Mechanical Properties of Human Tissues: Materials Horizons: From Nature to Nanomaterials
Autor Arnab Chanda, Gurpreet Singhen Limba Engleză Paperback – 5 mai 2024
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Specificații
ISBN-13: 9789819922277
ISBN-10: 9819922275
Pagini: 92
Ilustrații: X, 92 p. 43 illus., 28 illus. in color.
Dimensiuni: 155 x 235 mm
Ediția:2023
Editura: Springer Nature Singapore
Colecția Springer
Seria Materials Horizons: From Nature to Nanomaterials
Locul publicării:Singapore, Singapore
ISBN-10: 9819922275
Pagini: 92
Ilustrații: X, 92 p. 43 illus., 28 illus. in color.
Dimensiuni: 155 x 235 mm
Ediția:2023
Editura: Springer Nature Singapore
Colecția Springer
Seria Materials Horizons: From Nature to Nanomaterials
Locul publicării:Singapore, Singapore
Cuprins
Introduction to Human Tissues.- Mechanical Characterization Techniques.- Applications of Human Tissue Properties.- Skin.- Muscles.- Connective Tissues.- Tissues in Functional Organs.- Challenges and Future Opportunities.- Tissues in Functional Organs-High Stiffness.- Challenges and Future Opportunities.
Notă biografică
Dr. Arnab Chanda is an Assistant Professor in the Centre for Biomedical Engineering, Indian Institute of Technology (IIT) Delhi, India and a joint faculty at the Department of Biomedical Engineering, All India Institute of Medical Sciences (AIIMS) Delhi, India. He is also the founder of a startup company BIOFIT Technologies LLC, USA.
Dr. Chanda is an expert in the fabrication and mechanical characterization of tissue mimics, and has previously developed artificial surrogates for human skin, muscles, brain, artery, and plantar fascia, and tested them at both lab and clinical settings.
These experimental models have been used extensively for surgical training and to study a wide range of injury scenarios. To date, he has received young researcher awards from ASME and MHRD, holds 7 US patents, 2 Indian patents, has authored over 50 articles in reputed international journals. Currently, Dr. Chanda heads the “Disease and Injury Mechanics Lab (DIML)”, where his team isworking on developing cutting-edge healthcare technologies for disease mitigation (i.e., diabetic ulceration, cerebral aneurysm, and severe skin burns) in India. They also aim to fabricate low-cost artificial organs for surgical training.Gurpreet Singh is a Ph.D. Scholar in the Centre for Biomedical Engineering, Indian Institute of Technology (IIT) Delhi, India. He is a recipient of the most prestigious Ph.D. fellowship in India, the Prime Minister's Research Fellowship (PMRF), in the May 2021 cycle.
His research interests are soft tissue mechanics, artificial tissues, biomimetics, and computational biomechanics. He is currently developing artificial human tissues for injury and disease modeling.
Previously, much of his work has been on improving the surface characteristics and bioactivity of metallic biomaterials, with research interests including surface engineering, materials science, biomaterials, and non-conventional machining processes. Heworked on the surface modification of metallic biomaterials using electro-discharge machining, where he studied the bioactivity of modified surfaces in terms of wear resistance, corrosion resistance, and other biological responses. He has contributed 34 research papers and book chapters to leading international journals/conferences. He is also serving as a reviewer for prominent journals of national and international repute.
Dr. Chanda is an expert in the fabrication and mechanical characterization of tissue mimics, and has previously developed artificial surrogates for human skin, muscles, brain, artery, and plantar fascia, and tested them at both lab and clinical settings.
These experimental models have been used extensively for surgical training and to study a wide range of injury scenarios. To date, he has received young researcher awards from ASME and MHRD, holds 7 US patents, 2 Indian patents, has authored over 50 articles in reputed international journals. Currently, Dr. Chanda heads the “Disease and Injury Mechanics Lab (DIML)”, where his team isworking on developing cutting-edge healthcare technologies for disease mitigation (i.e., diabetic ulceration, cerebral aneurysm, and severe skin burns) in India. They also aim to fabricate low-cost artificial organs for surgical training.Gurpreet Singh is a Ph.D. Scholar in the Centre for Biomedical Engineering, Indian Institute of Technology (IIT) Delhi, India. He is a recipient of the most prestigious Ph.D. fellowship in India, the Prime Minister's Research Fellowship (PMRF), in the May 2021 cycle.
His research interests are soft tissue mechanics, artificial tissues, biomimetics, and computational biomechanics. He is currently developing artificial human tissues for injury and disease modeling.
Previously, much of his work has been on improving the surface characteristics and bioactivity of metallic biomaterials, with research interests including surface engineering, materials science, biomaterials, and non-conventional machining processes. Heworked on the surface modification of metallic biomaterials using electro-discharge machining, where he studied the bioactivity of modified surfaces in terms of wear resistance, corrosion resistance, and other biological responses. He has contributed 34 research papers and book chapters to leading international journals/conferences. He is also serving as a reviewer for prominent journals of national and international repute.
Textul de pe ultima copertă
This monograph brings forth biomechanical research methods and outcomes on human tissue experiments such as those of the brain and the heart under a single umbrella. Different mechanical characterization techniques employed in human tissue property estimation are presented in detail. The contents also focus on a hyperelastic constitutive model (e.g., Mooney-Rivlin, Ogden) for both isotropic and anisotropic tissue characterization. It also discusses energy dissipation in soft tissues and associated viscoelasticity. Human tissues, including skin, muscles, connective tissues, and tissues in all functional organs are listed and their mechanical properties are presented in detail. These tissue properties are indispensable for computational modeling of biological systems, validation of biomechanical tissue testing, medical simulation through development of artificial phantoms and surrogates, and testing of medical devices and interventions. This book will serve as a key reference for research in tissue engineering & biomedical engineering, medical simulation, biomechanics, finite element modeling of biological systems, biomaterials, biotechnology, implant and medical device development, and healthcare wearables.
Caracteristici
Provides up-to-date mechanical properties of human tissues Indispensable monograph for biocomputational researchers Focuses on human injury research (automotive crash testing, ballistics, armor development)