Title :
Helical Rosettee Nanotubes for bone tissue engineering applications
Author :
Zhang, Lijie ; Ramsaywack, Sharwatie ; Fenniri, Hicham ; Webster, Thomas J.
Author_Institution :
Brown Univ., Providence
Abstract :
The objective of the current in vitro study was to create an injectable bone-like tissue engineering scaffold based on the novel self-assembled properties of helical rosette nanotubes (HRNs) in order to effectively improve bone growth at bone defect sites. HRNs with different functional groups can present unique surface chemistries which play a crucial role in improving osteoblast (bone forming cell) adhesion and subsequent functions. Since HRNs are very soft organic nanotubes, a hydrogel can strengthen such a 3D matrix. The preliminary results of this study show that HRNs have better cytocompatibility and osteoblast (bone forming cell) adhesion when mixed with hydrogels even at a very low HRN-K1 concentration of 0.001 mg/ml.
Keywords :
adhesion; biomedical materials; bone; cellular biophysics; nanobiotechnology; nanotubes; polymer gels; self-assembly; tissue engineering; bone defect sites; bone forming cell; bone growth; bone tissue engineering; cytocompatibility; helical rosettee nanotubes; hydrogel; osteoblast adhesion; self-assembly; tissue scaffold; Adhesives; Biological materials; Bone tissue; Cells (biology); Chemistry; Minimally invasive surgery; Nanotubes; Orthopedic surgery; Self-assembly; Tissue engineering;
Conference_Titel :
Bioengineering Conference, 2007. NEBC '07. IEEE 33rd Annual Northeast
Conference_Location :
Long Island, NY
Print_ISBN :
978-1-4244-1033-0
Electronic_ISBN :
978-1-4244-1033-0
DOI :
10.1109/NEBC.2007.4413369
