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5. List of Contributors

Author

Akkus, Ozan, primary, Allen, Matthew R., additional, Babler, William J, additional, Bellido, Teresita, additional, Bivi, Nicoletta, additional, Bruzzaniti, Angela, additional, Burr, David B., additional, Corbin, Tim, additional, DiMeglio, Linda A., additional, Fuchs, Robyn K., additional, Chu, Tien-Min Gabriel, additional, Gallant, Kathleen M. Hill, additional, Imel, Erik A., additional, Koller, Daniel L., additional, Krohn, Kelly, additional, Li, Jiliang, additional, Mitlak, Bruce H., additional, Plotkin, Lilian I., additional, Robling, Alexander G., additional, Liu, Sean Shih-Yao, additional, Stocum, David L., additional, Wallace, Joseph M., additional, Weaver, Connie M., additional, and White, Kenneth E., additional

Published
2014
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9. Pyk2 deficiency enhances bone mass during midpalatal suture expansion

Author

Sean Shih-Yao Liu, Angela Bruzzaniti, Jun Sun, Pierre P. Eleniste, Hakan Turkkahraman, and Achint Utreja

Subjects
Male, Palatal Expansion Technique, Bone density, Orthodontics, Article, Bone remodeling, Andrology, 03 medical and health sciences, Mice, 0302 clinical medicine, Suture (anatomy), Osteoclast, Bone Density, medicine, Animals, 030212 general & internal medicine, Midpalatal suture, Sutures, business.industry, Osteoblast, 030206 dentistry, Cranial Sutures, medicine.anatomical_structure, Focal Adhesion Kinase 2, Otorhinolaryngology, Maxilla, Surgery, Oral Surgery, business, Bone mass
Abstract

OBJECTIVE: To determine if Pyk2-deficiency increases midpalatal suture bone mass and preserves sutural integrity after maxillary expansion. SETTING AND SAMPLE: Thirty-six male Pyk2 knockout (KO) and control (WT) mice at 6-weeks of age. MATERIALS AND METHODS: Mice received nickel-titanium spring expanders delivering 0g (no intervention control), 10g or 20g force for 14 days. High-resolution micro-CT was used to determine bone volume/tissue volume (BV/TV), sutural width and intermolar width. Effects on osteoclasts, chondrocytes and suture morphology were determined by histomorphometry. RESULTS: Pyk2-KO controls (0g) had 7% higher BV/TV compared with WT controls. Expanded Pyk2-KO maxillae also exhibited 12% (10g) and 18% (20g) higher BV/TV than WT mice. Although bone loss following expansion occurred in both genotypes, BV/TV was decreased to a greater extent in WT maxillae (−10% at 10g; −22% at 20g) compared with Pyk2-KO maxillae (−11% only at 20g) (p

Published
2020

11. A Randomized Split-Mouth Clinical Trial on Effectiveness of Amnion-Chorion Membranes in Alveolar Ridge Preservation: A Clinical, Radiologic, and Morphometric Study.

Author

Hassan, Muyeenul, Prakasam, Sivaraman, Bain, Carol, Ghoneima, Ahmed, and Sean Shih-Yao Liu

Subjects
ALVEOLAR process, AMNION, CHORION, ANALYSIS of variance, COMPUTED tomography, RADIOGRAPHY, RANDOMIZED controlled trials
Abstract

Purpose: Recent case reports suggest that amnion-chorion membranes (ACM) and dense polytetrafluoroethylene membranes (dPTFE) can be left exposed during ridge preservation. The aim of this study was to compare the effectiveness of these membranes in ridge preservation, particularly when they are intentionally left exposed. Materials and Methods: A split-mouth, single-blind, randomized trial design was used to compare treatments with the two membranes in 22 nonmolar sites on the same arch. Ridge dimensions were recorded clinically and with cone beam computed tomography prior to and 3 months after ridge preservation. Postoperative discomfort was recorded with Visual Analog Scale (VAS) forms. Mixed-model analysis of variance was used to test significance. Results: Clinical and radiographic ridge dimensions were not significantly different between the two treatments. ACM sites had significantly more osteoid and higher bone volume density but significantly less graft particles and bone surface density compared with dPTFE. Mineralized bone area and soft tissue area were not significantly different between the two treatments. ACM sites had significantly lower postoperative VAS scores compared with dPTFE. Conclusion: Intentionally exposed ACM is equally effective in ridge preservation compared with dPTFE. Additionally, ACM use may aid in reducing postoperative VAS scores, and potentially result in better quality of bone available for implant placement, as evidenced by improved histomorphometric measures. [ABSTRACT FROM AUTHOR]

Published
2017
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18. Susceptibility of partially desalivated rats to erosive tooth wear by calcium-supplemented beverages

Author

Sean Shih-Yao Liu, Taís Scaramucci, Janice M. Warrick-Polackoff, Anderson T. Hara, Mohammad Aldosari, and George J. Eckert

Subjects
Male, Molar, Saliva, Quantification methods, Lingual surface, Submandibular Gland, chemistry.chemical_element, Dentistry, Carbonated Beverages, Calcium, Sublingual Gland, 03 medical and health sciences, 0302 clinical medicine, Animals, Tooth Erosion, General Dentistry, Enamel paint, business.industry, X-Ray Microtomography, 030206 dentistry, Microcomputed tomography, Rats, Otorhinolaryngology, chemistry, Tooth wear, 030220 oncology & carcinogenesis, visual_art, visual_art.visual_art_medium, Disease Susceptibility, Salivation, business
Abstract

Objectives To investigate the susceptibility of partially desalivated rats to erosive tooth wear (ETW); the anti-erosive effect of a calcium-supplemented beverage; and the quantification of ETW by microcomputed tomography (micro-CT). Methods The study population consisted of thirty-eight rats, divided into partially desalivated (n = 19) and normal salivary flow (n = 19). They were randomly allocated into three subgroups (n = 6-7): A-diet soda, B-diet soda + calcium, C-water (control). Solutions were provided ad libitum for 28 days, and the rats were euthanized afterwards. Each left hemi-mandible was scanned using micro-CT for enamel volume (three molars) calculation. Visual analysis of photographs of the lingual surface of first molars was performed independently by three blinded examiners. Data were statistically analysed (α = .05). Results Micro-CT revealed no significant differences between partially desalivated or normal groups. Rats consuming A had more enamel loss than those consuming B or C, which did not differ from each other. For visual analysis, desalivation did not affect ETW. Rats consuming C showed the lowest ETW, followed by B and then A, for both partially desalivated and normal rats. Spearman correlation between the two ETW quantification methods was -.65. Conclusions Partial desalivation did not increase ETW. Ca-containing beverage prevented ETW. Micro-CT quantified ETW, although it was not as sensitive as visual analysis.

