Gotowe bibliografie tematyczne / Bone-Implant Interactions

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  1. Artykuły w czasopismach
  2. Rozprawy doktorskie
  3. Części książek
  4. Streszczenia konferencji

Gotowa bibliografia na temat „Bone-Implant Interactions”

Autor: Grafiati
Data publikacji: 3 czerwca 2025
Data aktualizacji: 31 lipca 2025

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Artykuły w czasopismach na temat "Bone-Implant Interactions"

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Didier, Paul, Boris Piotrowski, Gael Le Coz, David Joseph, Pierre Bravetti, and Pascal Laheurte. "Finite Element Analysis of the Stress Field in Peri-Implant Bone: A Parametric Study of Influencing Parameters and Their Interactions for Multi-Objective Optimization." Applied Sciences 10, no. 17 (2020): 5973. http://dx.doi.org/10.3390/app10175973.

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The present work proposes a parametric finite element model of the general case of a single loaded dental implant. The objective is to estimate and quantify the main effects of several parameters on stress distribution and load transfer between a loaded dental implant and its surrounding bone. The interactions between them are particularly investigated. Seven parameters (implant design and material) were considered as input variables to build the parametric finite element model: the implant diameter, length, taper and angle of inclination, Young’s modulus, the thickness of the cortical bone an
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Prakash, Poonam, and Ambika Narayanan. "Biomechanics in dental implants." IP Annals of Prosthodontics and Restorative Dentistry 7, no. 3 (2021): 131–36. http://dx.doi.org/10.18231/j.aprd.2021.028.

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Achieving primary stability in dental implants is crucial factor for accomplishing successful osteointegration with bone. Micro-motions higher than the threshold of 50 to 100 μm can lead to formation of fibrous tissue at the bone-to-implant interface. Therefore, osteointegration may be vitiated due to insufficient primary stability. Osseointegration is defined as a direct and functional connection between the implant biomaterial and the surrounding bone tissue. Osseointegration development requires an initial rigid implant fixation into the bone at the time of surgery and a secondary stage of
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Będziński, R., J. Krzak-Roś, M. Stefańska, and K. Maruszewski. "Investigation of the Bone Tissue and Implant Surface Interactions." Strain 46, no. 6 (2010): 518–25. http://dx.doi.org/10.1111/j.1475-1305.2007.00383.x.

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Nascimento, Marvin do, Thays Obando Brito, Andreza Menezes Lima, and Carlos Nelson Elias. "Protein interactions with osseointegrable titanium implants." Brazilian Journal of Oral Sciences 22 (October 16, 2023): e238749. http://dx.doi.org/10.20396/bjos.v22i00.8668749.

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This review aims to present the mechanisms of protein interactions with titanium dental implant surfaces. Methods: the analyses were based on searches of scientific articles available in English and Portuguese in PubMed (MEDLINE), Bireme (LILACS), Scielo, Web of Science and Google Scholar. Results: titanium dental implant treatments success rates (95-98%) are mainly due to the biocompatibility of titanium oxide on the implant surface, surgical techniques adopted, good implants manufacturing processes and biomechanical knowledge of the systems. Studies in past decades has empirically developed
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Yun, Jong Il, Su In Yun, Jae Hong Kim, Duk Gyu Kim, and Deok-Won Lee. "Mediation of Osseointegration, Osteoimmunology, and Osteoimmunologic Integration by Tregs and Macrophages: A Narrative Review." International Journal of Molecular Sciences 26, no. 11 (2025): 5421. https://doi.org/10.3390/ijms26115421.

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Osseointegration is the direct contact between living bone and a dental implant, with supporting evidence confirming the direct connection between bone and titanium, found using an electron microscope. However, the fundamental mechanisms and interconnections between the bone and titanium are not clearly understood. At present, osteoimmunology explores the interaction between bone and immune cells not only in the medical field but also in dentistry. Immunology in bone cell formation has long been a research topic; however, interest in these effects has recently surged. Through subsequent studie
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Bishop, Nicholas E., Phil Wright, and Martin Preutenborbeck. "A parametric numerical analysis of femoral stem impaction." PLOS ONE 17, no. 5 (2022): e0268561. http://dx.doi.org/10.1371/journal.pone.0268561.

