Mushrooms are well known to be healthy because they are low in calories, fat and cholesterol level but rich in vitamin and other essential nutrients. The grey oyster mushroom, Pleurotus sajor-caju (PSC), is a common edible mushroom and is now grown commercially around the world for food and food products. The ability of PSC in changing physical characteristics and sensory properties of beef patty formulated with this fungus were investigated. Result shows beef patty added with 50% ground PSC recorded the highest concentration total dietary fibre (TDF) at 9.95 g/100g compared to beef patty containing 25% of PSC (7.00 g/100g) and control (3.90g/100g). Beef which was replaced with 25% of PSC, recorded the highest cooking yield (76.62%) and moisture retention (59.80%) respectively. On the other physical traits, beef patty containing 25%
PSC recorded fat retention at 89.04% and was not significant (P
Sufficient intakes of functional foods containing significant amount of dietary fibre in daily diet are beneficial to human health especially in preventing the prevalence of non-communicable diseases (NCDs). In this study, young corn powder (YCP) was added into Malaysian star cake (Baulu Cermai) to replace wheat flour (WF) partially at the formulations of 5, 10 and 15%. Baulu Cermai with 100% WF and 0% YCP was used as the control. The aim of the present study was to evaluate the effects of YCP addition on the nutritional composition, textural properties and sensory attributes of Baulu Cermai. The results showed that the mean values of moisture, ash, fat and protein content of Baulu Cermai increased in line with the levels of YCP incorporation. In addition, the total dietary fibre (TDF) content was increased proportionally with the increasing levels of YCP added into Baulu Cermai. Addition of YCP did not show any predictable trend in all the textural properties of Baulu Cermai. Meanwhile, the aroma, chewiness and tenderness increased in parallel with the increasing percentages of YCP added in the formulated products. Baulu Cermai added with 10% of YCP showed the highest score of overall acceptance. Addition of YCP at 10% into Baulu Cermai increases moisture, ash, fat, protein and total dietary fibre content without significantly affecting the textural properties and the sensory attributes of Baulu Cermai. Addition of YCP at 5% to replace WF partially in Baulu Cermai resulted in slight improvement of TDF and fat but does not affected moisture, ash, protein content and acceptability of the consumers.
The influence of oyster mushroom (pleurotus sajor-caju, PSC) powder on the physical
properties of herbal seasoning (HS) was investigated. The pH, total solid, viscosity, rheology
and texture of semi solid HS containing different PSC powder level (0%, 20%, 40%, 60%,
8%, 100% w/w) of coconut milk powder were measured. The pH of the products were in the
range of 4.05 - 4.15. Rheological behavior was characterized by oscillatory rheometry. Stress
sweep, frequency sweep and steady stress experiments were conducted to study the behavior
of the products. The products showed non Newtonian characteristic or shear thinning. All
samples were G’> G’’ showed the gel like network. In addition, the back extrusion rig texture
analysis showed the correlation among the samples were also studied. Total substitution of PSC
powder (100% w/w) in the formulation resulted more viscous product and the combination
of the coconut milk powder and PSC powder showed the best spreadability and flow to the
product characteristics. No added PSC powder (0% w/w) showed the least viscous products
and the less moduli among the samples studied. The present study suggested the incorporation
of more than 40% PSC powder to replace coconut milk powder give better flowability and not
affect the viscosity of the products.
