Datta Deepanjan (13 results)

hardcover. Condition: Fine. Open Books is a nonprofit social venture that provides literacy experiences for thousands of readers each year through inspiring programs and creative capitalization of books.

Hardcover. Condition: new. Hardcover. Biomaterials are substances that are engineered to interact with biological systems for medical and therapeutic purposes. Biomaterial-based additive manufacturing in tissue engineering is a rapidly evolving field with ongoing research and development. As technology advances, it is likely to play a pivotal role in the development of regenerative medicine and personalized healthcare. Biomaterial-based additive manufacturing, also known as 3D bioprinting utilizing biodegradable or bioavailable polymeric materials, is a cutting-edge technology with great potential and promise for tissue engineering and regeneration. This innovative approach combines biomaterial or engineered biomaterials with precise or customized printing to develop a complex three-dimensional structure that mimics the architecture and functionality of native tissues. An important aspect in development of 3D printed products for tissue engineering or regeneration is selection of biomaterials, development of bio inks using those biomaterials, cell integration, customization, vascularization, and biodegradability of the product. Although 3D bioprinting has shown promise in various applications with potential to revolutionize organ transplantation and tissue engineering, there are several challenges such as ensuring proper vascularization, improving the mechanical properties of printed products, and addressing regulatory aspects with ethical consideration. Therefore, in this book emphasis on tissue engineering and regeneration will be presented, which is an interdisciplinary field that aim to restore, repair, or replace damaged or lost biological tissues. Moreover, chapters inform on recent shift in research that indicates a customized fabrication of biodegradable products, the future of tissue engineering and regeneration. mso-highlight: yellow;">This innovative approach combines biomaterial or engineered biomaterials with precise or customis for tissue engineering or regeneration is selection of biomaterials, development of bio inks using Shipping may be from multiple locations in the US or from the UK, depending on stock availability.

Hardcover. Condition: Brand New. 250 pages. 9.26x6.11x9.49 inches. In Stock.

Hardcover. Condition: new. Hardcover. Biomaterials are substances that are engineered to interact with biological systems for medical and therapeutic purposes. Biomaterial-based additive manufacturing in tissue engineering is a rapidly evolving field with ongoing research and development. As technology advances, it is likely to play a pivotal role in the development of regenerative medicine and personalized healthcare. Biomaterial-based additive manufacturing, also known as 3D bioprinting utilizing biodegradable or bioavailable polymeric materials, is a cutting-edge technology with great potential and promise for tissue engineering and regeneration. This innovative approach combines biomaterial or engineered biomaterials with precise or customized printing to develop a complex three-dimensional structure that mimics the architecture and functionality of native tissues. An important aspect in development of 3D printed products for tissue engineering or regeneration is selection of biomaterials, development of bio inks using those biomaterials, cell integration, customization, vascularization, and biodegradability of the product. Although 3D bioprinting has shown promise in various applications with potential to revolutionize organ transplantation and tissue engineering, there are several challenges such as ensuring proper vascularization, improving the mechanical properties of printed products, and addressing regulatory aspects with ethical consideration. Therefore, in this book emphasis on tissue engineering and regeneration will be presented, which is an interdisciplinary field that aim to restore, repair, or replace damaged or lost biological tissues. Moreover, chapters inform on recent shift in research that indicates a customized fabrication of biodegradable products, the future of tissue engineering and regeneration. mso-highlight: yellow;">This innovative approach combines biomaterial or engineered biomaterials with precise or customis for tissue engineering or regeneration is selection of biomaterials, development of bio inks using Shipping may be from our UK warehouse or from our Australian or US warehouses, depending on stock availability.