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Press-fitted implants are implanted by impaction to ensure adequate seating, but without overloading the components, the surgeon, or the patient. To understand this interrelationship a uniaxial discretised model of the hammer/introducer/implant/bone/soft-tissues was developed. A parametric analysis of applied energy, component materials and geometry, and interactions between implant and bone and between bone and soft-tissues was performed, with implant seating and component stresses as outcome variables. To reduce the impaction effort (energy) required by the surgeon for implant seating and al
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Cavalu, Simona, Viorica Simon, Cristian Ratiu, Ioan George Oswald, Vlad Silviu, and Oana Ponta. "Alternative Approaches Using Animal Model for Implant Biomaterials: Advantages and Disadvantages." Key Engineering Materials 583 (September 2013): 101–6. http://dx.doi.org/10.4028/www.scientific.net/kem.583.101.

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This study presents some aspects regarding the evaluation of bone-implant interactions using two animal models (rabbit and rat). The proposed implants are new alumina/zirconia bioceramics designed for hard tissue replacement (oral implantology or arthroplasty). The animal selection was made based on the number and size or design of implants to be tested as these factors influence directly the species of animal chosen for this study. The correct placement and stability of the implants were evaluated by radiographic images. SEM micrographs were recorded on the bone/implant area along with the el
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Zain, M. N. A., R. Daud, M. M. S. Azmi, and M. N. F. Noor. "Stress shielding and amplification in alveolar cortical-cancellous bone fractures: An analysis of implant-bone stress interactions." Mathematical Modeling and Computing 12, no. 2 (2025): 498–511. https://doi.org/10.23939/mmc2025.02.498.

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The effectiveness of dental implants greatly relies on the attainment of osseointegration and the sustained stability of the implant in the long run. An essential factor in achieving this success lies in comprehending the shift from primary to secondary stability and the consequences of microcracks that occur during the drilling of alveolar bone before implantation. The objective of this study is to examine the stress interactions occurring in double-edge parallel cracks within heterogeneous (cortical-cancellous) bone under different loading conditions, particularly mode I, mode II, and mixed-
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Sonnenburg, Robert E., Phillip A. Wackym, Narayan Yoganandan, Jill B. Firszt, Robert W. Prost, and Frank A. Pintar. "Biophysics of Cochlear Implant/MRI Interactions Emphasizing Bone Biomechanical Properties." Laryngoscope 112, no. 10 (2002): 1720–25. http://dx.doi.org/10.1097/00005537-200210000-00002.

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Rostamzadeh, Sajjad, Mohammad Ghasemirad, Mohammad Gerayeli, et al. "Radiographic Evaluation of Implant Stability and Osseointegration in Adult Orthodontic Patients." Galen Medical Journal 14 (April 18, 2025): e3799. https://doi.org/10.31661/gmj.v14i.3799.

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Radiographic evaluation is essential for assessing implant stability and osseointegration in adult orthodontic patients. The success of temporary anchorage devices (TADs) and mini-implants depends on primary stability, achieved through mechanical engagement, and secondary stability, influenced by bone remodeling. While traditional clinical methods, such as mobility testing, provide subjective assessments, radiographic imaging offers objective insights into bone-implant interactions. Periapical and panoramic radiographs are commonly used but are limited by their two-dimensional (2D) nature. Con
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Rozprawy doktorskie na temat "Bone-Implant Interactions"

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Starke, Gregory Richard. "Numerical simulation of implant-bone interaction following cementless joint replacement." Doctoral thesis, University of Cape Town, 1996. http://hdl.handle.net/11427/9258.

