Studies on Healthcare and Hygiene Textile Materials Treated With Natural Antimicrobial Bioactive Agents Derived From Plant Extracts

Alemu Reta, Beletech; Babu, K. Murugesh; Tesfaye, Tamrat

doi:10.1177/24723444231215444

AATCC Journal of Research

2024

DOI: 10.1177/24723444231215444

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Studies on Healthcare and Hygiene Textile Materials Treated With Natural Antimicrobial Bioactive Agents Derived From Plant Extracts

Beletech Alemu Reta,

K. Murugesh Babu,

Tamrat Tesfaye

Abstract: Antimicrobial textiles with improved functionality have a wide range of applications, including health and hygiene products, particularly garments worn next to the skin, and a number of medical applications, including infection control and barrier materials. Furthermore, these textiles are used in household materials, air filters, food packaging, athletic wear, storage, ventilation, and water purification systems. Cotton-based materials are hygienic and are commonly used in non-implantable hygiene medical text… Show more

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2024

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Cited by 5 publications

References 93 publications

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Fabrication of antibacterial bio‐composite from polyvinyl alcohol incorporated with Azadirachta indica

Hossain,

Shahid

2024

SPE Polymers

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This study focuses on the development of a bio‐composite by combining polyvinyl alcohol (PVA) with Azadirachta indica (neem) extract using the film casting method. The morphological structure was analyzed using scanning electron microscopy (SEM), antibacterial properties were assessed through the agar disc diffusion method, and thermal behaviors were studied using TGA and DSC. Fourier transforms infrared spectroscopy (FTIR) was employed to investigate the bonding behavior, and a Universal Strength Tester was used to determine the mechanical properties. The SEM image revealed that the surface of the produced PVA and neem bio‐composite (PNBC) exhibited a moderate texture and porosity of 11.13% and 9.25%, respectively. The developed bio‐composite exhibited antibacterial activity with inhibition zones of 18 mm against E. coli and 21 mm against S. aureus. The FTIR spectra of the bio‐composites displayed distinctive peaks corresponding to both PVA and neem, confirming their presence in the material. The material's elongation at break (117.493 mm) and elongation at peak (64.159 mm) reflect its capacity for deformability and flexibility under stress. Moreover, PNBC has a Tg of 84°C, a pyrolysis temperature of 266°C, and degrades between 230 and 400°C, as shown by DSC and TGA. Finally, the results of this experiment were compared with available literature and a cost analysis was conducted.Highlights Bio‐composite is developed by combining PVA with Azadirachta indica (neem) extract using the film casting method. The morphological structure, antibacterial properties, mechanical, and thermal behaviors have been studied. The bio‐composite shows inhibition zones of 18 mm against E. coli and 21 mm against S. aureus. The material's elongation at break (117.493 mm) and elongation at peak (64.159 mm) reflect its capacity for deformability and flexibility under stress. The results are compared with the literature and a cost analysis is presented.

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Fabrication of antibacterial bio‐composite from polyvinyl alcohol incorporated with Azadirachta indica

Hossain,

Shahid

2024

SPE Polymers

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Synthesis of multifunctional nano composites incorporating halloysite nanoclay

Zohoori,

Torabi,

Gholami

et al. 2024

Discov Mater

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This study was conducted in which an innovative technique was utilized to extract the active components from cloves. These active substances were subsequently employed to formulate a nanocomposite, both with and without the inclusion of Halloysite nanoclay, utilizing an electrospinning apparatus. The morphology of the resulting nanocomposite was analyzed through FESEM, confirming the appropriateness of the electrospinning method and its conditions. Additionally, the effectiveness of both nanocomposite samples in reducing inflammation was evaluated. A comparative assessment was conducted to evaluate the strength, abrasion resistance, and bactericidal properties of the samples produced in accordance with AATCC standards. The findings revealed an enhancement of over 2.5 times in strength, an increase in abrasion resistance exceeding 91%, and notable antibacterial properties reaching up to 99%. In summary, the nanofiber derived from cloves exhibited promising attributes that may be applicable across various industries.

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A study of the effect of natural brown cotton gauze on the healing of infected wounds

Jin,

Zhou

et al. 2024

Skin Research and Technology

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BackgroundMedical dressings are designed to promote wound healing and reduce infection. The aim of project is to investigate the effect of natural brown colored cotton dressings on the healing of infected wounds in E.coli animals.Materials and methodsIn this study, degreased white cotton gauze was used as the control group, with degreased brown cotton gauze and degreased bleached brown cotton gauze as the experimental group 1 and experimental group 2, to investigate the effect on the repair of post‐infectious wound damage in animals by establishing an infected wound model in rats with E.coli as the infecting organism.ResultsThe ability to promote healing of infected wounds was investigated by analyzing the wound healing status, macroscopic wound healing rate, hematoxylin‐eosin staining, Masson staining, secretion of inflammatory factors by Elisa assay. The result showed that at day 14 of wound healing, the macroscopic wound healing rate was greater than 98% for all three groups of dressings; the collagen content reached 49.85 ± 5.84% in the experimental group 1 and 53.48 ± 5.32% in the experimental group 2, which was higher than the control group; brown cotton gauze promotes skin wound healing by shortening the inflammatory period in both groups. The expression of three inflammatory factors THF‐α, IL‐2, and IL‐8 and three cytokines MMP‐3, MMP‐8, and MMP‐9 were lower than that of the control group.ConclusionsIt was found that natural brown cotton gauze has better repairing and promoting healing effect on infected wounds. It opens up the application of natural brown cotton gauze in the treatment of infected wounds.

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Studies on Healthcare and Hygiene Textile Materials Treated With Natural Antimicrobial Bioactive Agents Derived From Plant Extracts

Cited by 5 publications

References 93 publications

Fabrication of antibacterial bio‐composite from polyvinyl alcohol incorporated with Azadirachta indica

Fabrication of antibacterial bio‐composite from polyvinyl alcohol incorporated with Azadirachta indica

Synthesis of multifunctional nano composites incorporating halloysite nanoclay

A study of the effect of natural brown cotton gauze on the healing of infected wounds

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