Published
2017
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20. Copper Trace Thermomechanical Reliability Analysis of Ball Grid Array Package

Author

Meng-Kai Shih, Sean Shih, D.-S. Liu, Michael Yc Lee, Tse-Wei Liao, David Tarng, and CP Hung

Subjects
Materials science, 0211 other engineering and technologies, chemistry.chemical_element, Young's modulus, 02 engineering and technology, Temperature cycling, Copper, symbols.namesake, 020303 mechanical engineering & transports, 0203 mechanical engineering, Creep, Material selection, chemistry, Casting (metalworking), Ball grid array, 021105 building & construction, Ultimate tensile strength, symbols, Composite material
Abstract

In semiconductor substrate fabrication process, copper traces are electroplated on prepreg material to play an important role of communicating signals between functional ICs. In recent years, larger size and high I/O number packages such as HFCBGA, 2.5D and 3D IC were developed, finer copper line width and space (L/S) trace substrate design become more and more important. However, the copper trace broken risk under several thermal manufacturing processes and reliability testing also increasing. A temperature cycling test (TCT) is one of the key experimental testing items for package reliability performance evaluation. The accumulated thermal stress will lead to trace broken risk during test, then the discontinue signal cause function failure. For specific application such as Automotive (ATV), function fail is lethal. Thus, consider risk assessment in the primary structure design stage is essential.In this work, a three-dimensional finite element model is used to evaluate structure design and material selection. In generally, the bilinear casting bulk model was used to evaluate copper trace lifetime performance under thermal cycling test condition. However, this bilinear constitutive model is difficult to simulate long-term creep behavior. Therefore, a new experimental technique was developed to measure the copper trace material properties. The mechanical tensile strength of the thin copper foil was tested with a micro-tester to examine the tensile stress–strain relationship. The copper foil is fabricated to be 18 micron thickness which similar to substrate copper trace thickness. Four kinds of tensile speed (1x100 ~ 1x10-3 mm/minute) at four temperature environments (25rC ~ 150°C) were applied and Stress-Strain (S-S) curves were measured by micro force test system. The tensile result of electroplated copper film shows lower Young’s modulus and higher tensile strength than casting bulk copper.The test vehicle of 11.8 x 11.4 mm2 BGA package which has substrate copper trace crack issue after TCT 1000 cycles (-65°C ~ 150°C) was chosen. Besides, the creep behavior of the copper was taken into account in the simulation model to verify the numerical model and copper’s constitutive model. The copper trace broken risk from the simulation was verified against the experimental data. Additional critical data, such as creep strain energy density (CSED) of the copper trace in the organic substrate and the maximum CSED level location in the substrate layer can be predicted. From the result, reduce the package thermal stress can bring lower CSED on trace, and in this study changed the lower Young’s modulus substrate material to control the thermal stress. The experimental and numerical methods presented here can be used as useful performance evaluation tools to support the choice of suitable package geometry and bill of material (BOM) selection.

Published
2018
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21. A Randomized Split-Mouth Clinical Trial on Effectiveness of Amnion-Chorion Membranes in Alveolar Ridge Preservation: A Clinical, Radiologic, and Morphometric Study

Author

Ahmed Ghoneima, Sivaraman Prakasam, Sean Shih-Yao Liu, Carol Bain, and Muyeenul Hassan

Subjects
0301 basic medicine, Adult, medicine.medical_specialty, Cone beam computed tomography, Bone density, Visual analogue scale, Radiography, Alveolar Bone Loss, Dentistry, Bone Matrix, 03 medical and health sciences, 0302 clinical medicine, Calcification, Physiologic, Bone Density, medicine, Alveolar ridge, Alveolar Process, Humans, Single-Blind Method, Amnion, Tooth Socket, Polytetrafluoroethylene, Aged, Bone Transplantation, Osteoid, business.industry, Soft tissue, Membranes, Artificial, 030206 dentistry, General Medicine, Alveolar Ridge Augmentation, Chorion, Cone-Beam Computed Tomography, Middle Aged, Surgery, 030104 developmental biology, Tooth Extraction, Ridge (meteorology), Female, Oral Surgery, business
Abstract

Purpose Recent case reports suggest that amnion-chorion membranes (ACM) and dense polytetrafluoroethylene membranes (dPTFE) can be left exposed during ridge preservation. The aim of this study was to compare the effectiveness of these membranes in ridge preservation, particularly when they are intentionally left exposed. Materials and methods A split-mouth, single-blind, randomized trial design was used to compare treatments with the two membranes in 22 nonmolar sites on the same arch. Ridge dimensions were recorded clinically and with cone beam computed tomography prior to and 3 months after ridge preservation. Postoperative discomfort was recorded with Visual Analog Scale (VAS) forms. Mixed‑model analysis of variance was used to test significance. Results Clinical and radiographic ridge dimensions were not significantly different between the two treatments. ACM sites had significantly more osteoid and higher bone volume density but significantly less graft particles and bone surface density compared with dPTFE. Mineralized bone area and soft tissue area were not significantly different between the two treatments. ACM sites had significantly lower postoperative VAS scores compared with dPTFE. Conclusion Intentionally exposed ACM is equally effective in ridge preservation compared with dPTFE. Additionally, ACM use may aid in reducing postoperative VAS scores, and potentially result in better quality of bone available for implant placement, as evidenced by improved histomorphometric measures.

Published
2017

22. New / Old JEDEC board level drop reliability test standards evaluation: Measurement and simulation study

Author

Ian Hu, Ryan Chen, Janae Ho, Ming-Han Wang, Sean Shih, and Sarah Lee

Subjects
010302 applied physics, Materials science, business.industry, 020208 electrical & electronic engineering, 02 engineering and technology, Structural engineering, 01 natural sciences, Drop test, Stress (mechanics), Reliability (semiconductor), Soldering, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Drop (telecommunication), business, Failure mode and effects analysis, Component placement, Solder mask
Abstract

Drop test for solder joint reliability is critical for all area arrays and perimeter-leaded surface mount semiconductor devices typically used in handheld electronic products. Joint Electron Device Engineering Council, JEDEC, published a new test standard, JESD22-B111A, to be the revision of the JESD22-B111 for board level drop test in November, 2016. The major differences between JESD22-B111 and JESD22-B111A are PCB size (132×77mm2 to 77×77mm2), PCB layers (8 layers to 10 layers), sample size (15 components/PCB with package size ≦ 15×15 mm2 to 4 components/PCB with package size ≦ 17×17 mm2) and total number of test components (120 components to 48 components). JESD22-B111A also adds the specifications of PCB pad and solder mask opening size for 0.4mm component pitch and 5 lb-in torque value. The component placement on the square board that defined in JESD22-B111A is symmetric so that all of them shall have same stress level during drop test, it is different from the component placement on the rectangular board that defined in JESD22-B111 which results several stress level during drop test. In this paper, board level drop test and simulation followed JESD22-B111 and JESD22-B111A are executed. The simulation result shows conditions follow JESD22-B111A has both smaller normal stress and plastic strain than conditions follow JESD22-B111; drop test experiment result shows JESD22-B111A has longer characteristic life, too. The study of package surface mount placement orientation for rectangular package under JESD22-B111A condition is also executed by simulation, due to it is not defined in the new revised standard. The simulation result shows circumferential oriented component placement has larger plastic strain and radial oriented component placement has larger normal stress, it means the former ease to have solder fracturing failure mode and the latter ease to have intermetallic compound layers fracturing failure mode.