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Bibliography: leaves 143-154.<br>The advent of cemented joint replacements has revolutionised the management of patients suffering from chronic arthritis. However, establishing a durable bond between the prosthesis and the surrounding bone remains a considerable problem. As a result, cementless implants have been developed. These components rely on the ingrowth of bone into a porous coating, which covers a portion of the component surface, to achieve the required mechanical interlock. Once mineralised bone tissue has formed within .the porous surface, a stable bond results which will be mainta
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Kerner, Jan. "Patient specific computer modelling of bone changes around orthopaedic implants." Thesis, Imperial College London, 1999. http://hdl.handle.net/10044/1/7912.

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Eser, Atilim. "Finite Element Investigation Of Mechanical Interaction Of Dental Implants With Bone." Master's thesis, METU, 2007. http://etd.lib.metu.edu.tr/upload/3/12608758/index.pdf.

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During the last years, biomechaniccs, the understanding of the very complex mechanical behavior of living tissue, becomes a very important field of research of the wide bravch of mechanichs. Thia study is very important, for instance , to improve the design of implants, with the important social and economical impact. one of important challenges in implant design is to model the complex material behavior of the bone. Remodeling of the bone due to the lodaing is one of the essential behaviors of the bone which can cause for the dental implants, marginal bone loss accuring particallary in the f
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Kuo, Yu-Chan, and 郭育昌. "Evaluation of the Biomechanical Interactions in Frialit-2, Bicon and ITI Implant Systems with Different Placements and Its Surrounding Bone at Facial Maxillary Region under Various Bone Quality." Thesis, 2005. http://ndltd.ncl.edu.tw/handle/01081991906167597247.

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碩士<br>長庚大學<br>醫療機電工程研究所<br>93<br>The implant of osseointegration has become the mainstream in implant dentistry. However, it requires successful osseointegration conditions. From the perspective of biomechanics, the factors affecting the maxillary implant dentistry include the bone structure surrounding the implant, the bone density, the selection of implant, and the implant position. The objectives of this study are to discuss the effects of the abovementioned four factors on the stability of the implant and the biomechanics of the surrounding bond. The results are provided to as reference to
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Części książek na temat "Bone-Implant Interactions"

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Huiskes, R. "Biomechanics of Bone—Implant Interactions." In Frontiers in Biomechanics. Springer New York, 1986. http://dx.doi.org/10.1007/978-1-4612-4866-8_18.

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Saju, K. K., and P. S. Sreejith. "Prediction of Bone Implant Interface Based on a Molecular Level Interaction." In IFMBE Proceedings. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-23508-5_100.

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Aslantaş Akar, Kübra, and Ladise Ceylin Has. "Biological Foundations of Osseointegration: From the Bone–Implant Interface to Clinical Success." In The Encoded Discipline in Bone: From Orthodontic Anchorage to Implant-Supported Rehabilitation. Özgür Yayınları, 2025. https://doi.org/10.58830/ozgur.pub732.c3048.

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This chapter offers a concise, multi-level overview of osseointegration, from cellular and molecular mechanisms to clinical applications. Originally defined by Brånemark and later refined by Albrektsson, osseointegration is now viewed as a dynamic healing cascade essential to implant success. Early healing stages—protein adsorption, osteogenic cell migration, and bone formation—are thoroughly outlined. Key implant surface modifications, including SLA, hydrophilic treatments, nanostructures, calcium phosphate coatings, and antimicrobial films, are examined for their effects on osteogenesis and
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Moghanian, Amirhossein, and Saba Nasiripour. "Bioinert Ceramics for Biomedical Applications." In Bioceramics: Status in Tissue Engineering and Regenerative Medicine (Part 1). BENTHAM SCIENCE PUBLISHERS, 2024. https://doi.org/10.2174/9789815238396124010008.

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Bioinert ceramics are a form of bioceramics that is characterized based on how they react biologically in the human body. Bioinert ceramics are often classified as biologically inert nature or bioinert ceramics that do not elicit a suitable reaction or interact with nearby living tissues when implanted into a biological system. In other words, exposing bioinert ceramics to the human environment will not cause any chemical interactions between the implant and the bone tissue. Bioinert ceramic materials have been used in the form of medical devices and implants to replace or reestablish the func
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Pietruszczak, S., D. Inglis, and G. N. Pande. "Modelling of Bone-Implant Interaction." In Computer Methods in Biomechanics & Biomedical Engineering – 2. CRC Press, 2020. http://dx.doi.org/10.1201/9781003078289-39.

