Effects of commonly used analgesic drugs and trigeminal nerve fiber proportions in the speke-hinged tortoise (kinixys Spekil) and the marsh terrapin (pelomedusa subrufa)
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Date
2008Author
Wambugu, Stanley Nderitu
Type
ThesisLanguage
enMetadata
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This study was undertaken to explore the nociception and antinociception in the speke-hinged
tortoise (Kinixys spekii) and the marsh terrapin (Pelomedusa subrufa). Four nociceptive tests,
namely the formalin-, hot plate-, capsaicin instillation- and acetic acid instillation tests were
adapted and used to study nociception and antinociceptive effects of commonly used
analgesics. A histological survey of the fiber proportions in the sensory branches of the
trigeminal nerve was also carried out to obtain more information on the nociceptive system of
the animals.
Forty-two tortoises and thirty-four terrapins were used in the study. In the formalin test, 100
ul, of 12.5% formalin was injected subcutaneously in the hind paw of the animals and the total
time spent in pain scored. Both animal species demonstrated a monophasic pain response,
characterized by full limb retraction or partial usage of the limb. Thermal stimuli were induced
using a hot plate analgesia meter set at 60 "C. Both animals responded by lifting one of the
paws and 'attempting to escape'. Tortoises showed a mean response latency of 53.95 ± 3.53
seconds while that of the terrapin was 41.28 ± 3.41 seconds. In the capsaicin instillation test,
two drops of capsaicin were directly instilled into the eye and the duration of eye closure
measured in blocks of five minutes for 30 minutes. Terrapins showed sensitivity to capsaicin
but there was no capsaicin-desensitization effect after repeated application of capsaicin. In the
acetic acid instillation test, two drops of 10% acetic acid were directly instilled into the eye
and the duration of eye closure scored in blocks of five minutes for 30 minutes.
In the formalin and the hot plate tests, both morphine and pethidine showed dose dependent
anti-nociceptive effects, which were naloxone reversible, in both animal species. Morphine at
dosages less than 7.5 mg/kg and pethidine at dosages less than 20 mg/kg did not induce any
significant antinociceptive effects. Acetylsalicylic acid, flunixin meglumin, dexamethasone
and hydrocortisone at the dosages used did not show any antinociceptive activity in neither the
formalin nor the hot plate tests in any of the animal species.
XXI
In the ophthalmic nerve of the tortoise and the terrapin, the proportion of nerve fibers with
diameters measuring 0.5-5.5 urn was only 17.8 and 18.6 % respectively. In the maxillary
branch of the trigeminal nerve, the proportion of nerve fibers with diameters measuring 0.5-
5.5 urn was 20.7 and 27 % in the tortoise and the terrapin respectively. The results suggest that
testudines have relatively few nociceptive fibers, which comprise 18-27 % of the sensory
afferents in the trigeminal nerve sensory afferents.
In conclusion, testudines have a nociceptive system, which is responsive to opioid analgesia.
The proportion of nociceptive afferents is low. It is postulated that in testudines the shell,
which protects these animals, might be an alternative to a comprehensive nociceptive system.
Citation
Masters of Science in Comparative Mammalian PhysiologyPublisher
University of Nairobi Department of Veterinary Anatomy and Physiology