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1. Cranial suture morphometry and mechanical response to loading: 2D vs. 3D assumptions and characterization

Author

Ross Remesz, Tsolmonbaatar Khurelbaatar, Miranda Grotski, Tracy Popowics, Katherine Rafferty, Susan W. Herring, Owen Addison, Michael R. Doschak, and Dan L. Romanyk

Subjects
Cross-Sectional Studies, Sutures, Swine, Mechanical Engineering, Modeling and Simulation, Skull, Animals, Cranial Sutures, Head, Biotechnology
Abstract

Cranial sutures are complex soft tissue structures whose mechanics are often studied due to their link with bone growth in the skull. Researchers will often use a cross-sectional two-dimensional slice to define suture geometry when studying morphometry and/or mechanical response to loading. However, using a single cross section neglects the full suture complexity and may introduce significant errors when defining their form. This study aims to determine trends in suture path variability through skull thickness in a swine model and the implications of using a 'representative' cross section on mechanical modeling. To explore these questions, a mixture of quantitative analysis of computed tomography images and finite element models was used. The linear interdigitation and width of coronal and sagittal sutures were analyzed on offset transverse planes through the skull thickness. It was found that sagittal suture width and interdigitation were largely consistent through the skull thickness, whereas the coronal suture showed significant variation in both. The finite element study found that average values of displacement and strain were similar between the two-dimensionally variable and three-dimensionally variable models. Larger ranges and more complex distributions of strain were found in the three-dimensionally variable model. Outcomes of this study indicate that the appropriateness of using a representative cross section to describe suture morphometry and predict mechanical response should depend on specific research questions and goals. Two-dimensional approximations can be sufficient for less-interdigitated sutures and when bulk site mechanics are of interest, while taking the true three-dimensional geometry into account is necessary when considering spatial variability and local mechanical response.

Published
2022

3. The nasal septum and midfacial growth

Author

Michael C. Baldwin, Diana Zarudnaya, Zi‐Jun Liu, and Susan W. Herring

Subjects
Histology, Anatomy, Ecology, Evolution, Behavior and Systematics, Biotechnology
Published
2023

4. Myology of the masticatory apparatus of herbivorous mammals and a novel classification for a better understanding of herbivore diversity

Author

Marcos D Ercoli, Alicia Álvarez, Natalie M Warburton, Christine M Janis, Elena G Potapova, Susan W Herring, Guillermo H Cassini, Juliana Tarquini, and Alexander Kuznetsov

Subjects
Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics
Abstract

Masticatory muscle features allow for an understanding of how dietary habits and masticatory functions have evolved across mammalian lineages. Herbivorous mammals were traditionally classified as pertaining to either ‘ungulate-grinding’ or ‘rodent-gnawing’ morphotypes, but those classes might not adequately encompass the diversity of past and present herbivores. We compiled data for 104 herbivorous (nine orders, including new data for 31 species) and ten non-herbivorous (five orders) extant species and for four extinct taxa, in order to construct a more comprehensive scheme of masticatory morphotypes. A myological phylomorphospace revealed 15 morphotypes, which were tested statistically and interpreted morphofunctionally. Extant herbivorous morphotypes diversified along two main pathways that did not reflect the traditional types. Additionally, some extinct herbivores adapted along alternative pathways to those of extant forms. Early mammaliaforms and mammals possessed muscle proportions almost identical to those of living carnivores. Several more plesiomorphic herbivorous morphotypes were recognized, with some of them retaining generalized myological proportions. The rodent disparity was remarkable and could not be encompassed by a single category or pathway. Features of some derived euungulates and diprotodonts resembled rodents, but only a few extinct euungulates and extant wombats converged closely with them. Criteria for selecting models for palaeobiological reconstructions are discussed.

Published
2023

5. Botulinum toxin in the masseter muscle: Lingering effects of denervation

Author

Michael C. Baldwin, Andrew Keith, Basma Tamasas, Katherine L. Rafferty, Zi Jun Liu, Karl J. Kaiyala, and Susan W. Herring

Subjects
Pathology, medicine.medical_specialty, Histology, Neuromuscular Junction, Masseter muscle, chemistry.chemical_compound, Fibrosis, Animals, Medicine, Regenerating fibers, Botulinum Toxins, Type A, Ecology, Evolution, Behavior and Systematics, Denervation, Masseter Muscle, business.industry, Muscles, medicine.disease, Botulinum toxin, medicine.anatomical_structure, chemistry, Immunohistochemistry, Rabbits, Anatomy, business, Bromodeoxyuridine, Biotechnology, Reinnervation, medicine.drug
Abstract

Botulinum neurotoxins (BoNTs) are paralytic agents used to treat a variety of conditions in jaw muscles. Although their effect is considered temporary, there are reports of persistent functional changes. Using rabbits that received BoNT injection in one masseter muscle, the recovery of neuromuscular connection was investigated using nerve stimulation to evoke an electromyographic (EMG) response, and the recovery of muscle fibers was investigated using histological morphometry and bromodeoxyuridine (BrdU) immunohistochemistry. One month after treatment, evoked EMG was greatly reduced in both amplitude and duration, indicating that little reinnervation had taken place. Muscle fibers were atrophied and collagenous tissue was increased. Three months after treatment, evoked EMG duration was normal, indicating that at least some neuromuscular junctions were functional. Histologically, some muscle fibers were hypertrophied, some were still atrophied, and some appeared to have died. Fibrosis was still apparent amid slight increases in dividing cells and regenerating fibers. The histological effects of BoNT were evident although attenuated at a distance of about 1 cm from the injection level, but no regional differences could be discerned for the evoked EMGs. In conclusion, there were persistent muscular deficits seen 3 months after BoNT treatment that may have been caused by the failure of some affected muscle fibers to become reinnervated.

Published
2021

6. Muscle Logic: New Knowledge Resource for Anatomy Enables Comprehensive Searches of the Literature on the Feeding Muscles of Mammals.

Author

Robert E Druzinsky, James P Balhoff, Alfred W Crompton, James Done, Rebecca Z German, Melissa A Haendel, Anthony Herrel, Susan W Herring, Hilmar Lapp, Paula M Mabee, Hans-Michael Muller, Christopher J Mungall, Paul W Sternberg, Kimberly Van Auken, Christopher J Vinyard, Susan H Williams, and Christine E Wall

Subjects
Medicine, Science
Abstract

BACKGROUND:In recent years large bibliographic databases have made much of the published literature of biology available for searches. However, the capabilities of the search engines integrated into these databases for text-based bibliographic searches are limited. To enable searches that deliver the results expected by comparative anatomists, an underlying logical structure known as an ontology is required. DEVELOPMENT AND TESTING OF THE ONTOLOGY:Here we present the Mammalian Feeding Muscle Ontology (MFMO), a multi-species ontology focused on anatomical structures that participate in feeding and other oral/pharyngeal behaviors. A unique feature of the MFMO is that a simple, computable, definition of each muscle, which includes its attachments and innervation, is true across mammals. This construction mirrors the logical foundation of comparative anatomy and permits searches using language familiar to biologists. Further, it provides a template for muscles that will be useful in extending any anatomy ontology. The MFMO is developed to support the Feeding Experiments End-User Database Project (FEED, https://feedexp.org/), a publicly-available, online repository for physiological data collected from in vivo studies of feeding (e.g., mastication, biting, swallowing) in mammals. Currently the MFMO is integrated into FEED and also into two literature-specific implementations of Textpresso, a text-mining system that facilitates powerful searches of a corpus of scientific publications. We evaluate the MFMO by asking questions that test the ability of the ontology to return appropriate answers (competency questions). We compare the results of queries of the MFMO to results from similar searches in PubMed and Google Scholar. RESULTS AND SIGNIFICANCE:Our tests demonstrate that the MFMO is competent to answer queries formed in the common language of comparative anatomy, but PubMed and Google Scholar are not. Overall, our results show that by incorporating anatomical ontologies into searches, an expanded and anatomically comprehensive set of results can be obtained. The broader scientific and publishing communities should consider taking up the challenge of semantically enabled search capabilities.

Published
2016
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7. Repeated botulinum treatment of rabbit masseter causes cumulative tissue damage

Author

Susan W, Herring, Zi-Jun, Liu, Katherine L, Rafferty, Michael C, Baldwin, Atriya, Salamati, Cambria, Cunningham, Birkin, Owart, and Basma, Tamasas

Subjects
Botulinum Toxins, Electromyography, Masseter Muscle, Mandible, Cell Biology, General Medicine, Bite Force, Otorhinolaryngology, Masticatory Muscles, Clostridium botulinum, Animals, Female, Rabbits, General Dentistry
Abstract

Botulinum neurotoxins (BoNT) are used in masticatory muscles for pain relief, unloading of the mandible, and cosmetic facial contouring. Treatment is often repeated every few months as function returns. This study assessed masticatory function and musculoskeletal structure after multiple BoNT treatment of the rabbit masseter.Female rabbits received 3 injections of BoNT (n = 13) or saline (n = 5) into one masseter muscle at intervals of 12 weeks. The contralateral side served as control. Periodic measurements of masticatory electromyography (EMG) and stimulated anterior bite force were made. After the final 12-week recovery interval, neuromuscular connection was investigated by stimulating the masseteric nerve to elicit an evoked EMG response. Mandibular specimens were collected for microCT analysis, and masseters were collected for histomorphometry and counts of replicating cells.Control and saline-injected muscles maintained consistent masticatory EMG and anterior bite force throughout the study. BoNT-injected masseters showed strong declines after each injection; during the 12-week recovery period, masticatory EMG and anterior bite force improved, although only electrical activity reached normal levels. Multiple injection resulted in persistently atrophied muscle fibers with fibrosis, and notable loss of bone from the mandibular body and condyle. The uninjected masseters of the BoNT group also showed evidence of mild toxin-related changes.Although muscle function is mostly regained after each injection, masseters receiving multiple doses of BoNT show extensive damage. In addition, mandibular bone density is decreased on the injected side.

Published
2022

8. Can cephalometric parameters be measured reproducibly using reduced-dose cone-beam computed tomography?

Author

D Zamora, Anne Marie Bollen, Fedora Katz, Charles Spiekerman, Johan Aps, Michael N. Hoff, and Susan W. Herring

Subjects
Cone beam computed tomography, Materials science, Observational error, Image quality, business.industry, Radiography, Orthodontics, 030206 dentistry, Reduced dose, 030207 dermatology & venereal diseases, 03 medical and health sciences, 0302 clinical medicine, Cadaver, Cephalogram, Nuclear medicine, business, Rotation (mathematics)
Abstract

Objective To evaluate cone-beam computed tomography (CBCT) image quality via cephalometric measurement variability while reducing radiation exposure by altering the radiographic technique. Materials and Methods A human cadaver was imaged using a Morita Accuitomo 170 CBCT machine at various technique parameters: tube voltages of 60, 70, 80, and 90 kV, tube currents of 1, 2.5, and 5 mA, and rotational arcs of 180° and 360°. From the rotation data, standard cephalogram views were generated. Point radiation dose measurements were recorded at the entry of three key radiosensitive regions. Ten examiners measured seven cephalometric parameters on the conventional cephalogram and each derived view. Measurement error and dose were compared between radiographic techniques and a standard cephalometric procedure. Results Generally insignificant differences in measurement error were observed when rotation arc was reduced from 360° to 180°, when tube current was reduced from 5 mA to 2.5 mA, and when tube voltage was reduced from 90 kV to 80 kV and 70 kV. Radiation dose could be halved for either of the rotation arc or tube current reductions; reducing both yielded dose comparable to standard cephalometric imaging. Using 1 mA or 60 kV rendered nondiagnostic images. Discussion The study's cadaver included embalming fluid, a lack of patient-motion-induced image blur, and lesser bone density relative to a typical adolescent orthodontic patient, which can yield images not wholly representative of live patients. Conclusion Orthodontists could image with CBCT using a 180° arc of rotation, 2.5 mA, and 70 or 80 kV to reduce radiation dose while yielding images of adequate quality that are derived from three-dimensional data.

