Kalpana Rathore scite author profile

We have developed an agarose‐based biocompatible drug delivery vehicle. The vehicle is in the form of thin, transparent, strong and flexible films. The biocompatibility and haemocompatibility of the films is confirmed using direct and indirect contact biological assay. Contact angle measurement exhibits hydrophilic nature of the films, and protein adsorption test shows low protein adsorption on the film surface. Drugs, antibiotics and antiseptics, retain their potency after their incorporation into the films. Our bioplastic films can be a versatile medium for drug delivery applications, especially as wound and surgical dressings where a fast drug release rate is desired.

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Synthesis and characterization of agarose–bacterial cellulose biodegradable composites

Awadhiya

Kumar

Rathore

et al. 2016

Polym. Bull.

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Rapid synthesis of high strength cellulose–poly(vinyl alcohol) (PVA) biocompatible composite films via microwave crosslinking

Sonker

Rathore

Teotia

et al. 2018

J of Applied Polymer Sci

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The present study describes microwave (MW)-assisted rapid synthesis of biocompatible poly(vinyl alcohol) (PVA) composite films that demonstrate synergy between reinforcement and crosslinking. Bacterial cellulose (5% w/w) nanowhiskers (reinforcement) and tartaric acid 35% (w/w) (crosslinker) are incorporated in PVA to prepare crosslinked cellulose-PVA composite films. The properties of thus prepared crosslinked cellulose-PVA composite films are compared with samples crosslinked with conventional hot air oven heating (CH). Crosslinking by both of the methods reduces water absorption of PVA by around an order of magnitude and improves its thermal stability. An increase in strength from 42 (PVA) to 172 MPa and 159 MPa for MW and CH crosslinked samples, respectively is also observed. Although composites prepared using MW and CH show similar properties, MW takes only 14 min compared to 2 h in case of CH. Notably, the prepared composites demonstrate hemocompatibility and cytocompatibility, and may also be explored for biomedical applications.

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Bilateral Necrotizing Herpetic Retinopathy Three Years After Herpes Simplex Encephalitis Following Pulse Corticosteroid Treatment

Verma

Venkatesh²,

Satpal³

et al. 1999

Retina

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Kalpana Rathore

Crosslinking of Polyvinyl Alcohol (PVA) and Effect of Crosslinker Shape (Aliphatic and Aromatic) Thereof

Agarose bioplastic‐based drug delivery system for surgical and wound dressings

Synthesis and characterization of agarose–bacterial cellulose biodegradable composites

Rapid synthesis of high strength cellulose–poly(vinyl alcohol) (PVA) biocompatible composite films via microwave crosslinking

Bilateral Necrotizing Herpetic Retinopathy Three Years After Herpes Simplex Encephalitis Following Pulse Corticosteroid Treatment

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