H
Hala Zreiqat
Researcher at University of Sydney
Publications - 199
Citations - 9736
Hala Zreiqat is an academic researcher from University of Sydney. The author has contributed to research in topics: Bone regeneration & Bone sialoprotein. The author has an hindex of 52, co-authored 183 publications receiving 8210 citations. Previous affiliations of Hala Zreiqat include Australian Research Council & Shanghai Jiao Tong University.
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Journal ArticleDOI
Mechanisms of magnesium-stimulated adhesion of osteoblastic cells to commonly used orthopaedic implants.
Hala Zreiqat,C. R. Howlett,Andrew C.W. Zannettino,Peter J. Evans,G. Schulze-Tanzil,C. Knabe,Mehdi Shakibaei +6 more
TL;DR: It is concluded that Mg(2+) supplementation of bioceramic substrata may be a promising way to improve integration of implants in orthopaedic and dental surgery.
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The influence hydroxyapatite nanoparticle shape and size on the properties of biphasic calcium phosphate scaffolds coated with hydroxyapatite-PCL composites.
TL;DR: The developed composite scaffolds possessed superior physical, mechanical, elastic and biological properties rendering them potentially useful for bone tissue regeneration.
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The synergistic effect of hierarchical micro/nano-topography and bioactive ions for enhanced osseointegration
Wenjie Zhang,Guocheng Wang,Yan Liu,Xiaobing Zhao,Duohong Zou,Chao Zhu,Yuqin Jin,Qingfeng Huang,Jian Sun,Xuanyong Liu,Xinquan Jiang,Xinquan Jiang,Hala Zreiqat +12 more
TL;DR: Results suggest that the developed Sr-HT coatings have the potential for future use as coatings for orthopedic/dental and maxillofacial devices.
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The incorporation of strontium and zinc into a calcium-silicon ceramic for bone tissue engineering.
Hala Zreiqat,Yogambha Ramaswamy,Chengtie Wu,Angelo Paschalidis,Zufu Lu,B. W. James,Oliver Birke,Michelle M. McDonald,David G. Little,Colin R. Dunstan +9 more
TL;DR: In vivo, HT and Sr-HT produced distinct differences in the patterns of degradation of the materials, and their association with TRAP positive osteoclast-like cells with HT appearing more resistant compared to both Sr- HT and beta-TCP.
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Design and Fabrication of 3D printed Scaffolds with a Mechanical Strength Comparable to Cortical Bone to Repair Large Bone Defects.
TL;DR: A novel hexagonal architecture for a glass-ceramic scaffold is designed to fabricate an anisotropic, highly porous three dimensional scaffolds with a compressive strength of 110 MPa, which is 150 times greater than values reported for polymeric and composite scaffolds and 5 times greater for ceramic and glass scaffolds at similar porosity.