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Community and International nutrition
Weight Gain of Kenyan School Children Infected withHookworm, Trichuris trichiura and Ascarislumbricoides Is Improved Following Once- orTwice-Yearly Treatment with Albendazole1'2
LAW S. STEPHENSOn,3 MICHAEL C LATHAM, ELIZABETH J. ADAMS,STEPHEN TV. K/7YO7Y* AND A/Y/YE PERTET*
Program in International Nutrition, Division of Nutritional Sciences, Savage Hall,Cornell university, Ithaca, NY 14853-6301, and *Kenya Medical Research Centre,Kenya Medical Research Institute, Nairobi, Kenya
ABSTRACT We studied growth in infected childrengiven one dose (600 mg) or two doses of albendazoleper school year. Children were examined and allocated atrandom within sex by descending hookworm egg countto one of three groups: placebo (n = 93), one dose (Ix,n = 96) or two doses (2x, n = 95). Each child wastreated and then re-examined and treated 3.6 and 8.2mo later (Exams 2 and 3). The Ix and 2x groups gainedsignificantly more by Exam 3 than the placebo group inweight (1.1 and 0.9 kg more, respectively), percentweight-for-age (3.3 and 2.7 percentage points more),percent weight-for-height (3.1 and 2.9 percentage pointsmore), percent arm circumference-for-age (2.3 and 2.0percentage points more) and triceps and subscapularskinfolds but did not differ significantly from each other.The placebo group showed significant decreases between exams (P < 0.0002) in percent weight-for-age andpercent arm circumference-for-age and no change inpercent weight-for-height, whereas the Ix and 2x groupsexhibited significant increases (P < 0.005). At Exam 3,arithmetic mean egg reduction rates for the Ix and 2xgroups were 84 and 95% for hookworm, 42 and 32% forTrichuris and 55 and 87% for Ascaris, respectively. Weconclude that one or two doses of albendazole per yearresulted ¡nsimilar growth improvements, despite reinfection, in school-age children ¡nan area where thesehelminths and poor growth are prevalent. J. Nutr. 123:656-665, 1993.
INDEXING KEY WORDS:
•children ••growth ••hookworm
ascaris lumbricoidestrichuris trichiura
Hookworm, Ascaris lumbricoides (roundworm)and Trichuris trichiura (whipworm), the three mostprevalent geohelminth infections, are among themost common infections in the world and are trans
mitted by improper disposal of feces from infectedpersons, especially children. Each parasite has beenestimated to infect 1/6 to 1/4 of the world's popu
lation, and these infections often occur in the samegeographical areas and in the same persons(Pawlowski 1984, Stephenson 1987). Children in developing countries are often affected both by theseintestinal worms and by protein-energy malnutrition,which occurs in at least 500 million children (Latham1984). Many studies reviewed elsewhere show associations between each of the intestinal worm infectionsand poor child growth, and most of the interventionstudies conducted show that growth improves aftertreatment (Crompton and Stephenson 1990,Stephenson 1987, Stephenson et al. 1989b, Tomkinsand Watson 1989). However, we still do not knowhow much malnutrition on a global basis could bealleviated by effective prevention and control of geohelminth infections, or even which infection causesthe most malnutrition.
The long-term solutions to malnutrition and geo
helminth control lie in eradication of poverty and incommunity-based programs to improve health care,living conditions, sanitation, water supplies andhealth education (Stephenson 1989). The enormousfinancial and logistic difficulties of implementing
'Supported in part by Thrasher Research Fund and SmithKline
Beecham, Ltd.^Presented at the Annual Meeting of the Federation of American
Societies for Experimental Biology, April 8, 1992, Anaheim, CAjStephenson, L. S., Latham, M. C., Adams, E., Kinoti, S. N. &Pertet, A. (1992) Treatment with one or two doses of albendazoleimproves growth of Kenyan school children with hookworm, T.trichiura and A. lumbricoides infections. FASEB J. 6: A1650 (abs.)l.
