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Cartilage Tissue and Knee Joint Biomechanics Fundamentals, Characterization and Modelling

Thomas Sabu Maria Hanna J.
Heftet / 2023 / Engelsk

Produktdetaljer

ISBN
9780323905978
Publisert
2023-09-07
Utgiver
Vendor
Academic Press Inc
Vekt
450 gr
Høyde
276 mm
Bredde
216 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
764

Redaktør
Thomas Sabu
Maria Hanna J.

Biografisk notat

Amirsadegh Rezazadeh Nochehdehi is currently an academic staff member at the University of South Africa (UNISA). He is also a PhD fellow at the Biomechanics Research Group, Department of Mechanical and Industrial Engineering (DMIE), University of South Africa (UNISA), Johannesburg, South Africa. He graduated from Materials and Biomaterials Research Center, Iran (MSc) with a degree in Biomedical Engineering – Division of Biomaterials in 2017. He also graduated from Karaj Branch of Islamic Azad University, Iran (BSc) with a degree in Materials and Metallurgy Engineering – division of Industrial Metallurgy in 2012. As a research scholar, he has worked in polymer nanocomposites for tissue regeneration applications at International and Inter-University Center for Nano-science and Nano-technology (IIUCNN) in Mahatma Gandhi University (MGU),Kerala, India, in 2018. He also worked in magneto-metallic alloy nanoparticles at Nanotechnology Research Center at University of Zululand, South Africa as visiting research in 2017. In addition, he was a quality and safety engineer inspector while worked at Tehran Urban and Suburban Railway Operation Company (TUSROC) for a period of 5 years. His scientific research is in Metallurgy and Materials Design, Advanced Materials, Hydrogen Storage Materials, Nano-science and Nano-technology, Nanomedicine, Nanomaterials, Nanocomposites, Magnetic Nanoparticles, Magnetic Nano-Alloys, Magnetic Hyperthermia, Biomedical Science and Engineering, bio-materials, Biomechanics, Mechanics of Tissue, and Regenerative Medicine. Prof. Fulufhelo Nemavhola is a distinguished scholar renowned for his extensive expertise in biomechanics, computational mechanics, and medical device design. He has authored and co-authored over 80 accredited journal and conference papers. Prof. Nemavhola's research interests encompass soft tissue mechanics, medical device design, and the development of wearable sensor technologies for healthcare and sports applications. In addition to his academic achievements, he holds significant executive management experience within higher education institutions and currently leads research, innovation, and third-stream income efforts at DUT. He is dedicated to advancing research and technology solutions contributing to societal development, particularly in under-resourced environments. Dr. Sabu Thomas (Ph.D.) is the Director of the School of Energy Materials, School of Nanoscience and Nanotechnology of Mahatma Gandhi University, India. He received his Ph. D. in 1987 in Polymer Engineering from the Indian Institute of Technology (IIT), Kharagpur, India. He is a fellow of the Royal Society of Chemistry, London, and a member of the American Chemical Society. He has been ranked no.1 in India about the number of publications (most productive scientists). Prof. Thomas’s research group specialized areas of polymers which includes Polymer blends, Fiber filled polymer composites, Particulate-filled polymer composites and their morphological characterization, Ageing and degradation, Pervaporation phenomena, sorption and diffusion, Interpenetrating polymer systems, Recyclability and reuse of waste plastics and rubbers, Elastomer cross-linking, Dual porous nanocomposite scaffolds for tissue engineering, etc. Prof. Thomas’s research group has extensive exchange programs with different industries, research, and academic institutions all over the world and is performing world-class collaborative research in various fields. Professors Centre is equipped with various sophisticated instruments and has established state-of-the-art experimental facilities which cater to the needs of researchers within the country and abroad. His H Index- 133, Google Citations- 86424, Number of Publications- 1300, and Books-160. Hanna J. Maria is a Senior Researcher at the School of Energy Materials and the International and Inter University Centre for Nanoscience and Nanotechnology, Mahatma Gandhi University, India. Her research focusses on natural rubber composites and their blends, thermoplastic composites, lignin, nanocellulose, bionanocomposites, nanocellulose, rubber-based composites and nanocomposites.