Published
2019

9. Histological Development of the Fused Mandibular Symphysis in the Pig

Author

Eugenia Lee, Tracy E. Popowics, and Susan W. Herring

Subjects
Male, 0301 basic medicine, Histology, Mandibular symphysis, Swine, Symphysis, Mesenchyme, Mandible, Biology, Mesoderm, 03 medical and health sciences, Chondrocytes, 0302 clinical medicine, Osteogenesis, medicine, Animals, Endochondral ossification, Ecology, Evolution, Behavior and Systematics, Cartilage, Anatomy, Chondrogenesis, 030104 developmental biology, medicine.anatomical_structure, Intramembranous ossification, Female, Joints, 030217 neurology & neurosurgery, Biotechnology
Abstract

The development of the mandibular symphysis in late fetal and postnatal pigs, Sus scrofa dom. (n = 17), was studied as a model for the early fusing symphysis of anthropoid primates, including humans. The suture-like ligaments occurring in species that retain a mobile symphysis are not present in the pig. Instead, cartilage is the predominant tissue in the mandibular symphysis prior to fusion. In late fetuses the rostrum of the fused Meckel's cartilages forms a minor posterior component of the symphysis whereas the major component is secondary cartilage, developing bilaterally and joined at the midline with mesenchyme. This remnant of Meckel's cartilage likely fuses with the flanking secondary cartilage. The overall composition of pig symphyseal histology in fetal and infant animals varies regionally and individually. Regions where the paired secondary cartilages abut in the midline resemble double growth plates. Chondrogenic growth in width of the symphysis is likely important in early stages, and central proliferation of mesenchyme is the probable source of new chondrocytes. Laterally, the chondrocytes hypertrophy near the bone fronts and are replaced by alveolar bone. Complete synostosis except for a small cartilage remnant had occurred in one 8-week-old postnatal specimen and all older specimens. Surprisingly, however, the initial phase of symphyseal fusion, observed in a 5-week-old postnatal specimen, involved intramembranous ossification of midline mesenchyme rather than endochondral ossification. Subsequently, fusion progresses rapidly at the anterior and labial aspects of the symphysis, leaving only a small postero-lingual cartilage pad that persists for at least several months. Anat Rec, 302:1372-1388, 2019. © 2018 Wiley Periodicals, Inc.

Published
2018

10. Biomechanics of craniofacial development in mice

Author

Michael J. Fagan, Christian Babbs, Erwin Pauws, Arsalan Marghoub, Mehran Moazen, and Susan W. Herring

Subjects
Orthodontics, business.industry, Genetics, Biomechanics, Medicine, Craniofacial, business, Molecular Biology, Biochemistry, Biotechnology
Published
2019

11. Mechanobiology of bone and suture - Results from a pig model

Author

Michael C. Baldwin, Susan W. Herring, Shean Han Soh, and Katherine L. Rafferty

Subjects
Swine, Biophysics, Miniature swine, Orthodontics, Strain (injury), Biology, Article, 03 medical and health sciences, Mechanobiology, 0302 clinical medicine, Suture (anatomy), stomatognathic system, medicine, Animals, 030212 general & internal medicine, Mastication, Sutures, Skull, Biomechanics, 030206 dentistry, Cranial Sutures, medicine.disease, Hypoplasia, Masticatory force, Otorhinolaryngology, Swine, Miniature, Surgery, Oral Surgery
Abstract

OBJECTIVE: To compare the morphology and mechanical function of sutures in normal pigs and minipigs to those of Yucatan minipigs, a natural model for midfacial hypoplasia. SETTING AND SAMPLE POPULATION: Research took place at the Department of Orthodontics at the University of Washington and used varying sample sizes of normal-snouted pigs and Yucatan minipigs. MATERIAL AND METHODS: Skulls and heads were examined for morphology of the nasofrontal suture using computed tomography and histology. Strain gauge recordings were made of sutural strain during mastication and during cyclic tensile loading of the nasofrontal suture. RESULTS: Sutures in Yucatans had narrower gaps than same-age normal pigs. The nasofrontal suture was simpler in construction and had more active osteoblasts on the bone fronts in Yucatans. The sutural ligament was less well organized, and based on a small sample, masticatory strain appeared to be lower than in normal minipigs. However, sutures were not fused and showed similar strains in response to the cyclic loading procedure. CONCLUSION: Midfacial hypoplasia in Yucatan pigs has the likely proximate cause of hyperossification. Yet prior to fusion, the sutures appear to be amenable to treatment that would promote their growth rate.

Published
2018

12. The Periosteum of the Zygomatic Arch: Vascularization and Growth

Author

Susan W. Herring and Pannee Ochareon

Subjects
musculoskeletal diseases, 0301 basic medicine, Periosteum, Histology, business.industry, Medial side, Anatomy, musculoskeletal system, Resorption, 03 medical and health sciences, Apposition, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Temporal bone, Medicine, Zygomatic arch, Arch, business, Endochondral ossification, 030217 neurology & neurosurgery, Ecology, Evolution, Behavior and Systematics, Biotechnology
Abstract

In addition to conveying the forces of attaching muscles and ligaments to the zygomatic and temporal bones, the arch periosteum is responsible for lateral apposition and medial resorption during the growth period. In this contribution, we describe the vasculature of the zygomatic arch in young pigs (Sus scrofa dom.) in order to understand the relationship of osseous and periosteal vessels to each other, to surrounding tissues, and to patterns of modeling. Subjects 2–6 weeks of age were perfused with vascular fill; some also received the vital bone label calcein. Whole mounts were prepared of the decalcified bony arch and of its lateral periosteum. Undecalcified arches were plastic-embedded and thick-sectioned. Additional observations on cell replication were made using material from a previous study. The osseous and periosteal vascular supplies were largely independent, joined only by a fine network at the tissue interface. Osseous vessels entered the medial side of the arch through clusters of nutrient foramina. The intraosseous branching pattern resembled the direction of appositional growth, which in turn describes the disposition of bony trabeculae in older pigs. In contrast, vessels arrived at the periosteum via muscles and ligaments and thus its perfusion may partially depend on functional activity. The open weave of periosteal vessels bore little similarity to bone architecture, especially for the temporal bone, but the appositional lateral periosteum showed indications of angiogenesis, whereas the thinner, resorptive periosteum on the medial side featured composite, possibly fusing vessels at the bone surface. Anat Rec, 299:1661–1670, 2016. © 2016 Wiley Periodicals, Inc.

Published
2016

13. Intracranial pressure changes during mouse development

Author

Jennifer A. Gustafson, Katherine L. Rafferty, Susan W. Herring, Mehran Moazen, Zi Jun Liu, Ali Alazmani, Michael L. Cunningham, and Michael J. Fagan

Subjects
Male, 0301 basic medicine, Time Factors, X-ray microtomography, Intracranial Pressure, Cranial growth, Biomedical Engineering, Biophysics, Mice, 03 medical and health sciences, 0302 clinical medicine, Cerebrospinal fluid, Pressure, medicine, Animals, Computer Simulation, Orthopedics and Sports Medicine, Bone formation, Monitoring, Physiologic, Retrospective Studies, Intracranial pressure, Fibrous joint, integumentary system, business.industry, musculoskeletal, neural, and ocular physiology, Skull, Rehabilitation, Brain, X-Ray Microtomography, Anatomy, humanities, Peripheral, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, Brain Injuries, Female, Nuclear medicine, business, 030217 neurology & neurosurgery
Abstract

During early stages of postnatal development, pressure from the growing brain as well as cerebrospinal fluid, i.e. intracranial pressure (ICP), load the calvarial bones. It is likely that such loading contributes to the peripheral bone formation at the sutural edges of calvarial bones, especially shortly after birth when the brain is growing rapidly. The aim of this study was to quantify ICP during mouse development. A custom pressure monitoring system was developed and calibrated. It was then used to measure ICP in a total of seventy three wild type mice at postnatal (P) day 3, 10, 20, 31 and 70. Retrospectively, the sample in each age group with the closest ICP to the average value was scanned using micro-computed tomography to estimate cranial growth. ICP increased from 1.33±0.87mmHg at P3 to 1.92±0.78mmHg at P10 and 3.60±1.08mmHg at P20. In older animals, ICP plateaued at about 4mmHg. There were statistically significant differences between the ICP at the P3 vs. P20, and P10 vs. P20. In the samples that were scanned, intracranial volume and skull length followed a similar pattern of increase up to P20 and then plateaued at older ages. These data are consistent with the possibility of ICP being a contributing factor to bone formation at the sutures during early stages of development. The data can be further used for development and validation of computational models of skull growth.

Published
2016

14. Bone and cartilage changes in rabbit mandibular condyles after 1 injection of botulinum toxin

Author

Katherine L. Rafferty, Tori Matthys, Hong An Ho Dang, and Susan W. Herring

Subjects
Cartilage, Articular, Time Factors, Bone density, Antimetabolites, Osteoclasts, Cell Count, Orthodontics, Injections, Intramuscular, Article, Condyle, Bone resorption, Muscle hypertrophy, Masseter muscle, stomatognathic system, Bone Density, Animals, Medicine, Mandibular Diseases, Bone Resorption, Botulinum Toxins, Type A, Cell Proliferation, Masseter Muscle, business.industry, Cartilage, Mandibular Condyle, Histology, Anatomy, Botulinum toxin, medicine.anatomical_structure, Bromodeoxyuridine, Facial Asymmetry, Neuromuscular Agents, Female, Rabbits, business, medicine.drug
Abstract

Introduction Temporary paralysis of the masseter muscle caused by botulinum toxin is a common treatment for temporomandibular disorders, bruxism, and muscle hypertrophy. Loss of masseter force is associated with decreased mandibular mineral density. Our objectives were (1) to establish whether bone loss at the mandibular condyle is regionally specific and (2) to ascertain whether the treatment affects the condylar cartilage. Methods Young adult female rabbits received a unilateral masseter injection of botulinum neurotoxin serotype A (BoNT/A, n = 31), saline solution (n = 19), or no injection (n = 3) and were also injected with bromodeoxyuridine (BrdU), a replication marker. The rabbits were killed at 4 or 12 weeks after treatment. The condyles were processed for paraffin histology. Cortical thickness, cartilage thickness, and trabecular bone areal density were measured, and replicating cells were counted after BrdU reaction. Results The BoNT/A rabbits exhibited a high frequency of defects in the condylar bone surface, occurring equally on the injected and uninjected sides. Bone loss was seen only on the side of the BoNT/A injection. Cortical as well as trabecular bone was severely affected. The midcondylar region lost the most bone. Recovery at 12 weeks was insignificant. Condylar cartilage thickness showed no treatment effect but did increase with time. The numbers of proliferating cells were similar in the treatment groups, but the BoNT/A animals showed more side asymmetry associated with the condylar defects. Conclusions Bone loss may be a risk factor for the use of botulinum toxin in jaw muscles.