CHILD GROWTH AND HOOKWORM, TRICHURIS AND ASCARIS 657
those improvements in most developing countrieshave led us to conclude that population-basedchemotherapy with broad-spectrum anthelmintics islikely to be the only way to reduce drastically theprevalence and intensity of geohelminth infection inthe next decade, and have led groups of experts toencourage large-scale treatment programs now. "The
World Health Organization (WHO) recommends thatin areas where the prevalence of mild-moderate un
derweight in children is greater than 25%, and whereparasites are known to be widespread, high priorityshould be given to de-worming programmes fortreatment of parasites" (Tomkins and Watson 1989)."School children harbour some of the most intense
helminth infections with adverse effects on health,growth and school performance. . . . Treatmentwithout prior individual screening of the whole population is recommended where surveys of school-agechildren indicate that the prevalence of intestinalhelminths or schistosome infection exceeds 50%"
(WHO 1992). It is in preschool-age children that
growth faltering begins and is most serious.Deworming in young children infected with parasitesalso deserves serious consideration.
Because the extent and types of malnutrition andthe prevalence and intensity of the geohelminths varybetween communities and age groups, it is importantto assess the growth and health benefits and thefeasibility and economic costs of various treatmentregimens (Jamison and Mosley 1991). The followingstudy was conducted in 1989-1990 at the KenyaCoast, where polyparasitism is almost universal andwhere our previous studies showed that growth ofprimary school children had improved 6 mo after asingle dose of a broad-spectrum anthelmintic (alben-dazole) and that physical fitness of primary schoolboys had improved 7 wk after treatment (Stephensonet al. 1989b and 1990). The major goals of the studywere to determine and compare the effects oftreatment with one or two oral doses of albendazoleper school year on amount of parasitism and growthof primary school children infected with hookworm,Trichuris trichiura and Ascaris lumbricoides, and todetermine the relationships between decreased infection intensity for the various species and growthrates after treatment. Substudies in the same population were also conducted on relationships of thegeohelminths and their treatment to appetite, growthand physical fitness (Stephenson et al. 1991 and1993), growth and spontaneous physical activity(Adams et al. 1991) and cognitive performance (Pollittet al. 1991) and will be reported in future papers.
MATERIALS AND METHODS
Study population, experimental design, treatment.The subjects were all available children in the lower
grades (Standards I through V) in Mvindeni PrimarySchool in Kwale District, Coast Province, Kenya, anarea where our previous work had shown that nearlyall of the primary school children have hookworm(predominantly Necator americanus] and T. trichiurainfections and approximately half have A. lumbricoides. Parental consent for the children's partici
pation was obtained, and all were free to withdraw atany time. The study protocol was reviewed and approved by the Cornell University Committee onHuman Subjects and the Kenya Medical ResearchInstitute. Children were examined in September-October 1989 (baseline; Exam 1), January-February1990 (Exam 2) and June-July 1990 (Exam 3). Of 352children who were registered and regularly attendingschool, 24 did not participate (parental refusal). AtExam 1, 93% (328/352) were examined, at Exam 2,88% (310/352) were seen and at Exam 3, 84% (294/352) were examined.
At Exam 1, children were allocated at randomwithin sex by descending hookworm egg count toplacebo (n = 93 completing study), one dose (Ix, n =96) or two dose (2x, n = 95) groups, treated, and re-examined and treated 3.6 and 8.2 mo later (Exams 2and 3). The Ix group received a single dose of 600 mgof albendazole (3 x 200-mg tablets, SmithKlineBeecham, Ltd., Brentford, Middlesex, U.K.) at Exam 1and identical placebos at Exam 2, the 2x groupreceived 600 mg of albendazole at Exam 1 and 2, andthe placebo group received identical placebos at Exam1 and 2. We chose 600 mg of albendazole, as recommended by Ramalingam et al. (1983) for Trichurisinfection, rather than the standard 400-mg dose wehad previously used, to obtain better efficacy againstTrichuris in this heavily infested population. Alldoses of albendazole and placebos were consumed inthe presence of project staff. For ethical reasons, thefew children with heavy hookworm egg counts[>20,000 eggs per gram of feces (epg)] at Exam 1 or 2were immediately given 600 mg of albendazole and a6-wk course of FeSU4 (200 mg/d) and did not participate in the randomization or, if found at Exam 2,were reassigned to the heavily infected treated groupand followed. After Exam 3, all subjects in theplacebo and Ix groups received a single dose of albendazole, and any children with heavy hookworm infection received albendazole and a 6-wk course ofFeSO4.