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Yang, Jumin, and Yaping Wang. "Bone Repair Using Immunomodulatory Biomaterials." In Immunomodulatory Biomaterials. Royal Society of Chemistry, 2025. https://doi.org/10.1039/9781837675739-00223.

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The process of bone healing encompasses a series of biological events such as early inflammatory immune regulation, angiogenesis, osteogenic differentiation and biomineralization. At sites of complicated and exacerbated bone injury, the persistence of a proinflammatory phase caused by the implant material can hinder regeneration of the bone defect area. So far, the design idea of active scaffolds for bone tissue engineering has transitioned from “immune-friendly” to “immunomodulatory”. Immune cells can indirectly promote bone healing by secreting cytokines and interacting with other niche cell
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Wagnac Éric, Michardière Denis, Garo Anaïs, Arnoux Pierre-Jean, Mac-Thiong Jean-Marc, and Aubin Carl-Éric. "Biomechanical analysis of pedicle screw placement: a feasibility study." In Studies in Health Technology and Informatics. IOS Press, 2010. https://doi.org/10.3233/978-1-60750-573-0-167.

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In spinal instrumentation surgery, the optimal placement of pedicle screws that takes into account the cortical/cancellous bone quality, geometry and property distribution, and screw design is still undetermined despite several in vitro experiments. The objective of this study was to evaluate the feasibility of using a detailed finite element model (FEM) of an instrumented vertebra to simulate screw axial pull-out and to analyze the bone-screw mechanical interaction. The FEM was built using CT-scan images of the L3 vertebra (0.6mm thick contiguous slices) of a 50th percentile human male volunt
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Abdul Hamid, Z. A. "Polymers in Tissue Engineering." In Applications of Polymers in Surgery. Materials Research Forum LLC, 2022. http://dx.doi.org/10.21741/9781644901892-3.

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This chapter presented the numerous types of polymer biomaterial scaffolds for tissue engineering. The different types of clinical applications including bone, cartilage, skin, space filling scaffolds, and adipose tissue regeneration are discussed. Their fabrication techniques; conventional and emerging additive manufacturing for fabrication of the 3D scaffolds are also presented. A focus of hydrogel as scaffolds is discussed in detail. Meanwhile, the common interaction between biomaterials and cells are introduced to ensure the polymer biomaterial scaffolds developed are biocompatible and non
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Roi, Alexandra, Ciprian Roi, Codruța Victoria Țigmeanu, and Mircea Riviș. "Composite Dental Implants: A Future Restorative Approach." In Advances in Dentures - Prosthetic Solutions, Materials and Technologies [Working Title]. IntechOpen, 2024. http://dx.doi.org/10.5772/intechopen.114174.

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The introduction of composites and dental materials in the implantology field has shown an important increase in the past years. The restorative approaches using dental implants are currently a desirable option for edentulous patients. Since their introduction in dentistry, dental implants have proven to be a reliable option for restabling the functions and esthetics of certain areas. Characteristics such as high biocompatibility, nontoxicity, and high corrosion resistance have been key factors for their worldwide acceptance. In time, researchers aimed to improve their qualities by manufacturi
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Sotelo-Mazon, Oscar, John Henao, Astrid Lorena Giraldo-Betancur, Carlos A. Poblano-Salas, and Jorge Corona-Castuera. "Corrosion of Biomaterials." In New Challenges and Industrial Applications for Corrosion Prevention and Control. IGI Global, 2020. http://dx.doi.org/10.4018/978-1-7998-2775-7.ch003.

