Your search keyword '"Tomoko Yoshimi"' showing total 14 results

1. Visualization of mandibular movement relative to the maxilla during mastication in mice: integration of kinematic analysis and reconstruction of a three-dimensional model of the maxillofacial structure

Author

Go Yasuda, Emi Moriuchi, Ryo Hamanaka, Ayumi Fujishita, Tomoko Yoshimi, Kana Yamamoto, Kaori Hayashida, Yoshiyuki Koga, and Noriaki Yoshida

Subjects

Motion capture, Jaw movements, Mastication, Mouse, Rigid transformation, EMG, Dentistry, RK1-715

Abstract

Abstract Background Mastication is one of the most fundamental functions for the conservation of human life. To clarify the pathogenetic mechanism of various oral dysfunctions, the demand for devices for evaluating stomatognathic function has been increasing. The aim of the present study was to develop a system to reconstruct and visualize 3-dimensional (3D) mandibular movements relative to the maxilla, including dynamic transition of occlusal contacts between the upper and lower dentitions during mastication in mice. Methods First, mandibular movements with six degrees of freedom were measured using a motion capture system comprising two high-speed cameras and four reflective markers. Second, 3D models of maxillofacial structure were reconstructed from micro-computed tomography images. Movement trajectories of anatomical landmark points on the mandible were then reproduced by integrating the kinematic data of mandibular movements with the anatomical data of maxillofacial structures. Lastly, 3D surface images of the upper dentition with the surrounding maxillofacial structures were transferred to each of the motion capture images to reproduce mandibular movements relative to the maxilla. We also performed electromyography (EMG) of masticatory muscles associated with mandibular movements. Results The developed system could reproduce the 3D movement trajectories of arbitrary points on the mandible, such as incisor, molars and condylar points with high accuracy and could visualize dynamic transitions of occlusal contacts between upper and lower teeth associated with mandibular movements. Conclusions The proposed system has potential to elucidate the mechanisms underlying motor coordination of masticatory muscles and to clarify their roles during mastication by taking advantage of the capability to record EMG data synchronously with mandibular movements. Such insights will enhance our understanding of the pathogenesis and diagnosis of oral motor disorders by allowing comparisons between normal mice and genetically modified mice with oral behavioral dysfunctions.

Published

2021

2. Predisposing conditions for condylar sag after intraoral vertical ramus osteotomy

Author

Satoshi Rokutanda, Shin-Ichi Yamada, Souichi Yanamoto, Hiroshi Sakamoto, Keisuke Omori, Hiromi Rokutanda, Tomoko Yoshimi, Ayumi Fujishita, Yukiko Morita, Noriaki Yoshida, and Masahiro Umeda

Subjects

Medicine, Science

Abstract

Abstract Intraoral vertical ramus osteotomy (IVRO) is used to treat mandibular prognathism and temporomandibular disorders. However, the improvement of temporomandibular disorders after IVRO is considered to be due to the anterior and downward movement of the mandibular condyle, which may lead to condylar sag, and in the worst case, condylar luxation. In this retrospective cohort study, we examined factors potentially associated with condylar sag. Univariate analysis indicated that condylar sag was significantly associated with the following factors: magnitude of setback (P = 0.001), less than 3 mm setback (P

Published

2021

3. Development and evaluation of a jaw-tracking system for mice: reconstruction of three-dimensional movement trajectories on an arbitrary point on the mandible

Author

Emi Moriuchi, Ryo Hamanaka, Yoshiyuki Koga, Ayumi Fujishita, Tomoko Yoshimi, Go Yasuda, Haruka Kohara, and Noriaki Yoshida

Subjects

Motion capture, Jaw movements, Mastication, Mouse, Rigid transformation, Medical technology, R855-855.5