Parasitology, anthropometry, data analysis. Allthree examinations were conducted with the sameteam of workers, each performing the same procedures, and were done in a blind fashion. Examinationsof fecal specimens for parasite eggs were performed onthe day of passage with a modified Kato techniquerecommended by the World Health Organization(1991), using templates to measure -50 mg of stooland a cellophane coverslip soaked in glycerine-malachite green solution. Hookworm eggs were
'Exam l = baseline; Exam 2 - 3.6 mo after first dose; Exam 3-= 4.4 mo after second dose, 8.2 mo after baseline. Sample sizes: PL = 93, Ix -96, 2x = 95. D - decrease, NS = not statistically significant. McNemar's tests were two-tailed for the placebo group and one-tailed for the Ix
and 2x groups (hypothesize decrease). Exam 1 prevalences not significantly different for hookworm or Ascaris-, for Trichuris, chi-square on allthree groups had P = 0.046 and partitioned chi-square on Ix vs. 2x groups showed borderline lower prevalence in 2x group (P = 0.096). Exam 3prevalences significantly different for all three infections (chi-square on three groups and partitioned chi-square on placebo vs. Ix + 2x = P <0.0001; partitioned chi-square P on Ix vs. 2x groups = 0.0016 for hookworm, 0.0189 for Trichuris, 0.0194 for Ascaris).
counted 30-60 min after smear preparation (Martinand Beaver 1968). Egg counts, as estimates of wormburden or intensity of infection, were expressed aseggs per gram of feces. Percent egg reduction ratesfrom Exam 1 to Exams 2 and 3 were also calculatedfrom the arithmetic and geometric mean egg countswith the formula: percent egg reduction = [(initial epg- final epg) * initial epg] x 100. The percent reductionin arithmetic mean counts refers to the population ofall subjects' worms, but because egg counts follow a
negative binomial distribution, the percent reductionin the geometric mean counts better reflects the decrease in the average subject. *
Data were analyzed on a Compaq Portable III computer with SPSS-PC+ version 3.0 (Norusis 1988).Statistical tests used included chi-square tests for association, McNemar's test for changes in prevalence,one-way ANOVA, Tukey's honestly significant
difference test for pairs of group means (P < 0.05 levelonly), paired i tests, Pearson correlation coefficientsand stepwise multiple regression analysis; heter-oscedastic or negative binomial distributions (eggcounts) were transformed to common logarithmswith the n+l transformation before applying parametric tests (Sokal and Rohlf 1969). Values in the textare means ±SEM.
