Development of a methodology for the study of polymer wound coatings for application characteristics

Abilova, Guzel K.; Urkimbayeva, P.I.; Zh.B., Koshkinbayev; Kenessova, Z A; Yessirkepova, A N; Samenova, N O; Bekbayeva, Lyazzat

doi:10.21608/ejchem.2020.34370.2718

Cited by 2 publications

(1 citation statement)

References 26 publications

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“…Hydrogel dressings based on PVA, NVLC, and HEA presented at 25 kGy a tensile strength of 547 Pa, elongation at break of 115%, and elastic modulus of 3.6 kPa. Elastic modulus and tensile strength increased as a consequence of sterilization dose, while elongation decreased [137]. A sterile hydrogel film made from 3.75% tragacanth gum, 3.125% sodium alginate, and 5% PVA was obtained at 18.2 kGy using γ-irradiation.…”

Section: Rheology and Mechanical Propertiesmentioning

confidence: 99%

Properties and Applications of Biomaterials Related to Gels

2023

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As an excellent biopolymer material, hydrogel has been widely used in drug delivery, tissue engineering, and disease treatment, among other applications. By combining different polymers through physical or chemical changes, the prepared hydrogels can show better performance and be used in various environments.At present, the exploration of hydrogel in biomedicine seems to be diversified. To adapt to the complex environment in organisms, higher requirements must put forward for hydrogel. Under the premise that hydrogel is biosafe, it must become tougher or more easily degradable according to the purpose of its application, be able to stay in the body for a longer time to exert its effect, or be easily removed. Moreover, certain hydrogels can respond to changes in pH, temperature, biological indicators, or microorganisms in the body. We are interested in the intelligent properties of hydrogels, and the condition in which these properties can be used to facilitate their applications is undoubtedly a question that researchers need to consider carefully. This reprint consists of 12 papers, of which 2 are editorials and 10 are research papers. We hope to share the experimental and research results in this field and inspire new ideas for the design and applications of hydrogels.

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Section: Rheology and Mechanical Propertiesmentioning

confidence: 99%

Properties and Applications of Biomaterials Related to Gels

2023

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Formulation, Development and Physicochemical Characterization of Diclofenac Topical Emulgel

Nayak¹,

Mandal²,

Ramadan³

et al. 2021

Egypt. J. Chem.

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Emulgel is one of the convenient and promising topical drug delivery approaches especially for the hydrophobic drugs. The purpose of the study was to prepare emulgel of diclofenac sodium using polymers namely Carbopol-934, hydroxypropyl methyl cellulose and sodium carboxy methyl cellulose and studied for their drug release from the gel formulations. The 1% Carbopol-934 formulated gel was found highest drug content (101.72%) than the other formulations. The pH of the formulations ranged from 6.8 to 7.2 and viscosity is from 36,000 to 51,000 cps. Extrudability of carbopol and HPMC gels were excellent than the SodiumCMC gel. In vitro drug release was observed highest (64.91%) for the formulation A2 (1% Carbopol-934) and was improved further on the addition of DMSO as a permeation enhancer. In the same time, 1.0% carbopol-940 also showed a similar release pattern, but the release was lesser (51.47%) and the release of HPMC and sodium CMC gels was much lesser. The study revealed that formulation A2 with 1% Carbopol-934 was observed to be the best formulation having good in vitro release profile, stability and bioavailability among all prepared formulations. Hence, the study brought to a close idea that the emulgel A2 was a successful outcome as a topical anti-inflammatory and analgesic formulation among all.

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Development of a methodology for the study of polymer wound coatings for application characteristics

Cited by 2 publications

References 26 publications

Properties and Applications of Biomaterials Related to Gels

Properties and Applications of Biomaterials Related to Gels

Formulation, Development and Physicochemical Characterization of Diclofenac Topical Emulgel

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