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The goal of this chapter is to define concepts and methods currently used to study the corrosion behavior of biomaterials in physiological conditions. One of the interesting points of corrosion of biomaterials is that they must be designed to fulfill different physical and chemical requirements within the human body. For instance, ceramic biomaterials are designed, sometimes, to accomplish a bone growth task. Alternatively, bioceramics are also employed to provide high wear resistance to implant surfaces with the lowest corrosion activity in biological environment. Depending on the part of the
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Streszczenia konferencji na temat "Bone-Implant Interactions"

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Púa, Lizeth Gutiérrez, Virginia Paredes Méndez, Ana María Fonseca Reyes, Juan Carlos Rincón Montenegro, and Lily Margareth Payares. "Enhanced Corrosion Resistance and Biocompatibility of Pure Magnesium Modified by Calcium Phosphate / Biomass of Chlorella Sp. Coating for Orthopedic Applications." In CONFERENCE 2022. AMPP, 2022. https://doi.org/10.5006/c2022-18513.

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Extended Abstract Biomedical metallic materials can be harmful to the human body in the long term due to the release and accumulation of metallic particles resulting from the degradation and corrosion of the material, a consequence of the wear suffered by the implant. Therefore, biodegradable materials have been studied that reduce the risk to health and the need for a second surgical intervention to remove the implant when the tissue is regenerated. Magnesium alloys are possible candidates as degradable biomaterials for temporary implants in various specialties such as traumatology, cardiolog
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Eskinazi, Ilan, and Benjamin J. Fregly. "Surrogate Knee Contact Modeling Using Artificial Neural Networks." In ASME 2013 Summer Bioengineering Conference. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/sbc2013-14581.

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Contact models can be incorporated into multi-body simulations to compute the loads resulting from surface-surface interactions. In musculoskeletal biomechanics, the need to model contact arises when bone-bone, foot-ground, implant-implant, and human-orthotic interactions occur. However, contact models are computationally expensive and thus can be prohibitive for studies that require repeated function evaluations, such as optimizations and forward dynamic simulations.
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Balueva, Alla V., Ilia N. Dashevskiy, Patricia Todebush, Chasen Campbell, and Eduardo Valdez. "First-Principle Calculations of the Binding Energy of the Coating Components of New Generation Dental Implants." In ASME 2019 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2019. http://dx.doi.org/10.1115/imece2019-10059.

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Abstract We propose a new method of calculating adhesive strength of a novel bioactive nano-crystralline hydroxyapatite (HAp) coating of a dental implant by methods of Density Functional Theory (DFT) and Molecular Dynamics (MD) simulation. Hydroxyapatite is the material similar to the bone — that is why it is used in odontology to cover the implant to improve the process of osseointegration of the implant with the bone. It is also important to have a strong adhesive bond between the coating and the implant to avoid unpleasant situations dealing with the peeling of the coating. Our research foc
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Satyanarayana, Chelamalasetti Pavan, Lam Ratnaraju, Lam Suvarna Raju, Sreekanth Dondapati, Ravikumar Dumpala, and Ratna Sunil Buradagunta. "Characterization of CP-Ti Processed by Micro Arc Oxidation for Bone Implant Applications." In 1st International Conference on Mechanical Engineering and Emerging Technologies. Trans Tech Publications Ltd, 2022. http://dx.doi.org/10.4028/p-82dgaz.

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Titanium and its alloys are potential candidates widely used to manufacture medical implants. In spite of possessing excellent properties suitable for a biomaterial, Ti suffers from lack of ability to bond with the local tissue termed as “bioactivity”. Several strategies have been adopted to increase the bioactivity of titanium for bone implant applications. Micro arc oxidation (MAO) is one of such promising surface treatments which produces an oxide layer on the surface of Ti which promote better tissue interactions at the surface Ti. Hence, in the present work, commercial pure Ti (CP-Ti) has
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Tuan, Rocky S. "Functional Analysis of Bone-Biomaterial Interface." In ASME 2000 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2000. http://dx.doi.org/10.1115/imece2000-2675.

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Abstract Proper function and long-term stability of orthopaedic implants depend on the intimate association between bone cells and the implant biomaterial, a process known as osseointegration. Understanding the processes responsible for the establishment and maintenance of a functional bone-biomaterial interface and how these processes may be enhanced is crucial to the rational design and optimization of prosthetic devices. We have utilized cellular, molecular, and high-resolution imaging approaches to analyze the mechanistic basis of bone-biomaterial interactions. Specifically, we have charac
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Hashemi, A., and A. Shirazi-Adl. "3D Nonlinear Finite Element Analysis of Knee Joint Implants." In ASME 1999 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 1999. http://dx.doi.org/10.1115/imece1999-0424.