RESULTS
Baseline data and changes in parasitic infections.Ninety-one percent of the children were Muslims ofthe Wadigo tribe,- 96.5% were East African Bantus and3.5% were Luos from a different linguistic group. Thethree study groups were comparable in most respectsand did not differ significantly in sex ratio (44-50%female per group) or age (10.6 ±0.19 y for the placebogroup, 10.4 ±0.18 y for the Ix group and 10.5 ±0.17 yfor the 2x group,- range = 7-14 y for placebo and 2xgroups and 6-15 y for the Ix group). They also did notdiffer significantly in initial prevalence or intensity ofhookworm or Ascaris lumbricoides infections (Tables1 and 2) or in baseline anthropometry, before andafter adjusting for age and sex (Table 3). Despiterandom allocation, the placebo group had a significantly higher initial intensity of Trichuiis trichiurainfection than did the 2x group (geometric mean 1142
'Sample sizes: PL - 93, Ix - 96, 2x = 95. I = increase, D = decrease, NS = not statistically significant, Tukey HSD = Tukey's honestly
significant difference test. No significant differences between groups before treatment (Exam 1) or between Ix and 2x groups for Exam 3 orExam 1-3 with Tukey's HSD. Paired i tests were one-tailed for placebo group (raw:hypothesized increase, percents:hypothesized decrease,
based on previous studies) and one-tailed for Ix and 2x groups (hypothesized increase).
vs. 424 epg, Table 2). The 2x group had the lowestinitial prevalence of this infection (81%), althoughsimilar and very high percentages of children in theother two groups (90-92%) were also infected (Table1).
At the end of the 8-mo study, prevalence and in
tensity of all three infections showed highly significant decreases in the Ix group and even more so inthe 2x group; they showed no significant change inthe placebo group, except for intensity of hookworm
infection, which increased markedly with the geometric mean for eggs per gram of feces doubling byExam 3 (Tables 1 and 2). Much of the hookworm and,as expected, nearly all of the Ascaris were cleared bythe first dose of albendazole; the second dose servedto kill most of the few newly acquired worms (seeExam 2 vs. 3, Tables 1 and 2). Not unexpectedly,Trichuris was the most resistant to treatment, andthe second dose was more efficacious for it than forthe other two parasites.
CHILD GROWTH AND HOOKWORM, TRICHURIS AND ASCARIS 661
The prevalence of children still infected withhookworm was still moderately high at Exam 3 (45%in the Ix group, 23% in the 2x group vs. 95% in theplacebo group) but was significantly lower in the 2xgroup. More importantly, geometric mean counts haddecreased by 97 and 99% in the Ix and 2x groups,respectively, although the 2x group's mean count was
significantly lower. So although some children werenot "cured," almost all treated children had their
worm burden very markedly reduced. The prevalenceof Trichuris was disappointingly high at Exam 3 (81,66 and 95% in the lx; 2x and placebo groups, respectively) and was significantly lowest in the 2x group.The geometric mean counts had decreased by 62% inthe Ix group and 78% in the 2x group, whereas itincreased by 19% in the placebo group; all three pairsof group means differed significantly. The prevalenceof Ascaris at Exam 3 was 33% in the placebo group,16% in the Ix group and 5% in the 2x group, and itwas significantly lowest in the group receiving asecond dose of albendazole. The geometric meancount had increased by 35% in the placebo group anddecreased by 88% in the Ix group and 95% in the 2xgroup,- the placebo group mean was significantlygreater than for the other two groups.
