Osteoporotic Bone Recovery by a Highly Bone‐Inductive Calcium Phosphate Polymer‐Induced Liquid‐Precursor

Osteoporotic Bone Recovery by a Highly Bone‐Inductive Calcium Phosphate Polymer‐Induced Liquid‐Precursor

Abstract Osteoporosis is an incurable chronic disease characterized by a lack of mineral mass in the bones. Here, the full recovery of osteoporotic bone is achieved by using a calcium phosphate polymer‐induced liquid‐precursor (CaP‐PILP). This free‐flowing CaP‐PILP material displays excellent bone i...

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Main Authors: Shasha Yao, Xianfeng Lin, Yifei Xu, Yangwu Chen, Pengcheng Qiu, Changyu Shao, Biao Jin, Zhao Mu, Nico A. J. M. Sommerdijk, Ruikang Tang
Format: Article
Language:English
Published: Wiley 2019-10-01
Series:Advanced Science
Subjects:
bone recovery
bone‐inductive
mineralization
osteoporosis
polymer‐induced liquid‐precursor (PILP)
Online Access:https://doi.org/10.1002/advs.201900683
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spelling doaj-291177c679384ddeb47749ef82c0f4082020-11-25T01:18:42ZengWileyAdvanced Science2198-38442019-10-01619n/an/a10.1002/advs.201900683Osteoporotic Bone Recovery by a Highly Bone‐Inductive Calcium Phosphate Polymer‐Induced Liquid‐PrecursorShasha Yao0Xianfeng Lin1Yifei Xu2Yangwu Chen3Pengcheng Qiu4Changyu Shao5Biao Jin6Zhao Mu7Nico A. J. M. Sommerdijk8Ruikang Tang9Center for Biomaterials and Biopathways Department of Chemistry Zhejiang University Hangzhou Zhejiang 310027 ChinaDepartment of Orthopaedic Surgery Sir Run Run Shaw Hospital School of Medicine Zhejiang University Hangzhou Zhejiang 310016 ChinaLaboratory of Materials and Interface Chemistry and Center for Multiscale Electron Microscopy Department of Chemical Engineering and Chemistry Eindhoven University of Technology, Eindhoven PO box 513 5600 MB Eindhoven The NetherlandsDepartment of Orthopaedic Surgery Sir Run Run Shaw Hospital School of Medicine Zhejiang University Hangzhou Zhejiang 310016 ChinaDepartment of Orthopaedic Surgery Sir Run Run Shaw Hospital School of Medicine Zhejiang University Hangzhou Zhejiang 310016 ChinaCenter for Biomaterials and Biopathways Department of Chemistry Zhejiang University Hangzhou Zhejiang 310027 ChinaCenter for Biomaterials and Biopathways Department of Chemistry Zhejiang University Hangzhou Zhejiang 310027 ChinaCenter for Biomaterials and Biopathways Department of Chemistry Zhejiang University Hangzhou Zhejiang 310027 ChinaLaboratory of Materials and Interface Chemistry and Center for Multiscale Electron Microscopy Department of Chemical Engineering and Chemistry Eindhoven University of Technology, Eindhoven PO box 513 5600 MB Eindhoven The NetherlandsCenter for Biomaterials and Biopathways Department of Chemistry Zhejiang University Hangzhou Zhejiang 310027 ChinaAbstract Osteoporosis is an incurable chronic disease characterized by a lack of mineral mass in the bones. Here, the full recovery of osteoporotic bone is achieved by using a calcium phosphate polymer‐induced liquid‐precursor (CaP‐PILP). This free‐flowing CaP‐PILP material displays excellent bone inductivity and is able to readily penetrate into collagen fibrils and form intrafibrillar hydroxyapatite crystals oriented along the c‐axis. This ability is attributed to the microstructure of the material, which consists of homogeneously distributed ultrasmall (≈1 nm) amorphous calcium phosphate clusters. In vitro study shows the strong affinity of CaP‐PILP to osteoporotic bone, which can be uniformly distributed throughout the bone tissue to significantly increase the bone density. In vivo experiments show that the repaired bones exhibit satisfactory mechanical performance comparable with normal ones, following a promising treatment of osteoporosis by using CaP‐PILP. The discovery provides insight into the structure and property of biological nanocluster materials and their potential for hard tissue repair.https://doi.org/10.1002/advs.201900683bone recoverybone‐inductivemineralizationosteoporosispolymer‐induced liquid‐precursor (PILP)
