Materials for Biomedical Simulation: Design, Development and Characterization

Chanda, Arnab, Sidhu, Sarabjeet Singh, Singh, Gurpreet

  • 出版商: Springer
  • 出版日期: 2024-09-28
  • 售價: $5,710
  • 貴賓價: 9.5$5,425
  • 語言: 英文
  • 頁數: 191
  • 裝訂: Quality Paper - also called trade paper
  • ISBN: 981995066X
  • ISBN-13: 9789819950669
  • 海外代購書籍(需單獨結帳)

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商品描述

The book provides an overview of prospective material simulants for hard tissues, such as knee joints, hip joint, and bones, and soft tissues, such as skin, muscles, and functional organs. These materials can repair, replace the functionality, or mimic the mechanical, structural, and biological properties of the parent tissue. This book discusses hard and soft human tissue simulating biomaterials under a single umbrella, covering a broad area of design and development of biomaterials, implants, and multi-functional materials along with their characterization. The progress in emerging biomaterials has increased manifold in the recent decades with the unprecedented focus on healthcare technologies. This book is dedicated to ground-breaking research in biomaterials and highlights the current trends and future roadmap of different materials for simulation of hard and soft tissues. Authored by prominent researchers around the globe, the chapters of this book emphasize recent advances in biomedical material simulation. This book brings together novel contributions to different aspects of hard and soft human tissue-based biomaterials, including recent advances and emerging developments in designing and developing simulants for tissue replacement alternatives. This book is anticipated to serve as a key reference textbook for research in tissue engineering & biomedical engineering, biomaterials, biomechanics, and implant & medical device development with contributed chapters solicited in the areas of soft materials, such as elastomers, hydrogels, etc., for various applications; auxetic metamaterials; additive manufacturing of bio-implants; artificial tissues and organs; development of biomimetic materials; medical implants and biomedical device design; bioinspired and bio-tribological materials; advances in materials science for biomaterial applications; biomechanical characterization of hard and soft human tissues; bioprinting and nano-biomaterials.

商品描述(中文翻譯)

本書提供了對於硬組織(如膝關節、髖關節和骨骼)及軟組織(如皮膚、肌肉和功能性器官)潛在材料模擬物的概述。這些材料可以修復、替代功能或模擬母體組織的機械、結構和生物特性。本書在一個統一的框架下討論了硬和軟人類組織模擬生物材料,涵蓋了生物材料、植入物和多功能材料的設計與開發的廣泛領域,以及它們的特性描述。近幾十年來,隨著對醫療技術的前所未有的關注,新興生物材料的進展大幅增加。本書致力於生物材料的開創性研究,並突顯了不同材料在硬組織和軟組織模擬中的當前趨勢和未來路線圖。本書由全球知名研究人員撰寫,章節強調了生物醫學材料模擬的最新進展。本書匯集了對硬和軟人類組織基礎生物材料不同方面的新貢獻,包括設計和開發組織替代替代品的最新進展和新興發展。本書預期將成為組織工程與生物醫學工程、生物材料、生物力學以及植入物和醫療設備開發研究的關鍵參考教科書,並邀請在軟材料(如彈性體、水凝膠等)等領域的貢獻章節,應用於各種用途;auxetic metamaterials;生物植入物的增材製造;人工組織和器官;仿生材料的開發;醫療植入物和生物醫療設備設計;生物啟發和生物摩擦材料;生物材料應用的材料科學進展;硬和軟人類組織的生物力學特性描述;生物列印和納米生物材料。

作者簡介


Arnab Chanda

Dr. Arnab Chanda works as Assistant Professor in the Centre for Biomedical Engineering, IIT Delhi, and Joint Faculty at the Department of Biomedical Engineering, AIIMS, Delhi. He is also the founder of a start-up 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 in lab and clinical settings. These experimental models have been used extensively to conduct surgical training and study a wide range of injury scenarios. To date, he has received young researcher awards from ASME and MHRD and holds 7 US patents and 2 Indian patents. He has authored more than 85 articles in reputed international journals and several tech-transfers. Currently, Dr. Chanda heads the "Disease and Injury Mechanics Lab (DIML)," where his team works on developing cutting-edge healthcare technologies for disease mitigation for diabetic ulceration, cerebral aneurysm, severe skin burns, slips, and falls, etc., in India.