Growth rates after treatment. Comparison of thechanges in anthropometry between Exams 1 and 3showed that both the Ix and 2x groups exhibitedsignificantly more rapid growth after treatment thandid the placebo group for all growth indices exceptheight and height-for-age (Table 3). Interestingly, themagnitude of growth improvement was almost identical in both treated groups, even though the 2x grouphad significantly less parasitism by Exam 3. The Ixand 2x groups showed larger increases in weight(mean 1.1 and 0.9 kg, or 50 and 41% greater than forthe placebo group, respectively), weight-for-age (3.3and 2.7 percentage points more), weight-for-height(3.1 and 2.9 percentage points more), arm circumference (means 0.5 and 0.4 cm greater than for theplacebo group), arm circumference-for-age (2.3 and 2.0percentage points), triceps skinfold thickness (means1.8 mm) and subscapular skinfold thickness (means1.4 and 1.5 mm). These differences were significantwith one-way ANOVA (P < 0.0001), and the Ix and 2xgroups did not differ from each other with Tukey's
The frequency distributions of the changes inweight-for-age, weight-for-height, triceps skinfoldthickness-for-age, subscapular skinfold thickness-forage (Fig. 1) and arm circumference-for-age (data not
XtSEM
PL -1.4 t 0.28
IX 1.9+0.36
••••2X1.3±0.30
Tukey HSDi 1X ,2X>PL
-8 -6 -4 -2 O 2 4 6 8 10 12
Increase in Weight for Age, %age Points
40
30
X+SEM
PL -0.3 + 0.30
1X 2.8 + 0.36••••2X2.6 + 0.35
\«. Tukey HSD: 1X,2X>PL\«
-6 -4 -2 0 2 4 6 8 10 12 14
Increase in Weight tor Height, %age Points
X+SEM
PL 0.5+0.79*/\*» 1X 17.0 ±0.98
••"2X 17.1 +0.94
Tukey HSO:1X,2X>PL
J-20 -10 0 10 20 30 40 50 60
Increase in Triceps Skinfold for Age, %age Points
X+ SEM
PL 2.4 + 1 25
1X 23.7 ±1.19••••2X 26.2 ±1.53
^ Tukey HSD : 1X ,2X> PL¿•\' •\
-40 -30 -20 -10 0 10 20 30 40 50 60
Increase in Subscapular Skinfold for Age, %age Points
FIGURE 1 Frequency distributions of increases inweight-for-age, weight-for-height, triceps skinfold-for-ageand subscapular skinfold-for-age in children given one dose(Ix) or two doses (2x) of 600 mg of albendazole or placebo(PL) per school year (8.2 mo). Sample sizes: PL = 93, Ix = 96,2x = 95. ANOVA: P < 0.0001 for each of four variables.
shown) for the three groups illustrate that the morerapid growth in the two treated groups was a generalized phenomenon in all treated children thatoccurred despite some treatment failures, reinfections
and/or initial low egg counts, and that the distribution of growth improvement in the two treatedgroups was almost identical. Twenty-three percent ofthe Ix group and 16% of the 2x group gained at least4.0 percentage points in weight-for-age, comparedwith only 2% of the placebo group; 31% of the Ixgroup and 33% of the 2x group gained at least 4.0percentage points in weight-for-height, comparedwith only 5% of the children in the placebo group.
Figure 2 compares the mean weight-for-age at allthree exams in all three groups with the geometricmean hookworm egg counts and explains mostclearly why the removal of worms after the seconddose of albendazole did not improve growth ratesmore than did only one dose. Hookworm was theinfection that was most intense and most effectivelytreated in this study, and the first dose drasticallydecreased hookworm in the average child in bothtreated groups, whereas the infection was increasingdramatically in the average child in the placebogroup. So weight-for-age increased similarly in bothtreated groups in the first and second halves of thestudy, whereas it actually decreased in the placebogroup.
FIGURE 2 Mean weight-for-age and geometric meanhookworm egg count in children given one or two doses of600 mg of albendazole or placebo per school year. Rx = 600mg albendazole given; epg = eggs per gram of feces.
in three, whereas Ascaris entered three of the sixequations and was significant in two. This rank order(hookworm, Trichuris, Ascaris] fits with what weknow and expect about intestinal parasites andnutrition in this age group in this part of Kenya.
Multiple regression analysis of increase in triceps skinfold thickness in children given one or two doses of 600mg of albendazole or placebo per school year1
Independent variables
Dependent variable: increase in percent triceps skinfold for age (Exam 3 - Exam 1)Beta B SE of B t
nutrition in children and that treated children gainmore weight than untreated ones (Crompton andStephenson 1990, Stephenson 1987, Stephenson et al.1989b, Totoprajogo 1989).
