Dr Ruth English has undertaken nutrition consultancies in Southeast Asia and the Pacific Islands. Dr Jacqui Badcock, Country Representative for the United Nations Children's Fund (UNICEF) in the Lao People's Democratic Republic, was the Chief Technical Officer for the FAO/Australian Agency for International Development (AusAID) Nutrition Improvement Project in Viet Nam.
To reduce vitamin A deficiency in Viet Nam, a community nutrition project was implemented from 1991 to 1993. The project activities included:
The data from the Nutrition Improvement Project provided a rare opportunity to monitor the effects of community nutrition education and family gardening on morbidity in young children. Acute respiratory and diarrhoeal infections are the major causes of mortality in infants and young children in Viet Nam (Viet Nam Ministry of Health, 1993), as in many other developing countries. This article describes the Nutrition Improvement Project and a separate study that assessed the project's impact on acute respiratory and diarrhoeal infections in children.
The Nutrition Improvement Project was implemented in four communes and included a total of 5 588 households with 3 716 young children (FAO, 1992). The communes were selected to represent different ecological and cultural regions of the country. In the north, the project was implemented in Thanh Hoa District in Vinh Phu Province, a hilly area, and in Vu Ban District in Ha Nam Ninh Province, in the Red River delta area. Project areas in the central region of Viet Nam included Tuy Phuoc District in Binh Dinh Province, on the coast, and Bas Dinh District in Thuan Hai Province, in a dry zone (Figure 1).
With assistance from FAO and funding from the Government of Australia, the National Institute of Nutrition (NIN) and the National Institute of Fruit and Vegetable Production (NIFVP) coordinated and executed the project in Viet Nam. National-level steering committees comprised representatives from the Ministries of Health and Agriculture, the State Planning Committee and the Women's Union. Local representatives from these organizations plus the People's Committee (local government) and the National Association of Vietnamese Gardeners (VACVINA) directed the project in each commune.
VACVINA promoted the establishment and improvement of household gardens based on the VAC ecosystem, a system developed in Viet Nam to promote a diet that is more diversified and balanced than the traditional diet, which is based mainly on rice. The system encourages the combination of horticulture (V for Vuon, meaning garden), pond culture of fish and other aquatic animals (A for Ao, meaning pond) and small-animal husbandry (C for Chan nuoi, meaning animal husbandry) within the household garden.The promotion efforts were especially focused on families with young children. Nutritious foods rich in carotene (precursor of vitamin A), dietary fat, vitamin C, iron or protein were identified for production in family gardens. Nursery gardens were established to provide seeds and seedlings, and demonstration gardens were set up. Ministry of Agriculture and VACVINA extension workers underwent training and received technical support from the NIFVP specialists.
Family feeding problems were identified and nutrition education materials on breastfeeding, weaning foods, maternal diet during pregnancy and lactation, and food preparation and hygiene were prepared (Figure 2). With training and technical support from NIN specialists, volunteer community educators undertook nutrition activities with small groups of mothers. The activities included education on growth monitoring, demonstrations of the preparation of weaning and other foods, group discussions on healthy family diets, contests to see whose baby grew the most and listening to radio spots.
Baseline data were collected in 1991 and follow-up data were gathered in 1993 for monitoring and evaluation of the impact of the activities. Information was collected on household food production and use, nutritional knowledge of mothers, dietary intakes of the family and young children (based on 24-hour recall) and the nutritional status (height, weight and eye examination for vitamin A deficiency prevalence) of young children.
An analysis of the baseline and follow-up data showed significant increases in the production of fruits, vegetables and other foods from family gardens; increases in the intake of foods containing iron, vitamin C, carotene and protein among households with young children; and improvements in nutritional status of young children and nutritional knowledge of mothers (FAO, 1993).
The body's immune defence system, which protects against colonization and tissue invasion of infectious agents, is remarkably effective in a well-nourished host. Improving nutritional status is a strategy for infectious disease control, as deficiencies of protein and energy and a number of micronutrients (particularly vitamins A and C, iron and zinc) compromise the immune system and, in many cases, the integrity of epithelial tissues, which lowers defences to pathogenic invasion (Tomkins and Watson, 1989).
While children's growth patterns have been measured to assess the impact of nutrition programmes, there has been a dearth of reports on the relationship of nutrition programmes, dietary improvement and their impact on morbidity in young children.
