A Computational Model for the Release of Bioactive Molecules by the Hydrolytic Degradation of a Functionalized Polyester-Based Scaffold

Elisa Batoni; Amedeo Franco Bonatti; Carmelo De Maria; Kenneth Dalgarno; Raasti Naseem; Umberto DIANZANI; Casimiro Luca Gigliotti; Elena Boggio; Giovanni Vozzi

doi:10.3390/pharmaceutics15030815

A Computational Model for the Release of Bioactive Molecules by the Hydrolytic Degradation of a Functionalized Polyester-Based Scaffold

Elisa Batoni, Amedeo Franco Bonatti, Carmelo De Maria, Kenneth Dalgarno, Raasti Naseem, Umberto DIANZANI, Casimiro Luca Gigliotti, Elena Boggio, Giovanni Vozzi

Dipartimento di Scienze della Salute

Risultato della ricerca: Contributo su rivista › Articolo in rivista › peer review

Abstract

This work presents a computational model to study the degradation behavior of polyester-based three-dimensional (3D) functionalized scaffolds for bone regeneration. As a case study, we investigated the behavior of a 3D-printed scaffold presenting a functionalized surface with ICOS-Fc, a bioactive protein able to stimulate bone regeneration and healing, inhibiting osteoclast activity. The aim of the model was to optimize the scaffold design to control its degradation and thus the release of grafted protein over time and space. Two different scenarios were considered: (i) a scaffold without macroporosity presenting a functionalized external surface; and (ii) a scaffold presenting an internal functionalized macroporous architecture with open channels to locally deliver the degradation products.

Lingua originale	Inglese
pagine (da-a)	1-14
Numero di pagine	14
Rivista	Pharmaceutics
Volume	15
Numero di pubblicazione	3
DOI	https://doi.org/10.3390/pharmaceutics15030815
Stato di pubblicazione	Pubblicato - 2023

Keywords

bioactive molecules
bone scaffold
hydrolytic degradation modeling
tissue engineering

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10.3390/pharmaceutics15030815

https://hdl.handle.net/11579/195783

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title = "A Computational Model for the Release of Bioactive Molecules by the Hydrolytic Degradation of a Functionalized Polyester-Based Scaffold",

abstract = "This work presents a computational model to study the degradation behavior of polyester-based three-dimensional (3D) functionalized scaffolds for bone regeneration. As a case study, we investigated the behavior of a 3D-printed scaffold presenting a functionalized surface with ICOS-Fc, a bioactive protein able to stimulate bone regeneration and healing, inhibiting osteoclast activity. The aim of the model was to optimize the scaffold design to control its degradation and thus the release of grafted protein over time and space. Two different scenarios were considered: (i) a scaffold without macroporosity presenting a functionalized external surface; and (ii) a scaffold presenting an internal functionalized macroporous architecture with open channels to locally deliver the degradation products.",

keywords = "bioactive molecules, bone scaffold, hydrolytic degradation modeling, tissue engineering, bioactive molecules, bone scaffold, hydrolytic degradation modeling, tissue engineering",

author = "Elisa Batoni and Bonatti, {Amedeo Franco} and {De Maria}, Carmelo and Kenneth Dalgarno and Raasti Naseem and Umberto DIANZANI and Gigliotti, {Casimiro Luca} and Elena Boggio and Giovanni Vozzi",

year = "2023",

doi = "10.3390/pharmaceutics15030815",

language = "English",

volume = "15",

pages = "1--14",

journal = "Pharmaceutics",

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T1 - A Computational Model for the Release of Bioactive Molecules by the Hydrolytic Degradation of a Functionalized Polyester-Based Scaffold

AU - Batoni, Elisa

AU - Bonatti, Amedeo Franco

AU - De Maria, Carmelo

AU - Dalgarno, Kenneth

AU - Naseem, Raasti

AU - DIANZANI, Umberto

AU - Gigliotti, Casimiro Luca

AU - Boggio, Elena

AU - Vozzi, Giovanni

PY - 2023

Y1 - 2023

N2 - This work presents a computational model to study the degradation behavior of polyester-based three-dimensional (3D) functionalized scaffolds for bone regeneration. As a case study, we investigated the behavior of a 3D-printed scaffold presenting a functionalized surface with ICOS-Fc, a bioactive protein able to stimulate bone regeneration and healing, inhibiting osteoclast activity. The aim of the model was to optimize the scaffold design to control its degradation and thus the release of grafted protein over time and space. Two different scenarios were considered: (i) a scaffold without macroporosity presenting a functionalized external surface; and (ii) a scaffold presenting an internal functionalized macroporous architecture with open channels to locally deliver the degradation products.

AB - This work presents a computational model to study the degradation behavior of polyester-based three-dimensional (3D) functionalized scaffolds for bone regeneration. As a case study, we investigated the behavior of a 3D-printed scaffold presenting a functionalized surface with ICOS-Fc, a bioactive protein able to stimulate bone regeneration and healing, inhibiting osteoclast activity. The aim of the model was to optimize the scaffold design to control its degradation and thus the release of grafted protein over time and space. Two different scenarios were considered: (i) a scaffold without macroporosity presenting a functionalized external surface; and (ii) a scaffold presenting an internal functionalized macroporous architecture with open channels to locally deliver the degradation products.

KW - bioactive molecules

KW - bone scaffold

KW - hydrolytic degradation modeling

KW - tissue engineering

KW - bioactive molecules

KW - bone scaffold

KW - hydrolytic degradation modeling

KW - tissue engineering

UR - https://iris.uniupo.it/handle/11579/195783

U2 - 10.3390/pharmaceutics15030815

DO - 10.3390/pharmaceutics15030815

M3 - Article

SN - 1999-4923

VL - 15

SP - 1

EP - 14

JO - Pharmaceutics

JF - Pharmaceutics

IS - 3

ER -

A Computational Model for the Release of Bioactive Molecules by the Hydrolytic Degradation of a Functionalized Polyester-Based Scaffold

Abstract

Keywords

OSS delle Nazioni Unite

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