These findings are of major public health importance, because the subjects were essentially all of thechildren regularly attending school and were notselected for complaints of illness. The improvedgrowth occurred despite the fact that 23-81% of thechildren receiving albendazole either were still infected with or had re-acquired hookworm and/or
Trichuris at the end of the study. Thus, maintaining aparasitological cure was not needed to improvegrowth; major reductions in parasite loads (achievedespecially with hookworm and Ascaris] seem to bemuch more important. The subjects had a mean ageof 10.5 y and were less vulnerable to protein-energymalnutrition than preschool-age children, and yet
treatment significantly improved overall nutritionalstatus. The increased weight gain in this study (1.0 kg> placebo group over 8 mo) was similar to but slightlyless than the improvement found when treating 80children from the same area of Kenya for geohelminths with a single dose of albendazole (1.3 kg >placebo group over 6 mo, mean age 8.5 y) (Stephensonet al. 1989b) and that found after treating 100 childrenfor light to moderate Schistosoma haematobium infections with a single dose of praziquantel (1.4 kg >placebo group over 8 mo, mean age 10.5 y)(Stephenson et al. 1989a). These results imply thatthe nutritional benefits of treatment for geohelminthscontinue for >8 mo, especially when reinfection ratesare as low as they are in school children in this part ofKenya (Stephenson et al. 1986).
are more likely to be heavily infected with Ascarisand are likely to have less hookworm). Treatment forTrichuris would be expected to produce greatergrowth improvements if it were not so relativelyresistant to treatment with all available drugs.
The mechanisms by which hookworm, Trichurisand Ascaris influence growth probably involve altering host nutrient intake, metabolism and/or excretion. Much previous work has focused on excretion, in part because intake is so difficult tomeasure in free-living children in the tropics, butchronic frank diarrhea is not a daily feature of theseinfections in the average child (Stephenson 1987). Wenow believe decreased nutrient intake and possiblyaltered metabolism to be the major mechanisms bywhich all three geohelminths (and probably manyother parasites) influence growth; it seems likely thatdepressed growth and other functions as well may bemediated by cachectin/tumor necrosis factor alphaand other cytokines produced in response to the infections (Hammerberg 1986, Pearson et al. 1990, Traceyand Cerami 1989). Assays sensitive enough to detectthe low serum levels of cachectin that may be continually produced in helminth infections havebecome available only in the last few years and willenable testing of this hypothesis.
Regarding direct measurement of appetite, we conducted a small study of unrestricted consumption of alate morning snack (cornmeal porridge), growth andphysical fitness tests before and 4 mo after treatmentin 53 boys in the present study; we found that meanintakes in the 26 treated boys, along with growthrates and Harvard Step Test scores, were significantlygreater after treatment than in the 27 boys receiving aplacebo (Stephenson et al. 1991 and 1993). We alsofound similar improvements in appetite, fitness andgrowth in boys 5 wk after being treated forSchistosoma haematobium (Latham et al. 1990). So areduced food intake due to chronic infection and asustained increase after treatment could explainmuch of the growth (and fitness) improvements seen,although it will be difficult to measure 24-h energyintakes precisely enough in endemic areas to assessthe relative influence of these changes in appetite onenergy balance, growth and activity.
We conclude that treatment for hookworm,Trichuris and Ascaris with one or two doses of albendazole per school year may allow major and similargrowth improvements in school-age children in areaswhere these helminths and poor growth are common.We strongly agree with the World Health Organization recommendations to use communitychemotherapy to control these three parasites anddecrease malnutrition in endemic areas (Tomkins andWatson 1989, World Health Organization 1992). It isimportant to remember that treatment of large groupsin communities with inadequate fecal disposal is aform of prevention as well as cure, because transmission may decrease drastically for months or years
after treatment. We also recommend further researchto determine the specific roles of hookworm, Ascarisand Trichuris in aggravating malnutrition anddepressing food intake, and the extent and duration ofimproved growth rates following treatment withdiffering regimens and in communities with differingamounts of parasitism and malnutrition. Investigations in young preschool-age children are especiallyneeded.
