N-acylhydrazone Derivative-Loaded Cellulose Acetate Films: Thermoanalytical, Spectroscopic, Mechanical and Morphological Characterization

Cellulose acetate (ACT) is one of the most important cellulose derivatives due to its biodegradability and low toxicity, presenting itself as one of the main substitutes for synthetic materials in the development of wound dressing films. The incorporation of a N-acylhydrazonic derivative (JR19), wit...

Descripción completa

Detalles Bibliográficos
Autores principales: de Assis, Amaro César Lima, Moreira, Lívia Maria Coelho de Carvalho, Rocha, Beatriz Patrício, Pereira, Milena Raissa Bezerra, de Melo, Demis Ferreira, de Moura, Ricardo Olímpio, de Azevedo, Eduardo Pereira, Oshiro-Junior, João Augusto, Damasceno, Bolívar Ponciano Goulart de Lima
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8309645/
https://www.ncbi.nlm.nih.gov/pubmed/34301102
http://dx.doi.org/10.3390/polym13142345
_version_ 1783728570652164096
author de Assis, Amaro César Lima
Moreira, Lívia Maria Coelho de Carvalho
Rocha, Beatriz Patrício
Pereira, Milena Raissa Bezerra
de Melo, Demis Ferreira
de Moura, Ricardo Olímpio
de Azevedo, Eduardo Pereira
Oshiro-Junior, João Augusto
Damasceno, Bolívar Ponciano Goulart de Lima
author_facet de Assis, Amaro César Lima
Moreira, Lívia Maria Coelho de Carvalho
Rocha, Beatriz Patrício
Pereira, Milena Raissa Bezerra
de Melo, Demis Ferreira
de Moura, Ricardo Olímpio
de Azevedo, Eduardo Pereira
Oshiro-Junior, João Augusto
Damasceno, Bolívar Ponciano Goulart de Lima
author_sort de Assis, Amaro César Lima
collection PubMed
description Cellulose acetate (ACT) is one of the most important cellulose derivatives due to its biodegradability and low toxicity, presenting itself as one of the main substitutes for synthetic materials in the development of wound dressing films. The incorporation of a N-acylhydrazonic derivative (JR19), with its promising anti-inflammatory activity, may represent an alternative for the treatment of skin wounds. This work aims to develop and to physicochemically and mechanically characterize ACT films containing JR19. The films were prepared using the ‘casting’ method and further characterized by thermoanalytical and spectroscopic techniques. In addition, mechanical tests and morphological analysis were performed. Thermogravimetry (TG) and differential scanning calorimetry (DSC) analyses showed that the thermal events attributed to excipients and films were similar, indicating the absence of physical incompatibilities between ACT and JR19. Infrared spectroscopy showed that JR19 was incorporated into ACT films. The characteristic band attributed to C≡N (2279 to 2264 cm(−1)) was observed in the spectra of JR19, in that of the physical mixture of JR19/ACT, and, to a lesser extent, in the spectra of JR19 incorporated into the ACT film, suggesting some interaction between JR19 and ACT. X-ray diffraction (XRD) evidenced the suppression of the crystallinity of JR19 (diffraction peaks at 8.54°, 12.80°, 14.09°, 16.08°, 18.19°, 22.65°, 23.59°, 24.53°, 25.70°, 28.16° and 30.27°2θ) after incorporation into ACT films. The mechanical tests indicated the adequate integrity of the films and their resistance to bending. The morphological characterization showed JR19 crystals along with a homogeneously distributed porous structure throughout the surface of the films with an average diameter of 21.34 µm and 22.65 µm of the films alone and of those incorporating JR19F, respectively. This study was able to characterize the ACT films incorporating JR19, showing their potential to be further developed as wound healing dressings.
format Online
Article
Text
id pubmed-8309645
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-83096452021-07-25 N-acylhydrazone Derivative-Loaded Cellulose Acetate Films: Thermoanalytical, Spectroscopic, Mechanical and Morphological Characterization de Assis, Amaro César Lima Moreira, Lívia Maria Coelho de Carvalho Rocha, Beatriz Patrício Pereira, Milena Raissa Bezerra de Melo, Demis Ferreira de Moura, Ricardo Olímpio de Azevedo, Eduardo Pereira Oshiro-Junior, João Augusto Damasceno, Bolívar Ponciano Goulart de Lima Polymers (Basel) Article Cellulose acetate (ACT) is one of the most important cellulose derivatives due to its biodegradability and low toxicity, presenting itself as one of the main substitutes for synthetic materials in the development of wound dressing films. The incorporation of a N-acylhydrazonic derivative (JR19), with its promising anti-inflammatory activity, may represent an alternative for the treatment of skin wounds. This work aims to develop