Published
2017
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23. Command and data handling (C&DH) subsystem for the tropospheric water and cloud ice (twice) 6u-class satellite instrument

Author

Sharmila Padmanabhan, Kevin M. K. H. Leong, Mehmet Ogut, Sean Shih, Nacer Chahat, Steven C. Reising, R. E. Cofield, Jonathan H. Jiang, Gerry Mei, Yuriy Goncharenko, William R. Deal, Pekka Kangaslahti, Alex Zamora, Xavier Bosch-Lluis, Erich Schlecht, and Shannon Brown

Subjects
Radiometer, Group method of data handling, business.industry, 0211 other engineering and technologies, Cloud computing, 02 engineering and technology, Noise (electronics), Troposphere, Data acquisition, Environmental science, Satellite, business, Physics::Atmospheric and Oceanic Physics, Water vapor, 021101 geological & geomatics engineering, Remote sensing
Abstract

Global measurements of upper tropospheric/lower-stratospheric water vapor and ice particle size distribution in clouds are critically needed to reduce uncertainties in global weather and climate models. To address this need, the conically scanning Tropospheric Water and Cloud ICE (TWICE) millimeter and submillimeter radiometer instrument is being developed. A low-noise, power-efficient command and data handling (C&DH) subsystem has been designed to control TWICE data acquisition and other subsystems. The C&DH prototype board meets functional, noise and size, weight and power (SWaP) requirements for deployment in a 6U-class satellite. Considering the limited power resources available on such platforms, a highly-efficient power regulation board has been designed to minimize power losses and reduce system noise. Furthermore, all of the components have been tested for radiation tolerance in low-Earth orbit.

Published
2017
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24. ACER: An Agglomerative Clustering Based Electrode Addressing and Routing Algorithm for Pin-Constrained EWOD Chips

Author

Sean Shih Ying Liu, Chung Hung Chang, Hung-Ming Chen, and Tsung-Yi Ho

Subjects
Engineering, business.industry, Hardware_PERFORMANCEANDRELIABILITY, Computer Graphics and Computer-Aided Design, Hierarchical clustering, Reduction (complexity), Printed circuit board, Computer engineering, Embedded system, Hardware_INTEGRATEDCIRCUITS, Electrical and Electronic Engineering, Routing (electronic design automation), Cluster analysis, Focus (optics), business, Biochip, Integer programming, Software
Abstract

The problem of pin-constrained electrowetting-ondielectric (EWOD) biochips becomes a serious issue to realize complex bio-chemical operations. Due to limited number of control pins and routing resources, additional Printed Circuit Board (PCB) routing layers may be required which potentially raises the fabrication cost. Previous state-of-the-art work has tried to develop a framework that uses a network-flow-based method for broadcast electrodeaddressing EWOD biochips. Nevertheless, greedily merging of electrical pins in previous works is at high risk of producing unroutable design. Routability should have higher priority than pin reduction. While previous works dedicated their effort on pin reduction, we have addressed our attention on routability of broadcast addressing. Experimental results demonstrate that taking routability into consideration can even have higher pin reduction. Viewed in this light, we present ACER, a routability driven clustering algorithm followed by escape routing using integer linear programming that effectively solves both pin merging and routing in broadcast addressing framework. Our proposed algorithm does not greedily focus on pin-reduction. Instead, routability is taken into consideration through agglomerative clustering. Compared to previous state-of-the-art, our proposed algorithm can further reduce required control pins by an average of 13% and route the design using 68% less wirelength.

Published
2014
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25. Fast Thermal Aware Placement With Accurate Thermal Analysis Based on Green Function

Author

Ching-Yu Chin, Ren-Guo Luo, Hung-Ming Chen, Sean Shih-Ying Liu, and Suradeth Aroonsantidecha

Subjects
Engineering, Temperature control, Speedup, business.industry, Hardware_PERFORMANCEANDRELIABILITY, Integrated circuit design, Chip, Design for manufacturability, symbols.namesake, Hardware and Architecture, Hardware_INTEGRATEDCIRCUITS, Electronic engineering, Discrete cosine transform, symbols, Electrical and Electronic Engineering, business, Thermal analysis, Algorithm, Gaussian network model, Software
Abstract

In this paper, we present a fast and accurate thermal aware analytical placer. A thermal model is constructed based on a Green function with discrete cosine transform (DCT) to generate full chip temperature profile. Our thermal model is tightly integrated with an analytical placer implemented based on the SimPL framework. A temperature spreading force based on the Gaussian model is proposed to reduce the maximum on-chip temperature and optimize tradeoff between total half-perimeter wirelength and on-chip maximum temperature. The temperature profile generated using our thermal model is verified by the ANSYS ICEPAK and obtains an average deviation within 3.0% with $240\times$ speedup.

Published
2014
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26. Comparison of stainless steel and titanium alloy orthodontic miniscrew implants: A mechanical and histologic analysis

Author

Hee-Moon Kyung, Thomas R. Katona, Ryan N. Brown, Kelton T. Stewart, Brent E. Sexton, Sean Shih-Yao Liu, and Tien-Min G. Chu

Subjects
Male, Materials science, Surface Properties, Removal torque, chemistry.chemical_element, Orthodontics, Osseointegration, Alloys, Orthodontic Anchorage Procedures, Orthodontic Wires, Rosaniline Dyes, Animals, Orthodontic Appliance Design, Fluorescent Dyes, Dental Implants, Titanium, Tibia, fungi, Metallurgy, Significant difference, technology, industry, and agriculture, Titanium alloy, Stainless Steel, Biomechanical Phenomena, Torque, chemistry, Mechanical stability, Bone Remodeling, Rabbits, Stress, Mechanical, Dental Alloys
Abstract

Introduction The detailed mechanical and histologic properties of stainless steel miniscrew implants used for temporary orthodontic anchorage have not been assessed. Thus, the purpose of this study was to compare them with identically sized titanium alloy miniscrew implants. Methods Forty-eight stainless steel and 48 titanium alloy miniscrew implants were inserted into the tibias of 12 rabbits. Insertion torque and primary stability were recorded. One hundred grams of tensile force was applied between half of the implants in each group, resulting in 4 subgroups of 24 specimens each. Fluorochrome labeling was administered at weeks 4 and 5. When the rabbits were euthanized at 6 weeks, stability and removal torque were measured in half (ie, 12 specimens) of each of the 4 subgroups. Microdamage burden and bone-to-implant contact ratio were quantified in the other 12 specimens in each subgroup. Mixed model analysis of variance was used for statistical analysis. Results All implants were stable at insertion and after 6 weeks. The only significant difference was the higher (9%) insertion torque for stainless steel. No significant differences were found between stainless steel and titanium alloy miniscrew implants in microdamage burden and bone-to-implant contact regardless of loading status. Conclusions Stainless steel and titanium alloy miniscrew implants provide the same mechanical stability and similar histologic responses, suggesting that both are suitable for immediate orthodontic clinical loads.

