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- Materials and methods
Objective To investigate the nutritional status of individuals from a rural area of Brazil, and associations with helminth infections in an age-stratified sample.
Method A total of 1113 individuals aged from 6 months to 83 years from the rural community of Americaninhas in Minas Gerais were investigated. Assessments comprised anthropometric measurements of weight, height and body composition, examining faecal samples for helminth eggs, and peripheral blood assays for albumin, haemoglobin and ferritin concentrations.
Results Ten percent of the participants were underweight, 12.8% were overweight and 28.3% of the children and adolescents were stunted. 11.6% had low lean body mass and 28.8% had low fat body mass. Hypoalbuminaemia was seen in 5.5%, anaemia in 12.5% and iron deficiency in 13.1%, although the prevalence of these two indices increased with age. Multivariate analysis showed that, after controlling for age, sex and socio-economic status, stunting was significantly associated with Ascaris lumbricoides infection among children and adolescents, whereas low body mass was significantly associated with hookworm infection among adults and the elderly.
Conclusions Helminth infections are associated with undernutrition in endemic populations, with important differences between the effects of hookworm and A. lumbricoides on age-related nutritional status.
Objectif: Investiguer l’état nutritionnel des personnes d’une zone rurale du Brésil et les associations avec les helminthiases sur un échantillon stratifié par l’âge.
Méthode: 1113 personnes âgées de 6 mois à 83 ans dans la communauté rurale de Americaninhas à Minas Gerais ont étéétudiés. Les évaluations comprenaient des mesures anthropométriques du poids, de la taille et la composition du corps, l’examen des échantillons de selles pour les oeufs d’helminthes et des tests du sang périphérique pour les concentrations d’albumine, d’hémoglobine et de ferritine.
Résultats: 10,0% des participants présentaient une insuffisance de poids, 12,8% avaient une surcharge pondérale et 28,3% des enfants et des adolescents avaient un retard de croissance. 11,6% avaient une faible masse de poids maigre et 28,8% avaient une faible masse de matières grasses corporelle. L’hypoalbuminémie a été observée chez 5,5%, l’anémie chez 12,5% et la carence en fer chez 13,1%, quoique la prévalence de ces deux derniers indices augmentait avec l’âge. L’analyse multivariée a montré qu’après ajustement pour l’âge, le sexe et le statut socioéconomique, les retards de croissance étaient nettement associés aux infections àAscaris lumbricoides chez les enfants et les adolescents, tandis que l’ankylostomiase était significativement associée à une masse corporelle faible chez les adultes et les personnes âgées.
Conclusions: Les infections aux helminthes sont associées à la sous alimentation dans les populations endémiques, avec des différences importantes entre les effets de l’ankylostomiase et ceux de A. lumbricoides sur l’état nutritionnel selon l’âge.
Objetivo: Investigar el estado nutricional de individuos de un área rural del Brasil, y las asociaciones con infecciones por helmintos en una muestra estratificada por edad.
Método: Se estudiaron 1113 individuos con edades comprendidas entre los 6 meses y 83 años de una comunidad rural de Americaninhas in Minas Gerais. La evaluación incluyó medidas antropométricas de peso, altura y composición corporal, evaluación de muestras fecales para huevos de helmintos y pruebas de sangre periférica para albúmina, hemoglobina y concentraciones de ferritina.
Resultados: Un 10% de los participantes estaban por debajo del peso, 12.8% tenían sobrepeso y 28.3% de los niños y adolescentes tenían atrofia. Un 11.6% tenían una masa corporal magra baja y un 28.8% tenían una masa corporal grasa baja. Se observó hipoalbuminemia en un 5.5%, anemia en un 12.5% y deficiencia de hierro en un 13.1%, aunque la prevalencia de estos dos índices aumentaba con la edad. Un análisis multivariado mostró que, después de controlar para la edad, sexo y estatus socio-económico, la atrofia estaba significativamente asociada con la infección por Ascaris lumbricoides en niños y adolescentes, mientras que la infección por anquilostoma estaba asociada con una masa corporal baja en adultos y personas mayores.
