Harshad M. Mandge scite author profile

Multigrain blends of wheat, mungbean, sorghum, barley, corn (50:20:15:10:5) and flaxseeds @ 1% were processed by instantization (cooking) treatments to produce instant multigrain porridge. Cooking treatment involved three processing steps, Soaking (A: Soaked for 5 h at 50 °C, B: Soaked for 3.5 h at 65 °C), Steaming at 15 psi for 10, 15, 20 min. and drying at 40 °C. Quality evaluation (physical, textural and sensory) of multigrain porridge was used as criteria to select the best processing condition for instantization. Per cent water absorption of grains increased significantly with increase in soaking time/temperature. Complete gelatinization of starch with no stickiness in cooked grains was obtained at 65 °C/3.5 h (soaking) followed by steaming (15 psi/15 min). The results suggest that multigrain blends can be instantized into an acceptable and nutritional, traditional breakfast food (porridge). The multigrain porridge given soaking treatment at 65 °C/3.5 h and steaming treatment for 20 min was having better physical and sensory properties.

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Optimizing microencapsulation of nisin with sodium alginate and guar gum

Narsaiah

Jha

Wilson

et al. 2012

J Food Sci Technol

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Nisin is a widely used bacteriocin active against gram positive bacteria and is also reported to be active against some gram negative bacteria. Incorporation of nisin into food systems is another challenge as directly added nisin is prone to inactivation by food constituents. Encapsulation of nisin has been done so far in liposomes which is rather an expensive technology involving multiple processes. Other cost effective alternatives with good encapsulation efficiency and better control release properties are sought. Alginate is useful as a matrix for entrapment of bioactive compounds. Present study was aimed at optimizing conditions for microencapsulation of nisin using calcium alginate as primary wall material and guar gum as filler at different air pressures using response surface methodology. The optimum conditions were: sodium alginate concentration (2 % w/v), guar gum concentration (0.4 % w/v), and air pressure (0.5 bar gauge). The encapsulation efficiency of nisin in microcapsules produced under optimal conditions was 36.65 %.

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Pediocin-Loaded Nanoliposomes and Hybrid Alginate–Nanoliposome Delivery Systems for Slow Release of Pediocin

et al. 2012

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Optimization of Microcapsule Production by Air Atomization Technique using Two-Fluid Nozzle

et al. 2014

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Harshad M. Mandge

Effect of bacteriocin-incorporated alginate coating on shelf-life of minimally processed papaya (Carica papaya L.)

Instant multigrain porridge: effect of cooking treatment on physicochemical and functional properties

Optimizing microencapsulation of nisin with sodium alginate and guar gum

Pediocin-Loaded Nanoliposomes and Hybrid Alginate–Nanoliposome Delivery Systems for Slow Release of Pediocin

Optimization of Microcapsule Production by Air Atomization Technique using Two-Fluid Nozzle

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