ACKNOWLEDGMENTS
We are indebted to the Director of Medical Servicesof Kenya and the Kenya Medical Research Institutefor permission and encouragement to conduct andpublish this work. We gratefully acknowledge thetechnical assistance and advice of Hassan Juma,Charles Mwoshi, Omari Ali, John Horton and DavidSemon, the computer programming assistance of EdFrongillo and Sharon Bushart, and the secretarial assistance of Doreen Doty. Lastly, we thank theprimary school teachers and children for their enthusiastic participation.
LITERATURE CITED
Adams, E. }., Stephenson, L. S., Latham, M. C. & Kinoti, S. N.(19911 Albendazole treatment improves growth and physicalactivity of Kenyan school children with hookworm, T. trichiuraand A. lumbricoides infections. Am. J. Clin. Nutr. 53: A-104, P-30 (abs.|.
Crompton, D.W.T. & Stephenson, L. S. |1990| Hookworm infection,nutritional status, and productivity. In: Hookworm Disease:Current Status and New Directions (Schad, G. A. & Warren, K.M., eds.), pp. 231-264. Taylor and Francis Ltd., London, U.K.
Hamill, P.V.V., Drizd, T. A., Johnson, C. L., Reed, R. B. &. Roche, A.F. 11977) NCHS growth curves for children birth-18 years. Vitaland Health Statistics Series 11, no. 165. DHEW pubi. no. |PHS)78-1650, Department of Health and Human Services-PublicHealth Service, Hyattsviile, MD.
Hammerberg, B. (1986) Pathophysiology of nematodiasis in cattle.Vet. Clin. N. Am. Food Anim. Pract. 2: 225-234.
Jamison, D. T. & Mosley, W. H. (1991) Disease control priorities indeveloping countries: health policy responses to epidemiologicalchange. Am. J. Public Health 81: 15-22.
Jelliffe, D. B. & Jelliffe, E.F.P. (1989) Community Nutritional Assessment with Special Reference to Less Technically DevelopedCountries. Oxford University Press, New York, NY.
Latham, M. C. (1984) Strategies for the control of malnutrition andthe influence of the nutritional sciences. Food Nutr. 10: 5^31.
Latham, M. C., Stephenson, L. S., Kurz, K. M. & Kinoti, S. N. (1990)Metrifonate or praziquantel treatment improves physical fitnessand appetite of Kenyan school boys with Schistosoma hae-matobium and hookworm infections. Am. J. Trop. Med. Hyg.43: 170-179.
Martin, L. K. & Beaver, P. C. (1968) Evaluation of the Kato thick-
smear technique for quantitative diagnosis of helminth infections. Am. J. Trop. Med. Hyg. 17: 382-391.
Norusis, M. J. (1988) SPSS/PC* V3.0 Update Manual for the IBMPC/XT/AT and PS/2. SPSS Inc., Chicago, IL.
Pawlowski, Z. S. (1984) Implications of parasite-nutrition interactions from a world perspective. Fed. Proc. 43: 256-260.
Pearson, R. D., Cox, G., Evans, T., Smith, D. L., Weidel, D. &Castracane, J. (1990) Wasting and macrophage production oftumor necrosis factor/cachectin and interleukin 1 in experimental visceral leishmaniasis. Am. f. Trop. Med. Hyg. 43:640-649.
Pollitt, E., Wayne, W., Perez-Escamilla, R., Latham, M. &Stephenson, L. S. (1991) Double blind clinical trial on the effectsof helminthic infection on cognition. FASEB J. 5: A1081 (abs.).
Ramalingam, S., Sinniah, B. & Krishnan, U. (1983) Albendazole, aneffective single dose, broad spectrum anthelmintic drug. Am. J.Trop. Med. Hyg. 32: 984-989.
Sokal, R. R. & Rohlf, F. f. (1969) Biometry. W. H. Freeman, SanFrancisco, CA.
Stephenson, L. S. (1987) Impact of Helminth Infections on HumanNutrition: Schistosomes and Soil-Transmitted Helminths.Taylor and Francis Co., New York, NY.