Hardcover. Condition: new. Hardcover. Biomaterials are substances that are engineered to interact with biological systems for medical and therapeutic purposes. Biomaterial-based additive manufacturing in tissue engineering is a rapidly evolving field with ongoing research and development. As technology advances, it is likely to play a pivotal role in the development of regenerative medicine and personalized healthcare. Biomaterial-based additive manufacturing, also known as 3D bioprinting utilizing biodegradable or bioavailable polymeric materials, is a cutting-edge technology with great potential and promise for tissue engineering and regeneration. This innovative approach combines biomaterial or engineered biomaterials with precise or customized printing to develop a complex three-dimensional structure that mimics the architecture and functionality of native tissues. An important aspect in development of 3D printed products for tissue engineering or regeneration is selection of biomaterials, development of bio inks using those biomaterials, cell integration, customization, vascularization, and biodegradability of the product. Although 3D bioprinting has shown promise in various applications with potential to revolutionize organ transplantation and tissue engineering, there are several challenges such as ensuring proper vascularization, improving the mechanical properties of printed products, and addressing regulatory aspects with ethical consideration. Therefore, in this book emphasis on tissue engineering and regeneration will be presented, which is an interdisciplinary field that aim to restore, repair, or replace damaged or lost biological tissues. Moreover, chapters inform on recent shift in research that indicates a customized fabrication of biodegradable products, the future of tissue engineering and regeneration. mso-highlight: yellow;">This innovative approach combines biomaterial or engineered biomaterials with precise or customis for tissue engineering or regeneration is selection of biomaterials, development of bio inks using Shipping may be from our Sydney, NSW warehouse or from our UK or US warehouse, depending on stock availability.

Buch. Condition: Neu. Druck auf Anfrage Neuware - Printed after ordering - Biomaterials are substances that are engineered to interact with biological systems for medical and therapeutic purposes. Biomaterial-based additive manufacturing in tissue engineering is a rapidly evolving field with ongoing research and development. As technology advances, it is likely to play a pivotal role in the development of regenerative medicine and personalized healthcare. Biomaterial-based additive manufacturing, also known as 3D bioprinting utilizing biodegradable or bioavailable polymeric materials, is a cutting-edge technology with great potential and promise for tissue engineering and regeneration. This innovative approach combines biomaterial or engineered biomaterials with precise or customized printing to develop a complex three-dimensional structure that mimics the architecture and functionality of native tissues. An important aspect in development of 3D printed products for tissue engineering or regeneration is selection of biomaterials, development of bio inks using those biomaterials, cell integration, customization, vascularization, and biodegradability of the product. Although 3D bioprinting has shown promise in various applications with potential to revolutionize organ transplantation and tissue engineering, there are several challenges such as ensuring proper vascularization, improving the mechanical properties of printed products, and addressing regulatory aspects with ethical consideration. Therefore, in this book emphasis on tissue engineering and regeneration will be presented, which is an interdisciplinary field that aim to restore, repair, or replace damaged or lost biological tissues. Moreover, chapters inform on recent shift in research that indicates a customized fabrication of biodegradable products, the future of tissue engineering and regeneration.

Condition: New.

Hardcover. Condition: Brand New. 250 pages. 9.26x6.11x9.49 inches. In Stock.

Buch. Condition: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Biomaterials are substances that are engineered to interact with biological systems for medical and therapeutic purposes. Biomaterial-based additive manufacturing in tissue engineering is a rapidly evolving field with ongoing research and development. As technology advances, it is likely to play a pivotal role in the development of regenerative medicine and personalized healthcare. Biomaterial-based additive manufacturing, also known as 3D bioprinting utilizing biodegradable or bioavailable polymeric materials, is a cutting-edge technology with great potential and promise for tissue engineering and regeneration. This innovative approach combines biomaterial or engineered biomaterials with precise or customized printing to develop a complex three-dimensional structure that mimics the architecture and functionality of native tissues. An important aspect in development of 3D printed products for tissue engineering or regeneration is selection of biomaterials, development of bio inks using those biomaterials, cell integration, customization, vascularization, and biodegradability of the product. Although 3D bioprinting has shown promise in various applications with potential to revolutionize organ transplantation and tissue engineering, there are several challenges such as ensuring proper vascularization, improving the mechanical properties of printed products, and addressing regulatory aspects with ethical consideration. Therefore, in this book emphasis on tissue engineering and regeneration will be presented, which is an interdisciplinary field that aim to restore, repair, or replace damaged or lost biological tissues. Moreover, chapters inform on recent shift in research that indicates a customized fabrication of biodegradable products, the future of tissue engineering and regeneration. 568 pp. Englisch.

Buch. Condition: Neu. Biomaterial-based Additive Manufacturing in Tissue Engineering and Regeneration | Sudarshan Singh (u. a.) | Buch | Biomaterials, Bioengineering and Sustainability | vii | Englisch | 2025 | Springer | EAN 9783031960697 | Verantwortliche Person für die EU: Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg, juergen[dot]hartmann[at]springer[dot]com | Anbieter: preigu Print on Demand.