Abstract

Abstract Background Mastication is one of the most fundamental functions for the conservation of life. The demand for devices for evaluating stomatognathic function, for instance, recording mandibular movements or masticatory muscle activities using animal models, has been increasing in recent years to elucidate neuromuscular control mechanisms of mastication and to investigate the etiology of oral motor disorders. To identify the fundamental characteristics of the jaw movements of mice, we developed a new device that reconstructs the three-dimensional (3D) movement trajectories on an arbitrary point on the mandible during mastication. Methods First, jaw movements with six degrees of freedom were measured using a motion capture system comprising two high-speed cameras and four reflective markers. Second, a 3D model of the mandible including the markers was created from micro-computed tomography images. Then, the jaw movement trajectory on the certain anatomical point was reproduced by integrating the kinematic data of the jaw movements with the geometric data of the mandible. Results The 3D movements at any points on the mandible, such as the condyle, molar, and incisor during mastication, could be calculated and visualized with an accuracy > 0.041 mm in 3D space. The masticatory cycle was found to be clearly divided into three phases, namely, the opening, closing, and occlusal phases in mice. Conclusions The proposed system can reproduce and visualize the movements of internal anatomical points such as condylar points precisely by combining kinematic data with geometric data. The findings obtained from this system could facilitate our understanding of the pathogenesis of eating disorders or other oral motor disorders when we could compare the parameters of stomatognathic function of normal mice and those of genetically modified mice with oral behavioral dysfunctions.

Published

2019

4. Visualization of mandibular movement relative to the maxilla during mastication in mice: integration of kinematic analysis and reconstruction of a three-dimensional model of the maxillofacial structure

Author

Kana Yamamoto, Yoshiyuki Koga, Noriaki Yoshida, Emi Moriuchi, Tomoko Yoshimi, Go Yasuda, Kaori Hayashida, Ryo Hamanaka, and Ayumi Fujishita

Subjects

Jaw movements, Mouse, Movement, Electromyography, Kinematics, Mandible, Mice, EMG, Incisor, stomatognathic system, medicine, Maxilla, Animals, General Dentistry, Mastication, Orthodontics, medicine.diagnostic_test, business.industry, Research, RK1-715, X-Ray Microtomography, Masticatory force, Motor coordination, Biomechanical Phenomena, stomatognathic diseases, medicine.anatomical_structure, Dentistry, Rigid transformation, business, Motion capture

Abstract

Background: Mastication is one of the most fundamental functions for the conservation of human life. To clarify the pathogenetic mechanism of various oral dysfunctions, the demand for devices for evaluating stomatognathic function has been increasing. The aim of the present study was to develop a system to reconstruct and visualize 3-dimensional (3D) mandibular movements relative to the maxilla, including dynamic transition of occlusal contacts between the upper and lower dentitions during mastication in mice. Methods: First, mandibular movements with six degrees of freedom were measured using a motion capture system comprising two high-speed cameras and four reflective markers. Second, 3D models of maxillofacial structure were reconstructed from micro-computed tomography images. Movement trajectories of anatomical landmark points on the mandible were then reproduced by integrating the kinematic data of mandibular movements with the anatomical data of maxillofacial structures. Lastly, 3D surface images of the upper dentition with the surrounding maxillofacial structures were transferred to each of the motion capture images to reproduce mandibular movements relative to the maxilla. We also performed electromyography (EMG) of masticatory muscles associated with mandibular movements. Results: The developed system could reproduce the 3D movement trajectories of arbitrary points on the mandible, such as incisor, molars and condylar points with high accuracy and could visualize dynamic transitions of occlusal contacts between upper and lower teeth associated with mandibular movements. Conclusions: The proposed system has potential to elucidate the mechanisms underlying motor coordination of masticatory muscles and to clarify their roles during mastication by taking advantage of the capability to record EMG data synchronously with mandibular movements. Such insights will enhance our understanding of the pathogenesis and diagnosis of oral motor disorders by allowing comparisons between normal mice and genetically modified mice with oral behavioral dysfunctions., BMC Oral Health, 21, art. no. 527; 2021

Published

2021

5. Effects of the changes in the condylar long axis angle and condylar position on temporomandibular symptoms after intraoral vertical ramus osteotomy: a preliminary study

Author

Hiromi Rokutanda, Haruka Kohara, Yukiko Morita, Emi Moriuchi, Airi Ino-Kondo, Satoshi Rokutanda, Takuya Nakamura, Souichi Yanamoto, Tomoko Yoshimi, Masako Yoshimatsu, Masahiro Umeda, Shin-ichi Yamada, and Hiroshi Sakamoto

