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Vol. 36. Issue 11.
Pages 645-650 (December 2000)
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Vol. 36. Issue 11.
Pages 645-650 (December 2000)
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Histopatología de la tuberculosis. Aproximación a la evolución de las lesiones pulmonares en modelos de experimentación animal inducidos mediante aerosol
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P.J. Cardona
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pcardona@ns.hugtip.scs.es

Correspondencia: Unitat de Tuberculosi Experimental. Servei de Microbiologia. Hospital Universitari Germans Trias i Pujol. Ctra. del Canyet, s/n. 08916 Badalona. Barcelona.
, V. Ausina
Unitat de Tuberculosi Experimental. Servei de Microbiologia. Hospital Universitari Germans Trias i Pujol. Badalona. Barcelona. Departament de Genètica i Microbiologia. Universitat Autònoma de Barcelona
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Bibliografía
[1.]
M.B. Lurie.
The correlation between the histological changes and the fate of living tubercle bacilli in the organs of tuberculous rabbits.
J Exp Med, 55 (1932), pp. 31-58
[2.]
M.B. Lurie, S. Abramson, A.G. Heppleston.
On the response of genetically resistant and susceptible rabbits to the quantitative inhalation of human type tubercle bacilli and the nature of resistance to tuberculosis.
J Exp Med, 95 (1952), pp. 119-137
[3.]
M.J. Allison, P. Zappasodi, M.B. Lurie.
Host-parasite relationships in navitely resistant and susceptible rabbits on quantitative inhalation of tubercle bacili Their significance for the nature of genetic resistance.
Am Rev Respir Dis, 85 (1962), pp. 553-569
[4.]
M.B. Lurie.
Resistance to tuberculosis: experimental studies in native and acquired defensive mechanisms..
Harvard University Press, (1964),
[5.]
O. Rojas-Espinosa, A.M. Dannenberg Jr., L.A. Sternberger, T. Tsuda.
The role of cathepsin D in the pathogenesis of tuberculosis.
Am J Pathol, 74 (1974), pp. 1-17
[6.]
A.M. Dannenberg Jr..
Immune mechanisms in the pathogenesis of pulmonary tuberculosis.
Rev Infect Dis, (1989), pp. 269-378
[7.]
A.M. Dannenberg Jr..
Delayed-type hypersensitivity and cell-mediated immunity in the pathogenesis of tuberculosis.
Immunol Today, 12 (1991), pp. 228-233
[8.]
A.M. Dannenberg Jr..
Rabbit model of tuberculosis..
Tuberculosis: pathogenesis, protection, and control, pp. 149-156
[9.]
A.M. Dannenberg Jr., G.A.W. Rook.
Pathogenesis of pulmonary tuberculosis: and interplay of tissue-damaging and macrophage-activating immune responses-dual mechanisms that control bacillary multiplication.
Tuberculosis: pathogenesis, protection, and control, pp. 459-483
[10.]
P.J. Converse, A.M. Dannenberg Jr., J.E. Estep, K. Sugisaki, Y. Abe, B.H. Schofield, et al.
Cavitary tubercullosis produced in rabbits by aerosolized virulent tubercle bacilli.
Infect Immun, 64 (1996), pp. 4776-4778
[11.]
M.J. Doenhoff.
Granulomatous inflammation and the transmission of infection: schistosomiasis-and TB too?.
Immunol Today, 19 (1998), pp. 462-467
[12.]
S. Falkow.
What is a pathogen?.
ASM News, 63 (1998), pp. 359-365
[13.]
D.W. Smith.
Diseases in guinea pigs..
The mycobacteria: a source editores, pp. 925-946
[14.]
G.H. Bothamley, J.M. Grange.
The Koch phenomenon and delayed hypersensitivity.
Tubercle, 72 (1991), pp. 7-11
[15.]
D.N. McMurray.
Guinea pig model of tuberculosis.
Tuberculosis: pathogenesis, protection, and control, pp. 135-147
[16.]
I.M. Orme, D.N. McMurray.
The immune response to tuberculosis in animal models..
Tuberculosis, pp. 269-280
[17.]
D.W. Smith, D.N. McMurray, E.H. Wiegeshaus, A.A. Grover, G.E. Harding.
Host-parasite relationships in experimental airgone tuberculosis IV. Early events in the course of infection in vaccinated and nonvaccinated guinea pigs.
Am Rev Respir Dis, 102 (1970), pp. 937-949
[18.]
R.S. Ho, J.S. Fok, G.E. Harding, D.W. Smith.
Host-parasite relationships in experimental airbone tuberculosis VII. Fate of Mycobacterium tuberculosis in primary lung lesions and in primary lesionfree lung tissue infected as a result of a bacillemia.
J Infect Dis, 138 (1978), pp. 237-241
[19.]
M.J. Lefford.
Diseases in mice and rats..
The mycobacteria: a source book, pp. 947-977
[20.]
C.H. Browing, R. Gullbransen.
Studies on experimental tuberculosis in mice The susceptibility of mice to inoculation with tubercle bacilli.
J Hyg, 25 (1926), pp. 323-332
[21.]
F.D. Gunn, W.J. Nungester, E.T. Hougen.
Susceptibility of the white mouse to tuberculosis.
Proc Soc Exp Biol Med, 31 (1933), pp. 527-529
[22.]
I.M. Orme.
Immunity to mycobacteria.
Curr Opin Immunol, 5 (1993), pp. 497-502
[23.]