Published
2014
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28. Finite Element Modeling for Orthodontic Biomechanical Simulation Based on Reverse Engineering: A Case Study

Author

Nan Ru, Yunfeng Liu, Jie Chen, Sean Shih-Yao Liu, and Wei Peng

Subjects
Reverse engineering, Surface (mathematics), Engineering, General Computer Science, business.industry, General Engineering, Base (geometry), Mechanical engineering, Image processing, Solid modeling, computer.software_genre, Finite element method, Polygon mesh, Tomography, business, computer
Abstract

In order to improve the validity and feasibility of the solid model of oral tissue, a new method is provided based on reverse engineering. Biomechanical simulation with FEM is an important technique for orthodontic force analysis and evaluation, as well as treatment design. As the base of FEM simulation, the solid geometrical models of oral tissue including tooth, Periodontal Ligament (PDL) and alveolar bone are difficult to construct through conventional solid modeling methods because the oral models are very complicated in geometry and topology which are generally represented as triangular meshes. But in many cases, solid model is necessary for FEM performing. So how to construct the solid model of oral tissue with good quality and efficiency is a problem should be faced and solved in orthodontic biomechanical simulation. Aiming at this problem, reverse engineering modeling is adopt to transfer triangular meshes to four-sides surface model and together with techniques of medical image processing, three dimensional triangular meshes calculating, surface fitting and solid modeling, the solid geometrical model of oral cavity for FEM analysis is constructed from CT (computerized tomography) images. With a simulation case of rat molar movement test, the whole procedure of solid modeling based on reverse engineering and some main techniques are presented and the validity and feasibility are proved also by the simulation results.

Published
2013
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29. Agglomerative-based flip-flop merging and relocation for signal wirelength and clock tree optimization

Author

Hung-Ming Chen, Sean Shih-Ying Liu, Wan-Ting Lo, and Chieh-Jui Lee

Subjects
Computer science, SIGNAL (programming language), Clock tree, Hardware_PERFORMANCEANDRELIABILITY, Parallel computing, Computer Graphics and Computer-Aided Design, Computer Science Applications, law.invention, Clock network, Hierarchical clustering, Reduction (complexity), law, Hardware_INTEGRATEDCIRCUITS, Electrical and Electronic Engineering, Focus (optics), Clock tree synthesis, Algorithm, Flip-flop, Hardware_LOGICDESIGN
Abstract

In this article, we propose a flip-flop merging algorithm based on agglomerative clustering. Compared to previous state-of-the-art on flip-flop merging, our proposed algorithm outperforms that of Chang et al. [2010] and Wang et al. [2011] in all aspects, including number of flip-flop reductions, increase in signal wirelength, displacement of flip-flops, and execution time. Our proposed algorithm also has minimal disruption to original placement. In comparison with Jiang et al. [2011], Wang et al. [2011], and Chang et al. [2010], our proposed algorithm has the least displacement when relocating merged flip-flops. While previous works on flip-flop merging focus on the number of flip-flop reduction, we further evaluate the power consumption of clock tree after flip-flop merging. To further minimize clock tree wirelength, we propose a framework that determines a preferable location for relocated merged flip-flops for clock tree synthesis (CTS). Experimental results show that our CTS-driven flip-flop merging can reduce clock tree wirelength by an average of 7.82% with minimum clock network power consumption compared to all of the previous works.

Published
2013
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30. Effects of Platelet-Rich Plasma and Recombinant Human Bone Morphogenetic Protein-2 on Suture Distraction Osteogenesis

Author

Zhiliang Zhang, Haisong Xu, Zhihong Fan, Xin Jin, Xuan Luo, Sean Shih-Yao Liu, and Ke Ke

Subjects
Male, Cephalometry, medicine.medical_treatment, Osteogenesis, Distraction, Bone Morphogenetic Protein 2, Dentistry, Bone morphogenetic protein, Random Allocation, Suture (anatomy), Nickel, Transforming Growth Factor beta, medicine, Animals, Humans, Craniofacial, Titanium, Platelet-Rich Plasma, business.industry, Skull, Suture Techniques, Osteoblast, General Medicine, Recombinant Proteins, Sagittal suture, medicine.anatomical_structure, Otorhinolaryngology, Platelet-rich plasma, Models, Animal, Distraction osteogenesis, Surgery, Rabbits, business, Wound healing
Abstract

BACKGROUND Growth factors contained in platelet-rich plasma (PRP) have been reported to induce osteoblast differentiation in certain studies, while in others, osteogenesis has not been shown clinically. The aim of the present study was to verify the effect of PRP and its combination with rhBMP-2 as a controlled delivery system during sagittal suture distraction osteogenesis. METHODS Thirty-six-week male New Zealand white rabbits were randomly assigned to sagittal suture distraction osteogenesis groups treated with (1) PRP gel alone; and (2) PRP gel mixed with 10 μg rhBMP-2 (PRP/rhBMP-2), and a control group untreated. A heavy 200-g continuous mechanical force was applied for 33 days using a nickel titanium open spring to distract the suture between 2 miniscrew implants. The suture morphology was evaluated radiographically and histologically after sacrifice. RESULTS The amount of suture separation in the control group and the PRP gel group were statistically greater (P < 0.05) than in the PRP/rhBMP-2 gel group. Compared to the control group, the micro-CT and histologic analysis showed that the local application of PRP gel not only stimulates the new bone formation between the suture gap but accelerates the suture wound healing during distraction without suture fusion. There was a percent of total suture height 15.3 ± 9.5% fusion in PRP/rhBMP-2 gel group and the average thickness of cranium bone in the PRP/rhBMP-2 gel group was statistically greater (P < 0.05) than in the control group and the PRP gel group. CONCLUSIONS In this animal model, both PRP gel and PRP/rhBMP-2 gel are effective in improving new bone formation in suture distraction osteogenesis. PRP gel induces suture bone formation without suture fusion and accelerates the suture wound healing, while the PRP/rhBMP-2 gel group, in which the sutures fused prematurely, showed powerful bone formation ability aided by rhBMP-2. PRP can be alternatively use as a controlled release system for rhBMP-2, but caution should be used before proceeding with the application of high-dose growth factors around the growing craniofacial sutures.

