不同牛奶配方对牙菌斑pH值的影响。
The effect of different milk formulas on dental plaque pH.
作者信息
Danchaivijitr A, Nakornchai S, Thaweeboon B, Leelataweewud P, Phonghanyudh A, Kiatprajak C, Surarit R
机构信息
Department of Pediatric Dentistry, Faculty of Dentistry, Mahidol University, Bangkok, Thailand.
出版信息
Int J Paediatr Dent. 2006 May;16(3):192-8. doi: 10.1111/j.1365-263X.2006.00722.x.
OBJECTIVES
The purposes of this study were (1) to investigate the effect of different milk formulas on dental plaque pH after rinsing with these three categories, type of protein-based formulas (milk-based, soy-based, protein hydrolysate), type of sugar (only lactose, lactose and other sugars, only non-milk extrinsic sugars), and casein ratio (high and low casein), and (2) to observe organic acids formed by different milk formulas.
METHODS
Baseline plaque pH and plaque pH at 2, 5, 10, 15, 20, 25, 30, and 60 min after rinsing with milk formulas were recorded by a combination electrode in 14 healthy subjects. Deionized water and 10% sucrose were used as a negative and positive control. The plaque sample was also analysed to identify and quantify the organic acids using a high-performance liquid chromatography. Parameters including minimum pH, maximum pH drop, and area under curve were compared by RMANOVA and paired t-test.
RESULTS
The minimum pH was not significantly different among different protein-based formulas, whereas, the maximum plaque pH drop of soy-based and milk-based formula was significantly higher than that produced by protein hydrolysate formula (P=0.022 and 0.03, respectively). Area under curve produced by soy-based and milk-based formulas was significantly larger than that created by protein hydrolysate formula (P=0.025 and<0.001, respectively). Milk formulas containing only lactose caused significantly less plaque pH change in minimum pH (P<0.001), maximum pH drop (P=0.003), and area under curve (P<0.001) when compared with formulas containing lactose and other sugar but not with special formulas containing only non-milk extrinsic sugar. Similarly, special formulas containing non-milk extrinsic sugar produced significantly lower minimum pH and smaller area under curve than formulas containing lactose and other sugar did (P=0.044 and 0.009, respectively). No different results were found between high and low casein follow-on formulas. Lactic acid was produced more by rinsing with formulas containing lactose and other sugars than that produced by formulas containing only lactose.
CONCLUSIONS
This study suggests that milk formulas containing added other sugars tend to cause a decrease in plaque pH.
目的
本研究的目的是:(1)调查用三类不同的牛奶配方奶(基于蛋白质的配方奶类型:牛奶基、大豆基、蛋白质水解物)、糖的类型(仅乳糖、乳糖和其他糖类、仅非牛奶外源性糖类)以及酪蛋白比例(高酪蛋白和低酪蛋白)漱口后对牙菌斑pH值的影响;(2)观察不同牛奶配方奶形成的有机酸。
方法
用组合电极记录14名健康受试者在用牛奶配方奶漱口后基线菌斑pH值以及2、5、10、15、20、25、30和60分钟时的菌斑pH值。用去离子水和10%蔗糖作为阴性和阳性对照。还用高效液相色谱法分析菌斑样本以鉴定和定量有机酸。通过重复测量方差分析和配对t检验比较包括最低pH值、最大pH值下降和曲线下面积等参数。
结果
不同基于蛋白质的配方奶之间最低pH值无显著差异,然而,大豆基和牛奶基配方奶的最大菌斑pH值下降显著高于蛋白质水解物配方奶产生的下降(分别为P = 0.022和0.03)。大豆基和牛奶基配方奶产生的曲线下面积显著大于蛋白质水解物配方奶产生的面积(分别为P = 0.025和<0.001)。与含有乳糖和其他糖类的配方奶相比,仅含乳糖的牛奶配方奶在最低pH值(P<0.001)、最大pH值下降(P = 0.003)和曲线下面积(P<0.001)方面引起的菌斑pH值变化显著更小,但与仅含非牛奶外源性糖类的特殊配方奶相比无差异。同样,含非牛奶外源性糖类的特殊配方奶产生的最低pH值显著更低,曲线下面积比含乳糖和其他糖类的配方奶更小(分别为P = 0.044和0.009))。高酪蛋白和低酪蛋白后续配方奶之间未发现不同结果。与仅含乳糖的配方奶相比,用含乳糖和其他糖类的配方奶漱口产生的乳酸更多。
结论
本研究表明,添加了其他糖类的牛奶配方奶往往会导致菌斑pH值降低。
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