A.R. Linnemann

Quality Function Deployment (QFD)-can it be used to develop food products?

Publications on the use of Quality Function Deployment (QFD) for the development of food products state that the method is potentially a useful tool. The use of QFD would enlarge the chance of success, produce higher quality products and decrease the cost and the development time. However, a scrutinous evaluation of the available literature dealing with the use of QFD for food product development reveals that the number of examples of QFD used on the actual development or improvement of food products is limited. Combined with our own experiences we conclude that application of QFD in the food industry is more complicated than current literature suggests. However, QFD might prove useful if adaptations to the method are made and the specific characteristics of food ingredients taken into account.

Baobab Food Products: A Review on their Composition and Nutritional Value

Several authors have published about baobab food products. Data on macronutrients, micronutrients, amino acids, and fatty acids were collected from literature for pulp, leaves, seeds, and kernels of the baobab tree. The results show that baobab pulp is particularly rich in vitamin C; consumption of 40 g covers 84 to more than 100% of the Recommended Daily Intake (RDI) of pregnant women (19–30 years). The leaves are particularly rich in calcium (307 to 2640 mg/100 g dw), and they are known to contain good quality proteins with a chemical score of 0.81. The whole seeds and the kernels have a relatively high lipid content, 11.6 to 33.3 g/100 g dw and 18.9 to 34.7 g/100 g dw, respectively. The pulp and leaves exhibit antioxidant properties with a higher activity in the pulp than in the leaves. Reported nutrient contents of different baobab parts show a large variation, which may have arisen from various factors. Three recommendations are given for future research: 1. More attention should be given to accuracy and precision of analytical methods, 2. Research about digestibility and bioavailability of baobab products is needed, 3. The effect of storage and processing on the nutritional value of baobab products needs to be assessed.

Towards Sustainable Production of Protein-Rich Foods: Appraisal of Eight Crops for Western Europe. PART II: Analysis of the Technological Aspects of the Production Chain

ABSTRACT Increased production of plant protein is required to support the production of protein-rich foods which can replace meat in the human diet to reduce the strain that intensive animal husbandry poses on the environment. The suitability of lupin ( Lupinus spp.), pea ( Pisum sativum ), quinoa ( Chenopodium quinoa Willd.), triticale (x Triticosecale ), lucerne ( Medicago sativa ), grasses ( Lolium and Festuca spp.), rapeseed/canola ( Brassica napus ) and potato ( Solanum tuberosum ) for protein production in Western Europe was studied on the basis of a chain-approach. The technological aspects, which are considered in this paper, are the processing methods, and the functional and nutritional properties of the derived protein products. The overall evaluation of the technological prospects of the eight crops as a protein source for Western Europe leads to the conclusion that this part of the production chain is not decisive for that choice. Pea and lupin have a slight advantage over the other crops, because their concentrates and isolates are already commercially available.

Consumer-oriented technology development

The complexity of the issue of product innovation and product acceptance requires an integrated view. There is a need for new concepts in which the existing various disciplinary approaches are combined into one integrated, techno-managerial approach. This article presents a conceptual model for translation of consumer preferences and perceptions into desired technologica developments based on a systems analysis. This stepwise approach can be used as a tool to direct strategic investments in product innovation.

QUALITY OF FARMERS' VARIETIES OF SORGHUM AND DERIVED FOODS AS PERCEIVED BY CONSUMERS IN BENIN

Culinary and sensory characteristics of sorghum crops and derived foods in northern Benin were investigated using rapid appraisal and quantitative survey methods. Three food categories were identified: pastes, porridges, and beverages. In the main town, all of these are encountered. In other areas, sorghum is mostly consumed as either paste or beverages. The major sensory quality attributes are related to texture, color, and taste. Brown or red sorghum types are generally used, because of food habits, beliefs, and appearance. We distinguished more than 100 farmers’ varieties and classified them according to their suitability for the preparation of different sorghum- based foods.

Number of Salmonella on chicken breast filet at retail level and its implications for public health risk.

This study aimed to characterize the number of Salmonella on chicken breast filet at the retail level and to evaluate if this number affects the risk of salmonellosis. From October to December 2005, 220 chilled raw filets (without skin) were collected from five local retail outlets in The Netherlands. Filet rinses that were positive after enrichment were enumerated with a three-tube most-probable-number (MPN) assay. Nineteen filets (8.6%) were contaminated above the detection limit of the MPN method (10 Salmonella per filet). The number of Salmonella on positive filets varied from 1 to 3.81 log MPN per filet. The obtained enumeration data were applied in a risk assessment model. The model considered possible growth during domestic storage, cross-contamination from filet via a cutting board to lettuce, and possible illness due to consumption of the prepared lettuce. A screening analysis with expected-case and worst-case estimates for the input values of the model showed that variability in the inputs was of relevance. Therefore, a Monte Carlo simulation with probability distributions for the inputs was carried out to predict the annual number of illnesses. Remarkably, over two-thirds of annual predicted illnesses were caused by the small fraction of filets containing more than 3 log Salmonella at retail (0.8% of all filets). The enumeration results can be used to confirm this hypothesis in a more elaborate risk assessment. Modeling of the supply chain can provide insight for possible intervention strategies to reduce the incidence of rare, but extreme levels. Reduction seems feasible within current practices, because the retail market study indicated a significant difference between suppliers.