Published
2013
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31. Personality traits as a potential predictor of willingness to undergo various orthodontic treatments

Author

Kelton T. Stewart, Sean Shih-Yao Liu, Stuart Schrader, Jeffery A. Dean, and Vincent Hansen

Subjects
Male, Agreeableness, Adolescent, Personality Inventory, Data Collection, media_common.quotation_subject, Ethnic group, Orthodontics, Regression analysis, Conscientiousness, Original Articles, Orthodontics, Corrective, Statistical significance, Humans, Regression Analysis, Personality, Female, Big Five personality traits, Personality Assessment Inventory, Child, Psychology, Malocclusion, Clinical psychology, media_common
Abstract

Objective:To establish an association between patient personality traits and potential willingness to undergo various orthodontic treatments.Materials and Methods:One hundred adolescent individuals aged 12–16 years completed an anonymous electronic questionnaire via Survey Monkey. The 24-item questionnaire contained three major sections: patient demographics, a modified Big Five Inventory (BFI)-10 personality index, and a willingness to undergo treatment assessment. Multiple-variable linear regression analyses were used to determine the associations among age, gender, ethnicity, and the five personality traits simultaneously with willingness to undergo treatment. Statistical significance was set at P ≤ .05.Results:Ninety-six of the 100 individuals were included in the statistical analysis. Age, ethnicity, and gender failed to correlate with potential willingness to undergo orthodontic treatment. Several personality dimensions within the modified BFI-10 (agreeableness, conscientiousness, and neuroticism) were significantly associated with willingness to undergo various orthodontic treatments (P ≤ .05). Agreeableness demonstrated positive correlations with five treatment modalities, while both conscientiousness and neuroticism exhibited negative associations with a single treatment modality. Openness and extraversion were the only personality dimensions that failed to associate with any of the treatment modalities. Four of the nine treatment modalities had no association with patient demographics or a patient's personality dimensions.Conclusions:Personality traits are useful in predicting a patient's potential willingness to participate in various orthodontic treatments. The agreeableness dimension provided the most utility in predicting patient willingness. Age, ethnicity, and gender were not significant in predicting patient willingness.

Published
2013
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32. Review on Biomechanical Simulation, Measurement and Control of Orthodontic Force

Author

Sean Shih Yao Liu, Gen Zhou, and Yun Feng Liu

Subjects
Orthodontics, Materials science, Treatment plan, General Engineering, Biomedical engineering
Abstract

The forces and moments supplied by braces determine the movement of tooth in orthodontic treatment, so clearly quantifying the force value is very important to formulate precise treatment plan. In recent decades, scholars have presented many articles about biomechanical research on orthodontic force. Based on investigations of these papers, techniques on orthodontic force stimulation including oral model (bone, PDL and teeth included) reconstruction and constitute model construction, methods in orthodontic force measurement including physical oral model fabrication and device architectures, and techniques on orthodontic force control such as the use of shape memory alloy and shape memory polymer as the wire material, are reviewed. At the end, the conclusions and future works are given.

Published
2013
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33. Microarchitecture and Biomechanical Evaluation of BoneCeramic Grafted Alveolar Defects during Tooth Movement in Rat

Author

Nan Ru, Guanjun Zhou, Li Song, Bai Yuxing, Sean Shih-Yao Liu, and Yunfeng Liu

Subjects
X-ray microtomography, business.industry, BoneCeramic, Dentistry, 030206 dentistry, 02 engineering and technology, Root resorption, 021001 nanoscience & nanotechnology, Bone tissue, medicine.disease, 03 medical and health sciences, Tooth root, 0302 clinical medicine, medicine.anatomical_structure, Otorhinolaryngology, Tooth movement, Maxillary first molar, Medicine, Oral Surgery, 0210 nano-technology, business, Cancellous bone
Abstract

Objective: BoneCeramic can regenerate bone in alveolar defects, but it remains unknown whether it is feasible to move a tooth through BoneCeramic grafting sites. The objective of this study was to investigate three-dimensional real-time bone responses and micromechanical properties in the grafting sites during orthodontic tooth movement. Methods: Sixty 5-week-old rats were randomly assigned into three groups to receive BoneCeramic, natural bovine cancellous bone particles (Bio-Oss), and no graft, respectively, after the extraction of the left maxillary first molar. After 4 weeks, the maxillary left second molar was moved into the extraction for 28 days. Dynamic bone microstructures and root resorption were evaluated using in vivo micro-computed tomography and histology. Stress distribution of tooth roots and biomechanical properties of corresponding bone tissue were examined by finite element methods and nanoindentation. Mixed-model analysis of variance was performed to compare the difference among time points with Bonferroni post hoc tests at the significance level of P < .05. Results: The BoneCeramic group had the least amount of tooth movement and root resorption volume and craters, highest bone volume fraction, trabecular number, mean trabecular thickness, microhardness, and elastic modulus, followed by Bio-Oss and the control group. The highest stress accumulated in the cervical region of the mesial roots. Conclusion: BoneCeramic has better osteoconductive potential and biomechanical properties and induces less root resorption compared with Bio-Oss grafting and naturally recovered extraction site.

Published
2016

34. Tropospheric water and cloud ICE (TWICE) millimeter and submillimeter-wave radiometer instrument for 6U-Class nanosatellites

Author

Erich Schlecht, Kevin M. K. H. Leong, R. E. Cofield, Steven C. Reising, Sharmila Padmanabhan, Sean Shih, Mehmet Ogut, Gerry Mei, Pekka Kangaslahti, William R. Deal, Alex Zamora, Shannon Brown, Jonathan H. Jiang, Yuriy Goncharenko, Xavier Bosch-Lluis, and Nacer Chahat

Subjects
010302 applied physics, Radiometer, 010504 meteorology & atmospheric sciences, Terahertz radiation, 01 natural sciences, Troposphere, Depth sounding, 0103 physical sciences, Environmental science, Millimeter, Precipitation, Water vapor, Monolithic microwave integrated circuit, 0105 earth and related environmental sciences, Remote sensing
Abstract

Global measurements of cloud ice particle size, total ice water content and water vapor content in the upper troposphere are critically needed to improve knowledge of the role of ice clouds in Earth's climate, precipitation and cloud processes. Such observations will enable improvement in cloud and moisture simulations in global climate models as well as precipitation forecasts on a global basis. Measurements at a range of frequencies in the millimeter- and submillimeter-wave frequency range provide sensitivity to ice particle size distribution in the range of tens to hundreds of micrometers. To perform this measurement on a global basis, a new millimeter- and submillimeter-wave instrument is currently under development with suitable mass, power and volume to be deployed on 6U-Class nanosatellites. To achieve miniaturized receivers in this frequency range, InP MMIC technology has been scaled to 25-nm gate length transistors, enabling demonstration of low-noise amplifiers with sufficient gain at frequencies up to 1 THz. This technology is being applied to develop direct-detection submillimeter-wave receivers at 240 GHz, 310 GHz and 670 GHz. InP MMIC technology has also enabled multipliers for local oscillators and subharmonic mixers for temperature and humidity sounding channels near atmospheric absorption lines at 118.75, 183.31 and 380.20 GHz.