Conclusiones: Las infecciones por helmintos están asociadas con desnutrición en poblaciones endémicas, con diferencias importantes entre los efectos del anquilostoma y A. lumbricoides en el estado nutricional relacionado con la edad.
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- Materials and methods
Intestinal parasitic infections remain serious public health problems, especially in poor and developing countries (Bethony et al. 2006). Although investigators have reached various conclusions regarding the age groups at greatest risk and the effect of helminths on nutrition, the relationship between malnutrition and intestinal helminth infection has been well established (Stoltzfus et al. 1997; Stephenson et al. 2000). This relationship is complex and depends on determinants such as the social, economic and physical environment in which an individual lives (Assis et al. 2004). Different types of helminth infection may affect growth in different ways [e.g. nutrient absorption, voluntary intake of food and degree of mucosal damage (Stephenson et al. 2000)]. The nutritional status of the host may be impaired by the increased nutrient demands of the parasite itself or by specific actions such as blocking the absorbing surface of the mucosa by adult Ascaris lumbricoides worms (Stephenson et al. 2000), ongoing blood loss by hookworm infections (Stoltzfus et al. 1997) and/or schistosomiasis (Friedman et al. 2005).
Previous studies have found A. lumbricoides, Schistosoma mansoni and Trichuris trichiura infections to be associated with stunting in pre-school and school children (Tshikuka et al. 1997; Saldiva et al. 1999; Assis et al. 2004). But most studies of intestinal parasites and malnutrition have been limited because they have only studied children and by their focus on helminths (Beltrame et al. 2002; Muniz et al. 2002; Hughes et al. 2004; Quihui-Cota et al. 2004; Ulukanligil & Seyrek 2004). Ours is one of the few studies to investigate the impact of different helminths on specific nutritional deficiencies including body composition and biochemical parameters, and it is the first to investigate individuals from all age groups including the elderly. Therefore, this study aimed to describe the nutritional patterns of a population in a helminth endemic area and to assess the relationships between helminth species and anthropometric parameters.
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- Materials and methods
Parasitological surveys were performed on 1113 (537 males and 576 females) individuals (Table 1), of whom 1105 had anthropometric indices measured; 758 of these also agreed to have blood collected by venipuncture or finger prick. The percentages within each age group were as follows: children 29.2%, adolescents 24.7%, adults 35.5% and the elderly 10.6%. Among the children between 0 and 9 years, 20.9% were infants, 31.7% pre-schoolers and 47.4% schoolchildren. Level of maternal education was classified as either illiterate (63.6%), primary school level (31.9%), or post-primary school level (4.5%). Level of paternal education was classified as illiterate (65.7%), primary school level (30.9%) or post-primary school level (3.4%). A radio was present in 30.2% of households and a refrigerator in 24.3%. Possession of land was reported by 38.6% of participants (Table 1).
Table 1. Description of socioeconomic status and other variables in the study population
|Age group (years)|
|Level of maternal formal education|
| Primary school||337||31.9|
| Post-primary school||48||4.5|
|Level of paternal formal education|
| Primary school||323||30.9|
| Post-primary school||35||3.4|
| Possession of radio||310||29.5|
| Possession of refrigerator||260||24.7|
| Possession of land||406||38.7|
We observed a high prevalence of hookworm (69.8%), A. lumbricoides (50.8%) and S. mansoni (45.2%) infection, with the majority of individuals harbouring infections of low intensity (Table 2). The prevalence of Strongyloides stercoralis was 8.1% and the prevalences of other helminth species were negligible [T. trichiura (1.1%), Enterobius vermicularis (0.8%), Hymenolepis nana (0.2%) and Taenia spp. (0.2%)]. The prevalence of hookworm was significantly greater in males than females (74.9%vs. 65.1%, P < 0.001). Children had lower prevalences of hookworm and S. mansoni infection but higher prevalence of A. lumbricoides (P < 0.001) than the other age groups (Table 2).
