Manufacturing Low-Fat Processed Cheese Using Chickpea Proteins as a Fat Substitute and Studying Its Physicochemical, Rheological, and Sensory Quality Characteristics

Abstract

Background: Manufacturing processed cheese has many advantages compared to natural cheese because the cost of refrigeration is lower during storage and transportation, and maintaining improved quality with minimal changes in the characteristics of the cheese during storage. It is possible to produce cheese with different intensity in flavor, functionality, and characteristics for different applications. Methods: This study was carried out in the laboratories of the College of Food Sciences, department of dairy science and technology at Al-Qasim green university, where full-fat cheddar cheese was mixed with full-fat soft cheese and used in the manufacture of cooked cheese treated with positive control + C, as well as mixing full-fat cheddar cheese with low-fat soft cheese to manufacture low-fat processed cheese, the negative control treatment was treated C-. Full-fat cheddar cheese was mixed with soft, low-fat cheese, with the addition of chickpea proteins as a fat replacers, with addition rates of 1.5, 3, and 4.5%, represented by treatments T3, T2, and T1, respectively. Results: The chemical tests included estimating the percentage of moisture, protein, fat, ash, carbohydrates, and total acidity, in addition to estimating the pH, while the rheological tests included hardness, adhesion, and springiness. A sensory evaluation of processed cheese parameters was also conducted. The results showed that the replacement treatments were characterized by a lower moisture content and protein percentage than the negative control treatment and close to the positive control treatment. The percentages of carbohydrates, ash, and acidity also increased in the replacement treatments, but the percentage of fats and pH decreased.