Basic Concepts on 3D Cell Culture
暫譯: 三維細胞培養基本概念

Name: Basic Concepts on 3D Cell Culture
Price: 3563 TWD
Availability: OnlineOnly
Author: Kasper, Cornelia, Egger, Dominik, Lavrentieva, Antonina
ISBN: 3030667480

Kasper, Cornelia, Egger, Dominik, Lavrentieva, Antonina

出版商: Springer
出版日期: 2021-06-10
售價: $3,750
貴賓價: 9.5 折 $3,563
語言: 英文
頁數: 252
裝訂: Quality Paper - also called trade paper
ISBN: 3030667480
ISBN-13: 9783030667481

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商品描述

This textbook shall introduce the students to 3D cell culture approaches and applications. An overview on existing techniques and equipment is provided and insight into various aspects and challenges that researchers need to consider and face during culture of 3D cells is given.

The reader will learn the importance of physiological cell, tissue and organ models and gains important knowledge on 3D analytics.

This textbook deepens selected aspects of the textbook "Cell Culture Technology", which also is published in this series, while offering extended insight into 3D cell culture. The concept of the textbook encompasses various lectures ranging from basics in cell cultivation, tissue engineering, biomaterials and biocompatibility, in vitro test systems and regenerative medicine. The textbook addresses Master- and PhD students interested and/or working in the field of modern cell culture applications and will support the understanding of the essential strategies in 3D cell culture and waken awareness for the potentials and challenges of this application.

商品描述(中文翻譯)

這本教科書將介紹學生3D細胞培養的方法與應用。提供現有技術和設備的概述，並深入探討研究人員在3D細胞培養過程中需要考慮和面對的各種方面和挑戰。

讀者將學習生理細胞、組織和器官模型的重要性，並獲得有關3D分析的重要知識。

這本教科書深入探討了同系列出版的教科書《細胞培養技術》中選定的主題，同時提供對3D細胞培養的擴展見解。這本教科書的概念涵蓋了從細胞培養基礎、組織工程、生物材料和生物相容性、in vitro 測試系統到再生醫學的各種講座。這本教科書針對對現代細胞培養應用感興趣和/或從事相關工作的碩士及博士生，將有助於理解3D細胞培養中的基本策略，並提高對此應用潛力和挑戰的認識。

作者簡介

Cornelia Kasper studied Chemistry at the University Hannover and received her Diploma degree 1994. After PhD at the Institute for Technical Chemistry 1998 she was employed as EU liason officer at the University of Hannover. In 2007 she received Habilitation. 2000-2011 Cornelia Kasper has been head of Cell Culture and Tissue Engineering Group at the Institute for Technical Chemistry, Leibniz University of Hannover and head of young researcher group JRG "Large Scale Cultivation" within Cluster of Excellence "Rebirth" (from Regenerative Biology and Reconstructive Therapies). Since October 2011 Cornelia Kasper has been appointed as University Professor "Cell and Tissue Culture Technology" at the Department of Biotechnology at BOKU. The focus in her research group is the isolation, characterization, expansion and differentiation of human primary/progenitor and stem cells. For the expansion and guided differentiation she develops optimized strategies and bioprocesses for 3 D cell culture conditions mimicking physiological environment generating functional cells for tissue engineering and cell based therapies and 3 D test systems under defined and controlled dynamic conditions.

Antonina Lavrentieva is a group leader at the Institute of Technical Chemistry, Leibniz University of Hannover, working in the field of stem cell research, biotesting and tissue engineering. In her second PhD Thesis, she studied methods of expanding mesenchymal stem cells (MSCs) in bioreactors, as well as the influence of hypoxia on the MSCs. She studied Biology and Life Science at Moscow State University and the University of Hannover. She also defended a PhD Thesis in Physiology. Her current research interests include stem cell media optimization, 3D cell culture, gradient hydrogels for studying cell niches and 3D-bioprinting.

Dominik Egger is a postdoctoral researcher and Deputy of the Institute of Cell and Tissue Culture Technologies at the University of Natural Resources and Life Sciences (BOKU). He received his master degree in Life Science at the Leibniz University of Hannover and continued his doctoral studies on the conceptual implementation of physiologic culture conditions for human stem cells. He finished his PhD studies with highest honors by 2017. Currently, he is investigating new approaches for the isolation, expansion and directed differentiation of human stem cells to improve their therapeutic effects. His special interest and expertise are on 3D cell culture, biomaterials, and bioreactor technology.

作者簡介(中文翻譯)

Cornelia Kasper 在漢諾威大學學習化學，並於1994年獲得學位。1998年在技術化學研究所獲得博士學位後，她被聘為漢諾威大學的歐盟聯絡官。2007年，她獲得了資格認證。2000年至2011年，Cornelia Kasper擔任漢諾威大學技術化學研究所細胞培養與組織工程小組的負責人，以及卓越集群「重生」（來自再生生物學和重建療法）內年輕研究者小組JRG「大規模培養」的負責人。自2011年10月以來，Cornelia Kasper被任命為BOKU生物技術系的「細胞與組織培養技術」大學教授。她的研究小組專注於人類原代/前體細胞和幹細胞的分離、特徵化、擴增和分化。為了擴增和引導分化，她開發了優化策略和生物過程，以模擬生理環境的3D細胞培養條件，生成用於組織工程和基於細胞的療法的功能性細胞，以及在定義和控制的動態條件下的3D測試系統。

Antonina Lavrentieva 是漢諾威大學技術化學研究所的組長，專注於幹細胞研究、生物測試和組織工程。在她的第二篇博士論文中，她研究了在生物反應器中擴增間充質幹細胞（MSCs）的方法，以及缺氧對MSCs的影響。她在莫斯科國立大學和漢諾威大學學習生物學和生命科學。她還在生理學領域完成了博士論文。她目前的研究興趣包括幹細胞培養基優化、3D細胞培養、用於研究細胞生態位的梯度水凝膠和3D生物列印。

Dominik Egger 是自然資源與生命科學大學（BOKU）細胞與組織培養技術研究所的博士後研究員及副所長。他在漢諾威大學獲得生命科學碩士學位，並繼續進行有關人類幹細胞生理培養條件概念實施的博士研究。他於2017年以最高榮譽完成博士學位。目前，他正在研究人類幹細胞的分離、擴增和定向分化的新方法，以改善其治療效果。他特別關注和專長於3D細胞培養、生物材料和生物反應器技術。