Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Mechanical properties of cell sheets and spheroids: the link between single cells and complex tissues.

Literature DB >> 34471438

Mechanical properties of cell sheets and spheroids: the link between single cells and complex tissues.

Yuri M Efremov^1,2, Irina M Zurina^1,3, Viktoria S Presniakova¹, Nastasia V Kosheleva^1,2,3, Denis V Butnaru⁴, Andrey A Svistunov⁵, Yury A Rochev^1,6, Peter S Timashev^1,2,7,8.

Abstract

Cell aggregates, including sheets and spheroids, represent a simple yet powerful model system to study both biochemical and biophysical intercellular interactions. However, it is becoming evident that, although the mechanical properties and behavior of multicellular structures share some similarities with individual cells, yet distinct differences are observed in some principal aspects. The description of mechanical phenomena at the level of multicellular model systems is a necessary step for understanding tissue mechanics and its fundamental principles in health and disease. Both cell sheets and spheroids are used in tissue engineering, and the modulation of mechanical properties of cell constructs is a promising tool for regenerative medicine. Here, we review the data on mechanical characterization of cell sheets and spheroids, focusing both on advances in the measurement techniques and current understanding of the subject. The reviewed material suggest that interplay between the ECM, intercellular junctions, and cellular contractility determines the behavior and mechanical properties of the cell aggregates. © International Union for Pure and Applied Biophysics (IUPAB) and Springer-Verlag GmbH Germany, part of Springer Nature 2021.

Entities: Chemical

Keywords: Cell aggregates; Cell sheets; Cell spheroids; Mechanical properties; Mechanobiology

Year: 2021 PMID： 34471438 PMCID： PMC8355304 DOI： 10.1007/s12551-021-00821-w

Source DB: PubMed Journal: Biophys Rev ISSN： 1867-2450

164 in total

1. Mechanical and failure properties of extracellular matrix sheets as a function of structural protein composition.

Authors: Lauren D Black; Philip G Allen; Shirley M Morris; Phillip J Stone; Béla Suki
Journal: Biophys J Date: 2007-11-09 Impact factor: 4.033

2. Stress distributions and cell flows in a growing cell aggregate.

Authors: Morgan Delarue; Jean-François Joanny; Frank Jülicher; Jacques Prost
Journal: Interface Focus Date: 2014-12-06 Impact factor: 3.906

3. Planar AFM macro-probes to study the biomechanical properties of large cells and 3D cell spheroids.

Authors: Laura Andolfi; Silvio L M Greco; Domenico Tierno; Roberto Chignola; Monica Martinelli; Elena Giolo; Stefania Luppi; Ines Delfino; Michele Zanetti; Alice Battistella; Giovanna Baldini; Giuseppe Ricci; Marco Lazzarino
Journal: Acta Biomater Date: 2019-05-30 Impact factor: 8.947

4. Bone marrow stromal cell sheets may promote axonal regeneration and functional recovery with suppression of glial scar formation after spinal cord transection injury in rats.

Authors: Akinori Okuda; Noriko Horii-Hayashi; Takayo Sasagawa; Takamasa Shimizu; Hideki Shigematsu; Eiichiro Iwata; Yasuhiko Morimoto; Keisuke Masuda; Munehisa Koizumi; Manabu Akahane; Mayumi Nishi; Yasuhito Tanaka
Journal: J Neurosurg Spine Date: 2016-11-25

5. Hypoxic-conditioned cardiosphere-derived cell sheet transplantation for chronic myocardial infarction.

Authors: Akira Fujita; Koji Ueno; Toshiro Saito; Masashi Yanagihara; Hiroshi Kurazumi; Ryo Suzuki; Akihito Mikamo; Kimikazu Hamano
Journal: Eur J Cardiothorac Surg Date: 2019-12-01 Impact factor: 4.191

6. Cytoskeleton systems contribute differently to the functional intrinsic properties of chondrospheres.

Authors: Anna A Gryadunova; Elizaveta V Koudan; Sergey A Rodionov; F D A S Pereira; Nina Yu Meteleva; Vladimir A Kasyanov; Vladislav A Parfenov; Alexey V Kovalev; Yusef D Khesuani; Vladimir A Mironov; Elena A Bulanova
Journal: Acta Biomater Date: 2020-10-10 Impact factor: 8.947

7. In vitro generation of a scaffold-free tissue-engineered construct (TEC) derived from human synovial mesenchymal stem cells: biological and mechanical properties and further chondrogenic potential.

Authors: Wataru Ando; Kosuke Tateishi; Daisuke Katakai; David A Hart; Chikahisa Higuchi; Ken Nakata; Jun Hashimoto; Hiromichi Fujie; Konsei Shino; Hideki Yoshikawa; Norimasa Nakamura
Journal: Tissue Eng Part A Date: 2008-12 Impact factor: 3.845

8. Cell spheroid fusion: beyond liquid drops model.

Authors: Nastasia V Kosheleva; Yuri M Efremov; Boris S Shavkuta; Irina M Zurina; Deying Zhang; Yuanyuan Zhang; Nikita V Minaev; Anastasiya A Gorkun; Shicheng Wei; Anastasia I Shpichka; Irina N Saburina; Peter S Timashev
Journal: Sci Rep Date: 2020-07-28 Impact factor: 4.379

9. Characterization of the physical properties of tumor-derived spheroids reveals critical insights for pre-clinical studies.

Authors: Ludivine Guillaume; Lise Rigal; Jérôme Fehrenbach; Childérick Severac; Bernard Ducommun; Valérie Lobjois
Journal: Sci Rep Date: 2019-04-29 Impact factor: 4.379

10. Generation of a Purified iPSC-Derived Smooth Muscle-like Population for Cell Sheet Engineering.

Authors: George Kwong; Hector A Marquez; Chian Yang; Joyce Y Wong; Darrell N Kotton
Journal: Stem Cell Reports Date: 2019-08-15 Impact factor: 7.765

4 in total

1. Engineered Cell-Secreted Extracellular Matrix Modulates Cell Spheroid Mechanosensing and Amplifies Their Response to Inductive Cues for the Formation of Mineralized Tissues.

Authors: Tomas Gonzalez-Fernandez; Alejandro J Tenorio; Augustine M Saiz; J Kent Leach
Journal: Adv Healthc Mater Date: 2022-01-14 Impact factor: 11.092