Subjects

Cephalometry, medicine.medical_treatment, Osteotomy, Sagittal Split Ramus, Computed tomography, Mandible, Axial rotation, Condyle, Pathology and Forensic Medicine, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, medicine, Humans, Internal fixation, Radiology, Nuclear Medicine and imaging, Dentistry (miscellaneous), skin and connective tissue diseases, Orthodontics, Long axis, medicine.diagnostic_test, business.industry, Mandibular Condyle, Vertical ramus osteotomy, 030206 dentistry, Position (obstetrics), 030220 oncology & carcinogenesis, JAW DEFORMITY, Prognathism, Surgery, sense organs, Oral Surgery, business

Abstract

Objective This study was conducted to characterize the effects of the changes in the condylar long axis and position on temporomandibular symptoms with respect proximal segment position after intraoral vertical ramus osteotomy (IVRO). Study Design Twenty Japanese patients with diagnosed jaw deformity underwent IVRO without internal fixation. Long-term changes in condylar long axis and position were assessed during postoperative follow-up examinations by using computed tomography, and t tests were performed for comparison. In addition, changes in temporomandibular symptoms were examined. Results The degree of axial rotation of the proximal segment changed significantly when the proximal segment was located laterally. Downward changes in condylar position significantly differed when the proximal segment was located posterolaterally. Forward changes in condylar position significantly differed when the proximal segment was located laterally; moreover, when the proximal segment was located laterally, temporomandibular symptoms disappeared. Conclusions Lateral location of the proximal segment may be an important factor in the positive effects of IVRO, with respect to temporomandibular symptoms.

Published

2019

6. Predisposing conditions for condylar sag after intraoral vertical ramus osteotomy

Author

Hiroshi Sakamoto, Shin-ichi Yamada, Yukiko Morita, Satoshi Rokutanda, Tomoko Yoshimi, Ayumi Fujishita, Keisuke Omori, Souichi Yanamoto, Masahiro Umeda, Noriaki Yoshida, and Hiromi Rokutanda

Subjects

Adult, Male, Adolescent, Science, Oral Surgical Procedures, Joint Dislocations, Article, Condyle, Young Adult, Medical research, Imaging, Three-Dimensional, Postoperative Complications, stomatognathic system, medicine, Humans, Retrospective Studies, Orthodontics, Univariate analysis, Multidisciplinary, Temporomandibular Joint, business.industry, Incidence, Mandibular Condyle, Retrospective cohort study, Vertical ramus osteotomy, Middle Aged, Temporomandibular Joint Disorders, musculoskeletal system, Osteotomy, Temporomandibular joint, body regions, stomatognathic diseases, Mandibular prognathism, medicine.anatomical_structure, Risk factors, Prognathism, Medicine, Female, Tomography, X-Ray Computed, business

Abstract

Intraoral vertical ramus osteotomy (IVRO) is used to treat mandibular prognathism and temporomandibular disorders. However, the improvement of temporomandibular disorders after IVRO is considered to be due to the anterior and downward movement of the mandibular condyle, which may lead to condylar sag, and in the worst case, condylar luxation. In this retrospective cohort study, we examined factors potentially associated with condylar sag. Univariate analysis indicated that condylar sag was significantly associated with the following factors: magnitude of setback (P = 0.001), less than 3 mm setback (P P = 0.002), Wilkes classification (P = 0.039), occlusal cant correction ≥ 2 mm (P = 0.018), and mandibular condyle deformation (P P = 0.032) and TMJ symptoms (P = 0.007) remained significant in the multivariate analysis. In the receiver operating characteristic curve, the setback magnitude cut-off value for condylar sag after IVRO was 3.25 mm. Thus, the incidence of condylar sag after IVRO is increased with a smaller setback magnitude (≤ 3.25 mm) and the presence of TMJ symptoms. These factors should be evaluated by surgeons during treatment planning for IVRO to estimate condylar sag, and it may be possible to predict the risk of condylar luxation.

Published

2021

7. Predisposing Conditions for Condylar Luxation After Intraoral Vertical Ramus Osteotomy 

Author

Ayumi Fujishita, Satoshi Rokutanda, Hiromi Rokutanda, Noriaki Yoshida, Keisuke Omori, Masahiro Umeda, Souichi Yanamoto, Hiroshi Sakamoto, Yukiko Morita, Shin-ichi Yamada, and Tomoko Yoshimi

Subjects

Orthodontics, stomatognathic diseases, stomatognathic system, business.industry, Medicine, Vertical ramus osteotomy, musculoskeletal system, business, Condyle