Toward Sustainable Production of Protein-Rich Foods: Appraisal of Eight Crops for Western Europe. PART I. Analysis of the Primary Links of the Production Chain

Referee: Dr. R. Owusu Apenten, Department of Food Science, The Leeds University, Leeds LS2 9JT, United Kingdom Increased production of plant protein is required to support the production of protein-rich foods that can replace meat in the human diet to reduce the strain that intensive animal husbandry poses to the environment. The suitability of lupin (Lupinus spp.), pea (Pisum sativum), quinoa (Chenopodium quinoa Willd.), triticale (× Triticosecale), lucerne (Medicago sativa), grasses (Lolium and Festuca spp.), rapeseed/canola (Brassica napus), and potato (Solanum tuberosum) for protein production in Western Europe was studied on the basis of a chain approach. The aspects considered are the familiarity of farmers with the cultivation of the crop, prospects for rapid crop improvement, protein production (kg/ha), protein quality (absence of unwanted substances) and familiarity with the usage for human food in Western Europe. Pea, lucerne, and grasses are the most promising, fair prospects are foreseen for lupin, triticale, rapeseed, and potato, whereas the possibilities for quinoa are judged to lag far behind. Estimated protein production for pea, lucerne, and grasses is 1250, 2500, and 2500 kg/ha, respectively.

Indigenous knowledge and processing of Adansonia digitata L. food products in Benin

Indigenous knowledge related to baobab food products was investigated in Benin among 253 food processors from 15 ethnic groups. Descriptive statistics and correspondence analysis (CA) were used for data analysis. The following food categories were identified: dough, gruel, drinks (from pulp); sauces (from leaves, seeds and kernels), and flavouring agents (from kernels). CA showed that the food use of baobab parts varies among ethnic groups. Most ethnic groups have similar opinions about the difficulty of certain processing operations, in particular seed decortication, grinding and sieving operations for product recovery. Storage and preservation problems were mentioned for kernels and pulp.

Nutritional Composition of Shea Products and Chemical Properties of Shea Butter: A Review

Increasing demand of shea products (kernels and butter) has led to the assessment of the state-of-the-art of these products. In this review, attention has been focused on macronutrients and micronutrients of pulp, kernels, and butter of shea tree and also the physicochemical properties of shea butter. Surveying the literature revealed that the pulp is rich in vitamin C (196.1 mg/100 g); consumption of 50 g covers 332% and 98% of the recommended daily intake (RDI) of children (4–8 years old) and pregnant women, respectively. The kernels contain a high level of fat (17.4–59.1 g/100 g dry weight). Fat extraction is mainly done by traditional methods that involve roasting and pressing of the kernels, churning the obtained liquid with water, boiling, sieving, and cooling. The fat (butter) is used in food preparation and medicinal and cosmetics industries. Its biochemical properties indicate some antioxidant and anti-inflammatory activities. Large variations are observed in the reported values for the composition of shea products. Recommendations for future research are presented to improve the quality and the shelf-life of the butter. In addition, more attention should be given to the accuracy and precision in experimental analyses to obtain more reliable information about biological variation.

Mung Bean: Technological and Nutritional Potential

Mung bean (Vigna radiata (L.) R. Wilczek) has been intensively researched; scattered data are available on various properties. Data on physical, chemical, food processing, and nutritional properties were collected for whole mung bean grains and reviewed to assess the crops potential as food and to set research priorities. Results show that mung bean is a rich source of protein (14.6–33.0 g/100 g) and iron (5.9–7.6 mg/100 g). Grain color is correlated with compounds like polyphenols and carotenoids, while grain hardness is associated with fiber content. Physical properties like grain dimensions, sphericity, porosity, bulk, and true density are related to moisture content. Anti-nutrients are phytic acid, tannins, hemagglutinins, and polyphenols. Reported nutrient contents vary greatly, the causes of which are not well understood. Grain size and color have been associated with different regions and were used by plant breeders for selection purposes. Analytical methods require more accuracy and precision to distinguish biological variation from analytical variation. Research on nutrient digestibility, food processing properties, and bioavailability is needed. Furthermore, the effects of storage and processing on nutrients and food processing properties are required to enable optimization of processing steps, for better mung bean food quality and process efficiency.