Published
2016
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35. WITHDRAWN: In vivo micro-computed tomography evaluation of BoneCeramic grafted alveolar defects during orthodontic tooth movement

Author

Sean Shih-Yao Liu, Yunfeng Liu, Song Li, Yuxing Bai, Nan Ru, and Guanjun Zhou

Subjects
0301 basic medicine, X-ray microtomography, Materials science, business.industry, BoneCeramic, Dentistry, Orthodontics, 03 medical and health sciences, 030104 developmental biology, medicine.anatomical_structure, In vivo, Tooth movement, medicine, Maxillary first molar, Tomography, business, Cancellous bone, Dental alveolus
Abstract

Objective: To investigate three-dimensional microarchitecture and micromechanical properties of alveolar bone in the BoneCeramic grafting sites during orthodontic tooth movement. Materials and Methods: Sixty 5-week-old rats were randomly assigned into three groups to receive BoneCeramic, natural bovine cancellous bone particles (Bio-Oss), and no graft, respectively, after the extraction of the left maxillary first molar. After 4 weeks, the maxillary left second molar was moved into the extraction site for 28 days. Dynamic bone microstructures were evaluated using in vivo micro–computed tomography. Micromechanical properties and stress distribution of corresponding tissue were examined by nanoindentation and finite element methods. Mixed-model analysis of variance was performed to compare the difference among time points with Bonferroni post hoc tests at the significance level of P < .05. Results: The BoneCeramic group had the least amount of tooth movement and the highest bone volume fraction, tr...

Published
2016

36. Removed at authors request

Author

Yun Feng Liu, Sean Shih Yao Liu, and Gen Zhou

Subjects
Orthodontics, Shape-memory polymer, Computer science, Treatment plan, Control (management), General Medicine, Shape-memory alloy
Abstract

The forces and moments supplied by braces determine the movement of tooth in orthodontic treatment, so clearly quantifying the force value is very important to formulate precise treatment plan. In recent decades, scholars have presented many articles about biomechanical research on orthodontic force. Based on investigations of these papers, techniques on orthodontic force stimulation including oral model (bone, PDL and teeth included) reconstruction and constitute model construction, methods in orthodontic force measurement including physical oral model fabrication and device architectures, and techniques on orthodontic force control such as the use of shape memory alloy and shape memory polymer as the wire material, are reviewed. At the end, the conclusions and future works are given.

Published
2012
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37. Three-dimensional quantification of pretorqued nickel-titanium wires in edgewise and prescription brackets

Author

Sean Shih-Yao Liu, Nitika Mittal, Kelton T. Stewart, Zeyang Xia, and Jie Chen

Subjects
Molar, Materials science, Orthodontic Brackets, medicine.medical_treatment, Dentistry, Orthodontics, Load cell, Crown (dentistry), Incisor, Nickel, Materials Testing, Orthodontic Wires, medicine, Maxillary central incisor, Titanium, Analysis of Variance, business.industry, Bracket, Original Articles, Models, Dental, Moment (mathematics), medicine.anatomical_structure, Torque, Nickel titanium, business, Dental Alloys
Abstract

Objective: To quantify the three-dimensional moments and forces produced by pretorqued nickel-titanium (NiTi) rectangular archwires fully engaged in 0.018- and 0.022-inch slots of central incisor and molar edgewise and prescription brackets. Materials and Methods: Ten identical acrylic dental models with retroclined maxillary incisors were fabricated for bonding with various bracket-wire combinations. Edgewise, Roth, and MBT brackets with 0.018- and 0.022-inch slots were bonded in a simulated 2 × 4 clinical scenario. The left central incisor and molar were sectioned and attached to load cells. Correspondingly sized straight and pretorqued NiTi archwires were ligated to the brackets using 0.010-inch ligatures. Each load cell simultaneously measured three force (Fx, Fy, Fz) and three moment (Mx, My, Mz) components. The faciolingual, mesiodistal, and inciso-occluso/apical axes of the teeth corresponded to the x, y, and z axes of the load cells, respectively. Each wire was removed and retested seven times. Three-way analysis of variance (ANOVA) examined the effects of wire type, wire size, and bracket type on the measured orthodontic load systems. Interactions among the three effects were examined and pair-wise comparisons between significant combinations were performed. Results: The force and moment components on each tooth were quantified according to their local coordinate axes. The three-way ANOVA interaction terms were significant for all force and moment measurements (P < .05), except for Fy (P > .05). Conclusion: The pretorqued wire generates a significantly larger incisor facial crown torquing moment in the MBT prescription compared to Roth, edgewise, and the straight NiTi wire.

Published
2012
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38. The effects of varying alcohol concentrations commonly found in mouth rinses on the force decay of elastomeric chain

Author

Terrah M. Larrabee, Sean Shih-Yao Liu, George J. Eckert, Armando E. Soto-Rojas, Kelton T. Stewart, and Ariadna Torres-Gorena

Subjects
Dental Stress Analysis, Analysis of Variance, Time Factors, Ethanol, Chemistry, business.industry, Polyurethanes, Mouthwashes, Dentistry, Orthodontics, Alcohol, Original Articles, Alcohol exposure, Elastomer, Elasticity, chemistry.chemical_compound, Animal science, Materials Testing, Mouth rinse, Prospective Studies, business
Abstract

OBJECTIVE: To test the effect of alcohol on force decay of elastomeric chains in vitro in order to determine if increasing alcohol concentrations results in an increased amount of elastomeric chain force decay. MATERIALS AND METHODS: A prospective laboratory study was completed to test the effect of alcohol exposure on orthodontic elastomeric chain. A total of 450 specimens were divided into five test groups. Two test groups were each exposed to different alcohol concentrations (14% and 26.9%) and the other two test groups were exposed to different commercially available mouth rinses (Cēpacol -14% alcohol and Listerine - 26.9% alcohol) for 60 seconds twice a day. The control group followed all of the same procedures but was only exposed to deionized (DI) water. Force measurements were taken at six time points (initial, 1 day, 7 days, 14 days, 21 days, and 28 days). RESULTS: There were no significant differences among groups at the initial time point (P = .52). Statistically significant effects of time on force decay were seen in all groups. All test groups showed significantly more force decay than the control group. Only a few statistically significant differences were observed when comparing force decay among the test groups. CONCLUSIONS: Alcohol causes an increase in force decay of elastomeric chain over time. A concentration dependence of alcohol on force decay of elastomeric chain was not observed.