Extensive use of synthetic-based polymer plastic as packaging medium to pack food products has led to serious environmental problems due to their total non-biodegradability property. The stability of nutritional composition and physical traits of chicken patties containing oyster mushroom packed with biodegradable and non-degradable packaging materials were studied. The chicken patties containing oyster mushroom were packed with either biodegradable plastic (BP), paper box (PB) or non-biodegradable high density polyethylene (HDPE). Generally, there were no significant (P>0.05) different in all nutrient analyzed except for carbohydrate after 6 months of storage for chicken patties packed with different types of packaging. The chicken burger packed with both BP and PB packagings were able to retain the moisture and fat without jeopardizing the diameter reduction and cooking yield during storage. There were no differences in all nutrient analyzed after 6 months of storage of chicken patties packed with either biodegradable packagings (BP and PB) or non-degradable packaging. In addition, frozen storage does not significantly affect the concentration of of β-glucan in both BP and PB packagings. In summary, these results indicate that biodegradable packagings applied in packing chicken patty frozen for 6 months were effective in controlling the microbial growth and provide wholesomeness and safety to the chicken patty containing oyster mushroom.
The intake of dietary fibre (DF) has been proven to lower the risk of chronic diseases, leading to the increasing demand for fibre-enriched bakery product. Banana is one of the most consumed fruits that exhibits rich sources of DF and provides excellent nutritional health benefits. However, overripe banana is discarded due to its low quality and appearance. Thus, the present work was aimed to determine the properties of chocolate cookies formulated with overripe banana pulp powder (OBPP) as partial replacement (0, 6, 8, and 10%) for wheat flour. Nutritional composition, physical properties, and sensory acceptability of the cookies were analysed using AOAC methods, texture profile analyser, and 7-point hedonic scaling method, respectively. Results showed that increased incorporation of OBPP significantly increased the nutritional values of chocolate cookies. Chocolate cookies formulated with 10% of OBPP recorded the highest total dietary fibre (8.21%) and ash (1.23%) contents. In texture profile analysis, the firmness of the chocolate cookies was recorded to increase slightly with increasing level of OBPP, although this was not significant. Sensory scores for the control (0%) and 6% OBPP-incorporated cookies were not significantly different for all the sensory attributes. However, the incorporation of 8% OBPP produced the highest scores in terms of aroma, flavour, and overall acceptance. In summary, the addition of 8% OBPP could be an effective way to produce nutritious and the most palatable chocolate cookies.
The aim of the present work was to develop legume-based kefir yogurts to replace conventional dairy yogurts that are not suitable to be consumed by vegetarians and consumers who have lactose intolerance and milk allergy. Soy and black bean milk were incubated at 15°C and 20°C for 24 h with 35 g of water kefir grains to produce kefir yogurt. The proximate composition, physico-chemical and microbiological characteristics of the yogurts were evaluated. At 20°C, soy and black bean milk produced kefir yogurts with significantly lower pH, total soluble solids, and sucrose concentration, indicating that fermentation process carried out at 20°C had higher efficiency than 15°C; meanwhile, black bean milk produced better kefir yogurts than soymilk. Black bean kefir yogurt which was fermented at 20°C had higher level of total plate count (2.05 × 107 CFU/mL), yeast and mould count (6.95 × 106 CFU/mL), and lactobacilli count (8.3
× 105 CFU/mL) as compared to other kefir yogurts. In general, 20°C produced kefir yogurt with better technological properties. Both soymilk and black bean milk were good alternative substrates for kefir yogurt production.
The present work was carried out to formulate a pasta with oyster mushroom flour (OMF), and to evaluate the effect of its addition on the nutritional compositions, physicochemical properties, and sensorial acceptability of the formulated pasta. Four pasta formulations with different levels of OMF (0%, 5%, 10%, and 15%) were developed prior to the determination of the nutritional composition, physicochemical properties, and sensorial acceptability. Proximate components such as protein, ash, and fat increased with increasing OMF levels except for carbohydrates and energy, which were decreased with increasing OMF levels. Lightness (L*) and yellowness (b*) significantly decreased with increasing OMF levels, while redness (a*) increased with increasing OMF levels. The results showed that the optimum cooking time, elasticity, firmness, and shear work decreased with increasing OMF levels, while there were no significant differences in hardness or adhesiveness between the samples. In sensory evaluation, the pasta fortified with up to 10% OMF was generally well accepted by the sensory panellists. The addition of 10% OMF into the pasta resulted in an increase in its nutritional values, thus affecting its physicochemical properties, and improving some of its sensorial attributes.