Abstract

Intraoral vertical ramus osteotomy (IVRO) is a surgical procedure for the treatment of mandibular prognathism and temporomandibular disorders. However, the improvement of temporomandibular disorders after surgery is considered to be due to the anterior and downward movement of the mandibular condyle, which may lead to condylar sag, and in the worst case, condylar luxation. In this retrospective cohort study, we examined factors potentially associated with condylar luxation. Univariate analysis indicated that condylar luxation was significantly associated with the following factors: magnitude of setback (P = 0.001); presence of temporomandibular joint (TMJ) symptoms (P = 0.002); occlusal cant correction ≥ 2 mm (P = 0.018); and mandibular condyle deformation (P < 0.001). The magnitude of setback (P = 0.035) and the presence of TMJ symptoms (P = 0.008) remained significant in the multivariate analysis. In the receiver operating characteristic curve, the cut-off value of the magnitude of setback for condylar sag and condylar luxation after IVRO was 3.25 mm. Thus, the risk of condylar luxation after IVRO is increased with a smaller magnitude of setback (≤ 3.25 mm) and the presence of TMJ symptoms. These factors should be carefully evaluated by surgeons during treatment planning for IVRO.

Published

2021

8. Anterior relapse or posterior drift after intraoral vertical ramus osteotomy

Author

Hiromi Rokutanda, Yukiko Morita, Hiroshi Sakamoto, Masahiro Umeda, Noriaki Yoshida, Satoshi Rokutanda, Souichi Yanamoto, Kohei Furukawa, Tomoko Yoshimi, Takuya Nakamura, and Shin-ichi Yamada

Subjects

Adult, Male, Molar, Adolescent, medicine.medical_treatment, Osteotomy, Sagittal Split Ramus, lcsh:Medicine, Osteotomy, Article, stomatognathic system, Occlusion, medicine, Humans, Oral diseases, lcsh:Science, Retrospective Studies, Orthodontics, Multidisciplinary, business.industry, lcsh:R, Vertical ramus osteotomy, Retrospective cohort study, Middle Aged, medicine.disease, Setback, Malocclusion, Angle Class III, Outcomes research, Prognathism, lcsh:Q, Female, Malocclusion, Splint (medicine), business

Abstract

This study aimed to evaluate the factors contributing to postoperative anterior relapse or posterior drift of the distal segment after intraoral vertical ramus osteotomy. A retrospective cohort study was conducted which included 31 patients who underwent setback surgery for mandibular prognathism by the intraoral vertical ramus osteotomy technique. Uni- and multivariate analyses were performed to determine the association of potential explanatory variables (sex, age, magnitude of setback, differences in setback magnitude between sides (right/left), duration of splint use, Angle’s classification of malocclusion, mandibular angle, and tightness of occlusion of the molars) with positional changes in the distal segment. The setback magnitude was only significant factor affecting (P = 0.015) for posterior drift, with significant posterior in setback magnitudes of less than 7.25 mm. Posterior drift after intraoral vertical ramus osteotomy is less likely if setback magnitude exceeds 7.25 mm. For setbacks less than 7.25 mm, posterior drift should either be carefully corrected postoperatively, or an alternative surgical technique should be used. The setback magnitude showed a significant association with the risk of posterior drift following intraoral vertical ramus osteotomy, and the determined cut-off value may serve as a predictor for postoperative outcomes., Scientific Reports, 10(1), art.no.3858; 2020

Published

2020

9. Development and evaluation of a jaw-tracking system for mice: reconstruction of three-dimensional movement trajectories on an arbitrary point on the mandible

Author

Ayumi Fujishita, Ryo Hamanaka, Yoshiyuki Koga, Emi Moriuchi, Tomoko Yoshimi, Go Yasuda, Noriaki Yoshida, and Haruka Kohara

Subjects

Jaw movements, lcsh:Medical technology, Mouse, Computer science, Movement, 0206 medical engineering, Biomedical Engineering, Mandible, 02 engineering and technology, Kinematics, Motion capture, Condyle, Anatomical point, Biomaterials, Mice, Imaging, Three-Dimensional, Incisor, medicine, Animals, Radiology, Nuclear Medicine and imaging, Mastication, Orthodontics, Radiological and Ultrasound Technology, Research, X-Ray Microtomography, General Medicine, 020601 biomedical engineering, Biomechanical Phenomena, Masticatory force, medicine.anatomical_structure, lcsh:R855-855.5, Rigid transformation

