ABSTRACT
The use of fruits and their by-products in food has dramatically impacted the food industry due to the nutritional benefits and the technological and sensory effects of food matrices. Therefore, this research aimed to evaluate the effects of adding cupuassu (Theobroma grandiflorum) pulp and flour on fermented milk beverages' physicochemical, microbial, and sensory properties during refrigerated storage (0, 7, 14, 21, and 28 days). Twelve formulations were realized with different percentages of cupuassu pulp (0, 5, 7.5, and 10% w/v) and flour (0, 1.5, and 3% w/v). The treatments with 3% cupuassu flour presented the highest percentages of protein, fat, fiber, and carbohydrates, compared with the samples containing pulp. On the other hand, the addition of pulp increased water retention capacity and color parameters (L*, a*, b*, and C*) and decreased pH and syneresis on day 0 of storage. During storage, the samples with pulp showed increases in pH values, consistency index, and apparent viscosity. In comparison, cupuassu flour addition decreased syneresis values and increased L* and b* during storage, as did pulp. In addition, sample HPHF (10% pulp and 3% cupuassu flour), based on just-about-right, penalty, and check-all-that-apply analyses, improved some sensory attributes of the fermented milk beverage, such as brown color, acid taste, bitter taste, cupuassu flavor, and firm texture. It can be concluded that cupuassu pulp and flour addition improves the physicochemical and sensory quality of fermented milk beverages and can provide nutritional value to the product.
ABSTRACT
The search for technological applications for oils has been growing largely due to their potential nutritional and economic applications. Encapsulation makes it possible to reduce the disadvantages of oils, such as physical instability or thermodynamics, or to improve their technological properties, enabling their use in various industrial areas. Nanoencapsulated oils have the potential to improve oil bioavailability and achieve controlled release and are able to target bioactive compounds with greater precision than microencapsulated oils. The present study aims to evaluate the primary characteristics and profiles of the technological prospection of oil nanoparticles. This technology foresight study investigates the patenting activity and the academic literature to map out the technological progress and difficulties in the area of nanoencapsulation. Exponential growth in patent filing was noted with a peak in 2017, with China filing the highest number of patents. Regarding the area of application, the food industry was most common followed by the pharmaceutical industry. The most commonly used terms in patent documents on the subject were nanoemulsion and nanoparticle. The most commonly used oil, technique, wall materials and emulsifiers were soybean oil, emulsification, chitosan and lecithin, and Span 80, Tween 80 and Tween 40, respectively. The obtained articles were typically patent documents. The main depositor was Jiangnan University, and most inventors filed the same number of patent documents. Nanoencapsulation of oils has many known advantages that have been widely published in the literature and used by industry. There is a trend in the growth of patent document deposits and related scientific publications, indicating that many innovations have been made, highlighting the importance of oil nanoencapsulation.