Cartilage Tissue and Knee Joint Biomechanics Fundamentals, Characterization and Modelling

Thomas Sabu Maria Hanna J.
Heftet / 2023 / Engelsk
Thomas Sabu Maria Hanna J.
Heftet / 2023 / Engelsk
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Cartilage, Tissue and Knee Joint Biomechanics: Fundamentals, Characterization and Modelling is a cutting-edge multidisciplinary book specifically focused on modeling, characterization and related clinical aspects. The book takes a comprehensive approach towards mechanics, fundamentals, morphology and properties of Cartilage Tissue and Knee Joints. Leading researchers from health science, medical technologists, engineers, academics, government, and private research institutions across the globe have contributed to this book. This book is a very valuable resource for graduates and postgraduates, engineers and research scholars. The content also includes comprehensive real-world applications. As a reference for the total knee arthroplasty, this book focuses deeply on existing related theories (including: histology, design, manufacturing and clinical aspects) to assist readers in solving fundamental and applied problems in biomechanical and biomaterials characterization, modeling and simulation of human cartilages and cells. For biomedical engineers dealing with implants and biomaterials for knee joint injuries, this book will guide you in learning the knee anatomy, range of motion, surgical procedures, physiological loading and boundary conditions, biomechanics of connective soft tissues, type of injuries, and more.
Les mer
1. Principles of biomechanics and tissue regeneration 2. Histology and biomechanics of knee joint 3. Histology and biomechanics of cartilage 4. Cartilage tribology and friction coefficient 5. Cell biology and pathology of cartilage and meniscus 6. Structure, function, and biomechanics of meniscus cartilage 7. Knee joint abnormalities and cartilage osteoarthritis 8. Molecular imaging techniques for the knee 9. Radiographic techniques for imaging knee joint 10. Magnetic resonance imaging and biochemical markers of cartilage disease 11. Magnetic resonance imagingbased assessment of in vivo cartilage biomechanics 12. Compositional magnetic resonance imaging techniques for the evaluation of knee cartilage 13. Ultrashort echo time magnetic resonance imaging of knee joint components and correlation with biomechanics 14. 3D geometric analysis of the knee with magnetic resonance imaging 15. 3D designing and imaging process of the human knee joint: a review 16. Three-dimensional finite element modeling of human knee joint 17. 3D inverse finite element modeling 18. Boltzmann lattice and off-lattice modeling 19. Constitutive models of cartilage tissue 20. Musculoskeletal modeling and biomechanics of the knee joint 21. In vivo models of human articular cartilage mechanosensitivity 22. A technical study on the design of electric bicycles: applications in intervention programs 23. Cartilage and knee joint biomechanics 24. Mechanical principle of fracture fixations 25. Mechanical testing for cartilages 26. Development of three-dimensional printed biocompatible materials for cartilage replacement 27. Development of 3D-printed biocompatible materials for tendons substitution 28. Stimuli-responsive hydrogels: cutting-edge platforms for cartilage tissue engineering 29. Development of 3D-printed biocompatible materials for meniscus substitution 30. Development of 3D-printed biocompatible materials for bone substitution 31. Advanced biocompatible polymers for cartilage tissue engineering 32. Biochemical and mechanical properties of polyethylene in total knee arthroplasty 33. Kinematics, kinetics, and forces of the knee joint during walking 34. Coating materials for artificial knee joint components 35. Biomechanical analysis of artificial knee joint components 36. Biomechanical and bioelasticity analysis of the hypermobile knee 37. Biomechanical principles of exercise prescription in knee rehabilitation 38. Recent trends for knee articular cartilage repair 39. Surgical approaches to total knee arthroplasty 40. Frontier advances on biomechanical therapies 41. Biomimetic composite scaffolds for meniscus repair: recent progress and future outlook 42. Life cycle analysis of knee joint replacement implants
Les mer
A cutting-edge multidisciplinary resource on the knee joint and its connective soft tissues
Provides a comprehensive resource on the knee joint and its connective soft tissues; content included spans biomechanics, biomaterials, biology, anatomy, imaging and surgical procedure Covers ISO and FDA based regulatory control and compliance in the manufacturing process Includes discussions on the relationship between knee anatomical parameters and knee biomechanics
Les mer

