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- BookDong-Woo Cho, Byoung Soo Kim, Jinah Jang, Ge Gao, Wonil Han, Narendra K. Singh.Summary: The volume offers a fundamental knowledge in modeling in vitro tissues/organs as an alternative to 2D cell culture and animal testing. Prior to engineering in vitro tissues/organs, the descriptions of prerequisites (from pre-processing to post-processing) in modeling in vitro tissues/organs are discussed. The most prevalent technologies that have been widely used for establishing the in vitro tissue/organ models are also described, including transwell, cell spheroids/sheets, organoids, and microfluidic-based chips. In particular, the authors focus on 3D bioprintingin vitro tissue/organ models using tissue-specific bioinks. Several representative bioprinting methods and conventional bioinks are introduced. As a bioink source, decellularized extracellular matrix (dECM) are importantly covered, including decellularization methods, evaluation methods for demonstrating successful decellularization, and material safety. Taken together, the authors delineate various application examples of 3D bioprintedin vitro tissue/organ models especially using dECM bioinks. This book may provide an introductory guide for modeling in vitro tissues/organs and for opening up agate for beginners including teachers and undergraduate/graduate students.-Provides strategic insight into the biofabrication of in vitro tissues and organs; -Introduces 3D cell-printing techniques and dECM-based bioinks; -Includes examples of 3D cell printed in vitro tissues/organs.
Contents:
Introduction
Definition, necessity, and prerequisites for modeling 3D tissues and organs
Prevalent technologies for in vitro tissue/organ biofabrication
3D cell printing techniques
Decellularized extracellular matrix-based bioinks
Skin
Blood vessels
Liver
Kidney
Cardiac
Airway
Brain
Muscle
Conclusion and future perspective.Digital Access Springer 2019 - ArticleDavin TD, Simmons RL, Najarian JS, Duncan DA, Kjellstrand CM.Arch Intern Med. 1978 Jul;138(7):1139-40.With increasing experience and skill with renal transplantation and dialysis, many disorders that were previously thought to contraindicate these procedures are no longer regarded as contraindications. We have previously reported that transplantation can successfully be performed in patients who have had malignant diseases if they seem to be cured after approximately 12 months. Although incurable malignancies have usually been regarded as absolute contraindications, successful dialysis and transplantation have been achieved in a patient with chronic lymphatic leukemia.