Sterilization, toxicity, biocompatibility and clinical applications of polylactic acid/ polyglycolic acid copolymers

This is a review of salient studies of sterilization, toxicity, biocompatibility, clinical applications and current work in the field of orthopaedics, using implants made of polylactic acid (PLA), polyglycolic acid (PGA) and their copolymers. The intrinsic nature of these biomaterials renders them s...

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Veröffentlicht in:	Biomaterials 1996, Vol.17 (2), p.93-102
Hauptverfasser:	Athanasiou, Kyriacos A., Niederauer, Gabriele G., Agrawal, C.Mauli
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biocompatible Materials Cell Division - drug effects Fractures, Bone - surgery Humans Lactic Acid Ligaments - surgery Orthopedics - trends Polyglycolic Acid Polylactic acid Polylactic Acid-Polyglycolic Acid Copolymer Polymers - adverse effects Polymers - chemistry Polymers - therapeutic use Polymers - toxicity Prostheses and Implants - standards Sterilization - standards Sutures - standards Tendons - surgery toxicity
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container_title	Biomaterials
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creator	Athanasiou, Kyriacos A. Niederauer, Gabriele G. Agrawal, C.Mauli
description	This is a review of salient studies of sterilization, toxicity, biocompatibility, clinical applications and current work in the field of orthopaedics, using implants made of polylactic acid (PLA), polyglycolic acid (PGA) and their copolymers. The intrinsic nature of these biomaterials renders them suitable for applications where temporally slow releases of bioactive agents in situ may be required. They are also desirable as fixation devices of bone, because they can virtually eliminate osteopenia associated with stress shielding or additional surgery. The majority of currently available sterilization techniques are not suitable for these thermoplastic materials and it may be desirable to develop new sterilization standards, which can account for the special character of PLA-PGA materials. Biocompatibility and toxicity studies suggest that, overall, PLA-PGA biomaterials may be suitable for orthopaedic applications, although certain problems, especially pertaining to reduction in cell proliferation, have been reported. Clinical applications are also promising, albeit not without problems usually associated with transient tissue inflammation. The future of these materials appears bright, especially in soft tissues. They may be used to address the exceedingly complex problem of osteochondral repair, but also as a means to enhance fixation and repair processes in tendons and ligaments.
doi_str_mv	10.1016/0142-9612(96)85754-1
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The intrinsic nature of these biomaterials renders them suitable for applications where temporally slow releases of bioactive agents in situ may be required. They are also desirable as fixation devices of bone, because they can virtually eliminate osteopenia associated with stress shielding or additional surgery. The majority of currently available sterilization techniques are not suitable for these thermoplastic materials and it may be desirable to develop new sterilization standards, which can account for the special character of PLA-PGA materials. Biocompatibility and toxicity studies suggest that, overall, PLA-PGA biomaterials may be suitable for orthopaedic applications, although certain problems, especially pertaining to reduction in cell proliferation, have been reported. Clinical applications are also promising, albeit not without problems usually associated with transient tissue inflammation. The future of these materials appears bright, especially in soft tissues. 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source	MEDLINE; ScienceDirect Journals (5 years ago - present)
subjects	Animals Biocompatible Materials Cell Division - drug effects Fractures, Bone - surgery Humans Lactic Acid Ligaments - surgery Orthopedics - trends Polyglycolic Acid Polylactic acid Polylactic Acid-Polyglycolic Acid Copolymer Polymers - adverse effects Polymers - chemistry Polymers - therapeutic use Polymers - toxicity Prostheses and Implants - standards Sterilization - standards Sutures - standards Tendons - surgery toxicity
title	Sterilization, toxicity, biocompatibility and clinical applications of polylactic acid/ polyglycolic acid copolymers
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