N-succinyl chitosan preparation, characterization, properties and biomedical applications: a state of the art review

Bashir, Shahid; Teo, Yin Yin; Ramesh, Sivalingam; Ramesh, K.; Khan, Amir Azam

doi:10.1515/revce-2015-0016

Cited by 58 publications

(43 citation statements)

References 76 publications

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“…62,63 More chitosan modied studies were used in the hydrogel for wound healing dressings are listed in Table 2. 58,59,[64][65][66] 3.1.2. Combined with other polymers.…”

Section: Chitosan-based Hydrogels As Wound Dressingmentioning

confidence: 99%

A functional chitosan-based hydrogel as a wound dressing and drug delivery system in the treatment of wound healing

et al. 2018

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“…62,63 More chitosan modied studies were used in the hydrogel for wound healing dressings are listed in Table 2. 58,59,[64][65][66] 3.1.2. Combined with other polymers.…”

Section: Chitosan-based Hydrogels As Wound Dressingmentioning

confidence: 99%

A functional chitosan-based hydrogel as a wound dressing and drug delivery system in the treatment of wound healing

et al. 2018

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“…Smart and controllable based drug delivery hydrogels considered as a preferable alternative which can improve in decreasing the dosage and side effects compared to the single unit release of tablet [6], [7]. However, the applications of chitosan in controllable drug delivery systems are limited due to its solubility [8], [9], [10].…”

Section: Introductionmentioning

confidence: 99%

Preparation of In Situ Cross-Linked N-Maleoyl Chitosan-Oxidized Sodium Alginate Hydrogels for Drug Delivery Applications

Pasaribu

Kaban

Ginting

et al. 2019

Open Access Maced J Med Sci

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AIM: This study was aimed to prepare in situ cross-linked N-maleoyl chitosan – oxidised sodium alginate (MCS – OSA) hydrogel loaded with metronidazole (MTZ) for drug delivery applications. METHODS: The hydrogel was prepared by in situ cross-linking via Schiff base reaction between amine (-NH2) groups from MCS and aldehyde (-CHO) groups from OSA at the different ratio, and the MTZ was loaded into the hydrogels along with the gelatin processes. RESULTS: The highest drug entrapment efficiency (DEE) was exhibited by MTZ-H3 (5: 5) with DEE of 99.20% and a gel fraction of 97.52%. FTIR results revealed that Schiff base reaction was occurred by the absorption peak of –C = N- groups at 1628 cm-1 and indicated that there is insignificant alteration at different ratio of MCS and OSA. The best sustained of in vitro release profiles of MTZ was shown by MTZ-H3, which is 74.92% and 75.65% at pH 1.2 and 7.4 for 12 h of release, respectively. CONCLUSION: The optimised ratio between MCS and OSA to prepare in situ cross-linked hydrogels were found to be 5:5 according to the results of DEE and in vitro drug release profiles of MTZ and the MTZ loaded MCS-OSA hydrogels have a great potential which can be applied in biomedical applications.

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“…Carbohydrate polymers are inexpensive and they can offer interesting properties such as excellent biocompatibility, biodegradability, non-toxicity, nonimmunogenicity and non-carcinogenicity [10]. Of those naturally occurring carbohydrate polymers, chitosan (CS), a linear cationic polysaccharide comprising of β(1-4) linked glucosamine and N-acetyl glucosamine units, is generally obtained from the deacetylation of chitin [11].…”

Section: Introductionmentioning

confidence: 99%

Carbohydrate polymer based pH-sensitive IPN microgels: Synthesis, characterization and drug release characteristics

Eswaramma

Reddy

Rao

2017

Materials Chemistry and Physics

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N-succinyl chitosan preparation, characterization, properties and biomedical applications: a state of the art review

Cited by 58 publications

References 76 publications

A functional chitosan-based hydrogel as a wound dressing and drug delivery system in the treatment of wound healing

A functional chitosan-based hydrogel as a wound dressing and drug delivery system in the treatment of wound healing

Preparation of In Situ Cross-Linked N-Maleoyl Chitosan-Oxidized Sodium Alginate Hydrogels for Drug Delivery Applications

Carbohydrate polymer based pH-sensitive IPN microgels: Synthesis, characterization and drug release characteristics

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