Biology Reference
In-Depth Information
77. Schafer T, Meyer T, Ring J, Wichmann HE, Heinrich J. Worm infestation and the
negative association with eczema (atopic/nonatopic) and allergic sensitization.
Allergy
2005;60:1014
e
20.
78. Selassie FG, Stevens RH, Cullinan P, et al. Total and specific IgE (house dust mite and
intestinal helminths) in asthmatics and controls from Gondar, Ethiopia.
Clin Exp
Allergy
2000;30:356
e
8.
79. van Riet E, Hartgers FC, Yazdanbakhsh M. Chronic helminth infections induce
immunomodulation: consequences and mechanisms.
Immunobiology
2007;212:475
e
90.
80. Erb KJ. Can helminths or helminth-derived products be used in humans to prevent or
treat allergic diseases?
Trends Immunol
2009;30:75
e
82.
81. Maizels RM, Pearce EJ, Artis D, Yazdanbakhsh M, Wynn TA. Regulation of patho-
genesis and immunity in helminth infections.
J Exp Med
2009;206:2059
e
66.
82. Lynch NR, Lopez RI, Di Prisco-Fuenmayor MC, et al. Allergic reactivity and
socio-economic level in a tropical environment.
Clin Allergy
1987;17:199
e
207.
83. Fincham JE, Markus MB, van der Merwe L, Adams VJ, van Stuijvenberg ME,
Dhansay MA.
Ascaris
, co-infection and allergy: the importance of analysis based on
immunological variables rather than egg excretion.
Trans R Soc Trop Med Hyg
2007;101:
680
e
2.
84. Acevedo N, Sanchez J, Erler A, et al. IgE cross-reactivity between
Ascaris
and domestic
mite allergens: the role of tropomyosin and the nematode polyprotein ABA-1.
Allergy
2009;64:1635
e
43.
85. Koskinen JP, Laatikainen T, von Hertzen L, Vartiainen E, Haahtela T. IgE response to
Ascaris lumbricoides
in Russian children indicates IgE responses to common environ-
mental allergens.
Allergy
2011;66:1122
e
3.
86. Calvert J, Burney P.
Ascaris
, atopy, and exercise-induced bronchoconstriction in rural
and urban South African children.
J Allergy Clin Immunol
2010;125:100
e
5. e1
e
5.
87. Levin M, Muloiwa R, Le Souef P, Motala C.
Ascaris
sensitization is associated with
aeroallergen sensitization and airway hyperresponsiveness but not allergic disease in
urban Africa.
J Allergy Clin Immunol
2012;130:265
e
7.
88.
Carvalho EM, Bastos LS, Araujo MI. Worms and allergy.
Parasite Immunol
2006;28:
525
e
34.
89. Johansson SG, Mellbin T, Vahlquist B. Immunoglobulin levels in Ethiopian preschool
children with special reference to high concentrations of immunoglobulin E (IgND).
Lancet
1968;1:1118
e
21.
90. Lee TD, Xie CY. IgE regulation by nematodes: the body fluid of
Ascaris
contains a B-cell
mitogen.
J Allergy Clin Immunol
1995;95:1246
e
54.
91. Dold C, Cassidy JP, Stafford P, Behnke JM, Holland CV. Genetic influence on the
kinetics and associated pathology of the early stage (intestinal-hepatic) migration of
Ascaris suum in mice.
Parasitology
2010;137:173
e
85.
92. Enobe CS, Araujo CA, Perini A, Martins MA, Macedo MS, Macedo-Soares MF. Early
stages of
Ascaris suum
induce airway inflammation and hyperreactivity in a mouse
model.
Parasite Immunol
2006;28:453
e
61.
93. Phills JA, Harrold AJ, Whiteman GV, Perelmutter L. Pulmonary infiltrates, asthma
and eosinophilia due to
Ascaris suum
infestation in man.
NEnglJMed
1972;286:
965
e
70.
94. Cooper PJ. Can intestinal helminth infections (geohelminths) affect the development
and expression of asthma and allergic disease?
Clin Exp Immunol
2002;128:398
e
404.
95. 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.
96. Stromberg BE. Potentiation of the reaginic (IgE) antibody response to ovalbumin in the
guinea pig with a soluble metabolic product from
Ascaris suum
.
J Immunol
1980;125:
833
e
6.