Although not part of the project itself, a morbidity survey monitored
the incidence and severity of acute respiratory infection (ARI) and the incidence of
diarrhoeal disease (DD)
in Khai Xuan, one of the four project communes, and in a control commune, Ching Cong. The
project and control communes, both located in the same district of Vinh Phu Province, were
similar in terms of health services, water and sanitation.
NIN, the National Institute of Hygiene and Epidemiology and the National Institute of Tuberculosis and Respiratory Diseases developed the methodology following the World Health Organization's protocol for measuring the incidence of acute respiratory infection and diarrhoeal disease (WHO, 1986). Village health workers were trained to conduct interviews with mothers or other care providers about the incidence of infection in young children during the previous two weeks. A diarrhoeal condition was defined as the passing of four or more stools a day. Respiratory infection was identified as the presence of cough and fever; questions were asked about rapid breathing (pneumonia) and chest indrawing (severe pneumonia) to assess the severity of the illness.
The survey included five data collection periods of three months each. The mean sample size was 469 children in Khai Xuan and 251 children in Ching Cong.
The incidence rates of infection in the two communes in the earliest periods of data collection were similar. By the last data collections, the survey showed a highly significant reduction in the incidence and severity of ARI and in the incidence of DD in the project commune: the incidence of ARI had decreased from 49.5 to 11.2 percent and that of DD from 18.3 to 5.0 percent. The incidence of pneumonia and severe pneumonia was also very significantly reduced in the project commune. There was no statistically significant change in the incidence and severity of ARI or the incidence of DD in the control commune. Figures 3 and 4 illustrate the trends in the incidence of ARI and DD in the project and control communes over the period of data collection.
The similarity in infection rates at the beginning of the survey may indicate that after home garden production and nutrition education programmes had commenced, a considerable amount of time was needed before they affected food intakes and immune function.
Data on household food production, the nutritional knowledge of mothers, dietary intakes of households and the nutritional status of young children in Khai Xuan and Ching Cong were compared to explain the significant differences in morbidity trends between the project and control communes.
Baseline and follow-up data on production and utilization of food from household gardens and ponds in the two communes are compared in Table 1.
Food |
Khai Xuan |
Ching Cong |
||
Baseline |
Follow-up |
Baseline |
Follow-up |
|
Vegetables |
||||
Produced |
68.2 |
217.7 |
64.0 |
122.6 |
Sold |
3.7 |
17.3 |
6.0 |
18.5 |
Consumed |
64.1 |
188.8 |
55.5 |
86.6 |
Other |
0.4 |
11.5 |
2.6 |
17.6 |
Fruit |
||||
Produced |
36.7 |
70.6 |
31.8 |
43.3 |
Sold |
13.2 |
43.0 |
5.2 |
16.9 |
Consumed |
23.5 |
27.0 |
26.6 |
25.8 |
Other |
0.0 |
0.7 |
0 |
0.7 |
Meat |
||||
Produced |
42.3 |
21.0 |
8.6 |
3.2 |
Sold |
26.6 |
10.6 |
5.2 |
0.1 |
Consumed |
15.6 |
10.4 |
1.7 |
3.1 |
Other |
0.1 |
0 |
1.6 |
0 |
Fish |
||||
Produced |
0.7 |
23.7 |
0 |
0.4 |
Sold |
0.0 |
6.5 |
0 |
0 |
Consumed |
0.7 |
15.5 |
0 |
0.4 |
Other |
0 |
1.7 |
0 |
0 |
While the project focused on raising production and consumption of fruits and vegetables, it should be noted that fishponds were also being promoted at the same time. There were substantial differences in fish availability in the project commune and the control commune. The average stocks of cattle, pigs and poultry per family were also larger for the project commune than for the control commune.
A comparison between the food and nutrient intakes of young children and of the households in the project and control communes at follow-up is shown in Table 2. Children in Khai Xuan were consuming significantly more vegetables and fruit, and energy, protein, vitamin A and iron intakes were higher. Although fat and vitamin C intakes of children were higher in the project commune than in the control commune (5.7 versus 4.9 g and 26.0 versus 18.8 mg, respectively), these differences were not significant. Households in the project commune had significantly higher intakes of fruit, fat and iron than households in the control commune.