Published
2015

15. Functional tooth mobility in young pigs

Author

Zi Jun Liu, Susan W. Herring, Jie Chen, and Atriya Salamati

Subjects
Molar, Materials science, Tooth Movement Techniques, Periodontal Ligament, Swine, 0206 medical engineering, Biomedical Engineering, Biophysics, 02 engineering and technology, Article, Masseter muscle, Tooth mobility, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, Alveolar Process, Animals, Orthopedics and Sports Medicine, Mastication, Dental alveolus, Orthodontics, business.industry, Rehabilitation, Ultrasound, Buccal administration, 020601 biomedical engineering, stomatognathic diseases, Bone strain, Tooth Mobility, business, Tooth, 030217 neurology & neurosurgery
Abstract

Mobility is a fundamental characteristic of mammalian teeth, and has been widely used to determine individual tooth prognosis. However, the direction and extent of tooth movement under functional loads are unknown. This study investigated maxillary molar mobility, alveolar bending, and periodontal space (PDL) fluid pressure during mastication and masseter muscle contraction in young pigs, along with PDL space measurements. Twelve three-month-old farm pigs were instrumented with some or all of the following: (1) ultrasonic crystals, one implanted into the pulp chamber of a deciduous maxillary molar and additional crystals glued onto its buccal and palatal alveolar plates; (2) rosette strain gauges affixed to the buccal and palatal of alveolar ridges; (3) a pressure transducer inserted into palatal alveolar bone facing the PDL. Tooth mobility, alveolar bending, and fluid pressure were simultaneously recorded during unrestrained feeding and subsequent masseter muscle stimulation. The PDL widths were measured using micro-CT. The results indicate that during the power stroke of mastication, (1) the molar displaced buccally and apically (192 ± 95 µm) regardless of the side of chewing; (2) compressive bone strain was greater on the buccal than on the palatal alveolar plate; and (3) PDL pressure increased during the power strok (3.63 ± 0.80 kPa). Masseter contraction produced similar results but with generally lower values. The PDL widths were larger than the range of tooth mobility, and showed no correlation with the mobility. Thus occlusal function causes buccal tipping and intrusion of maxillary molars with concomitant compression of the buccal alveolar plate and raised pressure within the PDL space.

Published
2020

16. Illustrated Anatomy of the Head and Neck - E-Book

Author

Margaret J. Fehrenbach, Susan W. Herring, Margaret J. Fehrenbach, and Susan W. Herring

Subjects
Head--Anatomy, Neck--Anatomy
Abstract

- NEW and UPDATED! New content and updated chapter discussions include evidence-based information on local anesthesia administration and temporomandibular joint (TMJ) disorders. - EXPANDED! Additional end-of-chapter review questions help you assess strengths and weaknesses — and prepare for classroom and board examinations. - EXPANDED and REORGANIZED! Clinical content is now woven into the text discussions and expanded within chapters to help reinforce its application to dental treatment, strengthen your critical thinking skills, and better prepare you for clinical encounters. - EXPANDED! 36 removable color flashcards offer on-the-go study, with key images on one side and corresponding labels on the back.

Published
2017

17. Cyclic loading effects on craniofacial strain and sutural growth in pigs

Author

Susan W. Herring, Shean Han Soh, and Katherine L. Rafferty

Subjects
0301 basic medicine, Male, Swine, Orthodontics, Strain (injury), Pilot Projects, Biology, Article, Weight-Bearing, 03 medical and health sciences, 0302 clinical medicine, Suture (anatomy), Ultimate tensile strength, medicine, Cyclic loading, Animals, Craniofacial, Skull, 030206 dentistry, medicine.disease, Biomechanical Phenomena, Apposition, 030104 developmental biology, medicine.anatomical_structure, Female, Bone Plates, Biomedical engineering, Large animal
Abstract

Introduction Current craniofacial growth modification devices use static forces, but cyclic forces are believed by some to be more effective. The latter have not been evaluated in large animal models, and it is not known how such forces are transmitted to distant parts of the skull. In this study, we aimed to (1) develop a portable loading system capable of delivering reliable cyclic loads to the porcine nasofrontal suture (NFS), (2) explore strain transmission to distant sutures, and (3) characterize the sutural growth effects in a small pilot study. Methods After we validated the device, cyclic (2.5 Hz) tensile loads were applied unilaterally to the NFS of 6 abattoir pig heads, with strain gauges on multiple sutures. Similar loading was applied to 3-month-old live pigs (Sus scrofa, n = 4 and 1 sham) 30 minutes per day for 5 days. These animals received fluorescent markers of mineralization on loading days 1 and 3. Suture strains were recorded on day 5. Histomorphometric analysis quantified suture width and mineral apposition rate. Results A wearable loading system was developed to produce an average of +900 microstrain at the targeted NFS. Substantial strains were seen at the contralateral NFS and midline sutures, but bone strains were low. Strain patterns were similar ex vivo and in vivo, with the latter generally having higher magnitudes. Preliminary evidence demonstrates wider sutures with higher mineral apposition rates in the loaded sutures. Conclusions Daily spurts of cyclic load caused sutural strain throughout the skull. This regimen most likely enhances sutural growth and may be therapeutically useful.

Published
2017

18. Cellular proliferation in the nasal septal cartilage of juvenile minipigs

Author

Susan W. Herring and Ayman Al Dayeh

Subjects
Male, Pathology, medicine.medical_specialty, Histology, Proliferative index, Swine, Cell Count, Biology, Chondrocytes, Sex Factors, Nasal Cartilages, medicine, Nasal septum, Animals, Perichondrium, Nasal cartilages, Molecular Biology, Cells, Cultured, Ecology, Evolution, Behavior and Systematics, Cell Proliferation, Nasal Septum, Cartilage, Skull, Original Articles, Cell Biology, Anatomy, Nasal bone, medicine.anatomical_structure, Coronal plane, Models, Animal, Swine, Miniature, Female, Developmental Biology
Abstract

The growth of the nasal septal cartilage is believed to be a driving force of midfacial growth. Cellular proliferation is an important contributor to growth of the cartilage, but this factor has been rarely investigated. The current study was undertaken to assess the proliferation and cellular density in the septal cartilage of fast-growing juvenile minipigs. Six minipigs averaging 4.4 ± 1 months old were injected with 5'-bromo-2'-deoxyuridine (BrdU), a thymidine analog, 24 h before death. The septal cartilage was sectioned in the coronal plane and reacted for BrdU. The proliferative index (number of BrdU-positive chondrocytes/total number of chondrocytes) and cellular density (number of cells mm(-2) ) of various locations of the septum were measured and compared in order to determine overall proliferation rate and whether regional variations in proliferative activity and cellular density are present. To provide a time perspective to the problem of midfacial growth, the lengths of the nasal bone and the palate were measured in a collection of 61 dry skulls of minipigs aged 1-8 months. Results showed that the septal chondrocytes were proliferating at a surprisingly high rate (~21%). The proliferative index was higher in the ventral and middle compared with the dorsal locations, and in the central cartilage compared with the perichondrium. No difference in proliferative index was found between the anterior and posterior parts of the septum. Cellular density was higher in the perichondrium than in the central cartilage. Within the central cartilage there was a trend for higher cellular density anteriorly. In conclusion, the rapidly growing midface of juvenile minipigs is associated with a high rate of septal proliferation, especially in the ventral half of the cartilage.

Published
2014

19. Real-time monitoring of the growth of the nasal septal cartilage and the nasofrontal suture

Author

Ayman A. Al Dayeh, Mark A. Egbert, Susan W. Herring, and Katherine L. Rafferty

Subjects
medicine.medical_specialty, Time Factors, Linear displacement, Cephalometry, Swine, Transducers, Orthodontics, Nasal Cartilages, Suture (anatomy), medicine, Nasal septum, Animals, Telemetry, Nasal Bone, Nasal septal cartilage, Monitoring, Physiologic, Nasal Septum, Growth cartilage, Extramural, business.industry, Cartilage, Cranial Sutures, Anatomy, medicine.disease, Hypoplasia, Biomechanical Phenomena, Circadian Rhythm, Surgery, medicine.anatomical_structure, Frontal Bone, Swine, Miniature, Female, business
Abstract

Introduction The nasal septum is thought to be a primary growth cartilage for the midface and, as such, has been implicated in syndromes involving midfacial hypoplasia. However, this internal structure is difficult to study directly. The aims of this study were to provide direct, continuous measurements of the growth of the nasal septal cartilage and to compare these with similar measurements of the nasofrontal suture to test whether the growth of the cartilage precedes the growth of the suture and whether the growth of the septal cartilage is constant or episodic. Methods Ten Hanford minipigs were used. Linear displacement transducers were implanted surgically in the septal cartilage and across the nasofrontal suture. Length measurements of the cartilage and suture were recorded telemetrically each minute for several days. Results The growth rate of the nasal septal cartilage (0.07% ± 0.03% length/h) was significantly higher than that of the suture (0.03% ± 0.02% length/h) (P = 0.004). The growth of both structures was episodic with alternating periods of growth (5-6 per day) and periods of stasis or shrinkage. No diurnal variation in growth of the cartilage was detected. Conclusions These results are consistent with the notion that growth of the septal cartilage might drive growth of the nasofrontal suture. Growth of the midface is episodic rather than constant.

Published
2013

20. Authors' response

Author

Tori Matthys, Hong An Ho Dang, Katherine L. Rafferty, and Susan W. Herring

Subjects
Cartilage, Articular, 03 medical and health sciences, 0302 clinical medicine, Neuromuscular Agents, Mandibular Condyle, Animals, Orthodontics, Female, 030206 dentistry, Botulinum Toxins, Type A, 030217 neurology & neurosurgery
Published
2016

21. Cell replication in craniofacial periosteum: appositional vs. resorptive sites

Author

Susan W. Herring and Pannee Ochareon

Subjects
Periosteum, Pathology, medicine.medical_specialty, Histology, Lineage markers, Cellular differentiation, Cell Biology, Anatomy, Biology, Bone resorption, RUNX2, Apposition, chemistry.chemical_compound, medicine.anatomical_structure, Multinucleate, chemistry, medicine, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Bromodeoxyuridine, Developmental Biology
Abstract

The size and the shape of craniofacial bones results from periosteal activity, which can be either appositional or resorptive. The periosteum is often used as a source of graft material for osteogenesis, but differences in cellular makeup and proliferative capacity may render resorptive regions unsuitable for transplant. This study was undertaken to characterize the cells in appositional and resorptive periosteum, and to assess variation in proliferative activity. Young pigs (n = 9) were injected with bromodeoxyuridine to label replicating cells and killed 3 h later. The mandibular ramus, hard palate and zygomatic arch were examined for patterns of periosteal activity, and replicating cells were quantified in 16 appositional and eight resorptive regions. Sections were also reacted for markers of osteogenic (Runx2) and osteoclastic [CTR (calcitonin receptor), RANK, TRAP, CD14] lineage, and for an endothelial label (lectin). Replicating cells were often associated with the vasculature; most were unreactive for markers of differentiation. Although the fibrous layers of periosteum had fewer replicating cells per unit area than inner layers (P

