Biology Reference
In-Depth Information
79. Williams-Blangero S, Vandeberg JL, Subedi J, Jha B, Corr
ˆ
a-Oliveira R, Blangero J.
Localization of multiple quantitative trait loci influencing susceptibility to infection
with Ascaris lumbricoides. J Infect Dis 2008;
197
:66
71.
80. Chai JY, Seo BS, Lee SH, Cho SY. Epidemiological studies on Ascaris lumbricoides
reinfection in rural communities in Korea II. Age-specific reinfection rates and familial
aggregation of the reinfected cases. Korean J Parasitol 1983;
21
:142
e
9.
81. Forrester JE, Scott ME, Bundy DA, Golden MH. Clustering of Ascaris lumbricoides and
Trichuris
e
trichiura
infections within households. Trans R Soc Trop Med Hyg
8.
82. Criscione CD, Anderson JD, Sudimack D, et al. Landscape genetics reveals focal
transmission of a human macroparasite. PLoS Negl Trop Dis 2010;
4
. e665.
83. Cort WW, Stoll NR. Studies on Ascaris lumbricoides and Trichuris trichiura in China.
Am J Epidemiol 1931;
14
:655
1988;
82
:282
e
89.
84. Brown H. Human Ascaris as a household infection. J Parasitol 1927;
13
:206
e
12.
85. OttoGF, CortWW, Keller AE. Environmental studies of families in Tennessee infestedwith
Ascaris lumbricoides, Trichuris trichiura and hookworm. Am J Epidemiol 1931;
14
:156
e
93.
86. Williams D, Burke G, Hendley JO. Ascariasis: a family disease. JPediatr1974;
84
:853
e
4.
87. Anderson TJ, Zizza CA, Leche GM, Scott ME, Solomons NW. The distribution of
intestinal helminth infections in a rural village in Guatemala. Mem Inst Oswaldo Cruz
1993;
88
:53
e
65.
88. Cairncross S, Blumenthal U, Kolsky P, Moraes L, Tayeh A. The public and domestic
domains in the transmission of disease. Trop Med Int Health 1996;
1
:27
e
34.
89. Dold C, Holland CV. Investigating the underlying mechanism of resistance to Ascaris
infection. Microbes Infect 2011;
13
:624
e
31.
90. Cooper PJ, Chico ME, Sandoval C, et al. Human infection with Ascaris lumbricoides is
associated with a polarized cytokine response. J Infect Dis 2000;
182
:1207
e
13.
91. Bradley JE, Jackson JA. Immunity, immunoregulation and the ecology of trichuriasis
and ascariasis. Parasite Immunol 2005;
26
:429
e
e
41.
92. King E-M, Kim HT, Dang NT, et al. Immuno-epidemiology of Ascaris lumbricoides
infection in a high transmission community: antibody responses and their impact on
current and future infection intensity. Parasite Immunol 2005;
27
:89
96.
93. Palmer DR, Hall A, Haque R, Anwar KS. Antibody isotype responses to antigens of
Ascaris lumbricoides in a case-control study of persistently heavily infected Bangladeshi
children. Parasitology 1995;
111
:385
e
93.
94. Haswell-Elkins MR, Kennedy MW, Maizels RM, Elkins DB, Anderson RM. The anti-
body recognition profiles of humans naturally infected with Ascaris lumbricoides.
Parasite Immunol 1989;
11
:615
e
27.
95. Turner JD, Faulkner H, Kamgno J, et al. Th2 cytokines are associated with reduced
worm burdens in a human intestinal helminth infection. J Infect Dis 2003;
188
:1768
e
75.
96. Jackson JA, Turner JD, Rentoul L, et al. T helper cell type 2 responsiveness predicts
future
e
susceptibility to gastrointestinal nematodes
in humans.
J
Infect Dis
11.
97. Bundy DA, Kan SP, Rose R. Age-related prevalence, intensity and frequency distri-
bution of gastrointestinal helminth infection in urban slum children from Kuala
Lumpur, Malaysia. Trans R Soc Trop Med Hyg 1988;
82
:289
2004;
190
:1804
e
94.
98. Hall A, Anwar KS, Tomkins AM. Intensity of reinfection with Ascaris lumbricoides and
its implications for parasite control. Lancet 1992;
339
:1253
e
7.
99. Anderson RM, May RM. Herd immunity to helminth infection and implications for
parasite control. Nature 1985;
315
:493
e
6.
100. Berding C, Keymer AE, Murray JD, Slater AF. The population dynamics of acquired
immunity to helminth infection. J Theor Biol 1986;
122
:459
e
e
71.
