Abstract
The substitution of milk fat with virgin coconut oil (VCO) was used to produce nutritious ice cream with pleasant coconut flavor and aroma. Three formulations were developed whereby formulation VCO4, VCO8 and VCO12 was substituted with 4%, 8% and 12% of VCO, respectively. The physicochemical properties of ice creams analyzed include overrun, meltdown, pH, titratable acidity, total solid, protein and fat content. The fatty acids profile of VCO formulated ice creams and their stabilities over 3 and 6 weeks storage were studied respectively using gas chromatography (GC). Qualitative descriptive analysis (QDA) and consumer affective test were performed among the trained and untrained panelists. Significant differences (p <0.05) of overrun, pH, total solid, protein and fat content between ice cream formulations were observed except titratable acidity. Increased VCO content in ice cream formulations lowered the melting resistance of ice cream. For GC analysis, the major fatty acid identified was lauric acid. Upon storage time, the concentration of unsaturated fatty acid decreased but the concentration of saturated fatty acid increased. The result of QDA showed that formulation VCO4, VCO8 and VCO12 were significantly (p <0.05) different in attributes of color, firmness and smoothness as compared to the control ice cream. Formulation VCO12 was highly accepted by panelists in terms of the acceptance level of appearance, aroma, texture, flavor and overall acceptability. Hence, it has a potential marketable value.
Original language | English |
---|---|
Journal | Food Science and Technology International |
Volume | 16 |
Issue number | 6 |
Pages (from-to) | 531-541 |
Number of pages | 11 |
ISSN | 1082-0132 |
DOIs | |
Publication status | Published - 2010 |
Externally published | Yes |
Keywords
- coconut flavor
- ice cream formulation
- milk fat-virgin coconut oil formulation
- nutritious ice cream dairy product
- potential marketable value
- Monocotyledones Angiospermae Spermatophyta Plantae (Angiosperms, Monocots, Plants, Spermatophytes, Vascular Plants) - Palmae [25380] Cocos nucifera species
- cholesterol 57-88-5
- fatty acids degradation
- lauric acid 143-07-7
- saturated fatty acid
- 10060, Biochemistry studies - General
- 10066, Biochemistry studies - Lipids
- 10067, Biochemistry studies - Sterols and steroids
- 13502, Food technology - General and methods
- 13518, Food technology - Dairy products
- 51522, Plant physiology - Chemical constituents
- gas chromatography laboratory techniques, chromatographic techniques
- qualitative descriptive analysis laboratory techniques
- Biochemistry and Molecular Biophysics
- Foods
- CHEMISTRY,
- FOOD
- MILK-FAT
- PERCEPTION
- OXIDATION
- BODY
- ice cream
- virgin coconut oil
- lauric acid stability
- sensory evaluation
- Color
- Consumer Satisfaction
- Diet, Fat-Restricted
- Dietary Fats
- Dietary Proteins
- Fatty Acids
- Food Handling
- Food Preferences
- Humans
- Hydrogen-Ion Concentration
- Ice Cream
- Malaysia
- Physicochemical Phenomena
- Plant Oils
- Sensation
- Time Factors
- Transition Temperature
- 8001-31-8 coconut oil
- Fatty acids
- Gas chromatography
- Ice control
- Quality control
- Soil conditioners
- Variable frequency oscillators
- Vegetable oils
- Ice
- coconut oil
- fatty acid
- vegetable oil
- article
- chemistry
- color
- comparative study
- consumer
- fat intake
- food handling
- food preference
- human
- low fat diet
- pH
- physical chemistry
- protein intake
- sensation
- time
- transition temperature
- Coconut oil
- Descriptive analysis
- Fat contents
- Ice creams
- Lauric acid
- Milk fats
- Overall acceptability
- Physicochemical property
- Saturated fatty acid
- Sensory evaluation
- Sensory properties
- Storage time
- Titratable acidity
- Total solids
- Unsaturated fatty acids
- COCONUT OILS
- ICE CREAM
- OILS VEGETABLE
- PHYSICAL PROPERTIES
- PHYSICOCHEMICAL PROPERTIES
- SENSORY PROPERTIES
- Milk and dairy products
- Other milk products