Published
2011

22. The buccinator during mastication: A functional and anatomical evaluation in minipigs

Author

Paulo Henrique Ferreira Caria, Katherine L. Rafferty, Susan W. Herring, and Eliane H Dutra

Subjects
Male, Swine, Facial Muscles, Electromyography, Article, Salivary Glands, Alveolar Process, Transducers, Pressure, medicine, Animals, General Dentistry, Mastication, Dental alveolus, Ultrasonography, medicine.diagnostic_test, business.industry, Alveolar process, Cell Biology, General Medicine, Anatomy, Cheek, Buccinator muscle, Buccinator, Facial muscles, medicine.anatomical_structure, Otorhinolaryngology, Swine, Miniature, Female, business, Muscle Contraction
Abstract

The buccinator muscle forms the lateral wall of the oral cavity. It is presumed to aid mastication by maintaining bolus position. Such a function would involve thickening the cheek, possibly compressing the alveolar bone and contributing to malocclusions. However, neither buccinator deformation nor its effect on pressure has been demonstrated. Our objective was to evaluate buccinator EMG during feeding, its changes in length and thickness, and the pressure exerted on its alveolar attachment, using miniature pigs as an animal model.EMG of the buccinator and other oral muscles was recorded with fine-wire electrodes. Anteroposterior length and mediolateral thickness of the buccinator were evaluated with implanted sonomicrometry crystals, and pressure was measured by flat transducers placed beneath the mandibular origin of the buccinator. Recordings were made during feeding and muscle stimulation. Tissues were collected postmortem for histology.During mastication, buccinator EMG showed regular peaks that preceded those of the jaw closers. Pattern differences clearly distinguished working and balancing sides. The buccinator shortened and thickened when it contracted. Positive pressures were observed at the mandibular attachment of the buccinator, increasing when the muscle was active. Histological evaluation showed a complex interweaving of fibres closely associated with salivary tissue.Buccinator contraction does thicken the cheek, and during mastication this activity takes place just as the closing stroke begins. In addition to controlling the bolus, there may be an effect on salivation. Despite the fact that the muscle pulls on its attachment, the local mechanical environment at the alveolar bone is one of positive pressure.

Published
2010

23. Hyaluronic acid hydrogels with controlled degradation properties for oriented bone regeneration

Author

Patrick S. Stayton, Ruth Siew, Jennifer Patterson, Susan W. Herring, Robert E. Guldberg, and Angela S.P. Lin

Subjects
Vascular Endothelial Growth Factor A, Scaffold, Bone Regeneration, Magnetic Resonance Spectroscopy, Materials science, X-ray microtomography, Biophysics, Bone Morphogenetic Protein 2, Bioengineering, Bone morphogenetic protein 2, Article, Biomaterials, chemistry.chemical_compound, Calcification, Physiologic, Hyaluronic acid, medicine, Animals, Hyaluronic Acid, Bone regeneration, Staining and Labeling, Skull, Hydrogels, X-Ray Microtomography, medicine.disease, Controlled release, Rats, chemistry, Mechanics of Materials, Self-healing hydrogels, Ceramics and Composites, Epoxy Compounds, Methacrylates, Collagen, Calcification, Biomedical engineering
Abstract

Non-healing fractures can result from trauma, disease, or age-related bone loss. While many treatments focus on restoring bone volume, few try to recapitulate bone organization. However, the native architecture of bone is optimized to provide its necessary mechanical properties. Hyaluronic acid (HA) hydrogel scaffold systems with tunable degradation properties were developed for the controlled delivery of osteoinductive and angiogenic growth factors, thus affecting the quantity and quality of regenerated tissue. HA hydrogels were designed to degrade at fast, intermediate, and slow rates due to hydrolysis and further provided controlled release of cationic proteins due to electrostatic interactions. Scaffolds delivering bone morphogenetic protein-2 (BMP-2) were evaluated in a rat calvarial bone critical size defect model. BMP-2 delivery from the HA hydrogels had a clear osteoinductive effect in vivo and, for all hydrogel types, BMP-2 delivery resulted in significant mineralization compared to control hydrogels. The temporal progression of this effect could be modulated by altering the degradation rate of the scaffold. All three degradation rates tested resulted in similar amounts of mineral formation at the latest (six week) time point examined. Interestingly, however, the fastest and slowest degrading scaffolds seemed to result in more organized bone than the intermediate degrading scaffold, which was designed to degrade in 6–8 weeks to match the healing time. Additionally, healing could be enhanced by co-delivery of vascular endothelial growth factor along with BMP-2.

Published
2010

24. Dietary consistency and the midline sutures in growing pigs

Author

R Hubbard, Daniel E. Lieberman, Susan W. Herring, AK Burn, K Zink, and Katherine L. Rafferty

Subjects
Random allocation, business.industry, Soft diet, Dentistry, Orthodontics, Anatomy, Biology, Masticatory force, Skull, medicine.anatomical_structure, Otorhinolaryngology, Suture (anatomy), Cranial sutures, medicine, Surgery, Oral Surgery, business, Mastication
Abstract

Objectives The purpose of this study was to investigate the effects of reduced masticatory function on midline suture growth and morphology in growing pigs.

Published
2010

25. Changes in growth and morphology of the condyle following mandibular distraction in minipigs: Overloading or underloading?

Author

Susan W. Herring, Katherine L. Rafferty, Daniel W. Bakko, Zongyang Sun, and Mark A. Egbert

Subjects
Dental Stress Analysis, Male, Swine, medicine.medical_treatment, education, Osteogenesis, Distraction, Dentistry, Mandible, behavioral disciplines and activities, Article, Condyle, Masseter muscle, Bone Density, Distraction, medicine, Animals, General Dentistry, Analysis of Variance, business.industry, Cartilage, Mandibular Condyle, Cell Biology, General Medicine, humanities, Masticatory force, Apposition, medicine.anatomical_structure, Otorhinolaryngology, Swine, Miniature, Distraction osteogenesis, Female, business, psychological phenomena and processes
Abstract

Objective Loading of temporomandibular tissues during mandibular distraction may cause changes in condylar growth and cartilage thickness. This study examines the effects of distraction on the condyle in a large animal model by explicitly measuring growth and in vivo loading. Design Unilateral mandibular distraction was carried out on 20 growing minipigs divided into three groups. One group underwent distraction but not consolidation, whereas the other two groups were allowed a period of consolidation of either 1 or 2 weeks. Animals received fluorochrome and 5-bromo-2′-deoxyuridine (BrdU) labelling and masticatory strain was measured from the condylar neck. Condylar strain was also recorded in an age-matched sample of eight animals that received no distraction surgery. Immunohistochemical procedures were used to identify dividing prechondroblasts and histological analysis was used to measure mineral apposition rate, count dividing cells, and measure the thickness of condylar cartilage. Results Strain magnitude, particularly compressive strain, was much larger on the non-distraction side compared to the distraction side condyle. Compared to normal loading levels, the distraction side condyle was underloaded whereas the condyle on the intact side was overloaded. Mineral apposition and cartilage thickness were greater on the distraction side condyle compared to the opposite side. Differences between the sides were most pronounced in the group with no consolidation and became progressively reduced with consolidation time. Conclusions Increased mineralisation and cartilage thickness on the distraction side condyle are associated with reduced, not increased loading, perhaps because of disruption of the distraction side masseter muscle.

Published
2007

26. Cell proliferation and osteogenic differentiation of growing pig cranial sutures

Author

Eugenia Lee, Susan W. Herring, and Zongyang Sun

Subjects
Pathology, medicine.medical_specialty, Histology, Swine, Cellular differentiation, Dura mater, Core Binding Factor Alpha 1 Subunit, Biology, Suture (anatomy), Osteogenesis, Image Processing, Computer-Assisted, medicine, Animals, Progenitor cell, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Cell Proliferation, Bone growth, Osteoblasts, Staining and Labeling, Cell growth, Cell Differentiation, Cranial Sutures, Original Articles, Cell Biology, Anatomy, Immunohistochemistry, RUNX2, medicine.anatomical_structure, Bromodeoxyuridine, Swine, Miniature, Biomarkers, Developmental Biology
Abstract

Bone growth at the cranial sutures relies on proliferation of osteogenic progenitor cells and/or differentiation of osteoblasts. The current study was undertaken to assess these events in relation to suture growth and fusion. A total of 21 pigs, divided into three age groups (0.5–1.5 months, 3–4 months and 5–7 months), were used for immunohistochemical evaluation of cell proliferation (BrdU) and osteogenic differentiation (Cbfa1/Runx2) in the interfrontal and interparietal sutures. Proliferation and osteogenic differentiation were both more prominent near the bone fronts than in the central zone. With age, both proliferation and osteogenic differentiation diminished. Proliferation ceased on the endocranial (dura mater) side by the age of 3–4 months. Proliferation on the pericranial side was accompanied by active bone formation and initiation of suture fusion from this side. In conclusion, (1) decreased suture bone growth with age reflects decreased cell proliferation and probably also osteogenic differentiation, and (2) suture fusion occurs from the pericranial side where activity remains relatively high.

Published
2007

27. Modulation of mandibular loading and bite force in mammals during mastication

Author

Ruchi Dharia, William L. Hylander, Susan W. Herring, Callum F. Ross, Katherine L. Rafferty, Susan H. Williams, Matthew J. Ravosa, and Zi Jun Liu

Subjects
Mammals, Time Factors, Strain (chemistry), Physiology, Regression analysis, Mandible, Mechanics, Anatomy, Aquatic Science, Biomechanical Phenomena, Bite Force, Bite force quotient, Rhythm, Duty cycle, Insect Science, Linear regression, Motor unit recruitment, Animals, Mastication, Regression Analysis, Animal Science and Zoology, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Mathematics
Abstract

SUMMARY Modulation of force during mammalian mastication provides insight into force modulation in rhythmic, cyclic behaviors. This study uses in vivo bone strain data from the mandibular corpus to test two hypotheses regarding bite force modulation during rhythmic mastication in mammals: (1)that bite force is modulated by varying the duration of force production, or(2) that bite force is modulated by varying the rate at which force is produced. The data sample consists of rosette strain data from 40 experiments on 11 species of mammals, including six primate genera and four nonprimate species: goats, pigs, horses and alpacas. Bivariate correlation and multiple regression methods are used to assess relationships between maximum(ϵ1) and minimum (ϵ2) principal strain magnitudes and the following variables: loading time and mean loading rate from 5% of peak to peak strain, unloading time and mean unloading rate from peak to 5% of peak strain, chew cycle duration, and chew duty factor. Bivariate correlations reveal that in the majority of experiments strain magnitudes are significantly (P

Published
2007

28. Load transmission in the nasofrontal suture of the pig, Sus scrofa

Author

Susan W. Herring and Tracy E. Popowics

Subjects
medicine.medical_specialty, Materials science, Compressive Strength, Sus scrofa, Biomedical Engineering, Biophysics, Article, Viscoelasticity, Tensile Strength, Ultimate tensile strength, medicine, Animals, Orthopedics and Sports Medicine, Suture (geology), Composite material, Elastic modulus, Strain gauge, Rehabilitation, Stiffness, Cranial Sutures, Nasal bone, Biomechanical Phenomena, Surgery, Compressive strength, Mastication, medicine.symptom
Abstract

The nasofrontal suture links the nasal complex with the braincase and is subject to compressive strain during mastication and (theoretically) tensile strain during growth of nasal soft tissues. The suture’s ability to transmit compressive and tensile loads therefore affects both cranioskeletal stress distribution and growth. This study investigated the in vitro viscoelastic and failure properties of the nasofrontal suture in the pig, Sus scrofa. Suture specimens from two ages were tested in compression and tension and at fast and slow rates. In additional specimens, strain gauges were applied to the suture and nasal bone for strain measurement during testing. Relaxation testing demonstrated higher elastic moduli in tension than compression, regardless of test rate or pig age. In contrast, maximum elastic moduli from failure tests, as well as peak stresses, were significantly higher in compression than in tension. Sutures from older pigs tended to have higher elastic moduli and peak stresses, significantly so for tensile relaxation moduli. Strain gauge results showed that deformation at the suture was much greater than that of the nasal bone. These data demonstrate the viscoelasticity and deformability of the nasofrontal sutural ligament. The suture achieved maximal resistance to tensile deformation at low loads, corresponding with the low tensile loads likely to occur during growth of nasal soft tissues. In contrast, the maximal stiffness in compression at high loads indicates that the suture functions with a substantial safety factor during mastication.

