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      Network Viscoelasticity from Brillouin Spectroscopy

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          Abstract

          Even though the physical nature of shear and longitudinal moduli are different, empirical correlations between them have been reported in several biological systems. This correlation is of fundamental interest and immense practical value in biomedicine due to the importance of the shear modulus and the possibility to map the longitudinal modulus at high-resolution with all-optical spectroscopy. We investigate the origin of such a correlation in hydrogels. We hypothesize that both moduli are influenced in the same direction by underlying physicochemical properties, which leads to the observed material-dependent correlation. Matching theoretical models with experimental data, we quantify the scenarios in which the correlation holds. For polymerized hydrogels, a correlation was found across different hydrogels through a common dependence on the effective polymer volume fraction. For hydrogels swollen to equilibrium, the correlation is valid only within a given hydrogel system, as the moduli are found to have different scalings on the swelling ratio. The observed correlation allows one to extract one modulus from another in relevant scenarios.

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          Hydrogels in regenerative medicine.

          Brandon V Slaughter, Shahana S Khurshid, Omar Z Fisher (2009)
          Hydrogels, due to their unique biocompatibility, flexible methods of synthesis, range of constituents, and desirable physical characteristics, have been the material of choice for many applications in regenerative medicine. They can serve as scaffolds that provide structural integrity to tissue constructs, control drug and protein delivery to tissues and cultures, and serve as adhesives or barriers between tissue and material surfaces. In this work, the properties of hydrogels that are important for tissue engineering applications and the inherent material design constraints and challenges are discussed. Recent research involving several different hydrogels polymerized from a variety of synthetic and natural monomers using typical and novel synthetic methods are highlighted. Finally, special attention is given to the microfabrication techniques that are currently resulting in important advances in the field.
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            Magnetic resonance elastography: non-invasive mapping of tissue elasticity.

            M L Dresner, A Manduca, William J Greenleaf (2001)
            Magnetic resonance elastography (MRE) is a phase-contrast-based MRI imaging technique that can directly visualize and quantitatively measure propagating acoustic strain waves in tissue-like materials subjected to harmonic mechanical excitation. The data acquired allows the calculation of local quantitative values of shear modulus and the generation of images that depict tissue elasticity or stiffness. This is significant because palpation, a physical examination that assesses the stiffness of tissue, can be an effective method of detecting tumors, but is restricted to parts of the body that are accessible to the physician's hand. MRE shows promise as a potential technique for 'palpation by imaging', with possible applications in tumor detection (particularly in breast, liver, kidney and prostate), characterization of disease, and assessment of rehabilitation (particularly in muscle). We describe MRE in the context of other recent techniques for imaging elasticity, discuss the processing algorithms for elasticity reconstruction and the issues and assumptions they involve, and present recent ex vivo and in vivo results.
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              Noncontact three-dimensional mapping of intracellular hydro-mechanical properties by Brillouin microscopy

              Giuliano Scarcelli, William Polacheck, Hadi Nia (2015)
              Current measurements of the biomechanical properties of cells require physical contact with cells or lack sub-cellular resolution. Here, we developed a label-free optical microscopy technique based on Brillouin light scattering capable of measuring intracellular longitudinal modulus with optical resolution. We obtained 3D Brillouin maps of cells in 2D and 3D microenvironments, which reveal mechanical changes due to cytoskeletal modulation and cell volume regulation.
              Article 0 comments Cited 133 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-ta): Biomacromolecules
                Journal ID (iso-abbrev): Biomacromolecules
                Journal ID (publisher-id): bm
                Journal ID (coden): bomaf6
                Title: Biomacromolecules
                Publisher: American Chemical Society
                ISSN (Print): 1525-7797
                ISSN (Electronic): 1526-4602
                Publication date (Electronic): 29 December 2023
                Publication date Collection: 12 February 2024
                Volume: 25
                Issue: 2
                Pages: 955-963
                Affiliations
                []Fischell Department of Bioengineering, University of Maryland , College Park, Maryland 20742, United States
                []School of Mechanical and Electrical Engineering, University of Electronic Science and Technology of China , Chengdu, Sichuan 611731, China
                [§ ]School of Information Science and Technology, The University of Tokyo , Tokyo 113-8656,Japan
                []Department of Chemical and Biomolecular Engineering, University of Maryland , College Park, Maryland 20742, United States
                []Max Planck Institute for Polymer Research , Ackermannweg 10, 55128 Mainz, Germany
                [# ]Institute of Electronic Structure and Laser , FO.R.T.H, N. Plastira 10, Heraklion, 70013, Greece
                Author notes
                Author information
                https://orcid.org/0000-0001-9267-654X
                https://orcid.org/0000-0001-6657-3037
                https://orcid.org/0000-0003-2504-6374
                https://orcid.org/0000-0002-1736-077X
                Article
                DOI: 10.1021/acs.biomac.3c01073
                PMC ID: 10865340
                PubMed ID: 38156622
                SO-VID: 878771f2-6225-43ab-be55-3c906c5fc37f
                Copyright © © 2023 The Authors. Published by American Chemical Society
                License:

                Permits the broadest form of re-use including for commercial purposes, provided that author attribution and integrity are maintained ( https://creativecommons.org/licenses/by/4.0/).

                History
                Date received : 07 October 2023
                Date accepted : 04 December 2023
                Date revision received : 02 December 2023
                Funding
                Funded by: National Eye Institute, doi 10.13039/100000053;
                Award ID: R01EY028666
                Funded by: National Natural Science Foundation of China, doi 10.13039/501100001809;
                Award ID: G05QNQR080
                Funded by: H2020 European Research Council, doi 10.13039/100010663;
                Award ID: 694977
                Funded by: Division of Biological Infrastructure, doi 10.13039/100000153;
                Award ID: 1942003
                Funded by: National Institute of Diabetes and Digestive and Kidney Diseases, doi 10.13039/100000062;
                Award ID: F31DK129021
                Funded by: National Institute of General Medical Sciences, doi 10.13039/100000057;
                Award ID: R01GM141132
                Funded by: National Cancer Institute, doi 10.13039/100000054;
                Award ID: R21CA258008
                Funded by: National Eye Institute, doi 10.13039/100000053;
                Award ID: R01EY030063
                Categories
                Subject: Article
                Custom metadata
                document-id-old-9 bm3c01073
                document-id-new-14 bm3c01073
                ccc-price

                ScienceOpen disciplines: Biochemistry
                Data availability:
                ScienceOpen disciplines: Biochemistry

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