Stephenson, L. S. (1989) National experiences of ascariasis controlmeasures and programmes in Africa. In: Ascariasis and ItsPrevention and Control (Crompton, D.W.T, Nesheim, M. C. &Pawlowski, Z. S., eds.), pp. 207-222. Taylor and Francis, Ltd.,London, U.K.
Stephenson, L. S., Latham, M. C., Adams, E., Kinoti, S. N. & Pertet,A. (1991) Albendazole treatment improves physical fitness,growth and appetite of Kenyan school children with hookworm,T. tiichiura and A. lumbricoides infections. FASEB f. 5: A1081(abs.).
Stephenson, L. S., Latham, M. C., Adams, E. J., Kinoti, S. N. &Pertet, A. (1993) Physical fitness, growth and appetite of Kenyanschool boys with hookworm, Trie/juris tiichiura and Ascarislumbricoides are improved four months after a single dose ofalbendazole. J. Nutr. (in press)
Stephenson, L. S., Latham, M. C. & fansen, A.A.J. (1983) A Comparison of Growth Standards: Similarities Between NCHS,Harvard, Denver and Privileged African Children and Differences with Kenyan Rural Children. Cornell InternationalNutrition Monograph Series no. 12, Cornell University International Nutrition Program, Ithaca, NY.
Stephenson, L. S., Latham, M. C., Kinoti, S. N., Kurz, K. M. &Brigham, H. (1990) Improvements in physical fitness of Kenyanschool boys with hookworm, Trichuris trichiura and Ascarislumbricoides infections following a single dose of albendazole.Trans. R. Soc. Trop. Med. Hyg. 84: 277-282.
Stephenson, L. S., Latham, M. C., Kurz, K. M. & Kinoti, S. N.(1989a) Single dose metrifonate or praziquantel treatment inKenyan children. II. Effects on growth in relation to S. hae-matobium and hookworm egg counts. Am. J. Trop. Med. Hyg.41: 453-461.
Stephenson, L. S., Latham, M. C., Kurz, K. M., Kinoti, S. N. &Brigham, H. (1989b) Treatment with a single dose of albendazoleimproves growth of Kenyan children with hookworm, Trichuristrichiura and Ascaris lumbricoides infections. Am. J. Trop.Med. Hyg. 41: 78-87.
Stephenson, L. S., Latham, M. C., Kurz, K. M., Miller, D. M. &Kinoti, S. N. (1986) Relationships of Schistosoma hae-matobium, hookworm, and malarial infections and metrifonatetreatment to nutritional status of Kenyan Coastal schoolchildren: a 16-month follow-up. In: Schistosomiasis and Malnutrition (Stephenson, L. S., ed.). Cornell InternationalNutrition Monograph Series no. 16, Cornell University International Nutrition Program, Ithaca, NY.
Tomkins, A. & Watson, F. (1989) Malnutrition and infection: areview. ACC/SCN State-of-the Art Series Nutrition Policy Discussion Paper no. 5, ACC/SCN, Geneva, Switzerland.
Totoprajogo, O. S. (1989) Effect of De worming Treatment on Nutri-
CHILD GROWTH AND HOOKWORM, TRICHURIS AND ASCARIS 665
tional Status in Primary School Children in Kabupaten Sikka,Nusa Tenggara Timur Province, Indonesia. Masters' thesis,
Cornell University, Ithaca, NY.Tracey, K. J. & Cerami, A. (1989) Studies of cachexia in parasitic
infection. Ann. N. Y. Acad. Sci. 569: 211-218.
World Health Organization (1991) Basic Laboratory Methods inMedical Parasitology. WHO, Geneva, Switzerland.
World Health Organization (1992) Health of School Children:Treatment of Intestinal Helminths and Schistosomiasis. WHO/CDS/IPI/CTD 92.1, Geneva, Switzerland.