Table 2. Intensity of helminth infection by age group and gender in the study population
|Intensity of helminth infection†||Overall||Sex||P-value*||Age (years)||P-value*|
|Hookworm|| || || || || || ||<0.001|| || || || || || || || ||<0.001|
| Not infected||336||30.2||135||25.1||201||34.9|| ||131||40.3||65||23.6||105||26.6||35||29.7|| |
| Light||598||53.7||316||58.8||282||49.0|| ||161||49.5||161||58.5||224||56.7||52||44.1|| |
| Moderate||75||6.7||44||8.2||31||5.4|| ||14||4.3||24||8.7||29||7.3||8||6.8|| |
| Severe||104||9.3||42||7.8||62||10.8|| ||19||5.8||25||9.1||37||9.4||23||19.5|| |
|Ascaris lumbricoides|| || || || || || ||0.181|| || || || || || || || ||<0.001|
| Not infected||548||49.2||273||50.8||275||47.7|| ||112||34.5||116||42.2||248||62.8||72||61.0|| |
| Light||254||22.8||115||21.4||139||24.1|| ||64||19.7||68||24.7||92||23.3||30||25.4|| |
| Moderate||109||9.8||60||11.2||49||8.5|| ||47||14.5||34||12.4||22||5.6||6||5.1|| |
| Severe||202||18.1||89||16.6||113||19.6|| ||102||31.4||57||20.7||33||8.4||10||8.5|| |
|Schistosoma mansoni|| || || || || || ||0.947|| || || || || || || || ||<0.001|
| Not infected||610||54.8||294||54.7||316||54.9|| ||234||72.0||130||47.3||170||43.0||76||64.4|| |
| Light||252||22.6||120||22.3||132||22.9|| ||51||15.7||49||17.8||122||30.9||30||25.4|| |
| Moderate||149||13.4||71||13.2||78||13.5|| ||21||6.5||49||17.8||69||17.5||10||8.5|| |
| Severe||102||9.2||52||9.7||50||8.7|| ||19||5.8||47||17.1||34||8.6||2||1.7|| |
Overall, the prevalence of stunting was 28.3%, underweight 10.0% and overweight was 12.8% (Table 3). Wasting was observed in 2.4% of children. The prevalence of stunting did not differ by sex. Being underweight was more prevalent in adolescent males than in females (9.7%vs. 0.7%, P = 0.001) but more prevalent in adult females than in males (8.3%vs. 4.6%, P = 0.046).
Table 3. Alterations in nutritional parameters by age group in the study population
|Variable/age group (years)||Overall||0–9||10–19 ||20–59||≥ 60||P-value*|
|Body mass†|| || || || || || || || || || ||<0.001|
| Underweight||111||10.0||56||17.3||14||5.1||26||6.7||15||12.8|| |
| Overweight||141||12.8||10||3.1||14||5.1||97||24.9||20||17.1|| |
|Height/stunting||169||28.3||101||31.3||68||24.7|| || || || ||0.077|
|Low lean body mass/Low protein reserves||124||11.6||25||8.1||39||14.2||45||11.6||15||15.5||0.072|
|Fat body mass|| || || || || || || || || || ||0.002|
| Low calorie reserves||307||28.8||75||24.8||62||22.5||134||34.4||36||37.1|| |
| Excess calorie reserves||13||1.2||2||0.7||4||1.5||7||1.8||0||0|| |
|Serum ferritin|| || || || || || || || || || ||0.049|
| Depleted iron stores||54||13.1||10||17.2||16||12.9||19||10.4||9||19.1|| |
| Risk of iron overload||9||2.2||0||0||0||0||6||3.3||3||6.4|| |
|Serum albumin/depleted visceral proteins||23||5.5||4||6.8||5||4.0||9||4.8||5||10.2||0.394|
Overweight was less prevalent among children (3.1%) than the other age groups, and increased with age until 60 years, then it decreased. Underweight was more prevalent in children (17.3%) and the elderly than in adults (12.8%; P < 0.001). Among children, underweight was more prevalent in infants than in pre-school or schoolchildren (25.0%vs. 15.8% and 15.3% respectively, P = 0.003). The proportion of those who were stunted was the same for children and adolescents, although among children, infants showed a higher prevalence of stunting than pre-school or school children (42.3%vs. 31.4% and 26.1% respectively, P = 0.050). In this population, the mean heights of older children were low, being below the 10th percentile for boys and below the 5th percentile for girls, compared to a reference population (166.1 ± 4.5 cm and 152.8 ± 5.3 cm for 18-year-old boys and girls respectively). Final adult height was also low (163.5 ± 6.7 cm in males and 151.1 ± 5.6 cm in females). Only two individuals (aged 2 and 3 years respectively) had a kwashiorkor-like appearance (both were treated with nutritional supplementation and anthelmintic drugs).
