Volume 6, Issue 12(Suppl)

Dentistry

ISSN: 2161-1122, an open access journal

Page 54

Notes:

American Dental Congress 2016

December 08-10, 2016

conferenceseries

.com

19

th

American Dental Congress

December 08-10, 2016 Phoenix, USA

Evaluation of mechanical properties and cell response of glass infiltrated zirconia after sandblasting

Nguyen Thi Phuong Thao

Chonnam National University, South Korea

Z

irconia surface modification techniques, especially, the glass infiltrated zirconia method is one of the most effective methods

of producing a composite with more desirable properties than the individual components. The aim of this

in vitro

study was to

evaluate the mechanical properties and initial cell response of glass infiltrated zirconia ceramics before and after sandblasting. One

hundred zirconia specimens were divided into the following 4 groups, according to the surface treatments: untreated zirconia (control),

sandblasted zirconia (S), glass infiltrated zirconia (G), and sandblasted glass infiltrated zirconia (GS). Surface roughness, biaxial

flexural strength, hardness, osteoblast cells attachment and proliferation were evaluated. One-way analysis of variance (ANOVA) and

Tukey’s HSD pair-wise multiple comparisons were performed on all the tests. The GS group showed a slight decrease in hardness,

but revealed the improvement of flexural strength (686.2 MPa). After sandblasting, the GS group had the highest surface roughness

(Ra=1.24 µm) compared to the other groups, and supported an enhanced osteoblast cells response over the untreated zirconia. FE-

SEM images of the glass infiltrated zirconia surface microstructure showed a smooth surface before sandblasting. After sandblasting,

the new surface exhibited roughness with the formation of shallow irregularities. The results of this study indicated the beneficial

influence of graded structures in the design of zirconia implants. The glass infiltrating process could be used as a promising method

to enhance the mechanical properties with better surface roughness of zirconia implants for osteoblast cells response. Limitations of

this study are related to the experimental conditions which may differ from the actual clinical situation.

Biography

Nguyen Thi Phuong Thao was graduated from Viet Bac High School in Langson, Viet Nam in September 2008 and from Guangxi Medical University, College of Stomatology

at Nanning, China with a Bachelor of Science in Dentistry in September 2014. In 2014, she has received a Research Scholarship granted by the National Research

Foundation of Korea and remained at Chonam National University to complete her Master of Science degree in Dentistry in August 2016.

ngpthao@hotmail.com

Nguyen Thi Phuong Thao, Dentistry 2016, 6:12(Suppl)

http://dx.doi.org/10.4172/2161-1122.C1.008