and to physicochemically and mechanically characterize ACT films containing JR19. The films were prepared using the ‘casting’ method and further characterized by thermoanalytical and spectroscopic techniques. In addition, mechanical tests and morphological analysis were performed. Thermogravimetry (TG) and differential scanning calorimetry (DSC) analyses showed that the thermal events attributed to excipients and films were similar, indicating the absence of physical incompatibilities between ACT and JR19. Infrared spectroscopy showed that JR19 was incorporated into ACT films. The characteristic band attributed to C≡N (2279 to 2264 cm(−1)) was observed in the spectra of JR19, in that of the physical mixture of JR19/ACT, and, to a lesser extent, in the spectra of JR19 incorporated into the ACT film, suggesting some interaction between JR19 and ACT. X-ray diffraction (XRD) evidenced the suppression of the crystallinity of JR19 (diffraction peaks at 8.54°, 12.80°, 14.09°, 16.08°, 18.19°, 22.65°, 23.59°, 24.53°, 25.70°, 28.16° and 30.27°2θ) after incorporation into ACT films. The mechanical tests indicated the adequate integrity of the films and their resistance to bending. The morphological characterization showed JR19 crystals along with a homogeneously distributed porous structure throughout the surface of the films with an average diameter of 21.34 µm and 22.65 µm of the films alone and of those incorporating JR19F, respectively. This study was able to characterize the ACT films incorporating JR19, showing their potential to be further developed as wound healing dressings. MDPI 2021-07-17 /pmc/articles/PMC8309645/ /pubmed/34301102 http://dx.doi.org/10.3390/polym13142345 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
de Assis, Amaro César Lima
Moreira, Lívia Maria Coelho de Carvalho
Rocha, Beatriz Patrício
Pereira, Milena Raissa Bezerra
de Melo, Demis Ferreira
de Moura, Ricardo Olímpio
de Azevedo, Eduardo Pereira
Oshiro-Junior, João Augusto
Damasceno, Bolívar Ponciano Goulart de Lima
N-acylhydrazone Derivative-Loaded Cellulose Acetate Films: Thermoanalytical, Spectroscopic, Mechanical and Morphological Characterization
title N-acylhydrazone Derivative-Loaded Cellulose Acetate Films: Thermoanalytical, Spectroscopic, Mechanical and Morphological Characterization
title_full N-acylhydrazone Derivative-Loaded Cellulose Acetate Films: Thermoanalytical, Spectroscopic, Mechanical and Morphological Characterization
title_fullStr N-acylhydrazone Derivative-Loaded Cellulose Acetate Films: Thermoanalytical, Spectroscopic, Mechanical and Morphological Characterization
title_full_unstemmed N-acylhydrazone Derivative-Loaded Cellulose Acetate Films: Thermoanalytical, Spectroscopic, Mechanical and Morphological Characterization
title_short N-acylhydrazone Derivative-Loaded Cellulose Acetate Films: Thermoanalytical, Spectroscopic, Mechanical and Morphological Characterization
title_sort n-acylhydrazone derivative-loaded cellulose acetate films: thermoanalytical, spectroscopic, mechanical and morphological characterization
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8309645/
https://www.ncbi.nlm.nih.gov/pubmed/34301102
http://dx.doi.org/10.3390/polym13142345
work_keys_str_mv AT deassisamarocesarlima nacylhydrazonederivativeloadedcelluloseacetatefilmsthermoanalyticalspectroscopicmechanicalandmorphologicalcharacterization
AT moreiraliviamariacoelhodecarvalho nacylhydrazonederivativeloadedcelluloseacetatefilmsthermoanalyticalspectroscopicmechanicalandmorphologicalcharacterization
AT rochabeatrizpatricio nacylhydrazonederivativeloadedcelluloseacetatefilmsthermoanalyticalspectroscopicmechanicalandmorphologicalcharacterization
AT pereiramilenaraissabezerra nacylhydrazonederivativeloadedcelluloseacetatefilmsthermoanalyticalspectroscopicmechanicalandmorphologicalcharacterization
AT demelodemisferreira nacylhydrazonederivativeloadedcelluloseacetatefilmsthermoanalyticalspectroscopicmechanicalandmorphologicalcharacterization
AT demouraricardoolimpio nacylhydrazonederivativeloadedcelluloseacetatefilmsthermoanalyticalspectroscopicmechanicalandmorphologicalcharacterization
AT deazevedoeduardopereira nacylhydrazonederivativeloadedcelluloseacetatefilmsthermoanalyticalspectroscopicmechanicalandmorphologicalcharacterization
AT oshirojuniorjoaoaugusto nacylhydrazonederivativeloadedcelluloseacetatefilmsthermoanalyticalspectroscopicmechanicalandmorphologicalcharacterization
AT damascenobolivarponcianogoulartdelima nacylhydrazonederivativeloadedcelluloseacetatefilmsthermoanalyticalspectroscopicmechanicalandmorphologicalcharacterization

Ejemplares similares