Papers by Keyword: Cheese

Abstract: Saliva have significant roles in maintaining the health of oral cavity. Salivary flow and composition of saliva play a critical role. Saliva also serves as buffer system. Increasing the salivary flow will increase salivary buffer capacity and pH of saliva. Salivary buffer capacity serves to protect the teeth from the acid that comes from food which is formed by acidogenic microorganisms. Milk and dairy are good diet for children that recommended by American Heart Association (AHA). Cheese as one of dairy mild can increase the salivary flow, that help keep the dental hygiene, and prevent bacteria sticking to the teeth. The aim of the study was to identify the effect of cheese and milk consumption on salivary buffer capacity of students aged 10-12 year at Sekolah Dasar Negeri 57 Banda Aceh. Salivary buffer capacity after consume cheese measured after chewing cheese 4 gram about 32 times whereas salivary buffer capacity after consume milk consumption was measured after gargling 25 ml milk 34 times. Salivary buffer capacity measured with Saliva-check buffer (GC). Results of Wilcoxon test showed significant differences (p<0.05) salivary buffer capacity after consumption of milk compared with cheese. Capacity buffer salivary after consumption of cheese higher than milk. In conclusion, cheese and milk consumption have effect on salivary buffer capacity. Salivary buffer capacity after cheese consumption is higher than after milk consumption.

Abstract: The value of Texture Profile Analysis (TPA) and microstructure of low- and full-fat cheese, fermented by L. acidophilus as starter culture and Str. Thermophilus as adjunct cultures, were changed after ripening for 90 d at 4 °C. The hardness, gumminess and chewiness of low-fat cheese were higher than that of full-fat cheese, while the springiness, cohesiveness and adhesiveness were less than that of full-fat cheese. The structure of low-fat cheese after ripening was more tightening and compact, while that of full-fat cheese had a lot of cavity.

Abstract: In this paper, the application of biomaterials soy protein and experiment starters effected the composition, proteolysis, and sensory properties of Cheddar-type cheese. The result showed the addition of soy protein increased the content of protein, decreased the content of fat, Experiment starters reached the similar proteolysis capability to commercial starters, and had significant influence on sensory characteristics of the adding soy milk cheese. Adding soy milk cheese used experiment starters had been successfully produced, and got the highest protein hydrolyze and sensory scores to Chinese consumers.

Abstract: Abstract. Low- and full-fat cheeses were fermented by Lactobacillus acidophilus and adjunct cultures Streptococcus thermophilus. After ripening for 90d at 4°C, the protein had been proteolysed in different degrees. The results showed that protein content of low- and full-fat cheese were all decreased after 90 d ripened, which the low-fat cheese was 40.45% and full-fat cheese was 28.68%. The soluble nitrogen contents at pH 4.6 (pH 4.6 SN) were 4.97% and 3.88%, and 12% (w/v) trichloracetic acid soluble nitrogen (12% TCA-SN) were 5.17% and 3.74% in low- and full-fat cheese respectively. After ripening for 90d at 4°C it was found that a part of protein in cheese were degraded into amino acids determined by automatic amino acid analyzer, total amino acids contents in low- and full-fat cheese were 29.17 mg•100g-1 and 16.02 mg•100g-1, respectively.

Abstract: One kind of cheese kneading experiment test rig was designed, which can imitates artificial kneading movement. Response surface method was used to enhance the performance of the machine. It was investigated that the influence of crank rolling velocity, crank length and crank angle on kneading quality and efficiency. The results show that factors influence the working efficiency list in order as follows: the crank rolling velocity, the angle between a connecting bar and a kneading bar, the crank length. The best combination of optimised parameters are: the crank rolling velocity is 62r/min, the crank length is 28mm, the angle between a connecting bar and a kneading bar is 125°.

Abstract: Low- and full-fat cheeses were fermented by Lactobacillus acidophilus and adjunct cultures Streptococcus thermophilus. After ripening for 90d at 4°C, the main flavor substances were determined by gas chromatograph. The results showed that more than 28 main flavor components were founded in full-fat cheese, and at least 19 were founded in low-fat cheese. In low-fat cheese, there was a higher content of 9-(Z)- octadecenoic acid and 10-hydroxy-octanoic acid methyl ester, which their relative mass fraction were 19.20% and 18.79% respectively. In full-fat cheese, there was a higher content of hexadecanoic acid methyl ester and 9-Octadecenoic acid(Z)-methyl ester, which their relative mass fraction were 24.27%and 23.37% respectively.