Buch. Condition: Neu. This item is printed on demand - Print on Demand Titel. Neuware -Chapter 1. Introduction to biomaterials in design of regenerative medicine - Amol D Gholap, Nitin K Sen, Prashant J Shinde, Prakash D Khandagale and Sagar Pardeshi.- Chapter 2. Biomaterials for regenerative medicine: Historical perspectives and current trends - Ayush Madan, Abhik Paul, Krishnendu Adhikary, Anas Islam, Sumel Ashique, Radheshyam Pal, Masoumeh Bagheri and Naheed Mojgani.- Chapter 3.- Overview of additive manufacturing for tissue engineering and regeneration - Safiya Mohammed Saeed, Samiha Binte Sadiq, Rehnuma Binta Hafiz, Jahida Yeasmin, Farjana Yesmin, Amol D. Gholap and Md Jasim Uddin.- Chapter 4.- Advances in additive manufacturing in tissue engineering and regeneration - Yogesh V Ushir, Akanksha M Kamble, Sudarshan Singh and Shekhar Kokate.- Chapter 5. Advanced smart biomaterials and constructs for hard tissue engineering and regeneration through additive manufacturing - Amol D Gholap, Pankaj R. Khuspe, Swapnil A. Phade, Dipali V. Mane, Navnath T. Hatvate, Abhijeet V. Puri and Satish Rojekar.- Chapter 6. Biomaterials-based additive manufactured scaffolds for tissue engineering and regenerative medicine - Viola Colaco, Sony Priyanka Bandi, Namdev Dhas, Prabhanjan S. Giram and Deepanjan Datta.- Chapter 7. Natural polymer-based additive manufactured product for tissue engineering and regenerative medicine - Bahareh Alizadeh, Shreya Shashank Chauhan, Sony Priyanka Bandi and Deepanjan Datta.- Chapter 8. Synthetic polymer-based additive manufactured goods for regenerative medicine and tissue engineering - Pooja Bhane, Rachana Hajare, Vishal Pande and Sachin Kothawade.- Chapter 9. Biomaterials-based additive manufactured products for chronic wound healing - Popat Mohite, Abhijeet Puri, Ramdas Pandhare, Sudarshan Singh, Manisha Sonawane and Anil Pawar.- Chapter 10. Biomaterials-based additive manufactured products for diabetic wound healing - Popat Mohite, Sudarshan Singh, Yogesh Chaudhari, Manisha Chaudhari, Yunus Ansari, Amol Gholap and Abhijeet Puri.- Chapter 11. Biomaterials-based additive manufactured products for in situ tissue engineering - Yash Tarwate, Akshay Khandke, Madhur Kulkarni, Kunal Banode Mital Patel, Krutika Pardeshi and Amarjitsing Rajput.- Chapter 12. Biomaterials-based additive manufacturing of veterinary products - Himanshu Paliwal, K. Prem Ananth and Pijush Kumar Paul - Chapter 13. Hydrogel-based strategies: tailoring biomaterial properties for additive manufacturing in tissue regeneration - Himanshu Paliwal, K. Prem Ananth and Pijush Kumar Paul.- Chapter 14. Innovative bioengineering solutions for otolaryngology management: customized additive manufacturing with biomaterials - Rajdip Goswami, Subhajit Das, Sourav Ghosh, Swarupananda Mukherjee, Sudarshan Singh and Biswajit Basu.- Chapter 15. Biomaterials-based additive manufactured constructs for drug testing - Helen Jalaja Shibu, Hega Vincent, Anugya Bhatt, Naresh Kasoju and Renjith P Nair.- Chapter 16. Challenges and future directions biomaterial-based additive manufacturing in tissue engineering and regeneration - Pankaj R. Khuspe, Dipali V. Mane, Vishal Galave, Audumbar Mali, Popat B, Mohite, Abhijeet V Puri, Md. Jasim Uddin and Amol Gholap.- Chapter 17. Regulatory aspects, future prospects, and challenges associated with biomaterials-based additive manufacturing for tissue engineering - Abhijeet Puri, Amol D. Gholap, Yogesh Chaudhari, Pooja V Nagime, Sudarshan Singh and Popat Mohite.Springer-Verlag KG, Sachsenplatz 4-6, 1201 Wien 568 pp. Englisch.

Condition: New. Print on Demand.

Condition: New. PRINT ON DEMAND.