Published
2007

29. Growing the Mandible: Role of the Periosteum and its Cells

Author

Susan W. Herring and Pannee Ochareon

Subjects
Male, Bone growth, Periosteum, Histology, Chemistry, Sus scrofa, Mandible, Osteoclasts, Anatomy, Matrix (biology), Article, Apposition, medicine.anatomical_structure, Age groups, Cell density, medicine, Animals, Female, Ecology, Evolution, Behavior and Systematics, Cell Proliferation, Biotechnology, Mandibular ramus
Abstract

Mandibular periosteum moves in the direction of new apposition. This displacement, usually termed “migration,” is thought to involve the fibrous layer of periosteum, with the deeper osteogenic layer remaining at its original location except for its blood vessels. To assess whether periosteal displacement includes cells as well as matrix and whether the osteogenic layer has a role, a longitudinal study was undertaken. Young pigs (n = 10) were injected with a replication marker and killed 3 hr, 2 weeks, or 4 weeks later. Sections of the mandibular ramus were scored for labeled cell density. Some sections were double-labeled with lectin to identify blood vessels. Statistical differences were seen between but not within age groups. Three hours after labeling, the fibroblastic layer had sparse, evenly distributed replicating cells, whereas the osteogenic layer had numerous replicating cells, especially at the caudal border. At 2 and 4 weeks later, a decrease in labeled osteogenic layer cells was accompanied by an increase in labeled osteocytes. Zones of labeled osteocytes in these late-sacrifice groups were used to approximate the position of the ramal borders at the time of injection. Beyond these zones, in active growing sites, labeled cells were found not only in the fibrous layer but also in the osteogenic layer and in bone. Therefore, periosteal displacement does involve cells and is not restricted to the fibrous layer.

Published
2007

30. Muscle Logic: New Knowledge Resource for Anatomy Enables Comprehensive Searches of the Literature on the Feeding Muscles of Mammals

Author

Christopher J. Vinyard, Susan W. Herring, James P. Balhoff, Anthony Herrel, Melissa A. Haendel, Robert E. Druzinsky, Kimberly Van Auken, Hilmar Lapp, James Done, Rebecca Z. German, Christine E. Wall, Alfred W. Crompton, Paula M. Mabee, Hans-Michael Müller, Susan H. Williams, Paul W. Sternberg, Christopher J. Mungall, Evolutionary Morphology of Vertebrates, Universiteit Gent = Ghent University [Belgium] (UGENT), Center for Genomic and Computational Biology, Duke University, California Institute of Technology (CALTECH), and Swartz, Sharon

Subjects
0301 basic medicine, Physiology, [SDV]Life Sciences [q-bio], Data management, lcsh:Medicine, Oropharynx, Mandible, Ontology (information science), Bioinformatics, Database and Informatics Methods, Eating, Feature (machine learning), Medicine and Health Sciences, Database Searching, Comparative Anatomy, Animal Anatomy, lcsh:Science, ComputingMilieux_MISCELLANEOUS, Data Management, Mammals, Multidisciplinary, [SDV.BA]Life Sciences [q-bio]/Animal biology, Knowledge resource, Databases as Topic, Connective Tissue, Vertebrates, Pharyngeal Muscles, Anatomy, Research Article, Computer and Information Sciences, General Science & Technology, MEDLINE, Biology, Research and Analysis Methods, Set (abstract data type), 03 medical and health sciences, Ontologies, Animals, Humans, Bone, Implementation, Mouth, Information retrieval, business.industry, lcsh:R, Organisms, Biology and Life Sciences, Search Engine, 030104 developmental biology, Biological Tissue, lcsh:Q, Digestive Diseases, Anatomy ontology, business, Physiological Processes, Zoology, Digestive System
Abstract

Background: In recent years large bibliographic databases have made much of the published literature of biology available for searches. However, the capabilities of the search engines integrated into these databases for text-based bibliographic searches are limited. To enable searches that deliver the results expected by comparative anatomists, an underlying logical structure known as an ontology is required. Development and Testing of the Ontology: Here we present the Mammalian Feeding Muscle Ontology (MFMO), a multi-species ontology focused on anatomical structures that participate in feeding and other oral/pharyngeal behaviors. A unique feature of the MFMO is that a simple, computable, definition of each muscle, which includes its attachments and innervation, is true across mammals. This construction mirrors the logical foundation of comparative anatomy and permits searches using language familiar to biologists. Further, it provides a template for muscles that will be useful in extending any anatomy ontology. The MFMO is developed to support the Feeding Experiments End-User Database Project (FEED, https://feedexp.org/), a publicly-available, online repository for physiological data collected from in vivo studies of feeding (e.g., mastication, biting, swallowing) in mammals. Currently the MFMO is integrated into FEED and also into two literature-specific implementations of Textpresso, a text-mining system that facilitates powerful searches of a corpus of scientific publications. We evaluate the MFMO by asking questions that test the ability of the ontology to return appropriate answers (competency questions). We compare the results of queries of the MFMO to results from similar searches in PubMed and Google Scholar. Results and Significance: Our tests demonstrate that the MFMO is competent to answer queries formed in the common language of comparative anatomy, but PubMed and Google Scholar are not. Overall, our results show that by incorporating anatomical ontologies into searches, an expanded and anatomically comprehensive set of results can be obtained. The broader scientific and publishing communities should consider taking up the challenge of semantically enabled search capabilities.

Published
2015

31. XROMM analysis of tooth occlusion and temporomandibular joint kinematics during feeding in juvenile miniature pigs

Author

Susan W. Herring, Keith A. Metzger, David B. Baier, Elizabeth L. Brainerd, and Rachel A. Menegaz

Subjects
Oral apparatus, Swine, Physiology, Movement, Video Recording, Kinematics, Aquatic Science, Dental Occlusion, Imaging, Three-Dimensional, stomatognathic system, Occlusion, medicine, Animals, Range of Motion, Articular, Molecular Biology, Mastication, Tooth Cusp, Ecology, Evolution, Behavior and Systematics, Temporomandibular Joint, Dental occlusion, business.industry, Mandibular Condyle, Anatomy, Biomechanical Phenomena, Temporomandibular joint, Masticatory force, stomatognathic diseases, medicine.anatomical_structure, Fluoroscopy, Insect Science, Swine, Miniature, Animal Science and Zoology, business
Abstract

Like humans, domestic pigs are omnivorous and thus are a common model for human masticatory function. Prior attempts to characterize food-tooth interactions and jaw movements associated with mastication have been limited to aspects of the oral apparatus that are visible externally (with videography) and/or to 2D movements of oral structures (with monoplanar videofluoroscopy). We used XROMM, a 3D technique that combines CT-based morphology with biplanar videofluoroscopy, to quantify mandibular kinematics, tooth occlusion, and mandibular condylar displacements within the temporomandibular joint during feeding. We observed that the pig TMJ moved detectably in only 3 of 6 possible degrees of freedom during mastication: 2 rotations, pitch and yaw; and 1 translation, protraction-retraction. Asymmetrical yaw around a dorsoventral axis produced the observed alternating left-right chewing cycles responsible for food reduction. Furthermore, the relative motions of the upper and lower premolars contained a substantial mesiodistal component in addition to the buccolingual component, resulting in an oblique (rather than a strictly transverse) power stroke. This research demonstrates the capacity of XROMM to explore the kinematic underpinnings of key masticatory movements, such as the occlusal power stroke, by integrating tooth, joint, and rigid body jaw movements. XROMM also allowed us to test kinematic hypotheses based on skeletal anatomy with actual kinematics observed during naturalistic feeding behaviors. We observed that the soft tissue structures of the TMJ appear to play a significant role in limiting the range of motion of a joint, and thus analyses based solely on osseous morphology may over-estimate joint mobility.

Published
2015

32. Engineering Complex Tissues

Author

Mark Van Dyke, Pannee Ochareon, Helen H. Lu, Mehmet Toner, Frederick J. Schoen, Antonios G. Mikos, David L. Kaplan, Gordana Vunjak-Novakovic, Anthony Atala, Susan W. Herring, Jennifer H. Elisseeff, David J. Mooney, and Rita A. Kandel

Subjects
Cartilage, Articular, Tissue engineered, Tissue Engineering, media_common.quotation_subject, Regeneration (biology), General Engineering, Biomaterial, Biocompatible Materials, Context (language use), Biocompatible material, Bone and Bones, Article, Tissue remodeling, Tissue engineering, Biomimetics, Heart Valve Prosthesis, Animals, Humans, Function (engineering), Neuroscience, media_common, Biomedical engineering
Abstract

This article summarizes the views expressed at the third session of the workshop "Tissue Engineering--The Next Generation," which was devoted to the engineering of complex tissue structures. Antonios Mikos described the engineering of complex oral and craniofacial tissues as a "guided interplay" between biomaterial scaffolds, growth factors, and local cell populations toward the restoration of the original architecture and function of complex tissues. Susan Herring, reviewing osteogenesis and vasculogenesis, explained that the vascular arrangement precedes and dictates the architecture of the new bone, and proposed that engineering of osseous tissues might benefit from preconstruction of an appropriate vasculature. Jennifer Elisseeff explored the formation of complex tissue structures based on the example of stratified cartilage engineered using stem cells and hydrogels. Helen Lu discussed engineering of tissue interfaces, a problem critical for biological fixation of tendons and ligaments, and the development of a new generation of fixation devices. Rita Kandel discussed the challenges related to the re-creation of the cartilage-bone interface, in the context of tissue engineered joint repair. Frederick Schoen emphasized, in the context of heart valve engineering, the need for including the requirements derived from "adult biology" of tissue remodeling and establishing reliable early predictors of success or failure of tissue engineered implants. Mehmet Toner presented a review of biopreservation techniques and stressed that a new breakthrough in this field may be necessary to meet all the needs of tissue engineering. David Mooney described systems providing temporal and spatial regulation of growth factor availability, which may find utility in virtually all tissue engineering and regeneration applications, including directed in vitro and in vivo vascularization of tissues. Anthony Atala offered a clinician's perspective for functional tissue regeneration, and discussed new biomaterials that can be used to develop new regenerative technologies.

