The effects of pressure and number of passes upon Biji paste properties using a high-pressure homogenizer (HPH)were investigated. A hydrocolloid of Biji was processed with a HPH at 15,000 or 25,000 psi and with 1 or 2 passes.The hydrocolloid was assessed for dietary fiber, protein, sugar content, water absorption index (WAI), water solu-bility index (WSI), rheological character, and distribution stability. As pass number and pressure increased, solubledietary fiber, sugar content, WAI, and distribution stability also increased, whereas particle size decreased. As aresult, processing at 25,000 psi and 2 passes is considered as a proper treatment for processing quality. In breadmaking with HPH treated Biji, volume, hardness, and cohesiveness of bread increased, while density decreased. Theoptimum processing condition for bread with HPH treated Biji was determined by a design expert program. Nineexperimental points were selected, and wheat flour (91-95%) and HPH Biji (5-9%) were chosen as the independentvariables. The optimum formulation of bread using the numerical analysis was set at 94.2% wheat flour and 5.8%HPH Biji with a 0.725 desirability value.

This study was carried out to examine the effect on the contents of dietary fiber, mechanical properties, and sensory quality of bread contained with 10% of high-fiber Camellia (Camellia japonica L.) seed flour. Bread added by dietary fiber was the contents of moisture, protein and ash higher than control bread, while the contents of lipid lower than that of control bread. The high-fiber with Camellia seed flour contained 8.6% soluble dietary fiber, 43.7% insoluble dietary fiber, and 52.3% total dietary fiber. The ratio of insoluble dietary fiber/soluble dietary fiber in the high-fiber with Camelia seed flour was 5 times. Bread with the addition of dietary fiber contained 6.9% total dietary fiber. With the addition of dietary fiber, water absorption , mixing time loaf weight, and hardness increased, but the loaf volume decreased . The sensory quality on bread added by dietary fiber was somewhat low in color, appearance, crumb texture, mouthfeel, flavor and overall preference was higher than that of control bread.