Figure 1 shows the mean HAZ and WAZ scores and the percentiles of BMI by age and sex. The curves for HAZ and WAZ showed little difference between the sexes in terms of growth pattern between the ages of 0 and 10 years, with both remaining relatively flat. But after 10 years of age, the growth lines diverged between sexes. Girls showed compensatory growth from 10 to 12 years in contrast to boys who showed a decline in growth until 16 years of age, after which a slight increase was observed (Figure 1a). The compensatory growth spurt seen in girls seemed to occur only between the ages of 10 and 12 years, after which it stopped. The pattern of divergence between the sexes after 10 years was also apparent in the mean WAZ scores and BMI-for-age percentile (Figures 1b,c), although the increase was not present after 16 years among boys.
Figure 1. Mean z-scores of (a) height-for-age, (b) weight-for-age and (c) body mass index percentiles of boys and girls. Vertical bars indicate 95% confidence levels. Sample sizes in parentheses (boys/girls).
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11.6% and 28.8% of individuals had low lean body mass and low fat body mass respectively (Table 3). Adults and the elderly showed lower fat mass than children and adolescents (34.4% and 37.1%vs. 24.8% and 22.5%, P = 0.002) (Table 3). Low fat body mass prevalence did not differ between sexes, but excess in fat body mass was higher in females than males (2.2%vs. 0.2%, P = 0.010).
Biochemical markers of nutritional status
Overall, the prevalence of anaemia was 12.5% and was more evident in children (24.5%) and the elderly (14.7%, P < 0.001) than in adults. The prevalence of anaemia did not differ according to sex. The overall prevalences of iron deficiency and iron overload were 13.1% and 2.2% respectively. The risk of iron overload was observed only among adults and the elderly (Table 3). The prevalence of anaemia decreased with age until 60 years, after which it increased (infants 50%, pre-school children 21.3%, school children 13.8%, adolescents 5.6%, adults 3.8%, elderly 14.7%; P < 0.0001). A similar pattern was observed for the prevalence of iron deficiency (Table 3).
Hypoalbuminaemia was detected in 5.5% of those who provided blood samples. Only one individual (aged 22 years) had severe hypoalbuminaemia (<2.8 mg/dl).
Effect of intestinal helminths on nutritional status
The relationships between nutritional status and helminth infection among children/adolescents and adults/elderly are presented in Table 4. Multiple regression analysis showed that, after adjusting for age, sex and socio-economic status, there was a significant positive association between undernutrition and A. lumbricoides infection among children and adolescents. An increase in the faecal A. lumbricoides egg count of 10 000 epg increased the odds of having stunting among children and adolescents by 47% [adjusted odds ratio (AOR) = 1.47, 95% CI = 1.00–2.16], low lean body mass by 93% (AOR = 1.93, 95% CI = 1.11–3.35) and low fat body mass by 68% (AOR = 1.68, 95% CI = 1.12–2.51). For adults and the elderly, hookworm infection was negatively associated with overweight and positively associated with low fat mass, such that an increase of 10 000 epg of hookworm reduced the odds of being overweight by 35% (AOR = 0.65, 95% CI = 0.06–0.66) and increased the odds of having low fat body mass by 91% (AOR = 1.91, 95% CI = 1.08–3.35). An increase in 10 000 epg of A. lumbricoides increased the odds of having low fat body mass by 87% (95% CI = 1.07–3.28) in this age group. In this analysis, the odds ratios of having low lean body mass of males were 8.71 (3.93–19.32) and 13.8 (5.82–32.84) greater than females in children/adolescents and adults/elderly respectively. The odds ratio of being overweight of males was 0.64 (0.26–0.64) within the adults and elderly group. No significant association was found between nutritional status and infection with S. mansoni in this population.
