TY - JOUR
T1 - Aloe vera mucilage loaded gelatin electrospun fibers contained in polylactic acid coaxial system and polylactic acid and poly(e-caprolactone) tri-layer membranes for tissue engineering
AU - Castillo Ortega, María Mónica
AU - Quiroz Castillo, Jesús Manuel
AU - Del Castillo Castro, Teresa
AU - Rodriguez Felix, Dora Evelia
AU - Santacruz Ortega, Hisila Del Carmen
AU - Manero, Octavio
AU - Lopez Gastelum, Karla Alejandra
AU - Chan Chan, Lerma Hanaiy
AU - Martinez, Diego Hernandez
AU - Tapia Hernández, Jose Agustin
AU - Plascencia Martínez, Damian Francisco
N1 - Publisher Copyright:
© 2024-IOS Press. All rights reserved.
PY - 2024/7/12
Y1 - 2024/7/12
N2 - BACKGROUND: Polymeric electrospun mats have been used as scaffolds in tissue engineering for the development of novel materials due to its characteristics. The usage of synthetic materials has gone in decline due to environmental problems associated with their synthesis and waste disposal. Biomaterials such as biopolymers have been used recently due to good compatibility on biological applications and sustainability. OBJECTIVE: The purpose of this work is to obtain novel materials based on synthetic and natural polymers for applications on tissue engineering. METHODS: Aloe vera mucilage was obtained, chemically characterized, and used as an active compound contained in electrospun mats. Polymeric scaffolds were obtained in single, coaxial and tri-layer structures, characterized and evaluated in cell culture. RESULTS: Mucilage loaded electrospun fibers showed good compatibility due to formation of hydrogen bonds between polymers and biomolecules from its structure, evidenced by FTIR spectra and thermal properties. Cell viability test showed that most of the obtained mats result on viability higher than 75%, resulting in nontoxic materials, ready to be used on scaffolding applications. CONCLUSION: Mucilage containing fibers resulted on materials with potential use on scaffolding applications due to their mechanical performance and cell viability results.
AB - BACKGROUND: Polymeric electrospun mats have been used as scaffolds in tissue engineering for the development of novel materials due to its characteristics. The usage of synthetic materials has gone in decline due to environmental problems associated with their synthesis and waste disposal. Biomaterials such as biopolymers have been used recently due to good compatibility on biological applications and sustainability. OBJECTIVE: The purpose of this work is to obtain novel materials based on synthetic and natural polymers for applications on tissue engineering. METHODS: Aloe vera mucilage was obtained, chemically characterized, and used as an active compound contained in electrospun mats. Polymeric scaffolds were obtained in single, coaxial and tri-layer structures, characterized and evaluated in cell culture. RESULTS: Mucilage loaded electrospun fibers showed good compatibility due to formation of hydrogen bonds between polymers and biomolecules from its structure, evidenced by FTIR spectra and thermal properties. Cell viability test showed that most of the obtained mats result on viability higher than 75%, resulting in nontoxic materials, ready to be used on scaffolding applications. CONCLUSION: Mucilage containing fibers resulted on materials with potential use on scaffolding applications due to their mechanical performance and cell viability results.
KW - Aloe vera
KW - Electrospinning
KW - biomaterials
KW - tissue engineering
UR - http://www.scopus.com/inward/record.url?scp=85198683706&partnerID=8YFLogxK
U2 - 10.3233/BME-240050
DO - 10.3233/BME-240050
M3 - Artículo
C2 - 38968040
AN - SCOPUS:85198683706
SN - 0959-2989
VL - 35
SP - 387
EP - 399
JO - Bio-medical materials and engineering
JF - Bio-medical materials and engineering
IS - 4
ER -