collection DOAJ
language English
format Article
sources DOAJ
author Shasha Yao
Xianfeng Lin
Yifei Xu
Yangwu Chen
Pengcheng Qiu
Changyu Shao
Biao Jin
Zhao Mu
Nico A. J. M. Sommerdijk
Ruikang Tang
spellingShingle Shasha Yao
Xianfeng Lin
Yifei Xu
Yangwu Chen
Pengcheng Qiu
Changyu Shao
Biao Jin
Zhao Mu
Nico A. J. M. Sommerdijk
Ruikang Tang
Osteoporotic Bone Recovery by a Highly Bone‐Inductive Calcium Phosphate Polymer‐Induced Liquid‐Precursor
Advanced Science
bone recovery
bone‐inductive
mineralization
osteoporosis
polymer‐induced liquid‐precursor (PILP)
author_facet Shasha Yao
Xianfeng Lin
Yifei Xu
Yangwu Chen
Pengcheng Qiu
Changyu Shao
Biao Jin
Zhao Mu
Nico A. J. M. Sommerdijk
Ruikang Tang
author_sort Shasha Yao
title Osteoporotic Bone Recovery by a Highly Bone‐Inductive Calcium Phosphate Polymer‐Induced Liquid‐Precursor
title_short Osteoporotic Bone Recovery by a Highly Bone‐Inductive Calcium Phosphate Polymer‐Induced Liquid‐Precursor
title_full Osteoporotic Bone Recovery by a Highly Bone‐Inductive Calcium Phosphate Polymer‐Induced Liquid‐Precursor
title_fullStr Osteoporotic Bone Recovery by a Highly Bone‐Inductive Calcium Phosphate Polymer‐Induced Liquid‐Precursor
title_full_unstemmed Osteoporotic Bone Recovery by a Highly Bone‐Inductive Calcium Phosphate Polymer‐Induced Liquid‐Precursor
title_sort osteoporotic bone recovery by a highly bone‐inductive calcium phosphate polymer‐induced liquid‐precursor
publisher Wiley
series Advanced Science
issn 2198-3844
publishDate 2019-10-01
description Abstract Osteoporosis is an incurable chronic disease characterized by a lack of mineral mass in the bones. Here, the full recovery of osteoporotic bone is achieved by using a calcium phosphate polymer‐induced liquid‐precursor (CaP‐PILP). This free‐flowing CaP‐PILP material displays excellent bone inductivity and is able to readily penetrate into collagen fibrils and form intrafibrillar hydroxyapatite crystals oriented along the c‐axis. This ability is attributed to the microstructure of the material, which consists of homogeneously distributed ultrasmall (≈1 nm) amorphous calcium phosphate clusters. In vitro study shows the strong affinity of CaP‐PILP to osteoporotic bone, which can be uniformly distributed throughout the bone tissue to significantly increase the bone density. In vivo experiments show that the repaired bones exhibit satisfactory mechanical performance comparable with normal ones, following a promising treatment of osteoporosis by using CaP‐PILP. The discovery provides insight into the structure and property of biological nanocluster materials and their potential for hard tissue repair.
topic bone recovery
bone‐inductive
mineralization
osteoporosis
polymer‐induced liquid‐precursor (PILP)
url https://doi.org/10.1002/advs.201900683
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AT xianfenglin osteoporoticbonerecoverybyahighlyboneinductivecalciumphosphatepolymerinducedliquidprecursor
AT yifeixu osteoporoticbonerecoverybyahighlyboneinductivecalciumphosphatepolymerinducedliquidprecursor
AT yangwuchen osteoporoticbonerecoverybyahighlyboneinductivecalciumphosphatepolymerinducedliquidprecursor
AT pengchengqiu osteoporoticbonerecoverybyahighlyboneinductivecalciumphosphatepolymerinducedliquidprecursor
AT changyushao osteoporoticbonerecoverybyahighlyboneinductivecalciumphosphatepolymerinducedliquidprecursor
AT biaojin osteoporoticbonerecoverybyahighlyboneinductivecalciumphosphatepolymerinducedliquidprecursor
AT zhaomu osteoporoticbonerecoverybyahighlyboneinductivecalciumphosphatepolymerinducedliquidprecursor
AT nicoajmsommerdijk osteoporoticbonerecoverybyahighlyboneinductivecalciumphosphatepolymerinducedliquidprecursor
AT ruikangtang osteoporoticbonerecoverybyahighlyboneinductivecalciumphosphatepolymerinducedliquidprecursor
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