Twelve isolates of lchthyophthirius multifiliis were successfully established and
maintained by serial passage through naive carp, for a maximum of 39 laboratory
cycles. The management system employed was such that large numbers of the
parasite were available for all investigations.
The ability to induce exit of immature trophonts through media incubation was used
to confirm events in the initial stages of host colonisation. The normal course of
primary infection was also established providing useful criteria for assessing
success of the in vitro systems tested. Survival of both theronts and tomonts within
selected monophasic media was investigated. Theronts in Eagles Minimum
Essential medium (EMEM). survived and were viable for 120 hours. 72 hours longer
than water controls. No further development of the theronts was observed.
Tomonts also demonstrated an increased survival time in comparison to the controls
with tomites surviving within the cyst for 22 days within EMEM-S media diluted
50:50 with sterile distilled water. Division of tomonts was identified as being
precystic, post divisional cystic or cystic, and the frequency of such divisions was
dependent upon dilution of media, Sterile viable theronts were recovered at 168h
from tomonts that had been incubated within EMEM diluted 30:70 with distilled
water. Delayed encystment was achieved by incubation in concentrated media,
theront production being delayed for 96h, 72h later than seen in the aquatic
environment.
Cultured cell monolayers were used as associates within culture systems.
Behaviour of theronts on introduction into the culture systems indicated
recognition of the cultured tissue as potential host material, sustained contact of
up to 120hours was observed between the introduced parasite and cells.
However, no developmental markers were identified within the cultured parasite
and no significant growth was achieved. Attempts to simulate the situation in vivo
by use of multilayered systems and crude cell explants were also unsuccessful.
Transmission electron microscopy of the parasite within a cell aggregate system
was undertaken at daily intervals up to 120h providing evidence that the parasite
was attempting to gain nutrients by phagocytosis. However, increased
vacuolation of the parasite during the period of culture was clearly evident leading
eventually to parasite death.
The significance of the results is discussed in relation to the normal course of
infection and the future promise of a long term culture method for this important
pathogen.
Date of Award | 1999 |
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Original language | English |
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Awarding Institution | |
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Ichthyophthirius multifiliis Fouquet: development and assessment of in vitro systems for long term maintenance
Hurley, L. M. (Author). 1999
Student thesis: PhD