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Computational Biomechanics of the Hip Joint

This book presents analyses of the most commonly reported failure modes of hip stems: loosening and thigh pain; both are attributed to the relative motion and instability at the bone-implant interface due to failure to achieve sufficient primary fixation. The book investigates various factors that could affect primary stability and therefore the long-term outcome of hip arthroplasty. The results complement experimental work carried out in this area as in-vitro experiments have several limitations that could be addressed through computer simulations.

Mohammed Rafiq Abdul Kadir. Mohammed Rafiq Abdul Kadir Computational
Biomechanics of the Hip Joint 1 3 Mohammed Rafiq Abdul Kadir Faculty of
Health Science and Biomedical.

Computational Biomechanics of the Wrist Joint

This book presents an analysis of the stress distribution and contact stresses in severe rheumatoid wrist after total wrist arthroplasty. It assesses and compares the load transfer throughout the joint and contact pressure at the articulations. The data obtained from this study is of importance as this provide greater evidence to the benefits of total wrist arthroplasty in rheumatoid arthritis patients.

Mohd Nazri Bajuri, Mohammed Rafiq Abdul Kadir. Mohd Nazri Bajuri Mohammed
Rafiq Abdul Kadir Computational Biomechanics of the Wrist Joint 123 Mohd
Nazri Bajuri Mohammed Rafiq Abdul Kadir Department of Biomechanics
Computational Biomechanics of the Wrist Joint.

Biomechanics in Dentistry: Evaluation of Different Surgical Approaches to Treat Atrophic Maxilla Patients

This book shows computational finite element simulations to analyse the strength of implant anchorage for intrasinus and extramaxillary approaches under various occlusal loading locations and directions. Three-dimensional model of the craniofacial area surrounding the region of interest, soft tissue and framework are developed using computed tomography image datasets. The zygomatic and standard dental implants are modeled using a conventional computer-aided design software and placed at the appropriate location. Material properties are assigned appropriately for the cortical, cancellous bones and implants with Masseter forces applied at the zygomatic arch and occlusal loadings applied on the framework surface.

Muhammad Ikman Ishak, Mohammed Rafiq Abdul Kadir. Muhammad Ikman
Ishak Mohammed Rafiq Abdul Kadir Biomechanics in Dentistry: Evaluation of
Different Surgical Approaches to Treat Atrophic Maxilla Patients 123 Muhammad
Ikman Ishak Mohammed Rafiq Abdul Kadir School of Postgraduate
Biomechanics in Dentistry:Evaluation of Different Surgical Approaches to Treat
Atrophic Maxilla Patients.

Trauma Plating Systems

Biomechanical, Material, Biological, and Clinical Aspects

Trauma Plating Systems is the first reference and systematic book in the topic of trauma plating system in view of biomechanical, material, biological, and clinical aspects. The effects of these aspects on effectiveness of trauma plating fixation are deeply reviewed, discussed, and challenged from which promising evaluation and development concepts are explored. This book is divided into five sections: Section I covers general concepts of biomechanical, material, biological, and clinical aspects. Then it provides fundamentals of trauma plating systems, principles of biomechanical evaluation methods, and biomechanics of plating fixation in Section II. Section III reviews current metallic materials with their advantages and disadvantages in plating fixation of bone fractures and new promising materials with their potential benefits to enhance the effectiveness of plating fixation. Section IV represents currently concerned biomechanical-clinical challenges of plating fixation for various bone fractures, and Section V presents current and new development concepts of this type of trauma implants. This book as an accessible and easy usable textbook for various disciplines of audiences who are dealing with trauma plating system and fixation such as orthopedic surgeons, trauma implant manufacturers, biomechanical researchers, biomaterial researchers, and all biomedical or medical students and residents in different levels of education. Author has been diligent in both engineering and research environments in terms of research, testing, analysis, validation, verification, clinical studies, and technical writing. His main interest and effort is to integrate biomechanical, material, biological, and clinical requirements of orthopedic implants for creation of novel design conception in this industry. He has developed the website http://orthoimplant-development.com/ for further communication in development of orthopedic implants. Smooth writing style for effective following, fast reading, and easy accessibility of the content Detailed and insight reviews, discussions, and new ideas in evaluation methods and design conception Disclosing of a novel conceptual plating system (Advance Healing Fixation System—AHealFS) with advanced biomechanical and clinical benefits in various stages of healing period potential to bring an interesting science breakthrough in fixation of bone fractures

Amirhossein. Goharian. and. Mohammed. R.A.. Kadir. 10.2.3 Effect of Bone
Density on Fixation of Humeral Head. 183 Trauma Plating Systems. DOI: http://dx.
doi.org/10.1016/B978-0-12-804634-0.00010-0 Copyright © 2017 Elsevier Inc. All
rights reserved. 10 Humerus Trauma Plating Fixation.