2016

16. Modeling Stress-Relaxation Behavior of the Periodontal Ligament During the Initial Phase of Orthodontic Treatment

Author

Jason P. Carey, Garrett W. Melenka, and Dan L. Romanyk

Subjects

Materials science, Periodontal Ligament, Biomedical Engineering, Orthodontics, Strain (injury), Mechanics, medicine.disease, Models, Biological, Viscoelasticity, Stress (mechanics), Nonlinear Dynamics, Creep, Physiology (medical), medicine, Stress relaxation, Animals, Periodontal fiber, Displacement (orthopedic surgery), Rabbits, Stress, Mechanical, Dental alveolus, Biomedical engineering

Abstract

The periodontal ligament is the tissue that provides early tooth motion as a result of applied forces during orthodontic treatment: a force-displacement behavior characterized by an instantaneous displacement followed by a creep phase and a stress relaxation phase. Stress relaxation behavior is that which provides the long-term loading to and causes remodelling of the alveolar bone, which is responsible for the long-term permanent displacement of the tooth. In this study, the objective was to assess six viscoelastic models to predict stress relaxation behavior of rabbit periodontal ligament (PDL). Using rabbit stress relaxation data found in the literature, it was found that the modified superposition theory (MST) model best predicts the rabbit PDL behavior as compared to nonstrain-dependent and strain-dependent versions of the Burgers four-parameter and the five-parameter viscoelastic models, as well as predictions by Schapery's viscoelastic model. Furthermore, it is established that using a quadratic form for MST strain dependency provides more stable solutions than the cubic form seen in previous studies.

Published

2013

17. Review of Maxillary Expansion Appliance Activation Methods: Engineering and Clinical Perspectives

Author

Paul W. Major, Dan L. Romanyk, Jason P. Carey, Roger W. Toogood, and M. O. Lagravere

Subjects

Information retrieval, business.industry, Medicine, Dentistry (miscellaneous), Review Article, Activation method, Bioinformatics, business, Midpalatal suture, Patent classification

Abstract

Objective. Review the reported activation methods of maxillary expansion devices for midpalatal suture separation from an engineering perspective and suggest areas of improvement. Materials and Methods. A literature search of Scopus and PubMed was used to determine current expansion methods. A U.S. and Canadian patent database search was also conducted using patent classification and keywords. Any paper presenting a new method of expansion was included. Results. Expansion methods in use, or patented, can be classified as either a screw- or spring-type, magnetic, or shape memory alloy expansion appliance. Conclusions. Each activation method presented unique advantages and disadvantages from both clinical and engineering perspectives. Areas for improvement still remain and are identified in the paper.

Published

2010