F. M. Assem scite author profile

Background. Calcium is an essential element for the growth, activity, and maintenance of the human body. Eggshells are a waste product which has received growing interest as a cheap and effective source of dietary calcium. Yogurt is a food which can be fortified with functional additives, including calcium. The aim of this study was to produce yogurt with a high calcium content by fortification with nano-sized eggshell powder (nano-ESP). Materials and methods. Nano-sized ESP was prepared from pre-boiled and dried eggshell, using a ball mill. Yogurt was prepared from cow's milk supplemented with 3% skimmed milk powder, and from buffalo's milk fortified with 0.1, 0.2 and 0.3% and 0.1, 0.3 and 0.5% nano-ESP respectively. Results. Electron microscopic transmission showed that the powder consisted of nano-sized crystalline structures (~10 nm). Laser scattering showed that particles followed a normal distribution pattern with z-average of 590.5 nm, and had negative zeta-potential of -9.33 ±4.2 mV. Results regarding changes in yogurt composition, acid development, calcium distribution, biochemical changes, textural parameters and sensory attributes have been presented and discussed. Conclusion. The addition of up to 0.3% nano-ESP made cow and buffalo high-calcium yogurts with an acceptable composition and quality. High-calcium yogurt may offer better health benefits, such as combating osteoporosis.

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Novel bionanocomposite materials used for packaging skimmed milk acid coagulated cheese (Karish)

Youssef

El‐Sayed

et al. 2018

International Journal of Biological Macromolecules

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Synthesis and evaluation of eco-friendly carboxymethyl cellulose/polyvinyl alcohol/CuO bionanocomposites and their use in coating processed cheese

et al. 2020

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Preparation and properties of probiotic concentrated yoghurt (labneh) fortified with conjugated linoleic acid

El-Salam

Hippen

El-Shafie

et al. 2011

Int J of Food Sci Tech

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Milk of high conjugated linoleic acid (CLA) level (1.25 g per 100 g milk fat) was produced by inclusion of fish oil and rousted soy bean in the ration of Holstein cows as compared to 0.55 g per 100 g milk fat in the milk of animals receiving control diet. Milk of normal (control) and high CLA content (treatment) was spray-dried. Labneh was made from 20 g L )1 reconstituted milk using 3 mL per 100 mL yoghurt starter and 2 mL per 100 mL of probiotic cultures of Lactobacillus casei or Lactobacillus acidophilus. The control (C) and high CLA (T) labneh were analysed chemically and microbiologically, and their viscosities were determined during cold storage for 15 days. The fat content of labneh of high CLA was less than that of the control, but the total solids (TS) were unaffected by the CLA level. Labneh made with Lb. acidophilus had lower TS and higher acidity, exopolysaccharides and acetaldehyde contents and viscosity than that made with the use of Lb. casei. Labneh from the different treatments retained high counts of the added probiotic (>10 8 cfu g )1 ) throughout the storage period. The storage period had significant effects on all parameters determined.

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F. M. Assem

Development of bionanocomposite materials and its use in coating of Ras cheese

The use of nano-sized eggshell powder for calcium fortification of cow?s and buffalo?s milk yogurts

Novel bionanocomposite materials used for packaging skimmed milk acid coagulated cheese (Karish)

Synthesis and evaluation of eco-friendly carboxymethyl cellulose/polyvinyl alcohol/CuO bionanocomposites and their use in coating processed cheese

Preparation and properties of probiotic concentrated yoghurt (labneh) fortified with conjugated linoleic acid

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