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Abstract The finite element (FE) method has been used in orthopaedic biomechanics to investigate the fixation role of different design parameters in total knee replacement (TKA). Previous FE model studies used 2D, axisymmetric and 3D models to represent the geometry while neglecting many essential features. They simulated the bone-implant interface as frictionless, perfectly bonded or with idealized Coulomb’s friction model. The model of screws and posts have also been neglected altogether or inadequately considered in these studies. To overcome these limitations, the objective of the present
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Park, Pan Gi, and Leszek J. Sudak. "Interaction Between Bone Cement Cracking and Non-Slip Implant Interfaces." In ASME 2007 Summer Bioengineering Conference. American Society of Mechanical Engineers, 2007. http://dx.doi.org/10.1115/sbc2007-175920.

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According to National Hospital Discharge Survey 2003, approximately 217,000 and 402,000 patients in the U.S. underwent Total Hip Replacement (THR) and Total Knee Replacement (TKR) operations, respectively and $24.7 billion dollars were spent in hospitalization related to these replacement surgeries. In addition, there were 36,000 revision hip replacements and 33,000 revision knee replacements. To decrease the revision surgeries and increase the performance of the implants, many researchers have provided new techniques for better implant fixation and mechanisms of debonding around implants. Wit
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Helguero, Carlos G., Juan Castro, César Ochoa, Fausto Maldonado, Emilio A. Ramírez, and Jorge L. Amaya. "Improving Cutting Path on Custom 3D-Printed Surgical Guides for Bone-Tumor Resection." In ASME 2019 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2019. http://dx.doi.org/10.1115/imece2019-10627.

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Abstract Custom three-dimensional (3D) printed guides are being used in the operative room as an aid to surgeons for increasing the accuracy of their cutting and resection techniques. In terms of bone-tumor resection, the cutting path printed in the custom jig is significantly important for two main purposes: first, the required fit for the implant that will replace the resected bone section and, second, the interaction between the remaining, healthy bone and the new implant in terms of forces, stresses and deformation. Bone tumor resection has posed a challenge in orthopedic oncology, specifi
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Farmer, Ryan N., Kelly Hendricks, and Terence E. McIff. "Dynamic Joint Force Simulator." In ASME 2008 Summer Bioengineering Conference. American Society of Mechanical Engineers, 2008. http://dx.doi.org/10.1115/sbc2008-193190.

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The majority of component testing machines available today are multiple axial wear simulators that focus on the interaction between two articular surfaces [1, 2, 3]. The stability of the implant in the bone, another factor in joint replacement survival is usually tested using unvarying biaxial fatigue loading [4]. These loading protocols do not replicate physiological loading conditions. We designed the Dynamic Joint Force Simulator (DJFS) to have the capability to apply physiological loads through an articular surface for the purpose of studying implant stability.
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Heldreth, Mark, Daren L. Deffenbaugh, Erik Reber, and Paul Rullkoetter. "Open-Sided Tibial Tray to Poly Insert Interface Does Not Generate Peripheral Fluid Flow Under Cyclic Loading." In ASME 2012 Summer Bioengineering Conference. American Society of Mechanical Engineers, 2012. http://dx.doi.org/10.1115/sbc2012-80498.

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Previous clinical publications have identified osteolysis and periprosthetic bone resorption around total knee and hip implants as a contributor to loss of implant fixation [1,2,3,4]. Fluid pressure near fixation screw holes has been studied for both its potential to drive osteolytic polyethylene debris into surrounding cancellous bone and its potential as an isolated mechanism for causing bone resorption [5,6,7]. The interaction between joint capsule pressure, cyclic loading, and lytic lesions near fixation screw holes has also been the focus of prior work [8]. Increases in joint capsule pres
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