Published
2006

33. Trabecular and cortical bone as risk factors for orthodontic relapse

Author

Robert M. Little, Lars Hollender, Laura E. Rothe, Curtis S K Chen, Jeremy B. Chaison, Anne Marie Bollen, and Susan W. Herring

Subjects
Male, Bone density, Cephalometry, Radiography, Dentistry, Orthodontics, Mandible, Orthodontics, Corrective, stomatognathic system, Bone Density, Recurrence, Risk Factors, Radiography, Panoramic, medicine, Humans, Retrospective Studies, business.industry, Confounding, Case-control study, Retrospective cohort study, Craniometry, Incisor, stomatognathic diseases, Fractals, medicine.anatomical_structure, Increased risk, Case-Control Studies, Linear Models, Female, Cortical bone, business, Malocclusion, Follow-Up Studies
Abstract

Introduction: Dental relapse of the mandibular incisors after orthodontic treatment is a common problem, and few risk factors have been identified. The purpose of this case-control study was to evaluate whether the amount or the structure of mandibular bone affects the potential for postorthodontic mandibular incisor relapse. Methods: The subject sample was selected from the postretention database at the University of Washington. Subjects were chosen based on the availability of lateral cephalograms and mandibular periapical radiographs taken approximately 10 years postretention (T3). The mandibular incisor irregularity index (II) was measured on the T3 casts. Two groups were identified: subjects with the II greater than 6 mm (relapse or case) and those with the II less than 3.5 mm (stable or control). Once the case/control status was determined, the II was measured on models taken at the initial orthodontic examination (T1) and at the end of treatment (T2). Sixty relapse and 263 stable subjects were identified. Mandibular cortical thickness measured on both panoramic and lateral cephalometric radiographs was used to assess the amount of mandibular bone, and fractal analysis was used to analyze the trabecular bone structure around the mandibular incisors on the periapical radiographs. Logistic regression analyses were used to determine the association between dental relapse and significant bone parameters. The models were adjusted for potentially confounding variables (initial II, sex, age, and postretention time). Results: The relapse subjects had a larger mean II at T1 and a longer postretention time than the stable subjects. The mean cephalometric mandibular cortical thickness was significantly smaller in the relapse group than in the stable group at T1, T2, and T3. There were no statistically significant differences in the trabecular structure of bone, as measured with fractal analyses, between the relapse and stable groups. Conclusions: These results indicate that patients with thinner mandibular cortices are at increased risk for dental relapse.

Published
2006

34. Enamel microstructure and microstrain in the fracture of human and pig molar cusps

Author

Susan W. Herring, J.M. Rensberger, and Tracy E. Popowics

Subjects
Decussation, Molar, Materials science, Swine, Dentistry, Tooth Fractures, Species Specificity, stomatognathic system, Ultimate tensile strength, medicine, Animals, Humans, Composite material, Dental Enamel, General Dentistry, Universal testing machine, Enamel paint, business.industry, Fracture mechanics, Cell Biology, General Medicine, Enamel rod, stomatognathic diseases, Otorhinolaryngology, visual_art, Microscopy, Electron, Scanning, visual_art.visual_art_medium, Cusp (anatomy), Stress, Mechanical, medicine.symptom, business
Abstract

The role of microstructure in enamel strain and breakage was investigated in human molar cusps and those of the pig, Sus scrofa. Rosette strain gauges were affixed to cusp surfaces (buccal human M3, n=15, and lingual pig M1, n=13), and a compressive load was applied to individual cusps using an MTS materials testing machine. Load and strain data were recorded simultaneously until cusp fracture, and these data were used to estimate enamel stresses, principal strains, and stiffness. Fractured and polished enamel fragments were examined in multiple planes using scanning electron microscopy (SEM). Human cusp enamel showed greater stiffness than pig enamel (P=0.02), and tensile stress at yield was higher (17.9 N/mm2 in humans versus 8.9 N/mm2 in pigs, P=0.06). SEM revealed enamel rod decussation in both human and pig enamel; however, only pig enamel showed a decussation plane between rod and inter-rod crystallites. Human inter-rod enamel was densely packed between rods, whereas in pig enamel, inter-rod enamel formed partitions between rows of enamel rods. Overall, human enamel structure enabled molar cusps to withstand horizontal tensile stress during both elastic and plastic phases of compressive loading. In contrast, pig cusp enamel was less resistant to horizontal tensile stresses, but appeared to fortify the enamel against crack propagation in multiple directions. These structural and biomechanical differences in cusp enamel are likely to reflect species-level differences in occlusal function.

Published
2004

35. Time series analysis of jaw muscle contraction and tissue deformation during mastication in miniature pigs

Author

Jordan R. Green, Susan W. Herring, Zi Jun Liu, and Christopher A. Moore

Subjects
Contraction (grammar), medicine.diagnostic_test, Chemistry, Squamosal bone, Electromyography, Anatomy, Condyle, Temporomandibular joint, medicine.anatomical_structure, stomatognathic system, medicine, medicine.symptom, General Dentistry, Mastication, Pterygoid Muscles, Muscle contraction
Abstract

Masticatory muscle contraction causes both jaw movement and tissue deformation during function. Natural chewing data from 25 adult miniature pigs were studied by means of time series analysis. The data set included simultaneous recordings of electromyography (EMG) from bilateral masseter (MA), zygomaticomandibularis (ZM) and lateral pterygoid muscles, bone surface strains from the left squamosal bone (SQ), condylar neck (CD) and mandibular corpus (MD), and linear deformation of the capsule of the jaw joint measured bilaterally using differential variable reluctance transducers. Pairwise comparisons were examined by calculating the cross-correlation functions. Jaw-adductor muscle activity of MA and ZM was found to be highly cross-correlated with CD and SQ strains and weakly with MD strain. No muscle's activity was strongly linked to capsular deformation of the jaw joint, nor were bone strains and capsular deformation tightly linked. Homologous muscle pairs showed the greatest synchronization of signals, but the signals themselves were not significantly more correlated than those of non-homologous muscle pairs. These results suggested that bone strains and capsular deformation are driven by different mechanical regimes. Muscle contraction and ensuing reaction forces are probably responsible for bone strains, whereas capsular deformation is more likely a product of movement.

Published
2004

36. Cranial sutures and bones: Growth and fusion in relation to masticatory strain

Author

Zongyang Sun, Eugenia Lee, and Susan W. Herring

Subjects
Swine, Miniature swine, Biology, Article, Calcification, Physiologic, medicine, Animals, Mastication, Fluorescent Dyes, Bone growth, Staining and Labeling, Skull, Age Factors, Cranial Sutures, Anatomy, medicine.disease, Agricultural and Biological Sciences (miscellaneous), Biomechanical Phenomena, Masticatory force, Apposition, medicine.anatomical_structure, Microscopy, Fluorescence, Cranial sutures, Swine, Miniature, Calcification
Abstract

Cranial bones and sutures are mechanically loaded during mastication. Their response to masticatory strain, however, is largely unknown, especially in the context of age change. Using strain gages, this study investigated masticatory strain in the posterior interfrontal and the anterior interparietal sutures and their adjacent bones in 3- and 7-month-old miniature swine (Sus scrofa). Double-fluorochrome labeling of these animals and an additional 5-month group was used to reveal suture and bone growth as well as features of suture morphology and fusion. With increasing age, the posterior interfrontal suture strain decreased in magnitude and changed in pattern from pure compression to both compression and tension, whereas the interparietal suture remained in tension and the magnitude increased unless the suture was fused. Morphologically, the posterior interfrontal suture was highly interdigitated at 3 months and then lost interdigitation ectocranially in older pigs, whereas the anterior interparietal suture remained butt-ended. Mineralization apposition rate (MAR) decreased with age in both sutures and was unrelated to strain. Bone mineralization was most vigorous on the ectocranial surface of the frontal and the parietal bones. Unlike the sutures, with age bone strain remained constant while bone MARs significantly increased and were correlated with bone thickness. Fusion had occurred in the interparietal suture of some pigs. In all cases fusion was ectocranial rather than endocranial. Fusion appeared to be associated with increased suture strain and enhanced bone growth on the ectocranial surface. Collectively, these results indicate that age is an important factor for strain and growth of the cranium. .

Published
2004

37. Alterations of morphology and microdensity in the condyle after mandibular osteodistraction in the rat

Author

Gregory J. King, Susan W. Herring, and Zi Jun Liu

Subjects
Male, Time Factors, Bone density, Cephalometry, Matched-Pair Analysis, medicine.medical_treatment, Radiography, Osteogenesis, Distraction, Dentistry, Mandible, Osteotomy, Condyle, Rats, Sprague-Dawley, Masseter muscle, Random Allocation, Bone Density, Distraction, Animals, Medicine, Reduction (orthopedic surgery), Analysis of Variance, Masseter Muscle, business.industry, Mandibular Condyle, Organ Size, Craniometry, Rats, Otorhinolaryngology, Surgery, Oral Surgery, business
Abstract

Purpose: In this study, we examined the effects of mandibular distraction osteogenesis on the morphology and the microdensity of the rat condyle. Materials and Methods: One hundred twenty-nine rats were allocated to 4 experimental groups (n = 32 or 33). Each received unilateral mandibular ramus osteotomy and distraction device placement. After a 3-day latency, these were distracted once a day for 5 days. The slow distraction group was distracted a total of 1 mm (0.2 mm/d); the moderate group, 2 mm (0.4 mm/d); the rapid group, 3 mm (0.6 mm/d); and the sham group, no distraction (0.0 mm/d). Eight to 9 rats in each group were sacrificed at each of 4 time points after device placement (6, 10, 24, and 38 days). Baseline data were obtained 3 days after osteotomy and device placement without distraction from an additional 10 rats. Radiographs of the hemimandibles were scanned and measured to evaluate changes in condylar size (height, width, and area), angulation, and bone microdensity converted to equivalent bone thickness using a stepwedge. The wet weights of masseter muscle were measured at the time of harvest. Results: 1) Muscle weight gains over time were significantly lower in the treated than the untreated sides throughout the consolidation period (P < .001). 2) Condylar size and angulation on the untreated side increased postoperatively, whereas there was a significant reduction of these parameters (P < .01 to .001) on the treated side at 24 and/or 38 days. 3) Condylar microdensity significantly increased on the untreated side at 24 and 38 days (P < .05 to .01) but not on the treated side. 4) Faster or larger distraction caused more severe size reduction and more upright condylar angulation, prevented an increase in bone microdensity on the treated side, especially during the consolidation periods (P < .05 to .01), and retarded increase in muscle weight, whereas a slower distraction rate showed few negative, and even some positive effects. 5) Correlations in size, angulation, and microdensity between right and left condyles became less significant over time. 6) There were positive correlations between muscle weight and condylar size, angulation, and microdensity. Conclusion: An increased rate of mandibular distraction has significant negative effects on condylar morphology and microdensity.