Abstract

Background: Mastication is one of the most fundamental functions for the conservation of life. The demand for devices for evaluating stomatognathic function, for instance, recording mandibular movements or masticatory muscle activities using animal models, has been increasing in recent years to elucidate neuromuscular control mechanisms of mastication and to investigate the etiology of oral motor disorders. To identify the fundamental characteristics of the jaw movements of mice, we developed a new device that reconstructs the three-dimensional (3D) movement trajectories on an arbitrary point on the mandible during mastication. Methods: First, jaw movements with six degrees of freedom were measured using a motion capture system comprising two high-speed cameras and four reflective markers. Second, a 3D model of the mandible including the markers was created from micro-computed tomography images. Then, the jaw movement trajectory on the certain anatomical point was reproduced by integrating the kinematic data of the jaw movements with the geometric data of the mandible. Results: The 3D movements at any points on the mandible, such as the condyle, molar, and incisor during mastication, could be calculated and visualized with an accuracy > 0.041 mm in 3D space. The masticatory cycle was found to be clearly divided into three phases, namely, the opening, closing, and occlusal phases in mice. Conclusions: The proposed system can reproduce and visualize the movements of internal anatomical points such as condylar points precisely by combining kinematic data with geometric data. The findings obtained from this system could facilitate our understanding of the pathogenesis of eating disorders or other oral motor disorders when we could compare the parameters of stomatognathic function of normal mice and those of genetically modified mice with oral behavioral dysfunctions., BioMedical Engineering Online, 18(1), art.no.59; 2019

Published

2019

10. Oral function analysis with six degrees of freedom motion and synchronization measurement of the EMG

Author

Ayumi Fujishita, Tomoko Yoshimi, Kana Yamada, Noriaki Yoshida, Haruka Kohara, Go Yasuda, Emi Moriuchi, Yoshiyuki Koga, and Ryo Hamanaka

Subjects

Oral function, Computer science, Control theory, Synchronization (computer science), Six degrees of freedom, Motion (physics)

Published

2019

11. Comparison of osseous healing after sagittal split ramus osteotomy and intraoral vertical ramus osteotomy

Author

Haruka Kohara, Yuji Fujimura, Takuya Nakamura, Yukiko Morita, Ayumi Fujishita, Masataka Umeda, Keisuke Omori, Noriaki Yoshida, Tomoko Yoshimi, Hiromi Rokutanda, Satoshi Rokutanda, Souichi Yanamoto, and Shin-ichi Yamada

Subjects

Adult, Male, Adolescent, Osteotomy, Sagittal Split Ramus, Computed tomography, Bone healing, Inferior alveolar nerve, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, Sagittal Split Ramus Osteotomy, Medicine, Humans, Preoperative state, In patient, Retrospective Studies, Orthodontics, Wound Healing, medicine.diagnostic_test, business.industry, Mandible, Vertical ramus osteotomy, 030206 dentistry, Middle Aged, Treatment Outcome, Otorhinolaryngology, 030220 oncology & carcinogenesis, Prognathism, Surgery, Female, Oral Surgery, business, Tomography, X-Ray Computed

Abstract

The sagittal split ramus osteotomy (SSRO) is generally associated with greater postoperative stability than the intraoral vertical ramus osteotomy (IVRO); however, it entails a risk of inferior alveolar nerve damage. In contrast, IVRO has the disadvantages of slow postoperative osseous healing and projection of the antegonial notch, but inferior alveolar nerve damage is believed to be less likely. The purposes of this study were to compare the osseous healing processes associated with SSRO and IVRO and to investigate changes in mandibular width after IVRO in 29 patients undergoing mandibular setback. On computed tomography images, osseous healing was similar in patients undergoing SSRO and IVRO at 1year after surgery. Projection of the antegonial notch occurred after IVRO, but returned to the preoperative state within 1year. The results of the study indicate that IVRO is equivalent to SSRO with regard to both bone healing and morphological recovery of the mandible.