Relaterte produkter

Cartilage, Tissue and Knee Joint Biomechanics: Fundamentals, Characterization and Modelling is a cutting-edge multidisciplinary book specifically focused on modeling, characterization and related clinical aspects. The book takes a comprehensive approach towards mechanics, fundamentals, morphology and properties of Cartilage Tissue and Knee Joints. Leading researchers from health science, medical technologists, engineers, academics, government, and private research institutions across the globe have contributed to this book. This book is a very valuable resource for graduates and postgraduates, engineers and research scholars. The content also includes comprehensive real-world applications. As a reference for the total knee arthroplasty, this book focuses deeply on existing related theories (including: histology, design, manufacturing and clinical aspects) to assist readers in solving fundamental and applied problems in biomechanical and biomaterials characterization, modeling and simulation of human cartilages and cells. For biomedical engineers dealing with implants and biomaterials for knee joint injuries, this book will guide you in learning the knee anatomy, range of motion, surgical procedures, physiological loading and boundary conditions, biomechanics of connective soft tissues, type of injuries, and more.
Les mer
1. Principles of biomechanics and tissue regeneration 2. Histology and biomechanics of knee joint 3. Histology and biomechanics of cartilage 4. Cartilage tribology and friction coefficient 5. Cell biology and pathology of cartilage and meniscus 6. Structure, function, and biomechanics of meniscus cartilage 7. Knee joint abnormalities and cartilage osteoarthritis 8. Molecular imaging techniques for the knee 9. Radiographic techniques for imaging knee joint 10. Magnetic resonance imaging and biochemical markers of cartilage disease 11. Magnetic resonance imagingbased assessment of in vivo cartilage biomechanics 12. Compositional magnetic resonance imaging techniques for the evaluation of knee cartilage 13. Ultrashort echo time magnetic resonance imaging of knee joint components and correlation with biomechanics 14. 3D geometric analysis of the knee with magnetic resonance imaging 15. 3D designing and imaging process of the human knee joint: a review 16. Three-dimensional finite element modeling of human knee joint 17. 3D inverse finite element modeling 18. Boltzmann lattice and off-lattice modeling 19. Constitutive models of cartilage tissue 20. Musculoskeletal modeling and biomechanics of the knee joint 21. In vivo models of human articular cartilage mechanosensitivity 22. A technical study on the design of electric bicycles: applications in intervention programs 23. Cartilage and knee joint biomechanics 24. Mechanical principle of fracture fixations 25. Mechanical testing for cartilages 26. Development of three-dimensional printed biocompatible materials for cartilage replacement 27. Development of 3D-printed biocompatible materials for tendons substitution 28. Stimuli-responsive hydrogels: cutting-edge platforms for cartilage tissue engineering 29. Development of 3D-printed biocompatible materials for meniscus substitution 30. Development of 3D-printed biocompatible materials for bone substitution 31. Advanced biocompatible polymers for cartilage tissue engineering 32. Biochemical and mechanical properties of polyethylene in total knee arthroplasty 33. Kinematics, kinetics, and forces of the knee joint during walking 34. Coating materials for artificial knee joint components 35. Biomechanical analysis of artificial knee joint components 36. Biomechanical and bioelasticity analysis of the hypermobile knee 37. Biomechanical principles of exercise prescription in knee rehabilitation 38. Recent trends for knee articular cartilage repair 39. Surgical approaches to total knee arthroplasty 40. Frontier advances on biomechanical therapies 41. Biomimetic composite scaffolds for meniscus repair: recent progress and future outlook 42. Life cycle analysis of knee joint replacement implants
Les mer
A cutting-edge multidisciplinary resource on the knee joint and its connective soft tissues
Provides a comprehensive resource on the knee joint and its connective soft tissues; content included spans biomechanics, biomaterials, biology, anatomy, imaging and surgical procedure Covers ISO and FDA based regulatory control and compliance in the manufacturing process Includes discussions on the relationship between knee anatomical parameters and knee biomechanics
Les mer

Produktdetaljer

ISBN
9780323905978
Publisert
2023-09-07
Utgiver
Vendor
Academic Press Inc
Vekt
450 gr
Høyde
276 mm
Bredde
216 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
764

Redaktør
Thomas Sabu
Maria Hanna J.

