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Athanasios Mantalaris
Researcher at Georgia Institute of Technology
Publications - 254
Citations - 6433
Athanasios Mantalaris is an academic researcher from Georgia Institute of Technology. The author has contributed to research in topics: Stem cell & Embryonic stem cell. The author has an hindex of 39, co-authored 244 publications receiving 5587 citations. Previous affiliations of Athanasios Mantalaris include Emory University & University of Rochester.
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More than meets the eye in bacterial cellulose: biosynthesis, bioprocessing, and applications in advanced fiber composites.
TL;DR: The metabolic pathways of cellulose-producing bacteria and the genetic pathways of Acetobacter xylinum are discussed and particular emphasis is placed on the utilization of BC in advanced fiber composites to manufacture the next generation truly green, sustainable and renewable hierarchical composites.
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The Increasingly Human and Profitable Monoclonal Antibody Market.
TL;DR: The monoclonal antibody (mAb) market has changed rapidly in the past 5 years: it has doubled in size, becoming dominated by fully human molecules, launched bispecific molecules, and faced competition from biosimilars.
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Surface modification of natural fibers using bacteria:depositing bacterial cellulose onto natural fibers to create hierarchical fiber reinforced nanocomposites
Marion Pommet,Julasak Juntaro,Jerry Y. Y. Heng,Athanasios Mantalaris,Adam F. Lee,Karen Wilson,Gerhard Kalinka,Milo S. P. Shaffer,Alexander Bismarck +8 more
TL;DR: This paper describes the process of modifying large quantities of natural fibers with bacterial cellulose through their use as substrates for bacteria during fermentation, which enhances their adhesion to renewable polymers.
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Stem cell bioprocessing: fundamentals and principles.
Mark R Placzek,I-Ming Chung,Hugo Macedo,Siti Norhayati Ismail,Teresa Mortera Blanco,Mayasari Lim,Jae Min Cha,Iliana Fauzi,Yunyi Kang,David C. Yeo,Chi Yip Joan Ma,Julia M. Polak,Nicki Panoskaltsis,Athanasios Mantalaris +13 more
TL;DR: This review aims to address the principles required for successful stem cell bioprocessing so that they can be applied deftly to clinical applications.
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The use of murine embryonic stem cells, alginate encapsulation, and rotary microgravity bioreactor in bone tissue engineering.
Yu-Shik Hwang,Johann Cho,Feng H. Tay,Jerry Y. Y. Heng,Raimundo Ho,Sergei G. Kazarian,Daryl R. Williams,Aldo R. Boccaccini,Julia M. Polak,Athanasios Mantalaris +9 more
TL;DR: This bioprocess based on the encapsulation of undifferentiated mESCs within alginate hydrogels and culture in a rotary cell culture microgravity bioreactor provides an efficient, automatable, scalable and functional culture system for application to bone tissue engineering in the context of macroscopic bone formation.