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Hierarchical helical carbon nanotube fibre as a bone-integrating anterior cruciate ligament replacement.

Liyuan WangFang WanYifan XuSonglin XieTiancheng ZhaoFan ZhangHan YangJiajun ZhuJingming GaoXiang ShiChuang WangLinwei LuYifan YangXiaoye YuShiyi ChenXuemei SunJiandong DingPeining ChenChen DingFan XuHongbo YuHuisheng Peng
Published in: Nature nanotechnology (2023)
High rates of ligament damage require replacements; however, current synthetic materials have issues with bone integration leading to implant failure. Here we introduce an artificial ligament that has the required mechanical properties and can integrate with the host bone and restore movement in animals. The ligament is assembled from aligned carbon nanotubes formed into hierarchical helical fibres bearing nanometre and micrometre channels. Osseointegration of the artificial ligament is observed in an anterior cruciate ligament replacement model where clinical polymer controls showed bone resorption. A higher pull-out force is found after a 13-week implantation in rabbit and ovine models, and animals can run and jump normally. The long-term safety of the artificial ligament is demonstrated, and the pathways involved in integration are studied.
Keyphrases
  • anterior cruciate ligament
  • carbon nanotubes
  • bone mineral density
  • soft tissue
  • bone loss
  • bone regeneration
  • postmenopausal women
  • body composition
  • clinical trial