The aim of this study was to determine the practices of primary health care (PHC) nurses in targeting nutritionally at-risk infants and children for intervention at a PHC facility in a peri-urban area of the Western Cape Province of South Africa.

Nutritional risk status of infants and children < 6 years of age was based on criteria specified in standardised nutrition case management guidelines developed for PHC facilities in the province. Children were identified as being nutritionally at-risk if their weight was below the 3rd centile, their birth weight was less than 2500 g, and their growth curve showed flattening or dropping off for at least two consecutive monthly visits. The study assessed the practices of nurses in identifying children who were nutritionally at-risk and the entry of these children into the food supplementation programme (formerly the Protein–Energy Malnutrition Scheme) of the health facility. Structured interviews were conducted with nurses to determine their knowledge of the case management guidelines; interviews were also conducted with caregivers to determine their sociodemographic status.

One hundred and thirty-four children were enrolled in the study. The mean age of their caregivers was 29.5 (standard deviation 7.5) years and only 47 (38%) were married. Of the caregivers, 77% were unemployed, 46% had poor household food security and 40% were financially dependent on non-family members. Significantly more children were nutritionally at-risk if the caregiver was unemployed (54%) compared with employed (32%) (P = 0.04) and when there was household food insecurity (63%) compared with household food security (37%) (P < 0.004). Significantly more children were found not to be nutritionally at-risk if the caregiver was financially self-supporting or supported by their partners (61%) compared with those who were financially dependent on non-family members (35%) (P = 0.003). The weight results of the nurses and the researcher differed significantly (P < 0.001), which was largely due to the different scales used and weighing methods. The researcher's weight measurements were consistently higher than the nurses' (P < 0.00). The researcher identified 67 (50%) infants and children as being nutritionally at-risk compared with 14 (10%) by the nurses. The nurses' poor detection and targeting of nutritionally at-risk children were largely a result of failure to plot weights on the weight-for-age chart (55%) and poor utilisation of the Road to Health Chart.

Problems identified in the practices of PHC nurses must be addressed in targeting children at nutritional risk so that appropriate intervention and support can be provided. More attention must be given to socio-economic criteria in identifying children who are nutritionally at-risk to ensure their access to adequate social security networks.

The aim of this study was to determine the iron status, and the risk factors for iron deficiency (ID) and iron-deficiency anaemia (IDA), of non-pregnant adult women working in a fruit-packing factory.

A cross-sectional analytical study was done on 338 women, 18 to 55 years of age. Information on demographic data, risk factors for ID, smoking, and the consumption of red meat, chicken and fish was collected by questionnaire. Height and weight were measured and the body mass index (BMI) calculated. A non-fasting venous blood sample was analysed for haemoglobin (Hb), serum ferritin (SF), serum iron, serum transferrin and C-reactive protein; transferrin saturation (TFS) was calculated.

Fruit-packing factory in the Western Cape, South Africa.

The mean value for Hb was 13.06 (standard deviation (SD) 1.16) g dl−1 and for SF 48.0 (SD 47.8) μgl−1 (geometric mean 26.44 μgl−1). Women (n = 325) were categorised on the basis of iron status: 60% had a normal iron status (NIS); 12.6% had low TFS (<16%) but normal Hb (≥12 g dl−1) and SF (≥12 μgl−1) concentrations (LTS); and 27.4% had low iron status (LIS), defined as combinations of low SF (<12 μgl−1 or <20 μgl−1), low TFS (<16%) and low Hb (<12 gdl−1). More than 30% of the women were obese (BMI ≥ 30 kgm−2). The risk ratio for LIS (LIS vs. NIS) was 3.8 (95% confidence interval (CI) 1.9–7.6) if women were still menstruating or 3.2 (95% CI 1.6–6.2) if they were pregnant during the past 12 months. Women with LIS consumed significantly smaller portions of red meat, chicken and fish than did women in the other two groups.

IDA (low Hb, SF and TFS) and ID (low SF and TFS) did not seem to be a major problem. Women who were still menstruating or were pregnant during the past 12 months were at greater risk for ID. The consumption of smaller portions of red meat, chicken and fish was related to LIS. A high prevalence of obesity, which demonstrated the coexistence of both under- and overnutrition, was observed.

To determine the nutritional and health status of urban infants in two disadvantaged communities in the Western Cape, South Africa with special reference to micronutrient status. The results of this study will serve to plan an intervention study in these communities in the same age group.

Cross-sectional study.

Two disadvantaged urban black and ‘coloured’ communities in the Western Cape, South Africa.

Sixty infants aged 6–12 months from each community.

Dietary intake, anthropometric measurements, micronutrient status and psychomotor development.

Stunting and underweight were more prevalent in coloured infants (18% and 7%, respectively) than in black infants (8% and 2%, respectively). Anaemia (haemoglobin (Hb)<11 g dl−1 ) was prevalent in 64% of coloured and 83% of black infants. Iron-deficiency anaemia ( Hb<11 g dl−1 and ferritin < 10 ng ml−1) was found in 32% of coloured infants and in 46% of black infants. Zinc deficiency was prevalent in 35% and 33% of the coloured and black infants, respectively. Marginal vitamin A deficiency (serum retinol < 20 μg dl−1) was observed in 23% of black infants compared with 2% of coloured infants. Of black infants, 43% and of coloured infants 6% were deficient in two or more micronutrients. Six per cent of coloured infants had C-reactive protein concentrations above 5 mg l−1 compared with 38% of the black infants. The dietary intake of micronutrients was in general lower in black infants than in coloured infants. The overall psychomotor development, assessed by the Denver Developmental Screening Test, was different between the two groups. The coloured infants scored higher in three out of the four categories as well as in their overall score.