Sarabjeet Singh Sidhu

Dr. Sarabjeet Singh Sidhu is the Associate Professor and Dean Research at Sardar Beant Singh State University, Gurdaspur, Punjab, India. He completed his Ph.D. from Thapar University in 2014. Broadly, his area of research is related to surface modification, NDT, metallic composites, biomaterials, and non-conventional machining processes. He believes in collaborative work. As a result, he was invited to various international platforms as Joint Research Partner and Eminent Speaker. He has published 100+ technical papers in reputed national and international journals and conferences, acted as a potential reviewer for several journals, and chaired various technical sessions. His research is currently aimed at developing novel β-titanium alloys as biomaterials. He served as an editor ofmany reputed journals, books, and conference proceedings. Lately, he was awarded the ISTE Best Teacher Award 2021.

Gurpreet Singh

Gurpreet Singh is a Ph.D. scholar in the Centre for Biomedical Engineering, Indian Institute of Technology 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 include soft tissue mechanics, artificial tissues, biomimetics, and computational biomechanics. He is working on the computational modeling of diabetic foot and its urceleration progression. He is also working in developing artificial human tissue surrogates 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 authored one book and contributed more than fifty research papers and book chapters to leading international journals and conferences. He is also serving as a reviewer for prominent journals worldwide.

作者簡介(中文翻譯)

阿納布·昌達(Arnab Chanda)博士目前擔任德里印度理工學院生物醫學工程中心的助理教授,並在德里全印度醫學科學院生物醫學工程系擔任聯合教職。他也是美國BIOFIT Technologies LLC創始人。昌達博士專精於組織模擬物的製作與機械特性評估,曾開發出人類皮膚、肌肉、大腦、動脈及足底筋膜的人工替代品,並在實驗室及臨床環境中進行測試。這些實驗模型被廣泛用於外科訓練及研究各種傷害情境。至今,他已獲得ASME及MHRD的青年研究者獎,並擁有7項美國專利及2項印度專利。他在國際知名期刊上發表了超過85篇文章,並進行了多項技術轉移。目前,昌達博士負責「疾病與傷害力學實驗室(DIML)」,他的團隊致力於開發尖端醫療技術,以減輕印度糖尿病潰瘍、腦動脈瘤、嚴重燒傷、滑倒及跌倒等疾病的影響。

薩拉比吉特·辛格·西杜(Sarabjeet Singh Sidhu)博士是印度旁遮普邦古爾達斯普爾的薩達爾·比安特·辛格州立大學的副教授及研究院院長。他於2014年在塔帕爾大學獲得博士學位。他的研究領域廣泛涉及表面改性、無損檢測、金屬複合材料、生物材料及非常規加工工藝。他相信合作工作的重要性,因此受邀參加多個國際平台,擔任聯合研究夥伴及傑出演講者。他在國內外知名期刊及會議上發表了超過100篇技術論文,並擔任多個期刊的潛在審稿人,還主持了多個技術會議。他目前的研究目標是開發新型β-鈦合金作為生物材料。他曾擔任多本知名期刊、書籍及會議論文集的編輯。最近,他獲得了2021年ISTE最佳教師獎。

古爾普里特·辛格(Gurpreet Singh)是印度德里印度理工學院生物醫學工程中心的博士生。他是印度最具聲望的博士獎學金——總理研究獎學金(PMRF)的獲得者,於2021年5月的選拔中獲得此榮譽。他的研究興趣包括軟組織力學、人工組織、生物模擬及計算生物力學。他正在進行糖尿病足及其潰瘍進展的計算建模研究,並致力於開發人工人類組織替代品以進行傷害及疾病建模。之前,他的研究主要集中在改善金屬生物材料的表面特性及生物活性,研究興趣包括表面工程、材料科學、生物材料及非常規加工工藝。他曾利用電火花加工技術對金屬生物材料進行表面改性,研究改性表面的生物活性,包括耐磨性、耐腐蝕性及其他生物反應。他已出版一本書,並在國際知名期刊及會議上發表了超過五十篇研究論文及書章。他也擔任多個國際知名期刊的審稿人。