喷雾干燥的嘉宝果假种皮提取物的特性以及β-胡萝卜素和番茄红素的估计保质期
Characterization of spray-dried Gac aril extract and estimated shelf life of β-carotene and lycopene.
作者信息
Thumthanaruk Benjawan, Laohakunjit Natta, Chism Grady W
机构信息
Department of Agro-Industrial, Food and Environmental Technology, Faculty of Applied Science, King Mongkut's University of Technology North Bangkok, Bangkok, Thailand.
School of Bioresources and Technology, King Mongkut's University of Technology Thonburi, Bangkok, Thailand.
出版信息
PeerJ. 2021 Mar 24;9:e11134. doi: 10.7717/peerj.11134. eCollection 2021.
BACKGROUND
Fresh Gac () fruit is rich in carotenoids, mainly β-carotene and lycopene, but these compounds are sensitive to degradation. Spray drying is used to encapsulate the sensitive β-carotene and lycopene with different materials. Only a few reports of using highly branched cyclodextrin (HBCD) have been published. Additionally, studies of β-carotene and lycopene losses in Gac powders during storage are limited. Therefore, the encapsulation of β-carotene and lycopene of Gac aril with HBCD by spray drying at different inlet temperatures were compared. The shelf life of β-carotene and lycopene during storage was also calculated.
METHODS
The fresh Gac aril was separated and kept frozen before the experiment. Gac aril and water (1:5 w/v) were centrifuged at 8,000 g at 20 °C for 15 min using a high-speed centrifuge (Sorval; Dupont, Wilmington, DE, USA). The supernatant was filtered twice and concentrated until 15° Brix using a rotary evaporator (R-200; Buchi, Flawil, Switzerland). The mixture of concentrated aril extract and highly branched cyclodextrin at 5% (w/v) was dried at three inlet temperatures by a spray dryer (B-290; Buchi, Flawil, Switzerland) with drying air flow rate, compressor air pressure, and feed rate set at 473 L/h, 40 m/h, and 3 mL/min, respectively . The physicochemical qualities, particle image morphology, and estimated storage time of β-carotene and lycopene were determined.
RESULTS
Increased inlet temperatures of spray drying decreased the bulk density, β-carotene, and lycopene content of spray-dried powders significantly. The color values of dried powders had significant differences in yellowness (b*) and chroma, but not lightness (L*), redness (a*), and hue when the inlet temperature increased from 160 °C to 180 °C. The maximum reduction of β-carotene and lycopene observed during storage at 55 °C was 90.88% and 91.11% for 33 and 18 days. For β-carotene, the estimated shelf-life (retention of 50% of β-carotene) was 9.9, 48.4, and 91.6 days at 25 °C, 10 °C, and 4 °C. The shelf-life of lycopene was 26, 176, and 357 days at 25 °C, 10 °C, and 4 °C, respectively. HBCD could be potentially used as an encapsulating agent in spray-dried Gac aril, but the shelf-life of β-carotene and lycopene needs to be improved to be useful as a food ingredient.
背景
新鲜罗汉果()果实富含类胡萝卜素,主要是β - 胡萝卜素和番茄红素,但这些化合物对降解敏感。喷雾干燥用于用不同材料包封敏感的β - 胡萝卜素和番茄红素。关于使用高度支化环糊精(HBCD)的报道很少。此外,罗汉果粉末在储存期间β - 胡萝卜素和番茄红素损失的研究有限。因此,比较了在不同进口温度下通过喷雾干燥用HBCD包封罗汉果假种皮中的β - 胡萝卜素和番茄红素的情况。还计算了储存期间β - 胡萝卜素和番茄红素的保质期。
方法
在实验前将新鲜罗汉果假种皮分离并冷冻保存。使用高速离心机(Sorval;杜邦公司,美国特拉华州威尔明顿)在20℃下以8000g离心罗汉果假种皮和水(1:5 w/v)15分钟。将上清液过滤两次,并用旋转蒸发仪(R - 200;瑞士布赫公司,弗拉维尔)浓缩至15°白利糖度。将浓缩的假种皮提取物与5%(w/v)的高度支化环糊精的混合物通过喷雾干燥器(B - 290;瑞士布赫公司,弗拉维尔)在三个进口温度下干燥,干燥空气流速、压缩空气压力和进料速率分别设定为473L/h、40m/h和3mL/min。测定了β - 胡萝卜素和番茄红素的理化性质、颗粒图像形态以及估计的储存时间。
结果
喷雾干燥进口温度升高显著降低了喷雾干燥粉末的堆积密度、β - 胡萝卜素和番茄红素含量。当进口温度从160℃升高到180℃时,干燥粉末的颜色值在黄度(b*)和色度上有显著差异,但在明度(L*)、红度(a*)和色调上没有差异。在55℃储存期间观察到的β - 胡萝卜素和番茄红素的最大减少量在33天和18天时分别为90.88%和91.11%。对于β - 胡萝卜素,在25℃、10℃和4℃下估计的保质期(保留50%的β - 胡萝卜素)分别为9.9天、48.4天和91.6天。番茄红素在25℃、10℃和4℃下的保质期分别为26天、176天和357天。HBCD有可能用作喷雾干燥罗汉果假种皮的包封剂,但β - 胡萝卜素和番茄红素的保质期需要提高才能用作食品成分。
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