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
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. Fulufhelo Nemavhola, In addition to being a registered
professional engineer (PrEng) with the Engineering Council of South
Africa, Fulufhelo is also a Chartered Engineer (CEng) registered
with Engineering Council of the United Kingdom (ECUK). Fulu was
awarded a Bachelor of Science (Mechanical Engineering) degree in by
the University of the Witwatersrand, Johannesburg, South Africa. In
2009, Fulufhelo completed an MSc (Mechanical Engineering) degree
under supervision of Prof Botef. Fulu's interest in academic
research then steered him to pursue a doctorate from the Department
of Cardiothoracic Surgery of the University of Cape Town in
December 2010. The PhD degree was studied under the supervision of:
Prof. Thomas Franz, Prof. Neil Davies and Dr. Laura Dubuis. His
research looks into remodeling the heart post myocardial
infarction. Prof. Sabu Thomas is a Professor of Polymer Science and
Engineering and the Director of the School of Energy Materials at
Mahatma Gandhi University, India. Additionally, he is the Chairman
of the Trivandrum Engineering Science & Technology Research Park
(TrEST Research Park) in Thiruvananthapuram, India. He is the
founder director of the International and Inter-university Centre
for Nanoscience and Nanotechnology at Mahatma Gandhi University and
the former Vice-Chancellor of the same institution.
Prof. Thomas is internationally recognized for his contributions to
polymer science and engineering, with his research interests
encompassing polymer nanocomposites, elastomers, polymer blends,
interpenetrating polymer networks, polymer membranes, green
composites, nanocomposites, nanomedicine, and green nanotechnology.
His groundbreaking inventions in polymer nanocomposites, polymer
blends, green bionanotechnology, and nano-biomedical sciences have
significantly advanced the development of new materials for the
automotive, space, housing, and biomedical fields. Dr. Thomas has
been conferred with Honoris Causa (DSc) by the University of South
Brittany, France.
Dr. Hanna J. Maria is a Senior Researcher at the International and
Inter University Centre for Nanoscience and Nanotechnology, Mahatma
Gandhi University, India. She previously held postdoctoral research
positions at the Centre for Advanced Materials, Qatar University,
the Department of Mechanical Engineering, Yamaguchi University,
Japan, the Centre RAPSODEE, IMT Mines, Albi, France, and the
Siberian Federal University, Krasnoyarsk, Russia. Dr. Maria has
published 20 articles and 10 book chapters, and co-edited 4 books.
Her research has focused on natural rubber composites and their
blends, thermoplastic composites, lignin, nanocellulose,
bio-nanocomposites, nanocellulose, rubber-based composites and
nanocomposites, and hybrid nanocomposites.
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