Aromatic profile and sensory characterisation of ultrasound treated cranberry juice and nectar

Jambrak, Anet Režek; Šimunek, Marina; Petrović, Marinko; Bedić, Helena; Herceg, Zoran; Juretić, Hrvoje

doi:10.1016/j.ultsonch.2016.11.027

Cited by 58 publications

(58 citation statements)

References 50 publications

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“…For sensory values, statistically significant differences for sensory properties are for A1.11 (120 µm, 9 min, 20 °C) for taste difference and A1.15 (90 µm, 9 min, 40 °C) for aroma values. Deterioration effect (sensorial) is most often higher if ultrasound amplitude is higher and treatment time is longer , . Odour values are better for A1.5 (120 µm, 6 min, 40 °C) than for the untreated one.…”

Section: Resultsmentioning

confidence: 99%

“…The designs were based on the central composite design, face‐centred design characteristic with two centre points. The total number of experiments of the designs N can be calculated as follows:

N = N_{i} + N_{o} + N_{j}

where N i = 2 n is the number of experiments (2 3 = 8), N o is the number of centre points and N j = 2 × n (2 × 3 = 6) is the number of star points . The design matrix for the experiment and the regression model proposed for the response is as follows:

Y = β_{0} + \sum_{i = 1}^{n} β_{i} X_{i} + \sum_{i = 1}^{n} β_{ii} X_{i}^{2} + \sum_{i < j}^{n} β_{ij} X_{i} X_{j}

where β 0 is the value of the fixed response at the central point of the experiment, which is the point (0, 0, 0); β i , β ii and β ij are the linear, quadratic and cross‐product coefficients respectively.…”

Section: Methodsmentioning

confidence: 99%

“…A trained 10‐member panel consisting of researchers from the University of Zagreb participating in the research was used to evaluate the quality of juices. They evaluated the samples for the sensory characteristics of taste, odour, aroma and colour (Table ) , , . For taste and aroma, 1 was the lowest and 6 was the highest score; for odour and colour, 1 was the lowest and 4 was the highest score.…”

Section: Methodsmentioning

confidence: 99%

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Analysis of apple beverages treated with high‐power ultrasound: a quality function deployment approach

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Section: Resultsmentioning

confidence: 99%

N = N_{i} + N_{o} + N_{j}

Y = β_{0} + \sum_{i = 1}^{n} β_{i} X_{i} + \sum_{i = 1}^{n} β_{ii} X_{i}^{2} + \sum_{i < j}^{n} β_{ij} X_{i} X_{j}

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Analysis of apple beverages treated with high‐power ultrasound: a quality function deployment approach

et al. 2017

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“…Cranberry is an especially rich and heterogenic source of phytochemical substances. More than 150 individual phytochemical substances that demonstrate the high biological activity, functional properties and treating-prophylactic effect, are revealed in it [10][11].…”

Section: Review Of the Problemmentioning

confidence: 99%

Research of Cranberry Main Indicators of Chemical Composition and Its Processing Products

Khomych

Matsuk

Nakonechna

et al. 2017

EUREKA: Life Sciences

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It is well–known that cranberry is an especially rich and heterogenic source of phytochemical substances. Modern technologies allow to produce food products of wild fruits and berries, but they use their diverse and useful chemical composition insufficiently. The aim of the work was in studying features of the chemical composition and content of biologically active substances in cranberries, harvested at the territory of Ukraine, and the influence of processing technologies of cranberry on main indicators of its chemical composition at producing juices. It was established, that the maximal extraction of biologically active substances is possible at juices production using biocatalysis method, because the essential part of functional elements in the raw material is in the bound condition and is a base of cellular walls that is why it is expedient to disturb nativity and integrity of these natural biopolymers. There was experimentally grounded the influence of a processing technology on the quality of cranberry juice. There was studied the phenol composition of cranberry composition and influence of different ways of fermentolysis on PS extraction. It was confirmed by results of the study of the fraction composition of phenol substances, that their maximal extraction is achieved after the enzymatic processing of pulp and momentary heating to inactivate the effect of enzymatic preparations. It was proved, that enzymatic biocatalysis of cranberry pulp also favors the essential increase of the output of organic acids (lemon, apple, amber), sugars (fructose, glucose), sorbite polyalcohol and also phenol substances of cranberries. The mechanism of the enzymatic complex influence on cranberry pulp at fermentolysis was demonstrated. The use of products of cranberries processing at food products manufacturing will allow: to enrich the chemical composition, to compensate deviations of functional–technical properties of the raw material and to introduce resource–saving technologies. Based on the researches there were substantiated perspectives of using juices and marc of cranberry in different branches of the food industry: non–alcoholic, meat processing and at manufacturing products of the restaurant industry.

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“…Flavonoids and a full range of triterpene acids make cranberries a leader among products to be consumed in avitaminosis. Cranberry pectin forms solid compounds with heavy and radioactive metals and is excreted from the body [11]. Paper [12] shows that the regular use of cranberry products reduces the risk of gastric ulcer due to obstruction of the action of Helicobacter pylori bacteria.…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%

Study of the сhemical composition of cranberry and the use of berries in food technology

Khomych

Matsuk

Nakonechna

et al. 2017

EEJET

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Представлено дослідження хімічного скла-ду ягід журавлини. Визначено фракційний склад органічних кислот, цукрів та фенольних речовин, що містяться в продуктах переробки журавли-ни. Експериментально підтверджено позитивний вплив ферментативного каталізу на вилучення фенольних речовин та якість соку з журавлини. Встановлені раціональні умови проведення фер-ментативного каталізу. Запропоновано комплек-сну переробку ягід журавлини з використанням соку в технології фруктових соусів, а вичавок сокового виробництва -у технології безалкоголь-них напоїв та м'ясних паштетів Ключові слова: ферментні препарати, феноль-ні сполуки, леткі ароматичні речовини, журавли-на, сік, соус, напої, паштети Представлено исследование химического состава ягод клюквы. Определены фракционный состав органических кислот, сахаров и феноль-ных веществ, содержащихся в продуктах пере-работки клюквы. Экспериментально подтверж-дено положительное влияние ферментативного катализа на извлечение фенольных веществ и качество клюквенного сока. Установлены раци-ональные условия проведения ферментативного катализа. Предложена комплексная переработ-ка ягод клюквы с использованием сока в техно-логии фруктовых соусов, а выжимок соково-го производства -в технологии безалкогольних напитков и мясных паштетов Ключевые слова: ферментные препараты, фенольные соединения, летучие ароматические вещества, клюква, сок, соус, напитки, паштеты UDC 547.56:634.73

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Aromatic profile and sensory characterisation of ultrasound treated cranberry juice and nectar

Cited by 58 publications

References 50 publications

Analysis of apple beverages treated with high‐power ultrasound: a quality function deployment approach

Analysis of apple beverages treated with high‐power ultrasound: a quality function deployment approach

Research of Cranberry Main Indicators of Chemical Composition and Its Processing Products

Study of the сhemical composition of cranberry and the use of berries in food technology

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