A.M. Cooper, D.K. Dalton, T.A. Stewart, J.P. Griffin, D.G. Russell, I.M. Orme.
Disseminated tuberculosis in IFN-γgene-disrupted mice.
J Exp Med, 178 (1993), pp. 2243-2249
[24.]
J.L. Flynn, J. Chan, K.J. Triebold, D.K. Dalton, T.A. Stewart, B.R. Bloom.
An essential role for interferon-γresistance to Mycobacterium tuberculosis.
J Exp Med, 178 (1993), pp. 2249-2252
[25.]
T.F. Pais, R.A. Silva, B. Smedegaard, R. Appelberg, P. Andersen.
Analysis of T cells recruited during delayed-type hypersensitivity to purified protein derivative (PPD) versus challenge with tuberculosis infection.
Immunology, 95 (1998), pp. 69-75
[26.]
I.M. Orme.
Vaccination against tuberculosis: recent progress.
Adv Vet Med, 41 (1999), pp. 135-143
[27.]
E.R. Rhoades, A.A. Frank, I. Orme.
Progression of chronic pulmonary tuberculosis in mice aerogenically infected with virulent.
Mycobacterium tuberculosis. Tubercle Lung Dis, 78 (1997), pp. 57-66
[28.]
I.M. Orme.
The immunopathogenesis of tuberculosis: a new working hypothesis.
Trens Microbiol, 6 (1998), pp. 94-97
[29.]
I.M. Orme.
Cellular and genetic mechanisms underlying susceptibility of animal models to tuberculosis infection. Genetics and tuberculosis.
Wiley (Novartis Foundation Symposium 217, (1998), pp. 112-119
[30.]
P.J. Cardona, R. Latjós, S. Gordillo, J. Díaz, I. Ojanguren, A. Ariza, et al.
Evolution of pulmonary granulomas in mice infected aerogenically with Mycobacterium tuberculosis.
Scand J Immunol, 52 (2000), pp. 156-163
[31.]
A.A. Katzenstein, F.B. Askin.
Surgical pathology of non-neoplastic lung disease.
WB Saunders, (1990),
[32.]
G.M. Green, V.T. Burlington.
Alveolobronchiolar transport mechanisms.
Arch Intern Med, 131 (1973), pp. 109-114
[33.]
M.F. Lipscomb, G.B. Toews, C.R. Lyons, J.W. Uhr.
Antigen presentation by guinea pig alveolar epithelioid cells.
J Immunol, 126 (1981), pp. 286-291
[34.]
D.S. Ridley, M.J. Ridley.
Rationale for the histological spectrum of tuberculosis. A basis for classification.
Pathology, 19 (1987), pp. 186-192
[35.]
D.S. Ridley.
The histopathological spectrum of the mycobacterioses..
The biology of the mycobacteria, pp. 129-167
[36.]
E. Medina, R.J. North.
Resistance ranking of some common inbred mouse strains to Mycobacterium tuberculosis and relationship to major histocompativility complex haplotype and Nramp 1 genotype.
Immunology, 93 (1998), pp. 270-274
[37.]
E.H. Wiegeshaus, G. Harding, D.N. McMurray, A.A. Grover, D.W. Smith.
Hostparasite relationships in experimental airbone tuberculosis III. Revelance of microbial enumeration to acquired resistance in guinea pigs.
Am Rev Respir Dis, 102 (1970), pp. 422-429
[38.]
P.J. Cardona, A. Cooper, M. Luquín, A. Ariza, F. Felipo, I.M. Orme, et al.
The intravenous model of murine tuberculosis is less pathogenic than the aerobic model owing to a more rapid induction of systemic immunity.
Scand J Immunol, 49 (1999), pp. 362-366
[39.]
R.J. North.
Mycobacterium tuberculosis is strikingly more virulent for mice when given via the respiratory than via the intravenous route.
J Infect Dis, 172 (1995), pp. 1550-1553
[40.]
C.O. Thoen, A.G. Karlson.
Experimental tuberculosis in rabbits..
The mycobacteria: a source book, pp. 979-989
[41.]
I.N. Brown.
Animal models immune mechanisms..
The biology of the mycobacteria, pp. 174-234
[42.]
R. Appelberg, M.T. Silva.
T cell-depenent chronic neutrophilia during mycobacterial infections.
Clin Exp Immunol, 78 (1989), pp. 478-483
[43.]
R. Appelberg.
T cell regulation of the chronic peritoneal neutrophilia during mycobacterial infections.
Clin Exp Immunol, 89 (1992), pp. 120-125
[44.]
R. Appelberg.
Mycobacterial infection primes T cells and macrophages for enhanced recruitment of neutrophils.
J Leukoc Biol, 51 (1992), pp. 472-477
[45.]
R.W. Schroff Jr., E.R. Heise, Q.N. Myvrik.
Characterization of the early phase of the tuberculin reaction in rabbits.
Am Rev Respir Dis, 121 (1980), pp. 843-850
[46.]
G. Shwartzman.
Phenomenon of local tissue reactivity and its immunological, pathological and clinical significance.
Paul B. Hober, (1937),
[47.]
G.A.W. Rook, R. Al Attiyah.
Cytokines and the Koch phenomenon.
Tubercle, 72 (1991), pp. 13-20
[48.]
G. Beck, G.S. Habitcht, J.L. Benach, F. Miller.
Interleukin 1: a common endogenous mediator of inflammation and the local Shwartzman reaction.
J Immunol, 136 (1986), pp. 3025-3031
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