Biografisk notat

Amirsadegh Rezazadeh Nochehdehi is currently an academic staff member at the University of South Africa (UNISA). He is also a PhD fellow at the Biomechanics Research Group, Department of Mechanical and Industrial Engineering (DMIE), University of South Africa (UNISA), Johannesburg, South Africa. He graduated from Materials and Biomaterials Research Center, Iran (MSc) with a degree in Biomedical Engineering – Division of Biomaterials in 2017. He also graduated from Karaj Branch of Islamic Azad University, Iran (BSc) with a degree in Materials and Metallurgy Engineering – division of Industrial Metallurgy in 2012. As a research scholar, he has worked in polymer nanocomposites for tissue regeneration applications at International and Inter-University Center for Nano-science and Nano-technology (IIUCNN) in Mahatma Gandhi University (MGU),Kerala, India, in 2018. He also worked in magneto-metallic alloy nanoparticles at Nanotechnology Research Center at University of Zululand, South Africa as visiting research in 2017. In addition, he was a quality and safety engineer inspector while worked at Tehran Urban and Suburban Railway Operation Company (TUSROC) for a period of 5 years. His scientific research is in Metallurgy and Materials Design, Advanced Materials, Hydrogen Storage Materials, Nano-science and Nano-technology, Nanomedicine, Nanomaterials, Nanocomposites, Magnetic Nanoparticles, Magnetic Nano-Alloys, Magnetic Hyperthermia, Biomedical Science and Engineering, bio-materials, Biomechanics, Mechanics of Tissue, and Regenerative Medicine. Prof. Fulufhelo Nemavhola is a distinguished scholar renowned for his extensive expertise in biomechanics, computational mechanics, and medical device design. He has authored and co-authored over 80 accredited journal and conference papers. Prof. Nemavhola's research interests encompass soft tissue mechanics, medical device design, and the development of wearable sensor technologies for healthcare and sports applications. In addition to his academic achievements, he holds significant executive management experience within higher education institutions and currently leads research, innovation, and third-stream income efforts at DUT. He is dedicated to advancing research and technology solutions contributing to societal development, particularly in under-resourced environments. Dr. Sabu Thomas (Ph.D.) is the Director of the School of Energy Materials, School of Nanoscience and Nanotechnology of Mahatma Gandhi University, India. He received his Ph. D. in 1987 in Polymer Engineering from the Indian Institute of Technology (IIT), Kharagpur, India. He is a fellow of the Royal Society of Chemistry, London, and a member of the American Chemical Society. He has been ranked no.1 in India about the number of publications (most productive scientists). Prof. Thomas’s research group specialized areas of polymers which includes Polymer blends, Fiber filled polymer composites, Particulate-filled polymer composites and their morphological characterization, Ageing and degradation, Pervaporation phenomena, sorption and diffusion, Interpenetrating polymer systems, Recyclability and reuse of waste plastics and rubbers, Elastomer cross-linking, Dual porous nanocomposite scaffolds for tissue engineering, etc. Prof. Thomas’s research group has extensive exchange programs with different industries, research, and academic institutions all over the world and is performing world-class collaborative research in various fields. Professors Centre is equipped with various sophisticated instruments and has established state-of-the-art experimental facilities which cater to the needs of researchers within the country and abroad. His H Index- 133, Google Citations- 86424, Number of Publications- 1300, and Books-160. Hanna J. Maria is a Senior Researcher at the School of Energy Materials and the International and Inter University Centre for Nanoscience and Nanotechnology, Mahatma Gandhi University, India. Her research focusses on natural rubber composites and their blends, thermoplastic composites, lignin, nanocellulose, bionanocomposites, nanocellulose, rubber-based composites and nanocomposites.

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