Published
2012
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40. Laser-treated stainless steel mini-screw implants: 3D surface roughness, bone-implant contact, and fracture resistance analysis

Author

He Kyong Kang, Kelton T. Stewart, Paul C. Dechow, Sean Shih-Yao Liu, Tien Min Chu, and Hee-Moon Kyung

Subjects
Male, medicine.medical_specialty, X-ray microtomography, Materials science, Surface Properties, Bone Screws, chemistry.chemical_element, Orthodontics, 02 engineering and technology, Surface finish, Lasers, Solid-State, law.invention, 03 medical and health sciences, Random Allocation, 0302 clinical medicine, Dogs, Imaging, Three-Dimensional, law, Nickel, Bone-Implant Interface, Surface roughness, medicine, Image Processing, Computer-Assisted, Maxilla, Orthodontic Anchorage Procedures, Orthodontic Wires, Animals, Titanium, Titanium alloy, 030206 dentistry, X-Ray Microtomography, 021001 nanoscience & nanotechnology, Laser, Stainless Steel, Surgery, chemistry, Torque, Nd:YAG laser, Dental Etching, Fracture (geology), Original Article, Stress, Mechanical, 0210 nano-technology, Biomedical engineering, Dental Alloys
Abstract

Background/Objectives: This study investigated the biomechanical properties and bone-implant intersurface response of machined and laser surface-treated stainless steel (SS) mini-screw implants (MSIs). Material and Methods: Forty-eight 1.3mm in diameter and 6mm long SS MSIs were divided into two groups. The control (machined surface) group received no surface treatment; the laser-treated group received Nd-YAG laser surface treatment. Half in each group was used for examining surface roughness (Sa and Sq), surface texture, and facture resistance. The remaining MSIs were placed in the maxilla of six skeletally mature male beagle dogs in a randomized split-mouth design. A pair with the same surface treatment was placed on the same side and immediately loaded with 200g nickel–titanium coil springs for 8 weeks. After killing, the bone-implant contact (BIC) for each MSI was calculated using micro computed tomography. Analysis of variance model and two-sample t test were used for statistical analysis with a significance level of P

Published
2015

41. Closing the Gap between Global and Detailed Placement

Author

Chun-Kai Wang, Hung-Ming Chen, Wei-Chen Wu, Ching-Yu Chin, Chuan-Chia Huang, Sean Shih-Ying Liu, and Sheng-Te Hu

Subjects
Very-large-scale integration, Router, business.industry, Computer science, Distributed computing, Routing congestion, Node (networking), Hardware_INTEGRATEDCIRCUITS, Routing (electronic design automation), business, Placement, Closing (morphology), Computer network
Abstract

Improving routability during both global and detailed routing stage has become a critical problem in modern VLSI design. In this work, we propose a placement framework that offers a complete coverage solution in considering both global and detailed routing congestion. A placement migration strategy is proposed, which improves detailed routing congestion while preserving the placement integrity that is optimized for global routability. Using the benchmarks released from ISPD2014 Contest, practical design rules in advanced node design are considered in our placement framework. Evaluation on routability of our placement framework is conducted using commercial router provided by the 2014 ISPD Contest organizers. Experimental results show that the proposed methodologies can effectively improve placement solutions for both global and detailed router.

Published
2015
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43. BoneCeramic graft regenerates alveolar defects but slows orthodontic tooth movement with less root resorption

Author

Nan Ru, Song Li, Xiaoxia Wei, Yuxing Bai, Sean Shih-Yao Liu, and Yunfeng Liu

Subjects
0301 basic medicine, Molar, Male, X-ray microtomography, Bone Regeneration, Tooth Movement Techniques, Finite Element Analysis, Alveolar Bone Loss, Root Resorption, Dentistry, Orthodontics, Rats, Sprague-Dawley, 03 medical and health sciences, Random Allocation, 0302 clinical medicine, Imaging, Three-Dimensional, medicine, Alveolar Process, Maxilla, Animals, Tooth Root, Tooth Socket, Bone regeneration, Dental alveolus, Minerals, business.industry, Alveolar process, Histology, 030206 dentistry, X-Ray Microtomography, Biomechanical Phenomena, Rats, 030104 developmental biology, medicine.anatomical_structure, Bone Substitutes, Tooth Extraction, Feasibility Studies, Cattle, Hydroxyapatites, Stress, Mechanical, business, Cancellous bone
Abstract

Introduction BoneCeramic (Straumann, Basel, Switzerland) can regenerate bone in alveolar defects after tooth extraction, but it is unknown whether it is feasible to move a tooth through BoneCeramic grafting sites. The objective of this study was to investigate 3-dimensional real-time root resorption and bone responses in grafted sites during orthodontic tooth movement. Methods Sixty 5-week-old rats were randomly assigned to 3 groups to receive BoneCeramic, natural bovine cancellous bone particles (Bio-Oss; Geistlich Pharma, Wolhusen, Switzerland), or no graft, after the extraction of the maxillary left first molar. After 4 weeks, the maxillary left second molar was moved into the extraction site for 28 days. Dynamic bone microstructures and root resorption were evaluated using in-vivo microcomputed tomography. Stress distribution and corresponding tissue responses were examined by the finite element method and histology. Mixed model analysis of variance was performed to compare the differences among time points with Bonferroni post-hoc tests at the significance level of P Results The BoneCeramic group had the least amount of tooth movement and root resorption volumes and craters, and the highest bone volume fraction, trabecular number, and mean trabecular thickness, followed by the Bio-Oss and the control groups. The highest stress accumulated in the cervical region of the mesial roots. Conclusions BoneCeramic has better osteoconductive potential and induces less root resorption compared with Bio-Oss grafting and naturally recovered extraction sites.

Published
2014

44. Three-dimensional canine displacement patterns in response to translation and controlled tipping retraction strategies

Author

Shuning Li, George J. Eckert, Zeyang Xia, Sean Shih-Yao Liu, and Jie Chen

Subjects
Male, Cuspid, Rotation, Tooth Movement Techniques, Computer science, Dentistry, Orthodontics, Translation (geometry), Article, Canine retraction, Orthodontic Space Closure, Young Adult, Imaging, Three-Dimensional, Image Processing, Computer-Assisted, Orthodontic Wires, Torque, Humans, Orthodontic Appliance Design, Displacement (orthopedic surgery), business.industry, Lasers, Biomechanical Phenomena, Tooth movement, Female, Stress, Mechanical, 3d laser scanner, business
Abstract

To validate whether applying a well-defined initial three-dimensional (3D) load can create consistently expected tooth movement in patients.Twenty-one patients who needed bilateral canine retraction to close extraction space were selected for this split-mouth clinical trial. After initial alignment and leveling, two canines in each patient were randomly assigned to receive either translation (TR) or controlled tipping (CT) load. The load was delivered by segmental T-loops designed to give specific initial moment/force ratios to the canines in each treatment interval (TI), verified with an orthodontic force tester. Maxillary dental casts were made before canine retraction and after each TI. The casts were digitized with a 3D laser scanner. The digital models were superimposed on the palatal rugae region. The 3D canine displacements and the displacement patterns in terms of TR, CT, and torque were calculated for each TI.The method can reliably detect a TR displacement greater than 0.3 mm and a rotation greater than 1.5°. Ninety-two TIs had displacements that were greater than 0.3 mm and were used for further analysis. Most displacements were oriented within ±45° from the distal direction. The displacement pattern in terms of TR or CT was not uniquely controlled by the initial moment/force ratio.The initial load system is not the only key factor controlling tooth movement. Using a segmental T-loop with a well-controlled load system, large variations in canine displacement can be expected clinically.

