Investigation of Nano Bacterial Cellulose Coated by Sesamum Oil for Wound Dressing Application

Meftahi, Amin; Nasrolahi, D.; Babaeipour, Valiollah; Alibakhshi, Somayeh; Shahbazi, Sorour

doi:10.1016/j.mspro.2015.11.109

Cited by 14 publications

(7 citation statements)

References 13 publications

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“…Good tensile property Great potential in wound healing activity in Albino Wister rats [29] Sesamamoil coated nanobacterial cellulose Immersion method Produced higher hydrophobic microbial cellulose layer Prevented growth of bacterial infection due to inherent antibacterial property [30] TEMPO-oxidized cellulose nanofiber-silk fibroin scaffold Freeze drying method Improved wound closure property Fast wound healing capability [31] Transparent porous doxorubicin loaded nanodiamonds/cellulose nanocomposite membrane…”

Section: Solution Casting Methodsmentioning

confidence: 99%

“…[29] Sesamam oil coated nanobacterial cellulose was prepared for would dressing apply and has shown the considerable antibacterial property, both gram negative and gram positive bacteria. [30] A TEMPO-oxidized cellulose nanofiber-silk fibroin scaffold was prepared using a freeze drying method to evaluate for the wound healing activity by in vivo method using critical sized rat skin excision model and showed fast wound healing capability by the expression of wound healing markers and can be useful as wound healing material in various clinical applications. [31] Transparent porous nandiamonds/cellulose nanocomposite membranes were developed with controlled release of doxorubicin for potential applications as wound dressings, which were fabricated by tape casting method from dispersing carboxylated nanodiamonds and dissolving cellulose homogeneously in NaOH and aqueous urea solution.…”

Section: Pretreatment Of Particles Using a Coupling Agentmentioning

confidence: 99%

“…The high percent wound reduction was observed and indicated better suitability of wound dressing applications . Sesamam oil coated nanobacterial cellulose was prepared for would dressing apply and has shown the considerable antibacterial property, both gram negative and gram positive bacteria . A TEMPO‐oxidized cellulose nanofiber‐silk fibroin scaffold was prepared using a freeze drying method to evaluate for the wound healing activity by in vivo method using critical sized rat skin excision model and showed fast wound healing capability by the expression of wound healing markers and can be useful as wound healing material in various clinical applications…”

Section: Introductionmentioning

confidence: 99%

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Cellulose Nanomaterials in Biomedical, Food, and Nutraceutical Applications: A Review

Amalraj¹,

Gopi²,

Thomas

et al. 2018

Macromolecular Symposia

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Nanotechnology with bionanomaterials have tremendous potential to enhance and utilize for nutrient and bioactive absorption, drug delivery systems, pharmaceutical, and nutraceutical field through various applications. Cellulose nanomaterials are green materials that are obtained from renewable sources and possess exceptional mechanical strength and biocompatibility. The associated unique physical and chemical properties have made various nanocomposite materials an intriguing prospect for different application in the biomedical, food, and nutraceutical industries. In this review, we have discussed and provided a summary of the recent researches in the utilization of cellulosic nanomaterials in applications related to food packaging, bone tissue engineering, wound dressing, drug delivery, and nutraceutical research area and industries.

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Section: Solution Casting Methodsmentioning

confidence: 99%

Section: Pretreatment Of Particles Using a Coupling Agentmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Cellulose Nanomaterials in Biomedical, Food, and Nutraceutical Applications: A Review

Amalraj¹,

Gopi²,

Thomas

et al. 2018

Macromolecular Symposia

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“…77,78 The 3 D structure of the BC also makes it stand out as tissue engineering scaffolds or wound dressings. 79,80 The micro/nano-sized pores of BC show carrier characteristics that can be loaded for different types of compounds. After production of the BC, various studies have been carried out to improve the physical properties of BC according to the purpose and/or make it suitable for cells by using different compounds, especially in tissue engineering and substitute tissue studies.…”

Section: Structural Modifications Of Bcmentioning

confidence: 99%

A review of functionalised bacterial cellulose for targeted biomedical fields

et al. 2021

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Bacterial cellulose (BC), which can be produced by microorganisms, is an ideal biomaterial especially for tissue engineering and drug delivery systems thanks to its properties of high purity, biocompatibility, high mechanical strength, high crystallinity, 3 D nanofiber structure, porosity and high-water holding capacity. Therefore, wide ranges of researches have been done on the BC production process and its structural and physical modifications to make it more suitable for certain targeted biomedical applications thoroughly. BC’s properties such as mechanical strength, pore diameter and porosity can be tuned in situ or ex situ processes by using various polymer and compounds. Besides, different organic or inorganic compounds that support cell attachment, proliferation and differentiation or provide functions such as antimicrobial effectiveness can be gained to its structure for targeted application. These processes not only increase the usage options of BC but also provide success for mimicking the natural tissue microenvironment, especially in tissue engineering applications. In this review article, the studies on optimisation of BC production in the last decade and the BC modification and functionalisation studies conducted for the three main perspectives as tissue engineering, drug delivery and wound dressing with diverse approaches are summarized.

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“…The high affinity for water results in hydrogel-like properties, which are ideal to host cells. In addition, BC is approved by United States Food and Drug Administration (FDA) to be used in biomedical devices [34] and it has been explored in tissue engineering [35], wound healing [36,37], and drug delivery [38][39][40][41][42][43] among others. However, to the best of our knowledge, the use of BC membranes has never been addressed for electrophysiological-based devices.…”

Section: Introductionmentioning

confidence: 99%

Ultra-low noise PEDOT:PSS electrodes on bacterial cellulose: A sensor to access bioelectrical signals in non-electrogenic cells

Inácio

Medeiros

Carvalho

et al. 2020

Organic Electronics

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Investigation of Nano Bacterial Cellulose Coated by Sesamum Oil for Wound Dressing Application

Cited by 14 publications

References 13 publications

Cellulose Nanomaterials in Biomedical, Food, and Nutraceutical Applications: A Review

Cellulose Nanomaterials in Biomedical, Food, and Nutraceutical Applications: A Review

A review of functionalised bacterial cellulose for targeted biomedical fields

Ultra-low noise PEDOT:PSS electrodes on bacterial cellulose: A sensor to access bioelectrical signals in non-electrogenic cells

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