Table 4. Odds ratio for association between nutritional status and intensity of helminth infection between children/adolescents and adults/elderly
|Nutritional status||Association||Odds ratio*|| 95% CI||P-value|
|Children and adolescents|
| Stunting||Ascaris lumbricoides||1.47||1.00–2.16||0.048|
| Low lean mass||A. lumbricoides||1.93||1.11–3.35||0.019|
| Low fat mass||A. lumbricoides||1.68||1.12–2.51||0.012|
|Adults and elderly|
| Low fat mass||Hookworm||1.91||1.08–3.35||0.025|
| ||A. lumbricoides||1.87||1.07–3.28||0.029|
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- Materials and methods
In assessing the relationship between nutritional status and helminth infection, we have shown that A. lumbricoides infection is more likely to influence the nutritional status of children and adolescents, whereas hookworm infection has a greater impact on adults and the elderly. Stunting was associated with A. lumbricoides infection in infancy, which confirms the studies conducted elsewhere (Tshikuka et al. 1997; Saldiva et al. 1999). In children, no significant association was found between hookworm infection and alterations in anthropometric parameters; although previously in this population, infection with hookworm was significantly associated with anaemia (Brooker et al. 2007). Regarding body mass status, we found no association between underweight and helminth infection, but we did find lower odds of being overweight in adulthood, which was, in general, more prevalent in this population.
Potential reasons for the observed positive association between low fat body mass and hookworm infection might be impairment of the host’s nutritional status by disrupted nutrient absorption and reduced appetite, both of which are mechanisms described in animal models (Albonico & Savioli 1997). Therefore, although some studies have concluded that hookworm rarely contributes to malnutrition (other than the important exception of iron deficiency anaemia), the impairment in fat body mass observed in this study reveals an important association between hookworm infection and malnutrition among the age groups with the highest prevalence of infection. Similarly, infection with A. lumbricoides was associated with reduced growth profile and protein-calorie body reserves in children and adolescents. This is probably due to reduced intestinal absorption and luminal obstruction, which can lead to anorexia and blocking of the absorbing surface (Stephenson et al. 2000). It is interesting to note the link found in this study between specific nutritional deficiencies in different age groups and specific parasites (i.e. the association between hookworm and weight, and between A. lumbricoides and height, lean and fat body mass). Previously these specific deficiencies have been reported in few cases and most studies refer to only a general association between helminth infection and malnutrition. In this population, S. mansoni infection was not associated with malnutrition, in contrast to other studies that have shown an association with childhood stunting (Parraga et al. 1996; Assis et al. 2004).
In this study, overweight was more prevalent than underweight and there was a trend towards increasing overweight with age (but the prevalence of overweight decreased in the elderly). This is similar to previous nutritional surveys conducted in Brazil that have indicated a nutritional transition to a higher prevalence of overweight than underweight (POF 2004). But the prevalence of underweight in the studied population was higher and the prevalence of overweight was lower than in Brazilian adults and the elderly overall (POF 2004). An almost threefold higher prevalence of stunting was observed in the studied infants than the overall prevalence in Brazil (POF 2004). Children, especially younger ones, and the elderly, showed a tendency to be more undernourished for both sexes. Crispim et al. (2004) reported similar findings in a descriptive nutritional study in rural Brazil, in which children and the elderly were more underweight than adolescents and adults. In the current study, boys within the adolescent group showed more susceptibility to being underweight than girls [which corresponds to other studies conducted in Southeast and Northeast Brazil (Pinto et al. 2005)]. Among adults, women were dystrophic (either underweight or overweight) more often than men, which corresponds to prior nutritional surveys conducted in a rural area of Southeast Brazil (POF 2004).
