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Rhinosporidiosis: immunohistochemical and electron microscopic studies

Published online by Cambridge University Press:  29 June 2007

Bahram Azadeh*
Affiliation:
Department of Pathology, Hamad General Hospital, Doha, State of Qatar.
Nina Baghoumian
Affiliation:
Department of Pathology, Hamad General Hospital, Doha, State of Qatar.
Osama T. El-Bakri
Affiliation:
Department of ENT, Hamad General Hospital, Doha, State of Qatar.
*
Dr B. Azadeh, Breast Pathology Unit, Southmead Hospital, Bristol, BS10 5NB. Fax: 0272 509690.

Abstract

Sixteen biopsies of rhinosporidiosis (15 nasal and one conjunctival) from 16 Southern Indian male immigrant workers showed mucosal lymphoplasmacellular infiltrates together with transepithelial elimination of nodular bodies and destruction of some late stage nodular bodies in histiocytic granulomata with central neutrophilic microabscesses. Early nodular bodies were immunohistochemically positive for alpha1-AT, alpha1-ACT, CEA, S100, fibronectin, amyloid-p-component, IgG, IgA, CIq and C3. Electron microscopy showed organized

concentric lamellated bodies in early nodular bodies and not in end-stage nodular bodies which contained mostly amorphous electron dense materials. Structures formerly regarded as ‘sporangia’ and ‘spores’ are believed to be lysosomal bodies loaded with indigestible residues to be cleared via transepithelial elimination or segregated/destroyed by secondary immune/granulomatous responses.

Type
Main Articles
Copyright
Copyright © JLO (1984) Limited 1994

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References

Ahluwalia, K. B. (1992) New interpretations in rhinosporidiosis–enigmatic disease of the last nine decades. Journal of Submicroscopic Cytology and Pathology 24: 109114.Google Scholar
Ashworth, J. H. (1923) On Rhinosporidium seeberi with special reference to its sporulation and affinities. Transactions of the Royal Society of Edinburgh 53 (Part 2): 301342.Google Scholar
Filipe, M. I., Lake, B. D. (1990). Histochemistry in Pathology, 2nd Edition, Churchill-Livingstone, London, pp 475484.Google Scholar
Goihman-Yahr, M. (1986) Rhinoscleroma and rhinosporidiosis: an approach through history. International Journal of Dermatology 25: 476478.Google Scholar
Jimenez, J. F., Young, D. E., Hough, A. J. Jr, (1984) Rhinosporidiosis. A report of two cases from Arkansas. American Journal of Clinical Pathology 82: 611615.Google Scholar
Job, A., Venkateswaran, S., Mathan, M., Krishnaswami, H., Raman, R. (1993) Medical therapy of rhinosporidiosis with dapsone. Journal of Laryngology and Otology 107: 809812.Google Scholar
Kannan-Kutty, M., Teh, E. C. (1974) Rhinosporidium seeberi: an electron microscopic study of its life cycle. Pathology 6: 6370.Google Scholar
Karpova, M. F. (1964) On the morphology of rhinoporidiosis. Mycopathologia 23: 281286.Google Scholar
Krishnamoorthy, S., Sreedharan, V. P., Koshy, P., Kumar, S., Anilakumari, C. K. (1989) Culture of Rhinosporidium seeberi: preliminary report. Journal of Laryngology and Otology 103: 178180.Google Scholar
Levy, M. G., Meuten, D. J., Breitschwerd, E. B. (1986) Cultivation of Rhinosporidium seeberi in vitro: interaction with epithelial cells. Science 234: 474476.Google Scholar
Mohapatra, L. N. (1971) Rhinosporidiosis. In Human Infection with Fungi, Actinomycosis and Algae. (Baker, R. D., ed.) Springer-Verlag, Berlin; pp 676683.Google Scholar
Rajam, R. V., Viswanathan, G. C., Rao, A. R., Rangiah, P. N., Anguli, V. C. (1955) Rhinosporidiosis: a study with report of a fatal case of systemic dessimination. Indian Journal of Surgery 17: 269298.Google Scholar
Ramachandra Rao, P. V., Jain, S. N. (1971) Rhinosporidiosis in animals. Indian Journal of Otolaryngology 23: 106109.Google Scholar
Rao, S. N. (1966) Rhinosporidium seeberi: a histochemical study. Indian Journal of Experimental Biology 4: 1014.Google Scholar
Sasidharan, K., Subramonian, P., Moni, V. N., Aravindan, K. P., Chally, R. (1987) Urethral rhinoporidiosis: analysis of 27 cases. British Journal of Urology 59: 6669.CrossRefGoogle ScholarPubMed
Savino, D. E., Margo, C. E. (1983) Conjunctival rhinosporidiosis. Light and electron microscopic study. Ophthalmology 90: 14821489.CrossRefGoogle ScholarPubMed
Seeber, G. R. (1990) Thesis, Universidad Nationale, Buenos Aires.Google Scholar
Sharan, R. (1979) Recurrent nasopharyngeal sporidiosis. Journal of the Indian Medical Association 72: 168169.Google Scholar
Stoddart, R. W. (1984). The Biosynthesis of Polysaccharides, Croom Helm, London.Google Scholar
Thianprasit, M., Thagerngpol, K. (1989) Rhinosporidiosis. Current Topics in Medical Mycology 3: 6485.Google Scholar
Van Der Coer, J. M. G., Marres, H. A. M., Wielinga, E. W. J., Wong-Alcala, L. S. M. (1992) Rhinosporidiosis in Europe. Journal of Laryngology and Otology 106: 440443.Google Scholar