C. K. S. Pillai scite author profile

Among biomaterials used as implants in human body, sutures constitute the largest groups of materials having a huge market exceeding $1.3 billion annually. Sutures are the most widely used materials in wound closure and have been in use for many centuries. With the development of the synthetic absorbable polymer, poly(glycolic acid) (PGA) in the early 1970s, a new chapter has opened on absorbable polymeric sutures that got unprecedented commercial successes. Although several comparative evaluations of suture materials have been published, there were no serious attempts of late on a comprehensive review of production, properties, biodegradability, and performance of suture materials. This review proposes to bring to focus scattered data on chemistry, properties, biodegradability, and performance of absorbable polymeric sutures.

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Erratum to “Stable polymeric materials for nonlinear optics: A review based on azobenzene systems” [Prog. Polym. Sci. 29 (2004) 45–74]

Sandhya

Pillai

Tsutsumi

2010

Progress in Polymer Science

101

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Structure property studies of fibres from various parts of the coconut tree

et al. 1982

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Fibres from different structural parts of the coconut palm tree (Cocos nucifera, linn.) have been examined for properties such as size, density, electrical resistivity, ultimate fracture mode, microfibrillar angle as well as cellulose and lignin contents of these fibres have been determined. The observed properties have been related to the internal structure and chemical composition of the fibres. Some potential uses of these fibres have been I isted .tensile strength, initial modulus and percentage elongation. The stress-strain diagrams, --

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Chitosan/oligo L-lactide graft copolymers: Effect of hydrophobic side chains on the physico-chemical properties and biodegradability

Luckachan

Pillai

2006

Carbohydrate Polymers

115

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Biodegradable Polymers for Gene Delivery

2019

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The cellular transport process of DNA is hampered by cell membrane barriers, and hence, a delivery vehicle is essential for realizing the potential benefits of gene therapy to combat a variety of genetic diseases. Virus-based vehicles are effective, although immunogenicity, toxicity and cancer formation are among the major limitations of this approach. Cationic polymers, such as polyethyleneimine are capable of condensing DNA to nanoparticles and facilitate gene delivery. Lack of biodegradation of polymeric gene delivery vehicles poses significant toxicity because of the accumulation of polymers in the tissue. Many attempts have been made to develop biodegradable polymers for gene delivery by modifying existing polymers and/or using natural biodegradable polymers. This review summarizes mechanistic aspects of gene delivery and the development of biodegradable polymers for gene delivery.

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C. K. S. Pillai

Chitin and chitosan polymers: Chemistry, solubility and fiber formation

Biodegradable Polymers- A Review on Recent Trends and Emerging Perspectives

The thermal and crystallisation studies of short sisal fibre reinforced polypropylene composites

Review Paper: Absorbable Polymeric Surgical Sutures: Chemistry, Production, Properties, Biodegradability, and Performance

Erratum to “Stable polymeric materials for nonlinear optics: A review based on azobenzene systems” [Prog. Polym. Sci. 29 (2004) 45–74]

Structure property studies of fibres from various parts of the coconut tree

Chitosan/oligo L-lactide graft copolymers: Effect of hydrophobic side chains on the physico-chemical properties and biodegradability

Biodegradable Polymers for Gene Delivery

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