Published
2014

45. List of Contributors

Author

Ozan Akkus, Matthew R. Allen, William J Babler, Teresita Bellido, Nicoletta Bivi, Angela Bruzzaniti, David B. Burr, Tim Corbin, Linda A. DiMeglio, Robyn K. Fuchs, Tien-Min Gabriel Chu, Kathleen M. Hill Gallant, Erik A. Imel, Daniel L. Koller, Kelly Krohn, Jiliang Li, Bruce H. Mitlak, Lilian I. Plotkin, Alexander G. Robling, Sean Shih-Yao Liu, David L. Stocum, Joseph M. Wallace, Connie M. Weaver, and Kenneth E. White

Published
2014
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47. Suture cartilage formation pattern varies with different expansive forces

Author

Haiyang Yu, Yang Liu, Ling Xiao, Yi Tang, and Sean Shih-Yao Liu

Subjects
Male, Palatal Expansion Technique, Tolonium chloride, Orthodontics, Mice, Inbred Strains, Matrix metalloproteinase, Chondrocyte, Andrology, chemistry.chemical_compound, Mice, Random Allocation, Chondrocytes, Antigen, Suture (anatomy), Osteogenesis, Proliferating Cell Nuclear Antigen, Matrix Metalloproteinase 13, medicine, Animals, Tolonium Chloride, Coloring Agents, Cell Proliferation, Palate, Cartilage, Cell Differentiation, Anatomy, Cranial Sutures, Alkaline Phosphatase, Biomechanical Phenomena, Mice, Inbred C57BL, medicine.anatomical_structure, Ki-67 Antigen, chemistry, Immunohistochemistry, Alkaline phosphatase, Phenazines, Stress, Mechanical, Chondrogenesis
Abstract

Introduction Midpalatal suture expansion could induce osteogenesis to correct maxillary insufficiency; cartilage formation could also be induced, and lower-magnitude forces might generate a preferable response pattern. In this study, we aimed for an enhanced understanding of the cartilage formatting effects of expansion. Methods Thirty 6-week-old male C57BL/6 mice were randomly and evenly assigned to 3 groups; the animals in each group received a sustained suture expansion at 0, 10, and 20 g, respectively. Ten additional mice were fed the same as the baseline controls and received no expansion. After 7 days, the animals were killed; coronal paraffin sections were stained using toluidine blue and safranin-O. The proliferating cell nucleus antigen, the nuclear antigen Ki-67, alkaline phosphatase, and matrix metalloproteinase 13 expressions were visualized with immunohistochemistry. All data were analyzed statistically, and the differences were considered significant at P Results Compared with the control, the cartilage matrix volume was significantly increased by the 20-g expansion, showing increased cartilage matrix and hypertrophic chondrocytes with the highest matrix metalloproteinase 13 expression. The 10-g expansion formed condensed proliferating chondrocyte masses, within which the highest percentages of proliferating cell nucleus antigen and Ki-67 positive cells were present. The 10-g and the 20-g expansions equally intensified the alkaline phosphatase expression. Conclusions The lower expansion (10 g) promoted chondrocyte proliferation and induced a more preferable suture cartilage response pattern compared with the higher expansion (20 g), which just increased the cartilage matrix production.

Published
2013

48. Analytic performance studies and clinical reproducibility of a real-time PCRassay for the detection of epidermal growth factor receptor gene mutations informalin-fixed paraffin-embedded tissue specimens of non-small cell lungcancer

Author

Robert Current, Mari Christensen, Warren Maltzman, Taraneh Rehage, Sean Shih-Chang Chien, Robert Schilling, Stephen Soviero, Patrick O'Donnell, Jane Ferguson, Lin Wu, Steven M. Anderson, Ha Bich Tran, H. Jeffrey Lawrence, Kenneth J. Bloom, Julie Tsai, Johnny Shyu, Felice Shieh, and Wen Wei

Subjects
Cancer Research, Lung Neoplasms, Companion diagnostics, Analytical validation, DNA Mutational Analysis, Gene mutation, Real-Time Polymerase Chain Reaction, medicine.disease_cause, symbols.namesake, Non-small cell lung cancer, Limit of Detection, Carcinoma, Non-Small-Cell Lung, Multiplex polymerase chain reaction, Molecular diagnostics, Genetics, medicine, Humans, Multiplex, Epidermal growth factor receptor, Sanger sequencing, Mutation, EGFR mutation testing, Paraffin Embedding, biology, Reproducibility of Results, Exons, Molecular biology, Reproducibility, ErbB Receptors, Real-time polymerase chain reaction, Technical Advance, Molecular Diagnostic Techniques, Oncology, symbols, biology.protein, Pyrosequencing, Multiplex Polymerase Chain Reaction
Abstract

Background Epidermal growth factor receptor (EGFR) gene mutations identify patients with non-small cell lung cancer (NSCLC) who have a high likelihood of benefiting from treatment with anti-EGFR tyrosine kinase inhibitors. Sanger sequencing is widely used for mutation detection but can be technically challenging, resulting in longer turn-around-time, with limited sensitivity for low levels of mutations. This manuscript details the technical performance verification studies and external clinical reproducibility studies of the cobas EGFR Mutation Test, a rapid multiplex real-time PCR assay designed to detect 41 mutations in exons 18, 19, 20 and 21. Methods The assay’s limit of detection was determined using 25 formalin-fixed paraffin-embedded tissue (FFPET)-derived and plasmid DNA blends. Assay performance for a panel of 201 specimens was compared against Sanger sequencing with resolution of discordant specimens by quantitative massively parallel pyrosequencing (MPP). Internal and external reproducibility was assessed using specimens tested in duplicate by different operators, using different reagent lots, instruments and at different sites. The effects on the performance of the cobas EGFR test of endogenous substances and nine therapeutic drugs were evaluated in ten FFPET specimens. Other tests included an evaluation of the effects of necrosis, micro-organisms and homologous DNA sequences on assay performance, and the inclusivity of the assay for less frequent mutations. Results A >95% hit rate was obtained in blends with >5% mutant alleles, as determined by MPP analysis, at a total DNA input of 150 ng. The overall percent agreement between Sanger sequencing and the cobas test was 96.7% (negative percent agreement 97.5%; positive percent agreement 95.8%). Assay repeatability was 98% when tested with two operators, instruments, and reagent lots. In the external reproducibility study, the agreement was > 99% across all sites, all operators and all reagent lots for 11/12 tumors tested. Test performance was not compromised by endogenous substances, therapeutic drugs, necrosis up to 85%, and common micro-organisms. All of the assessed less common mutations except one (exon 19 deletion mutation 2236_2248 > AGAC) were detected at a similar DNA input level as that for the corresponding predominant mutation. Conclusion The cobas EGFR Mutation Test is a sensitive, accurate, rapid, and reproducible assay.

Published
2013
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