The HAZ, WAZ and BMI-for-age curves showed relatively flat growth patterns until the age of 8 years for both sexes; then all the three indices increased for girls until the age of 12 years. Indices for boys remained flat until the age of 14 years when an increase was seen that, in the case of HAZ, surpassed the mean score for girls. The decrease in the mean HAZ score observed after the age of 12 years is very different from the growth pattern seen in a similar study conducted in Tanzania, where HAZ progressively increased throughout adolescence, likely representing a more prolonged compensatory growth spurt than was seen in the girls of the current study (Lwambo et al. 2000). A difference was also observed for WAZ in girls: a plateau observed after a brief spurt between the ages of 8 and 12 years. This was again in contrast to Tanzanian girls who had a progressive increase in this parameter throughout adolescence. It is apparent that compensatory growth in height begins to occur at 10 years among girls and at 14 years among boys in the population studied. Lwambo et al. (2000) found that compensatory growth began at 16 years for boys and 12 years for girls in Tanzania, whereas in a study of South African children, compensatory growth occurred at 15.5 years in males and 13.5 years in females (Cameron et al. 1994).
These findings suggest earlier compensatory growth among the studied girls (at 10 years) relative to other malnourished populations. This earlier compensatory growth phenomenon may explain the low mean heights observed in older girls in our study (mean heights of female adolescents were low, being below the 5th percentile, compared to a reference population) and the short final adult height. Some authors have stressed that normal adult height can still be attained among those who have delayed maturation (Cameron 1991; Cameron et al. 1994); but this was not observed in Americaninhas females, who experienced a normal age at menarche of 12.9 ± 1.4 years (data not shown) compared to Brazilian girls living in a satisfactory socioeconomic environment (12.8 years) (Picanço 1995). Thus, our findings suggest that earlier compensatory growth in stunted girls who experience a normal age at menarche could compromise their final height. But longitudinal studies are required to investigate this hypothesis further.
The high rate of anaemia (50%) in the infants from Americaninhas is similar to that found in other regions of Brazil (Torres et al. 1994; Neves et al. 2005) and remains an important public health problem. Studies from São Paulo State found infant anaemia prevalence ranging from 47.8% to 68.7% (Monteiro et al. 2000). In other regions of the country, such as the North, Northeast and South, the anaemia prevalence in this age group was 66.6%, 82.8% and 54.0% respectively (Neves et al. 2005). The anaemia prevalence variation by age group in our study is in accordance with other studies (Monteiro et al. 2000), showing higher prevalence of anaemia in the first years of life followed by a decrease with age. The prevalence of anaemia in the elderly was higher than the estimated percentages in industrialized countries, although it was lower than that of non-industrialized countries (WHO 1995). As shown by Brooker et al. (2007), the increase of prevalence in anaemia might be associated with helminth infection in this group.
In conclusion, stunting was the most prevalent form of undernutrition observed in this study. It has an impact on growth and perhaps on being overweight in adulthood, the most prevalent nutritional abnormality observed in adults. These data suggest that chronic undernutrition in the first years of life in this population may lead to the low adult stature that contributes to the development of overweight). The most vulnerable age groups for malnutrition were children and the elderly and, in general, males were more susceptible to having reduced body mass. A significant association between helminth infection and age-related nutritional status was found. Ascaris lumbricoides was associated with impaired growth patterns in childhood and hookworm infection associated with impaired body mass (with regard to both BMI and fat body mass) in adulthood. These associations may result in adverse consequences for children in terms of mortality, morbidity, growth and cognitive performance that eventually translate into reduced physical and work capacities in adulthood (WHO 1995). This may negatively affect the economic situation of this population where agricultural work is the dominant economic activity.
The association between parasitic infection and malnutrition found in this study could be due either to the direct effect of intestinal parasites on nutritional status (Stephenson et al. 2000) or to the effect of undernourishment on the immune response leading to an increased susceptibility to infection (Bundy & Medley 1992). Prospective studies will be conducted to confirm the effect of intestinal parasites on nutrition.