This study shows that information on stunting and wasting only in urban disadvantaged infants is not sufficient to make recommendations about specific community intervention programmes. Information on the micronutrient status, independent of wasting and stunting, is necessary to design nutrition programmes for different communities. The study also showed a substantially higher prevalence of micronutrient deficiencies among black infants.

To determine vitamin A intake of children aged 2–5 years in a rural South African community one year after the implementation of a home-based food production programme targeting β-carotene-rich fruits and vegetables.

Dietary intake of children aged 2–5 years was determined during a cross-sectional survey before and one year after the implementation of a home-based food production programme.

A low socio-economic rural African community, approximately 60 km north-west of the coastal city of Durban in kwaZulu-Natal, South Africa.

Children aged 2–5 years (n=100); 50 children from households with home-gardens producing β-carotene fruits and vegetables (project gardens), and 50 children from households without project gardens.

As compared with baseline data, there was a significant increase in vitamin A intake in children from households with project gardens as well as in children from households without project gardens. However, children from households with project gardens had a significantly higher vitamin A intake than children from households without project gardens. The increased vitamin A intake in those children from households without project gardens can be attributed to the availability of butternuts in the local shop (as a result of the project), and because the mothers negotiated with project garden mothers to obtain these fruits and vegetables for their children.

A home-based food production programme targeting β-carotene-rich fruits and vegetables can lead to an increase in vitamin A intake.

To evaluate the long-term effect on micronutrient status of a β-carotene-, iron- and iodine-fortified biscuit given to primary school children as school feeding.

Children receiving the fortified biscuit were followed in a longitudinal study for 2.5 years (n=108); in addition, cross-sectional data from three subsequent surveys conducted in the same school are reported.

A rural community in KwaZulu-Natal, South Africa.

Children aged 6–11 years attending the primary school where the biscuit was distributed.

There was a significant improvement in serum retinol, serum ferritin, haemoglobin, transferrin saturation and urinary iodine during the first 12 months of the biscuit intervention. However, when the school reopened after the summer holidays, all variables, except urinary iodine, returned to pre-intervention levels. Serum retinol increased again during the next 9 months, but was significantly lower in a subsequent cross-sectional survey carried out directly after the summer holidays; this pattern was repeated in two further cross-sectional surveys. Haemoglobin gradually deteriorated at each subsequent assessment, as did serum ferritin (apart from a slight increase at the 42-month assessment at the end of the school year).

This study has shown that fortification of a biscuit with β-carotene at a level of 50% of the Recommended Dietary Allowance (RDA) was enough to maintain serum retinol concentrations from day to day, but not enough to sustain levels during the long school holiday break. Other long-term solutions, such as local food production programmes combined with nutrition education, should also be examined. The choice of the iron compound used as fortificant in the biscuit needs further investigation.

To identify risk factors for variation in serum retinol levels in children younger than 2 years of age in a rural South African community.

Children (n=97), 6–24 months of age, were divided into two groups according to their serum retinol levels, using 20 μg dl−1 as the cut-off point. The chi-square test, Fischer exact two-tailed test and analysis of variance were used to identify related variables which were significantly different between the two groups. To evaluate simultaneously the association between several potential risk factors and low serum retinol levels, a multiple regression model for categorical data was developed which included potential risk factors that were statistically significant in the bivariate analysis as the independent variables, and either low or normal vitamin A status as the dependent variable.

There was an association between serum retinol levels and: (i) the place of birth (hospital vs. home deliveries); (ii) the attitude of the care-giver towards family life; and (iii) the health status of the child. Although not included in the multiple variable model because of small numbers, all children who had a previous episode of measles, all underweight children, and all children of widowed care-givers were in the low serum retinol group.

The care-giver's attitude towards family life was positively associated with the child's vitamin A status, while home deliveries were associated with a low vitamin A status.

To assess the nutritional status and dietary practices of 4–24-month-old children (under-twos) in a rural South African community.

Cross-sectional survey.

A low socioeconomic rural African community (Ndunakazi), approximately 60 km north-west of Durban, KwaZulu-Natal, South Africa.

Children (n = 115), 4–24 months old who attended growth monitoring posts in the area.

Of these under-twos, 37.3% had low vitamin A status (serum retinol < 20 μg dl−1), 65.2% were anaemic, 43.2% had serum ferritin levels < 10 μgl−1 (an indicator of low iron stores) and 15.3% were stunted. Breastfeeding was initiated by 99% of mothers. At the time of the survey, 80% of infants in the 4–12-month-old category and 56.9% of children in the 12–24-month-old category were being breastfed. Solid foods were introduced at 3.6 ± 0.8 months. Food intake reflected a high intake of carbohydrate-rich foods, and irregular intakes of fruit and vegetables, especially those rich in vitamin A. Foods of animal origin were not consumed regularly. Of these under-twos, 15.9% experienced an episode of diarrhoea during 2 weeks prior to the survey.

These under-twos had a poor vitamin A and iron status. Nutrition education, intervention programmes and feeding schemes should address micronutrient deficiencies, with the focus on the quality of the diet, rather than quantity.