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Nanoscale-Textured Tantalum Surfaces for Mammalian Cell Alignment.


ABSTRACT: Tantalum is one of the most important biomaterials used for surgical implant devices. However, little knowledge exists about how nanoscale-textured tantalum surfaces affect cell morphology. Mammalian (Vero) cell morphology on tantalum-coated comb structures was studied using high-resolution scanning electron microscopy and fluorescence microscopy. These structures contained parallel lines and trenches with equal widths in the range of 0.18 to 100 ?m. Results showed that as much as 77% of adherent cell nuclei oriented within 10° of the line axes when deposited on comb structures with widths smaller than 10 ?m. However, less than 20% of cells exhibited the same alignment performance on blanket tantalum films or structures with line widths larger than 50 ?m. Two types of line-width-dependent cell morphology were observed. When line widths were smaller than 0.5 ?m, nanometer-scale pseudopodia bridged across trench gaps without contacting the bottom surfaces. In contrast, pseudopodia structures covered the entire trench sidewalls and the trench bottom surfaces of comb structures with line-widths larger than 0.5 ?m. Furthermore, results showed that when a single cell simultaneously adhered to multiple surface structures, the portion of the cell contacting each surface reflected the type of morphology observed for cells individually contacting the surfaces.

SUBMITTER: Moussa HI 

PROVIDER: S-EPMC6187670 | biostudies-literature | 2018 Sep

REPOSITORIES: biostudies-literature

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Nanoscale-Textured Tantalum Surfaces for Mammalian Cell Alignment.

Moussa Hassan I HI   Logan Megan M   Wong Kingsley K   Rao Zheng Z   Aucoin Marc G MG   Tsui Ting Y TY  

Micromachines 20180913 9


Tantalum is one of the most important biomaterials used for surgical implant devices. However, little knowledge exists about how nanoscale-textured tantalum surfaces affect cell morphology. Mammalian (Vero) cell morphology on tantalum-coated comb structures was studied using high-resolution scanning electron microscopy and fluorescence microscopy. These structures contained parallel lines and trenches with equal widths in the range of 0.18 to 100 μm. Results showed that as much as 77% of adheren  ...[more]

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