Published
2003

38. The effects of intraoral splints on the masticatory system of pigs1

Author

Todd A. Alonzo, Susan W. Herring, and B. J. Sindelar

Subjects
musculoskeletal diseases, Needle emg, business.industry, medicine.medical_treatment, Mandible, Dentistry, equipment and supplies, Temporomandibular joint, Masticatory force, body regions, Bite force quotient, stomatognathic diseases, Splints, medicine.anatomical_structure, stomatognathic system, medicine, business, Splint (medicine), General Dentistry, Mastication
Abstract

While evidence exists to support the effectiveness of splints on conditions involving the masticatory musculature, few research projects have examined the results of long-term splint wear. The purpose of this study was to examine the function of the masticatory system over a 2-month time period of splint wear. Young adult female miniature pigs were divided into three groups: a control (C) group that wore no intraoral splint, a control splint (CS) group that wore a splint increasing bite height, and a protrusive splint (PS) group that wore a splint increasing bite height and moving the mandible anteriorly. Splints were worn constantly. Fine-wire needle EMG was performed prior to splint delivery and at 1 and 2 months post-splint delivery. Bilateral superficial masseters and zygomaticomandibularis (ZM, equivalent to deep masseter) muscles were monitored during normal feeding. Absolute EMG output, percentage output, and cycle timing were unaffected by chronic splint wear. However, chewing coordination was significantly changed in the splinted groups in both sessions post-splint delivery relative to baseline readings and to the C group (P < 0.005). Trends indicate that the coordination of the PS group was more greatly altered than that of the CS group.

Published
2003

39. Biomechanics of the rostrum and the role of facial sutures

Author

Christopher D. Marshall, Susan W. Herring, and Katherine L. Rafferty

Subjects
Molar, Swine, Biomechanics, Rostrum, Strain (injury), Anatomy, Biology, medicine.disease, Article, Facial Bones, Biomechanical Phenomena, medicine.anatomical_structure, Incisor, Maxilla, Occlusion, medicine, Animals, Mastication, Swine, Miniature, Animal Science and Zoology, Tooth, Developmental Biology
Abstract

The rostrum is a large diameter, thin-walled tubular structure that receives loads from the teeth. The rostrum can be conceptualized both as a rigid structure and as an assemblage of several bones that interface at sutures. Using miniature pigs, we measured in vivo strains in rostral bones and sutures to gain a better understanding of how the rostrum behaves biomechanically. Strains in the premaxillary and nasal bones were low but the adjacent maxillary-premaxillary, internasal, and intermaxillary suture strains were larger by an order of magnitude. While this finding emphasizes the composite nature of the rostrum, we also found evidence in the maxillary and nasal bones for rigid structural behavior. Namely, maxillary strain is consistent with a short beam model under shear deformation from molar loading. Strain in the nasal bones is only partially supported by a long beam model; rather, a complex pattern of dorsal bending of the rostrum from incisor contact and lateral compression is suggested. Torsion of the maxilla is ruled out due to the bilateral occlusion of pigs and the similar working and balancing side strains, although it may be important in mammals with a unilateral bite. Torsional loading does appear important in the premaxillae, which demonstrate working and balancing side changes in strain orientation. These differences are attributed to asymmetrical incisor contact occurring at the end of the power stroke.

Published
2003

40. Differential response of pig masseter to botulinum neurotoxin serotypes a and b

Author

Zi-Jun, Liu, Katherine L, Rafferty, Wenmin, Ye, and Susan W, Herring

Subjects
Time Factors, Neuromuscular Agents, Electromyography, Masseter Muscle, Swine, Animals, Female, Botulinum Toxins, Type A, Evoked Potentials, Motor, Functional Laterality, Statistics, Nonparametric, Article
Abstract

Pigs respond to direct administration of botulinum neurotoxins (BoNTs), although they are resistant to botulism. The human masseter is frequently targeted for BoNT therapy. We aimed to understand how BoNT affects chewing by injecting porcine masseters.One masseter of minipigs was injected with BoNT serotype A or B at doses comparable to those used in humans. Masticatory function was evaluated electromyographically. Muscle force was measured during tetany. Four weeks after injection, strain gauges affixed to the mandible assessed bone strain during chewing. Masseter mass and fiber diameter were measured after euthanasia.BoNT-A had no measurable effect. In contrast, BoNT-B reduced electrical activity and muscle force, producing substantial asymmetry between injected and uninjected muscles.The pig masseter is highly resistant to direct injection of BoNT-A, but it is affected by BoNT-B.

Published
2014

41. Effects of Intraoral Splint Wear on Proteoglycans in the Temporomandibular Joint Disc

Author

Todd A. Alonzo, Thomas N. Wight, Betty J. Sindelar, Stephen P. Evanko, and Susan W. Herring

Subjects
musculoskeletal diseases, Miniature pig, Swine, Decorin, medicine.medical_treatment, Biophysics, Biochemistry, Occlusal Splints, stomatognathic system, Biglycan, Temporomandibular Joint Disc, Animals, Humans, Medicine, Molecular Biology, Glycosaminoglycans, Orthodontics, Extracellular Matrix Proteins, biology, Sulfates, business.industry, Mandibular Condyle, Anatomy, biology.organism_classification, Temporomandibular joint, carbohydrates (lipids), Disease Models, Animal, stomatognathic diseases, Splints, medicine.anatomical_structure, Swine, Miniature, Female, Proteoglycans, Stress, Mechanical, Joint Diseases, business, Splint (medicine)
Abstract

Intraoral splints are a common dental treatment for dysfunctions of the temporomandibular joint (TMJ), but their effects on the structures of the joint, specifically the disc, have not been well investigated. This study examined proteoglycans (PGs) of the TMJ disc of the miniature pig and tested for alterations resulting from intraoral splint wear. Sixteen female pigs were divided into three groups: control (C), control splint (CS), and protrusive splint (PS). Splinted groups received chrome-cobalt ramp splints which were worn continuously for 2 months. PG content within various disc locations was determined by colorimeteric assay. PG synthesis and type were examined by labeling with (35)S-sulfate and SDS-PAGE analysis. Average water content of the disc was 77.1%, which places it at the high end of the normal range for collagenous biomaterials (60-80%). PGs migrating to the positions typical of aggrecan, biglycan, and decorin on SDS-PAGE were present in all locations of all groups. The highest content and synthesis of PGs were always found in the intermediate band of the disc regardless of group (P < 0.05), supporting the notion that this band encounters heavy compressive loading during function. The joints of animals from both splinted groups showed a high frequency of gross pathology. Biglycan synthesis was increased in both splinted groups (P < 0.05). Newly synthesized biglycan had a shorter migration distance in the intermediate bands of the CS group, suggesting increased hydrodynamic size. These findings suggest that intraoral splint wear may cause disc damage or remodeling.

Published
2000

42. Bone surface strains and internal bony pressures at the jaw joint of the miniature pig during masticatory muscle contraction

Author

Zi Jun Liu and Susan W. Herring

Subjects
Male, Lateral surface, Swine, Squamosal bone, Mandible, Condyle, Dental Occlusion, stomatognathic system, Temporal bone, Pressure, Transducers, Pressure, medicine, Animals, General Dentistry, Analysis of Variance, Articular capsule of the knee joint, Temporomandibular Joint, Masseter Muscle, Dental occlusion, Chemistry, Mandibular Condyle, Temporal Bone, Pterygoid Muscles, Signal Processing, Computer-Assisted, Cell Biology, General Medicine, Anatomy, medicine.anatomical_structure, Semiconductors, Otorhinolaryngology, Ligaments, Articular, Swine, Miniature, Female, Stress, Mechanical, medicine.symptom, Muscle Contraction, Muscle contraction
Abstract

The long-standing debate on whether the jaw joint is loaded is due in part to the complexity of the factors involved, including a number of different muscles, each with a potentially unique role. This study sought to elucidate how two major jaw muscles, the masseter and the lateral pterygoid, influence jaw-joint loading. Twenty-five 10-month-old miniature pigs were divided into two groups, controls and pigs with the lateral capsular ligament of the jaw joint stripped surgically; this was expected to affect loading by destabilizing the joint. Rosette strain gauges were bonded to: (1) the lateral surface of the squamosal bone (equivalent to the squamosal portion of the temporal bone in humans) at the level of the articular eminence; (2) the lateral surface of the condylar neck; and (3) the lateral surface of the mandibular corpus below the molar region. Semiconductor pressure transducers were placed underneath the surfaces of the anterior slope of the condyle and the posterior slope of the articular eminence through drilled holes. Strains and internal bony pressures were recorded during stimulated tetanic contractions of the masseter or lateral pterygoid muscles. Masseter contraction, either alone or with the contralateral muscle, caused net tension in the squamosal bone and net compression in the condylar neck. The orientations were approximately vertical to the occlusal plane. Masseter contraction elevated both the condylar and eminence pressures from their resting values. The strains caused by lateral pterygoid contractions were much smaller than for the masseter with the exception of the condylar location. Ipsilateral lateral pterygoid contraction decreased both the condylar and eminence pressures from their resting values, perhaps because condylar movement altered the contact between the joint surfaces. Surgical disruption enhanced both pressure changes and bone strains under either muscle contraction but their overall patterns were not altered. In conclusion, both strains and pressures in the jaw joint varied according to specific muscle activity.

Published
2000

43. Craniofacial sutures: Morphology, growth, and in vivo masticatory strains

Author

Susan W. Herring and Katherine L. Rafferty

Subjects
Male, Swine, Craniofacial Dysostosis, Miniature swine, Internasal suture, Context (language use), Cranial Sutures, Anatomy, Biology, Compression (physics), Article, Masticatory force, Skull, medicine.anatomical_structure, Suture (anatomy), Linear Models, medicine, Animals, Mastication, Swine, Miniature, Female, Animal Science and Zoology, Stress, Mechanical, Craniofacial, Developmental Biology
Abstract

The growth and morphology of craniofacial sutures are thought to reflect their functional environment. However, little is known about in vivo sutural mechanics. The present study investigates the strains experienced by the internasal, nasofrontal, and anterior interfrontal sutures during masticatory activity in 4-6-month-old miniature swine (Sus scrofa). Measurements of the bony/fibrous arrangements and growth rates of these sutures were then examined in the context of their mechanical environment. Large tensile strains were measured in the interfrontal suture (1,036 microepsilon +/- 400 SD), whereas the posterior internasal suture was under moderate compression (-440 microepsilon +/- 238) and the nasofrontal suture experienced large compression (-1,583 microepsilon +/- 506). Sutural interdigitation was associated with compressive strain. The collagen fibers of the internasal and interfrontal sutures were clearly arranged to resist compression and tension, respectively, whereas those of the nasofrontal suture could not be readily characterized as either compression or tension resisting. The average linear rate of growth over a 1-week period at the nasofrontal suture (133.8 micrometer, +/- 50.9 S.D) was significantly greater than that of both the internasal and interfrontal sutures (39.2 micrometer +/- 11.4 and 65. 5 micrometer +/- 14.0, respectively). Histological observations suggest that the nasofrontal suture contains chondroid tissue, which may explain the unexpected combination of high compressive loading and rapid growth in this suture.

Published
1999

44. Illustrated Anatomy of the Head and Neck - E-Book

Author

Margaret J. Fehrenbach, Susan W. Herring, Margaret J. Fehrenbach, and Susan W. Herring

Subjects
Neck--Anatomy, Head--Anatomy
Abstract

Updated content includes evidence-based information on hot topics such as caries risk, periodontal disease, local anesthesia administration, and infection control. NEW! Additional full-color illustrations and photographs support text descriptions and help ensure complete comprehension. Updated review questions are included in every chapter to correlate with new content. A companion Evolve website offers more practice with case studies, image identification, and flashcards.

