In Situ and Ex Situ Designed Hydroxyapatite: Bacterial Cellulose Materials with Biomedical Applications

Nicoara, Adrian Ionut; Stoica, Anca‐Iulia; Ene, D.V.; Vasile, Bogdan Ștefan; Holban, Alina Maria; Neacșu, Ionela Andreea

doi:10.3390/ma13214793

Cited by 23 publications

(17 citation statements)

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“…Therefore, they are ideal for the development of innovative specific controlled release systems, especially in biomedical engineering, including wound dressing and transdermal drug delivery systems [ 107 ]. In addition, when used as a membrane, it can contribute to an increase in cellular adhesion as well as the proliferation, migration, and differentiation of cells, thereby accelerating the re-epithelialization, which results in a faster wound healing process [ 15 , 111 ]. As previously stated, its performance as a biomaterial has attracted attention for use in drug delivery systems [ 15 , 111 , 112 , 113 ], wound dressings [ 114 ], tissue scaffolds [ 115 ], and implants [ 116 ].…”

Section: Bacterial Cellulosementioning

confidence: 99%

Bacterial Cellulose as a Versatile Biomaterial for Wound Dressing Application

et al. 2022

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Chronic ulcers are among the main causes of morbidity and mortality due to the high probability of infection and sepsis and therefore exert a significant impact on public health resources. Numerous types of dressings are used for the treatment of skin ulcers-each with different advantages and disadvantages. Bacterial cellulose (BC) has received enormous interest in the cosmetic, pharmaceutical, and medical fields due to its biological, physical, and mechanical characteristics, which enable the creation of polymer composites and blends with broad applications. In the medical field, BC was at first used in wound dressings, tissue regeneration, and artificial blood vessels. This material is suitable for treating various skin diseases due its considerable fluid retention and medication loading properties. BC membranes are used as a temporary dressing for skin treatments due to their excellent fit to the body, reduction in pain, and acceleration of epithelial regeneration. BC-based composites and blends have been evaluated and synthesized both in vitro and in vivo to create an ideal microenvironment for wound healing. This review describes different methods of producing and handling BC for use in the medical field and highlights the qualities of BC in detail with emphasis on biomedical reports that demonstrate its utility. Moreover, it gives an account of biomedical applications, especially for tissue engineering and wound dressing materials reported until date. This review also includes patents of BC applied as a wound dressing material.

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Section: Bacterial Cellulosementioning

confidence: 99%

Bacterial Cellulose as a Versatile Biomaterial for Wound Dressing Application

et al. 2022

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“…It found cytocompatibility and a relatively high protein adsorption ability for cellulose/vaterite nanocomposites. Nicoara et al (2020) used the co-precipitation method and ultrasound exposure to in situ and ex situ design HA/BC/Ag composite with excellent biocompatibility, bioactivity, and antibacterial properties for tissue engineering. It carried out a homogenous porous structure and high water absorption capacity for the composites.…”

Section: Introductionmentioning

confidence: 99%

Fabrication, Properties, and Biomedical Applications of Calcium-Containing Cellulose-Based Composites

Shi

Lang

Zhou

et al. 2022

Front. Bioeng. Biotechnol.

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Calcium-containing cellulose-based composites possess the advantages of high mechanical strength, excellent osteoconductivity, biocompatibility, biodegradation, and bioactivity, which represent a promising application system in the biomedical field. Calcium-containing cellulose-based composites have become the hotspot of study of various biomedical fields. In this mini-review article, the synthesis of calcium-containing cellulose-based composites is summarized via a variety of methods such as the biomimetic mineralization method, microwave method, co-precipitation method, hydrothermal method, freeze-drying method, mechanochemical reaction method, and ultrasound method. The development on the fabrication, properties, and applications of calcium-containing cellulose-based composites is highlighted. The as-existed problems and future developments of cellulose-based composites are provided. It is expected that calcium-containing cellulose-based composites are the ideal candidate for biomedical application.

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“…Most of the studies of the Special Issue developed innovative materials favoring the formation of new bone in the fracture site where the scaffold is implanted [11][12][13][14][15][16]. Three papers investigate the issues related to the geometry/dimensions that the scaffold pores must possess to guarantee an adequate mechanobiological response [10,17,18].…”

mentioning

confidence: 99%

Design of Materials for Bone Tissue Scaffolds

2022

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In Situ and Ex Situ Designed Hydroxyapatite: Bacterial Cellulose Materials with Biomedical Applications

Cited by 23 publications

References 50 publications

Bacterial Cellulose as a Versatile Biomaterial for Wound Dressing Application

Bacterial Cellulose as a Versatile Biomaterial for Wound Dressing Application

Fabrication, Properties, and Biomedical Applications of Calcium-Containing Cellulose-Based Composites

Design of Materials for Bone Tissue Scaffolds

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