A Mucoadhesive Polymer Extracted from Tamarind Seed Improves the Intraocular Penetration and Efficacy of Rufloxacin in Topical Treatment of Experimental Bacterial Keratitis

Ghelardi, Emilia; Tavanti, Arianna; Davini, Paola; Celandroni, Francesco; Salvetti, Sara; Parisio, Eva Maria; Boldrini, E.; Senesi, Sonia; Campa, Mario

doi:10.1128/aac.48.9.3396-3401.2004

Cited by 55 publications

(41 citation statements)

References 30 publications

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“…TG is composed of (1→4)-β-D-glucan back-bone substituted with side chains of α-D-xylopyranose and β-D-galactopyranosyl(1→2)-α-D-xylopyranose linked (1→6) to glucose residues [20] . It has been used in the development of various drug delivery systems due to its hydrophilic and bioadhesive properties [21][22][23][24][25][26][27] . Although TG shows presence of non-sterically hindered hydroxyl groups, very few reports mentioned the use of pure TG in chemically crosslinked hydrogels [28] .…”

Section: Research Papermentioning

confidence: 99%

Citric Acid Crosslinked Carboxymethyl Cellulose-based Composite Hydrogel Films for Drug Delivery

Mali¹,

Dhawale²,

Dias³

et al. 2018

pharmaceutical-sciences

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Mali et al.: Carboxymethyl cellulose-based hydrogel films for drug deliveryThe objective of this study was to synthesize and characterize citric acid crosslinked hydrogel films of carboxymethyl cellulose-tamarind gum for topical drug delivery. The hydrogel films were characterized by attenuated total reflectance-Fourier-transform infrared spectroscopy, solid-state 13 C-nuclear magnetic resonance spectroscopy and differential scanning calorimeter. The prepared hydrogel films were evaluated for the carboxyl content and equilibrium swelling ratio. Moxifloxacin hydrochloride was loaded into these hydrogel films and drug release was monitored in the phosphate buffer pH 7.4. Haemolysis assay was used to study biocompatibility of hydrogel films. Results of the attenuated total reflectance-Fourier-transform infrared spectroscopy, solid-state 13 C-nuclear magnetic resonance and differential scanning calorimeter confirmed the formation of citric acid-crosslinked hydrogel films. Total carboxyl content of hydrogel film was found to be increased when polymer ratio and amount of citric acid was increased. In contrast, swelling of hydrogel film was found to be decreased with increase in polymer ratio and amount of citric acid. Batch B1 showed highest drug loading with non-Fickian release mechanism. All remaining batches showed nonFickian release behavior with diffusion coefficient greater than 0.5. Results of haemolysis assay indicated that the citric acid crosslinked carboxymethyl cellulose-tamarind gum hydrogels were safe to be used in drug delivery. These results indicated that the citric acid crosslinked carboxymethyl cellulose-tamarind gum composite hydrogel film has the potential to be used in topical novel drug delivery systems.

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Section: Research Papermentioning

confidence: 99%

Citric Acid Crosslinked Carboxymethyl Cellulose-based Composite Hydrogel Films for Drug Delivery

Mali¹,

Dhawale²,

Dias³

et al. 2018

pharmaceutical-sciences

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“…Tamarind seed polysaccharide was also investigated for ocular delivery of rufloxacin and ofloxacin to treat bacterial keratitis experimentally induced by Pseudomonus aeruginosa and Staphylococcus aureus in rabbits. 105 The result indicated significantly increment in intra-aqueous penetration of drugs in both infected and uninfected rabbit eyes. The use of tamarind seed polysaccharide improved the prolongation of precorneal residence time and drug accumulation by these formulations.…”

Section: Ocular Drug Deliverymentioning

confidence: 84%

“…[103][104][105][106][107] The high viscosity and mucoadhesive property of tamarind seed polysaccharide make it as a suitable excipient in various ocular formulations for increasing the residence time for various drugs on the cornea. A tamarind gum based in situ gelling ocular dosage form of pilocarpine was developed and evaluated for its miotic potential.…”

Section: Ocular Drug Deliverymentioning

confidence: 99%

Tamarind Seed Polysaccharide: An Emerging Excipient for Pharmaceutical Use

Nayak¹,

Pal²

2017

IJPER

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Currently, various plant polysaccharides have been studied for their diverse applications as excipients like binders, granulating agents, disintegrants, emulsifiers, suspending agents, gelling agents, mucoadhesive agents, matrix-formers, release retardants, enteric resistants, etc., in various pharmaceutical dosage forms. Among these, tamarind seed polysaccharide is an emerging excipient, which is beingused and investigated for the preparation of various dosage forms like suspensions, emulsions, tablets, gels, creams, beads, spheroids, microparticles, nanoparticles, ophthalmic preparations, and buccal patches, etc. The current chapter deals with a comprehensive and useful discussion on pharmaceutical applications of tamarind seed polysaccharide withits some important features like source, isolation, chemical composition and properties.

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“…These results suggested that TSP is able to prolong the precorneal residence time of the antibiotic and enhance drug accumulation in the cornea, thereby increasing the intraaqueous antibiotic penetration. (Ghelardi et al, 2004).…”

Section: Eye Dropsmentioning

confidence: 99%