Consumption of brown rice is increasing on account of higher nutritional components such as
vitamins, minerals, fibres and antioxidants than white rice. However, the effect of domestic
cooking methods on nutritional attributes of brown rice is not well-characterized. Hence, this
study aimed to investigate the effect of cooking methods; pressure cooker (PC) and rice cooker
(RC) on physicochemical, nutritional and sensory properties of brown rice from five different
varieties: Sungyod (SY), Chiang (CH), and Lepnok (LP) of Thai and long grain LS1 and LS2 of
Malaysian origin. Peak viscosity (PV) and final viscosity (FV) among uncooked samples were
significantly different except for LS1 and LS2. Between cooking methods, protein content (8.17
– 10.14%) was significantly different (p < 0.05) except in SY, LS1 and LS2 varieties whereas fat
(1.74 – 2.71%) and ash content (1.15 – 1.46%) showed significant difference (p < 0.05) only
in LP and SY varieties. Loss of iron was significantly higher in RC method than PC method
but zinc and thiamine was insignificant. The LS1 and LS2 cooked in PC was significantly
softer (p < 0.05) than cooked in RC. Hardness of PC cooked rice was correlated with PV (r
= –0.965), breakdown viscosity (r = –0.973), setback viscosity (r = –0.944) at p < 0.01 and
pasting temperature (r = 0.89, p < 0.05) of uncooked brown rice flours. Overall, PC was found
better over RC in terms of cooking time, textural properties, nutrients and sensory attributes.
The effect of retorting and oven cooking on the nutritional properties of beef frankfurters blended with palm oil (PO), red PO35 and red PO48 were compared against the control beef fat treatment. Red PO oven-cooked beef frankfurters resulted in a significant loss of vitamin E from 538.5 to 287.5 microg after 6 months. Oven cooked sausages stored at -18 degrees C and retorted sausages stored for the 6 months of shelf studies resulted in more than 90% loss of alpha-carotene and beta-carotene in red PO beef frankfurters. Cholesterol was reduced at the range of 29.0-32.2 mg/100 g when beef fat was substituted with palm-based oils, in beef frankfurters. Differences of heat treatments did not significantly change THE cholesterol content, within all treatments. This study showed the potential of utilizing red palm oils as animal fat analogues in improving vitamin E, reducing cholesterol but not carotenes in beef frankfurters.
Caustic pulping of oil-palm frond-fiber strands was conducted following a central composite design using a two-level factorial plan involving three pulping variables (temperature: 160-180 degrees C, time: 1-2 h, alkali charge: 20-30% NaOH). Responses of pulp properties to the process variables were analyzed using a statistical software (DESIGN-EXPERT). The results indicated that frond-fiber strands could be pulped with ease to about 35-45% yield. Statistically, the reaction time was not a significant factor while the influences of the treatment temperature and caustic charge were in general significantly relative to the properties of the resultant pulps.
The total lipid contents and the concentration of eicosapentaenoic (EPA) and docosahexaenoic
(DHA) fatty acid of fourteen selected marine, three freshwater fish species, four shellfish species and two selected canned fish species of East Coast of Peninsular Malaysia were determined. The fat content of all samples ranged from 1.01 % to 15.83 % with silver catfish reported to have the highest value. Most of the fish had fat amounts lower than 10% of their total weight. In general, DHA concentrations (50.50-165.21 µg/g) were significantly higher than EPA (11.12-55.38 µg/g) in all of the fish species analyzed. Among all marine fish species, the sixbar grouper recorded the highest concentration of DHA (165.21 µg/g) while barramundi had the highest concentration of EPA (55.38 µg/g). In conclusion, all fish and shellfish species are considered a good source of EPA and DHA, representing a very valuable essential nutrient for maintenance of human health.