Commune |
Vegetables (g) |
Fruit (g) |
Energy (kcal) |
Protein (g) |
Fat (g) |
Vitamin A (retinol equivalents) (�g) |
Iron (mg) |
Vitamin C (mg) |
Children |
||||||||
Khai Xuana |
35.7 |
44.4 |
615 |
17.2 |
5.7 |
100 |
2.6 |
26.0 |
Ching Congb |
24.1 |
11.6 |
490 |
13.1 |
4.9 |
50 |
1.6 |
18.8 |
Significancec (t-test) |
p = 0.0142 |
p = 0.0006 |
p < 0.0001 |
p < 0.0001 |
ns |
p = 0.0022 |
p < 0.0001 |
ns |
Household (average per person) |
||||||||
Khai Xuana |
210.0 |
34.5 |
1 850 |
44.0 |
11.1 |
260 |
8.9 |
49.5 |
Ching Congb |
190.5 |
4.6 |
1 960 |
41.9 |
8.7 |
230 |
5.4 |
69.3 |
Significancec (t-test) |
ns |
p < 0.0001 |
ns |
ns |
p = 0.0145 |
ns |
p < 0.0001 |
ns |
a Sample size: 72.
b Sample size: 99.
c ns: not significant.
In the project commune, the number of children defined as normal increased significantly from the baseline data collection to the follow-up, and the number defined as stunted (low height for age) decreased significantly. There was no significant change in the proportion of children wasted (low weight for height) or both stunted and wasted. In the control commune, there was no change of statistical significance in any of the nutritional classifications between the baseline and follow-up surveys (Table 3). At baseline, there was no significant difference between the two communes in the total prevalence of stunted, wasted, or stunted and wasted children. At follow-up, the difference was statistically significant, with prevalence rates of 49.0 percent in the project commune and 57.2 percent in the control commune.
Project/collection |
Sample size |
Normal |
Stunted |
Wasted |
Stunted and wasted |
||||
% |
No. |
% |
No. |
% |
No. |
% |
No. |
||
Khai Xuan |
|||||||||
Baseline |
527 |
42.3 |
223 |
50.3 |
265 |
3.8 |
20 |
3.6 |
19 |
Follow-up |
465 |
51.0 |
237 |
41.7 |
194 |
4.1 |
19 |
3.2 |
15 |
Significance (x2) |
0.0006 |
0.0007 |
nsa |
ns |
|||||
Ching Cong |
|||||||||
Baseline |
251 |
42.6 |
107 |
45.8 |
115 |
5.2 |
13 |
6.4 |
16 |
Follow-up |
229 |
42.8 |
98 |
47.6 |
109 |
4.4 |
10 |
5.2 |
12 |
Significance (x2) |
ns |
ns |
ns |
ns |
a ns = not significant.
The mothers' knowledge, attitudes and practices concerning nutrition were assessed. Mothers who had participated in the pilot project nutrition education programme demonstrated a better understanding of good nutrition and of vitamin A than those in the control commune to a highly significant extent.
In Khai Xuan, the project commune, there were major increases in the food available for consumption or for sale and in food intake. Production and consumption of fruit and vegetables increased as a result of the project. At the time of the follow-up surveys (April 1993), the differences in incidence rates of infectious disease between the project commune and Ching Cong, the control commune, were most significant. Food and nutrient intakes of young children and their nutritional status were significantly higher and mothers' nutritional knowledge (expected to influence positively the care and attention given to their young children) was better in the project commune than in the control commune. While improvements in nutrition may have affected morbidity, the decreasing incidence of infectious disease in the project commune could have contributed to the overall nutritional status as well.
The successful implementation of the community nutrition project focusing on nutrition education and increased household food production appears to have contributed to a significant reduction in the incidence and severity of acute respiratory infection and the incidence of diarrhoeal disease in young children in a rural commune in Viet Nam. These findings emphasize the need for governments, through ministries of agriculture and health, to take long-term measures based on education and household food production to improve nutrition and to reduce infections in young children.
FAO. 1992. Chief Technical Adviser's final report following
first assignment period, December 1990 - April 1992, by J. Badcock (unpublished
document).
FAO. 1993. A nutritional improvement project in rural Vietnam on rates of
xerophthalmia, nutritional status, maternal attitude and practices, household production
and consumption patterns, and children's dietary practices, by R. Tilden. Rome.
Tomkins, A. & Watson, F. 1989. Malnutrition and infection: a review.
ACC/SCN State-of-the-Art Paper No. 5. Geneva, Switzerland, Administrative Committee on
Coordination, Sub-Committee on Nutrition (ACC/SCN).
Viet Nam Ministry of Health. 1993. Health statistics of Vietnam 1990-1992. Hanoi,
Viet Nam.
World Health Organization (WHO). 1986. Diarrhoea morbidity, mortality and
treatment practices - household survey manual. CDD/SER/86.2. Geneva, Switzerland.