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Chair-side surface treatment method for inducing hydrophilicity in titanium dental implant
ÀÌÁ¤È¯, Àü¼ö°æ, ÀÌÇØÇü,
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ÀÌÁ¤È¯ ( Lee Jung-Hwan ) - ´Ü±¹´ëÇб³ Á¶Á÷Àç»ý°øÇבּ¸¼Ò
Àü¼ö°æ ( Jun Soo-Kyung ) - ´Ü±¹´ëÇб³ Ä¡°ú´ëÇÐ Ä¡°ú»ýüÀç·áÇб³½Ç
ÀÌÇØÇü ( Lee Hae-Hyoung ) - ´Ü±¹´ëÇб³ Ä¡°ú´ëÇÐ Ä¡°ú»ýüÀç·áÇб³½Ç
KMID : 0362720160540120985
Abstract
Titanium (Ti) has been widely used for dental implant due to great biocompatibility and bonding ability against natural alveolar bone. A lot of titanium surface modification has been introduced in dentistry and, among them, methods to introduce micro/nanoroughened surface were considered as clinically approved strategy for accelerating osseointegration of Ti dental implant. To have synergetic effect with topography oriented favors in cell attachment, chair-side surface treatment with reproducibility of micro/nano-topography is introduced as next strategy to further enhance cellular functionalities. Extensive research has been investigated to study the potential of micro/nano-topography preserved chair-side surface treatment for Ti dental implant. This review will discuss ultraviolet, low level of laser therapy and non-thermal atmospheric pressure plasma on Ti dental implant with micro/nano-topography as next generation of surface treatment due to its abilities to induce super-hydrophilicity or biofunctionality without change of topographical cues.
Å°¿öµå
chair-side surface treatment; hydrophilicity; titanium dental implant; ultraviolet; low level of laser therapy; non-thermal atmospheric pressure plasma
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