Published

2017

12. Mechanism of motor coordination of masseter and temporalis muscles for increased masticatory efficiency in mice

Author

C. Y. Tsai, Aya Nakamura, K. Yoshimi, Tomoko Yoshimi, Ayumi Fujishita, Emi Moriuchi, Haruka Kohara, Noriaki Yoshida, and Yoshiyuki Koga

Subjects

Male, Electromyography, Temporal muscle, Masseter muscle, 03 medical and health sciences, Mice, 0302 clinical medicine, Medicine, Animals, Botulinum Toxins, Type A, General Dentistry, Mastication, Orthodontics, Mice, Inbred ICR, medicine.diagnostic_test, Temporomandibular Joint, business.industry, 030206 dentistry, Temporomandibular joint, Motor coordination, Masticatory force, Biomechanical Phenomena, Deglutition, Disease Models, Animal, medicine.anatomical_structure, Stomatognathic system, Neuromuscular Agents, Masticatory Muscles, business, 030217 neurology & neurosurgery

Abstract

The demand for the use of mice as animal models for elucidating the pathophysiologies and pathogeneses of oral motor disorders has been increasing in recent years, as more and more kinds of genetically modified mice that express functional disorders of the stomatognathic system become available. However, the fundamental characteristics of mouse jaw movements during mastication have yet to be fully elucidated. The purpose of this study was to investigate the roles of the masseter and temporalis muscles, and the mechanisms of motor coordination of these muscles for increasing masticatory efficiency in the closing phase in mice. Twenty-two male Jcl:ICR mice were divided into control (n = 8), masseter-hypofunction (n = 7) and temporalis-hypofunction groups (n = 7). Botulinum neurotoxin type A (BoNT⁄A) was used to induce muscle hypofunction. The masticatory movement path in the horizontal direction during the occlusal phase became unstable after BoNT⁄A injection into the masseter muscle. BoNT⁄A injection into the temporalis muscle decreased antero-posterior excursion of the late-closing phase corresponding to the power phase of the chewing cycle. These results suggest that the masseter plays an important role in stabilizing the grinding path, where the food bolus is ground by sliding the posterior teeth from back to front during the occlusal phase. The temporalis plays a major role in retracting the mandible more posteriorly in the early phase of closing, extending the grinding path. Masticatory efficiency is thus increased based on the coordination of activities by the masseter and temporalis muscles.

Published

2017

13. Effects of feeding a soft diet and subsequent rehabilitation on the development of the masticatory function

Author

Aya Nakamura, Yoshiyuki Koga, Noriaki Yoshida, Dai Utsumi, Ayumi Fujishita, and Tomoko Yoshimi

Subjects

Male, Orthodontics, Mice, Inbred ICR, Rehabilitation, medicine.diagnostic_test, Electromyography, Masseter Muscle, business.industry, medicine.medical_treatment, Soft diet, Dentistry, Masticatory force, Fully developed, Masseter muscle, Mice, Food, medicine, Animals, Mastication, business, General Dentistry, Icr mice

Abstract

It has been suggested that feeding a soft diet could possibly inhibit normal development of the masticatory function. However, the consequences of such changes in the alimentary habits have yet to be fully clarified. Therefore, the aim of this study was to determine whether a soft diet prevents the development of masticatory function and whether a critical period for programming the masticatory system exists. To examine these hypotheses, we used a three-dimensional jaw-movement tracking device and jaw muscle electromyography (EMG) to analyse masticatory function changes in mice. Jcl:ICR mice were divided into three groups, with the normal group fed a hard diet, the hypofunctional group fed a soft diet, and the rehabilitation group first fed a soft diet that was then changed to a hard diet. Our results showed that the excursion and duration of late-closing phase (occlusal phase) of the chewing cycle and EMG activity in the masseter muscle were not only reduced in the hypofunctional but also in the rehabilitation group as compared with the normal group. These results suggest that optimisation of the chewing pattern and acquisition of appropriate masticatory function are impeded by feeding a soft diet during the animal's growth period and that no catch-up effect of the masticatory function is observed when there is a prolonged period of time prior to changing the diet from soft to hard. In conclusion, masticatory function can only be fully developed through a learning process such as exposure to chewing various kinds of foods with different food textures.

Published

2014

14. Development of measuring system for jaw movement with six degrees of freedom motion in rodents

Author

Aya Nakamura, Ryo Hamanaka, Yoshiyuki Koga, Ayumi Fujishita, Noriaki Yoshida, Emi Moriuchi, and Tomoko Yoshimi

Subjects

Orthodontics, Computer science, Jaw movement, Six degrees of freedom, Development (differential geometry), Motion (physics)

Published

2016