9781003153504_10.1201_9781003153504-8.pdf

9781003153504_10.1201_9781003153504-8.pdf

Hyaluronan-based hydrogels are optimal candidates when developing novel combined advanced therapy medicinal products (cATMP), tissue engineering products (TEP), and medical devices. The key physico-chemical properties of hydrogels may hinder, mediate, or stimulate therapeutic potentials borne by sta...

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Γλώσσα:English
Έκδοση: Taylor & Francis 2023
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spelling oapen-20.500.12657-764572024-03-28T09:47:55Z Chapter 8 Hyaluronan-Based Hydrogels as Functional Vectors for Standardised Therapeutics in Tissue Engineering and Regenerative Medicine Porcello, Alexandre Laurent, Alexis Hirt-Burri, Nathalie Abdel-Sayed, Philippe de Buys Roessingh, Anthony Raffoul, Wassim Jordan, Olivier Allémann, Eric Applegate, Lee Ann Regenerative medicine, Carbon nanotube, Block copolymers, Wound healing, Anticancer therapy, Particles used in imaging Hyaluronan-based hydrogels are optimal candidates when developing novel combined advanced therapy medicinal products (cATMP), tissue engineering products (TEP), and medical devices. The key physico-chemical properties of hydrogels may hinder, mediate, or stimulate therapeutic potentials borne by standardised cellular substrates in regenerative medicine. Parallel to delivery system or scaffold development, hydrogel functionalisation may be advantageous in specific musculoskeletal interventions or topical applications (e.g. viscosupplementation, soft tissue volumetric supplementation, rehabilitation topical preparations). Optimised combination product developmental workflows enable pragmatic regulatory classification of cell-based preparations. Such aspects will be discussed, as well as sustainable transposition to industrialised production settings. Hyaluronan benefits from extensive hindsight in numerous human and veterinary applications, providing a highly versatile backbone for quasi-infinite structural modification and physico-chemical property modulation. This chapter provides an overview of critical product design considerations and possible therapeutic applications of versatile hyaluronan-based preparations intended for cell therapy delivery, combined with optimised autologous or allogeneic therapeutic cell sources (e.g. platelet-rich plasma, stem cells, banked primary foetal progenitors). Particular focus was set on specific parameters directly impacting product potential in terms of clinical translation and effectiveness for topical wound healing or sub-critical volumetric defect correction and repair stimulation in musculoskeletal regenerative medicine applications. 2023-09-27T12:59:58Z 2023-09-27T12:59:58Z 2022 chapter 9780367721138 9780367721169 https://library.oapen.org/handle/20.500.12657/76457 eng application/pdf Attribution 4.0 International 9781003153504_10.1201_9781003153504-8.pdf Taylor & Francis Nanopharmaceuticals in Regenerative Medicine CRC Press 10.1201/9781003153504-8 10.1201/9781003153504-8 7b3c7b10-5b1e-40b3-860e-c6dd5197f0bb 5d8d853c-fc22-4e77-a709-a1d951e52343 9780367721138 9780367721169 CRC Press 31 open access
institution OAPEN
collection DSpace
language English
description Hyaluronan-based hydrogels are optimal candidates when developing novel combined advanced therapy medicinal products (cATMP), tissue engineering products (TEP), and medical devices. The key physico-chemical properties of hydrogels may hinder, mediate, or stimulate therapeutic potentials borne by standardised cellular substrates in regenerative medicine. Parallel to delivery system or scaffold development, hydrogel functionalisation may be advantageous in specific musculoskeletal interventions or topical applications (e.g. viscosupplementation, soft tissue volumetric supplementation, rehabilitation topical preparations). Optimised combination product developmental workflows enable pragmatic regulatory classification of cell-based preparations. Such aspects will be discussed, as well as sustainable transposition to industrialised production settings. Hyaluronan benefits from extensive hindsight in numerous human and veterinary applications, providing a highly versatile backbone for quasi-infinite structural modification and physico-chemical property modulation. This chapter provides an overview of critical product design considerations and possible therapeutic applications of versatile hyaluronan-based preparations intended for cell therapy delivery, combined with optimised autologous or allogeneic therapeutic cell sources (e.g. platelet-rich plasma, stem cells, banked primary foetal progenitors). Particular focus was set on specific parameters directly impacting product potential in terms of clinical translation and effectiveness for topical wound healing or sub-critical volumetric defect correction and repair stimulation in musculoskeletal regenerative medicine applications.
title 9781003153504_10.1201_9781003153504-8.pdf
spellingShingle 9781003153504_10.1201_9781003153504-8.pdf
title_short 9781003153504_10.1201_9781003153504-8.pdf
title_full 9781003153504_10.1201_9781003153504-8.pdf
title_fullStr 9781003153504_10.1201_9781003153504-8.pdf
title_full_unstemmed 9781003153504_10.1201_9781003153504-8.pdf
title_sort 9781003153504_10.1201_9781003153504-8.pdf
publisher Taylor & Francis
publishDate 2023
_version_ 1799945280642088960

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