Published
2012

45. Compressive loading on bone surfaces from muscular contraction: an in vivo study in the miniature pig,Sus scrofa

Author

Susan W. Herring and Shengyi Teng

Subjects
Contraction (grammar), Anatomy, Biology, Pressure sensor, Skull, medicine.anatomical_structure, Blood pressure, medicine, Animal Science and Zoology, Aponeurosis, Zygomatic arch, Temporal fossa, Mastication, Developmental Biology
Abstract

Several authors have speculated that muscles contracting adjacent to bony surfaces may cause compressive loads against the bone and thus influence skull development. This study was undertaken to evaluate the premise of this argument. A flat, semiconductor pressure transducer was surgically placed on bony surfaces beneath muscle attachments. Pressures were recorded during normal mastication (n = 7) and while overlying muscles were stimulated in anesthetized pigs (n = 15). The transducer was highly specific; no pressure was recorded in quiescent or passively stretched muscles or when other muscles were stimulated. Contraction of the overlying muscles exerted high normal loads on the bone, always exceeding systolic blood pressure (16 kPa). Temporal fossa pressure during mastication followed temporalis electromyographic (EMG) signals with a lag period approximating the twitch contraction time. When three different sites were compared in anesthetized animals, compressive load was highest on the temporal fossa (111.4 ± 56.5 kPa, n = 15), intermediate on the mandibular angle (58.4 ± 28.3 kPa, n = 4), and lowest on the medial side of the zygomatic arch (37.2 ± 19.7 kPa, n = 15). Pressure amplitudes were not related to body size or relative muscle size. Muscle complexity and compartmental constraints did appear to influence pressure. Disruption of the external aponeurosis of the masseter decreased pressure on the mandibular angle by 45%, confirming the importance of tendinous constraint in determining pressure production. Thus, contracting muscles exert substantial but site-specific compressive loads on adjacent bone surfaces. J. Morphol. 238:71–80, 1998. © 1998 Wiley-Liss, Inc.

Published
1998

46. Stereological analysis of bone architecture in the pig zygomatic arch

Author

Shengyi Teng, Susan W. Herring, In W. Choi, and John M. Rensberger

Subjects
Lateral surface, Squamosal bone, Anatomy, Agricultural and Biological Sciences (miscellaneous), Condyle, Masseter muscle, medicine.anatomical_structure, Zygomatic bone, medicine, Zygomatic arch, Arch, Joint (geology), Geology
Abstract

An understanding of stress distribution within bones requires three-dimensional information on bone strain and bone material properties. Material properties can be relatively easily obtained by mechanical (Turner and Burr, 1993) or ultrasonic (Ashman et al., 1984; Dechow et al., 1993) techniques for locations that are predominantly cortical. Trabecular bone is more difficult to assess, because the dimensions of the test samples strongly influence measured properties (Linde et al., 1992) and because failure at sample ends biases the overall results (Odgaard et al., 1989). These problems can be overcome if the sample of trabecular bone is large enough to allow strain to be measured specifically from the central section (Ashman et al., 1987; Odgaard et al., 1989; Teng and Herring, 1996). Unfortunately, there are many cancellous areas in the irregularly shaped flat bones of the craniofacial skeleton that are too small for an adequate sample. Moreover, the orientation of the trabeculae can vary greatly between adjacent areas, suggesting that regional differences, which cannot be assessed experimentally, may be of great significance in the overall architecture of the bones. In such cases the best available technique is textural analysis of bone structure using stereological methods (Cowin, 1985; Goldstein, 1992). Such an analysis of the mandibular condyle of the pig (Teng and Herring, 1995) provided an accurate prediction of actual mechanical properties (Teng and Herring, 1996). One location where analysis of trabecular architecture may help to elucidate loading is the zygomatic arch, a construct of two flat bones (zygomatic and squamosal) that are primarily cancellous in growing animals. In addition to providing the origin of the large masseter muscle, the arch mechanically links the tooth-bearing maxilla to the jaw joint and braincase. Loading in the arch is far from simple. A recent in vivo study of strain in the zygomatic arch of the pig (Herring et al., 1996) revealed the surprising finding that the lateral surfaces of the two component bones are deformed to different degrees and in different directions. Specifically, strain magnitudes were substantially higher in the squamosal bone than in the zygomatic, and the axes of the principal strains were rotated approximately 50°. Reasons for this striking variation are not clear. The two bones of the arch may be loaded differently. Specifically, the squamosal bone, but not the zygomatic bone, may be bent out-of-plane such that its lateral surface becomes more convex. Because strain gauges can be installed only on the lateral surface it is difficult to assess out-of-plane bending. Another possibility is that a relatively less dense and more anisotropic architecture of the squamosal bone was responsible for increased and reoriented strain even in the face of the same applied load. The present study on trabecular architecture was undertaken to investigate these possibilities.

Published
1997

47. Rigid fixation and strain patterns in the pig zygomatic arch and suture

Author

John A Freeman, Shengyi Teng, and Susan W. Herring

Subjects
Swine, medicine.medical_treatment, Orthognathic surgery, Bite Force, Immobilization, Fixation (surgical), Temporal bone, Bone plate, medicine, Animals, Internal fixation, Zygoma, Electromyography, business.industry, Temporal Bone, Cranial Sutures, Anatomy, Masticatory force, Bite force quotient, medicine.anatomical_structure, Otorhinolaryngology, Masticatory Muscles, Mastication, Swine, Miniature, Female, Surgery, Zygomatic arch, Stress, Mechanical, Oral Surgery, business, Bone Plates
Abstract

Purpose: In orthognathic surgery, rigid fixation is routinely used to hold together bone fragments that may experience heavy forces from attached masticatory muscles. Internal fixation plates are assumed to hold bony parts rigidly, but the mobility at such sites subjected to normal masticatory function has not been measured. The purpose of this study was to investigate in vivo the degree to which a linear plate immobilizes separated bones, specifically sutures. Materials and Methods: Three female miniature pigs (Sus scrofa) had 1.3-mm Synthes titanium plates placed across the suture in the zygomatic arch. Foil strain gauges were used to record load deformation in the zygomatic and squamosal (temporal) bones and across the vertical and horizontal parts of the suture. Strain was recorded in vivo during mastication and in anesthetized pigs with electrical stimulation of masticatory muscles. Results: Strain at the suture was not reduced from normal levels. The plate induced increases in strain within the bones, but the changes were slight. Conclusion: The results indicate that linear “rigid fixation” does not immobilize sutures.

Published
1997

48. Compressive and tensile mechanical properties of the porcine nasal septum

Author

Susan W. Herring and Ayman A. Al Dayeh

Subjects
Materials science, Compressive Strength, Swine, Biomedical Engineering, Biophysics, Article, Residual stress, Tensile Strength, Ultimate tensile strength, medicine, Nasal septum, Stress relaxation, Animals, Orthopedics and Sports Medicine, Nasal cartilages, Composite material, Mastication, Nasal Septum, business.industry, Rehabilitation, Stiffness, Structural engineering, Compressive strength, medicine.anatomical_structure, Cartilage, Stress, Mechanical, medicine.symptom, business
Abstract

The expanding nasal septal cartilage is believed to create a force that powers midfacial growth. In addition, the nasal septum is postulated to act as a mechanical strut that prevents the structural collapse of the face under masticatory loads. Both roles imply that the septum is subject to complex biomechanical loads during growth and mastication. The purpose of this study was to measure the mechanical properties of the nasal septum to determine (1) whether the cartilage is mechanically capable of playing an active role in midfacial growth and in maintaining facial structural integrity and (2) if regional variation in mechanical properties is present that could support any of the postulated loading regimens. Porcine septal samples were loaded along the horizontal or vertical axes in compression and tension, using different loading rates that approximate the in vivo situation. Samples were loaded in random order to predefined strain points (2–10%) and strain was held for 30 or 120 seconds while relaxation stress was measured. Subsequently, samples were loaded until failure. Stiffness, relaxation stress and ultimate stress and strain were recorded. Results showed that the septum was stiffer, stronger and displayed a greater drop in relaxation stress in compression compared to tension. Under compression, the septum displayed non-linear behavior with greater stiffness and stress relaxation under faster loading rates and higher strain levels. Under tension, stiffness was not affected by strain level. Although regional variation was present, it did not strongly support any of the suggested loading patterns. Overall, results suggest that the septum might be mechanically capable of playing an active role in midfacial growth as evidenced by increased compressive residual stress with decreased loading rates. However, the low stiffness of the septum compared to surrounding bone does not support a strut role. The relatively low stiffness combined with high stress relaxation under fast loading rates suggests that the nasal septum is a stress dampener, helping to absorb and dissipate loads generated during mastication.

Published
2013

50. Alveolar ridge reduction after tooth extraction in adolescents: an animal study

Author

Susan W. Herring, Jordan Gales, Boon Ching Tee, and Zongyang Sun

Subjects
Adolescent, Swine, medicine.medical_treatment, Alveolar Bone Loss, Dentistry, Article, Bone remodeling, Bite Force, medicine, Alveolar ridge, Alveolar Process, Animals, Humans, Animal study, General Dentistry, Reduction (orthopedic surgery), Dental alveolus, Analysis of Variance, business.industry, Chemistry, Electromyography, Masseter Muscle, Extraction (chemistry), Pig model, Cell Biology, General Medicine, respiratory system, Resorption, Disease Models, Animal, Otorhinolaryngology, Tooth Extraction, Bone Remodeling, business
Abstract

The mechanism for tooth extraction induced residual alveolar ridge reduction (RRR) during adolescence is poorly understood. This study investigated the alveolar bone morphology, growth, resorption and functional loading at normal and extraction sites using an adolescent pig model.Sixteen 3-month-old pigs were divided into two groups - immediate post-extraction (IE) and 6-week post-extraction (SE). The IE group received an extraction of one deciduous mandibular molar, immediately followed by a final experiment to record masseter muscle EMGs and strains from the buccal surface of the extraction and contralateral non-extraction sites during function (mastication). The SE group was given the same tooth extraction, then kept for 6 weeks before the same final functional recording as the IE group. Both groups also received baseline (pre-extraction) EMGs and fluorescent vital stains 10 and 3 days before the final functional recording. Immediately after the final functional recording, animals were euthanized and alveolar bone specimens from extraction and contralateral non-extraction sites were collected and used to analyse alveolar bone morphology, apposition and resorption based on fluorescent and hematoxylin and eosin stained histological sections.At control sites (IE-extraction, IE-non-extraction and SE-non-extraction), the alveolar ridges grew gingivally and buccally. Bone formation characterized the buccal surface and lingual bundle bone, whereas resorption characterized the lingual surface and buccal bundle bone. The SE-extraction sites showed three major alterations: convergence of the buccal and lingual gingival crests, loss of apposition on the lingual bundle bone, and decelerated growth at the entire buccal surface. These alterations likely resulted from redirected crestal growth as part of the socket healing process, loss of tongue pressure to the lingual side of the teeth which normally provides mechanical stimulation for dental arch expansion, and masticatory underloading during the initial post-extraction period, respectively.These data indicate that the initial phase of RRR in adolescents is a product of modified growth, not resorption, possibly because of decreased mechanical stimulation at the extraction site.

Published
2013

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