Difference between revisions of "Hypothyroidism - Reptiles"

From WikiVet English
Jump to navigation Jump to search
 
Line 1: Line 1:
[[File:Galapagos_giant_tortoise_Geochelone_elephantopus.jpg|200px|thumb|right|'''Galapagos Tortoises are a commonly affected species (Wikimedia Commons)]]
+
==Introduction==[[File:Galapagos_giant_tortoise_Geochelone_elephantopus.jpg|200px|thumb|right|'''Galapagos
==Introduction==
+
Tortoises are a commonly affected species (Wikimedia Commons)]]
'''Hypothyroidism''' can be seen in '''herbivorous reptiles''' that are fed a diet '''deficient in iodine'''. This is most commonly seen in species that evolved in an '''volcanic environment''' such as Galapagos tortoises, as plants that hold large quantities of '''halogens''' (such as iodine and bromine) are plentiful in these areas. Problems are often exacerbated by the feeding of plants that actually decrease [[Thyroid Gland - Anatomy & Physiology|thyroid gland function]], such as cabbages.  
+
'''[[Hypothyroidism]]''' can be seen in '''herbivorous reptiles''' that are fed a diet '''deficient in iodine'''. This is most commonly seen in species that evolved in an '''volcanic environment''' such as Galapagos tortoises, as plants that hold large quantities of '''halogens''' (such as iodine and bromine) are plentiful in these areas. Problems are often exacerbated by the feeding of plants that actually decrease [[Thyroid Gland - Anatomy & Physiology|thyroid gland function]], such as cabbages.  
  
 
==Clinical Signs & Diagnosis==
 
==Clinical Signs & Diagnosis==
The reptile normally presents with '''large fibrous [[Goitre|goitres]]'''. When combined with the history and signalment this should be diagnositic. Normal thyroid hormone values are not normally available for the affected species, therefore it is of little use to measure them.
+
The reptile normally presents with '''large fibrous [[Goitre|goitres]]'''. When combined with the history and signalment this should be diagnostic. Normal thyroid hormone values are not normally available for the affected species, therefore it is of little use to measure them.
  
 
==Treatment & Prevention==
 
==Treatment & Prevention==
Line 10: Line 10:
  
 
The condition can be prevented by supplementing the diet with '''kelp tablets''', which are a non-toxic source of iodine.
 
The condition can be prevented by supplementing the diet with '''kelp tablets''', which are a non-toxic source of iodine.
 
  
 
{{Learning
 
{{Learning
Line 22: Line 21:
  
  
[[Category: To Do - Siobhan Brade]]
+
{{review}}
[[Category:To Do - Manson review]]
+
[[Category:Expert Review - Exotics]]

Revision as of 14:40, 28 October 2011

==Introduction==

Galapagos Tortoises are a commonly affected species (Wikimedia Commons)

Hypothyroidism can be seen in herbivorous reptiles that are fed a diet deficient in iodine. This is most commonly seen in species that evolved in an volcanic environment such as Galapagos tortoises, as plants that hold large quantities of halogens (such as iodine and bromine) are plentiful in these areas. Problems are often exacerbated by the feeding of plants that actually decrease thyroid gland function, such as cabbages.

Clinical Signs & Diagnosis

The reptile normally presents with large fibrous goitres. When combined with the history and signalment this should be diagnostic. Normal thyroid hormone values are not normally available for the affected species, therefore it is of little use to measure them.

Treatment & Prevention

Iodine supplementation should be given either orally or intravenously approximately once a week.

The condition can be prevented by supplementing the diet with kelp tablets, which are a non-toxic source of iodine.


Hypothyroidism - Reptiles Learning Resources
FlashcardsFlashcards logo.png
Flashcards
Test your knowledge using flashcard type questions
Reptiles and Amphibians Q&A 17


References

Frye, FL & Williams, DL (1995) Self-Assessment Colour Review - Reptiles & Amphibians Manson

Norton, TM & Jacobson ER (1989) Medical Management of a Galapagos Tortoise with Hypothyroidism Journal of Zoo and Wildlife Medicine Vol. 20, No. 2, Jun. 1989