Nestle Research Centre, Vers-Chez-Les-Blanc, Switzerland.
Division of Human Nutrition, Wageningen University, The Netherlands.
Appetite. 2013 Jan;60(1):208-219. doi: 10.1016/j.appet.2012.09.015. Epub 2012 Sep 24.
The modern food supply is often dominated by a large variety of energy dense, softly textured foods that can be eaten quickly. Previous studies suggest that particular oral processing characteristics such as large bite size and lack of chewing activity contribute to the low satiating efficiency of these foods. To better design meals that promote greater feelings of satiation, we need an accurate picture of the oral processing characteristics of a range of solid food items that could be used to replace softer textures during a normal hot meal.
The primary aim of this study was to establish an accurate picture of the oral processing characteristics of a set of solid savoury meal components. The secondary aim was to determine the associations between oral processing characteristics, food composition, sensory properties, and expected satiation.
In a within subjects design, 15 subjects consumed 50 g of 35 different savoury food items over 5 sessions. The 35 foods represented various staples, vegetables and protein rich foods such a meat and fish. Subjects were video-recorded during consumption and measures included observed number of bites, number of chews, number of swallows and derived measures such as chewing rate, eating rate, bite size, and oral exposure time. Subjects rated expected satiation for a standard 200 g portion of each food using a 100mm and the sensory differences between foods were quantified using descriptive analysis with a trained sensory panel. Statistical analysis focussed on the oral processing characteristics and associations between nutritional, sensory and expected satiation parameters of each food.
Average number of chews for 50 g of food varied from 27 for mashed potatoes to 488 for tortilla chips. Oral exposure time was highly correlated with the total number of chews, and varied from 27 s for canned tomatoes to 350 s for tortilla chips. Chewing rate was relatively constant with an overall average chewing rate of approximately 1 chew/s. Differences in oral processing were not correlated with any macronutrients specifically. Expected satiation was positively related to protein and the sensory attributes chewiness and saltiness. Foods that consumed in smaller bites, were chewed more and for longer and expected to impart a higher satiation.
This study shows a large and reliable variation in oral exposure time, number of required chews before swallowing and expected satiation across a wide variety of foods. We conclude that bite size and oral-sensory exposure time could contribute to higher satiation within a meal for equal calories.
现代食品供应通常以大量能量密集、质地柔软的食物为主,这些食物可以快速食用。先前的研究表明,特定的口腔加工特性,如较大的咀嚼块和缺乏咀嚼活动,会降低这些食物的饱腹感效率。为了更好地设计能促进更强饱腹感的膳食,我们需要准确了解一系列固体食物的口腔加工特性,这些食物可在正常的热餐中替代质地较软的食物。
本研究的主要目的是准确描述一组固体咸味餐食成分的口腔加工特性。次要目的是确定口腔加工特性、食物成分、感官特性和预期饱腹感之间的关联。
在一项单因素设计中,15 名受试者在 5 次试验中分别摄入 50 克 35 种不同的咸味食物。这 35 种食物代表了各种主食、蔬菜和富含蛋白质的食物,如肉类和鱼类。在食用过程中对受试者进行视频记录,测量指标包括观察到的咀嚼次数、咀嚼次数、吞咽次数以及衍生的咀嚼率、进食率、咀嚼块大小和口腔暴露时间等指标。受试者使用 100 毫米长的标尺对每种食物的标准 200 克分量进行预期饱腹感评分,并使用经过训练的感官小组进行描述性分析来量化食物之间的感官差异。统计分析集中在每种食物的口腔加工特性以及营养、感官和预期饱腹感参数之间的关联上。
50 克食物的平均咀嚼次数从土豆泥的 27 次到玉米片的 488 次不等。口腔暴露时间与总咀嚼次数高度相关,从罐装番茄的 27 秒到玉米片的 350 秒不等。咀嚼率相对稳定,平均咀嚼率约为 1 次/秒。口腔加工差异与任何特定的宏量营养素均无相关性。预期饱腹感与蛋白质以及咀嚼感和咸度等感官属性呈正相关。食用时被切成较小的块状、咀嚼更多次且时间更长的食物,预期会产生更高的饱腹感。
本研究表明,在广泛的食物种类中,口腔暴露时间、吞咽前所需咀嚼次数和预期饱腹感存在很大且可靠的差异。我们得出结论,咀嚼块大小和口腔感官暴露时间可能会在摄入相同卡路里的情况下提高膳食的饱腹感。
