口腔材料器械杂志
口腔材料器械雜誌
구강재료기계잡지
CHINESE JOURNAL OF DENTAL MATERIALS AND DEVICES
2014年
2期
71-74,83
,共5页
种植牙%基台%粘接力%玻璃离子水门汀
種植牙%基檯%粘接力%玻璃離子水門汀
충식아%기태%점접력%파리리자수문정
Dental implant%Abutment%Adhesive force glass%Ionomer cement
目的:研究4种玻璃离子类水门汀对ITI种植系统标准颈粘接固位基台和金属内冠之间的粘接力。方法将10只金属内冠与10只I T I标准颈粘接固位基台分别使用以下4种水门汀进行交叉粘固:A组为玻璃离子水门汀(日本);B组为树脂加强型玻璃离子水门汀(美国);C组为暂时粘固用玻璃离子水门汀(日本);D组为玻璃离子水门汀(德国);粘固后测试并记录样本粘接力(N),同时观察并记录粘固界面的断裂模式,最后,对粘接力进行统计学处理。所有内冠和基台经清洗后重复使用。结果4种水门汀的粘接力及由大至小的排列顺序为C组(183.6±29.4) N>D组(153.4±36.2) N>B组(144.4±41.1) N>A组(109.9±25.7)N,其中C组的粘接力最高,A组的粘接力最低,A组显著低于其它3种水门汀(P<0.05)。对样本的断裂面观察显示,A组和D组样本断裂面发生在水门汀和基台表面之间,而B组和C组样本的断裂面则呈现混合断裂的模式。结论2种玻璃离子水门汀和树脂加强型玻璃离子水门汀都具有临床可接受的粘接力,而暂时粘固用玻璃离子水门汀因粘接力太大,不适用对种植牙冠进行暂时粘固。
目的:研究4種玻璃離子類水門汀對ITI種植繫統標準頸粘接固位基檯和金屬內冠之間的粘接力。方法將10隻金屬內冠與10隻I T I標準頸粘接固位基檯分彆使用以下4種水門汀進行交扠粘固:A組為玻璃離子水門汀(日本);B組為樹脂加彊型玻璃離子水門汀(美國);C組為暫時粘固用玻璃離子水門汀(日本);D組為玻璃離子水門汀(德國);粘固後測試併記錄樣本粘接力(N),同時觀察併記錄粘固界麵的斷裂模式,最後,對粘接力進行統計學處理。所有內冠和基檯經清洗後重複使用。結果4種水門汀的粘接力及由大至小的排列順序為C組(183.6±29.4) N>D組(153.4±36.2) N>B組(144.4±41.1) N>A組(109.9±25.7)N,其中C組的粘接力最高,A組的粘接力最低,A組顯著低于其它3種水門汀(P<0.05)。對樣本的斷裂麵觀察顯示,A組和D組樣本斷裂麵髮生在水門汀和基檯錶麵之間,而B組和C組樣本的斷裂麵則呈現混閤斷裂的模式。結論2種玻璃離子水門汀和樹脂加彊型玻璃離子水門汀都具有臨床可接受的粘接力,而暫時粘固用玻璃離子水門汀因粘接力太大,不適用對種植牙冠進行暫時粘固。
목적:연구4충파리리자류수문정대ITI충식계통표준경점접고위기태화금속내관지간적점접력。방법장10지금속내관여10지I T I표준경점접고위기태분별사용이하4충수문정진행교차점고:A조위파리리자수문정(일본);B조위수지가강형파리리자수문정(미국);C조위잠시점고용파리리자수문정(일본);D조위파리리자수문정(덕국);점고후측시병기록양본점접력(N),동시관찰병기록점고계면적단렬모식,최후,대점접력진행통계학처리。소유내관화기태경청세후중복사용。결과4충수문정적점접력급유대지소적배렬순서위C조(183.6±29.4) N>D조(153.4±36.2) N>B조(144.4±41.1) N>A조(109.9±25.7)N,기중C조적점접력최고,A조적점접력최저,A조현저저우기타3충수문정(P<0.05)。대양본적단렬면관찰현시,A조화D조양본단렬면발생재수문정화기태표면지간,이B조화C조양본적단렬면칙정현혼합단렬적모식。결론2충파리리자수문정화수지가강형파리리자수문정도구유림상가접수적점접력,이잠시점고용파리리자수문정인점접력태대,불괄용대충식아관진행잠시점고。
Objective The aim of this study was to evaluate the adhesive force of between ITI regular neck cementable abutments and cast crown copings with four glass ionomer cements. Methods 10 prefabricated cast copings and 10 ITI regular neck cementable abutments were cross-cemented with the following 4 luting ce-ments:a conventional glass ionomer cements as group A (Fuji I, GC, Japan), a resin modified glass ionomer ce-ments as group B (RelyX Luting, 3M ESPE, USA), a provisional glass ionomer cements as group C (Fuji Temp, GC, Japan) and a glass ionomer cements as group D(Ketac Cem Easymix, 3M ESPE, Germany). The cemented specimens were subjected to a debonding test, and then the adhesive force for each specimen was recorded, calcu-lated in Newton and analyzed with SPSS 16.0(n=10,α=0.05). Meanwhile, the fracture mode for each specimen was also recorded. The cast crown copings and the abutments were cleansed and reused. Results Adhesive forces for the 4 luting cements were ranked as follows:C (183.6 ±29.4N)>D(153.4±36.2N)>B(144.4±41.1N)>A (109.9±25.7N). Group C produced the highest adhesive force, while group A exhibited the lowest adhesive force, significantly lower than other three luting cements(P<0.05). The fracture surface observation shows that group A and D fractured at the interface of cement and abutments, while group B and C exhibited as“mixed fracture”mode. Conclusion Both conventional glass ionomer cement and resin-modified glass ionomer cements possessed the clinically acceptable adhesive forces, while the provisional glass ionomer luting cements was not suitable for the provisional cementation of implant crowns due to the too high adhesive force.