Welcome to WikiVet,
A collaborative initiative between the UK Vetschools to develop a comprehensive on-line veterinary knowledge base.
5,936 articles.

Content

WikiPath
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Covers the undergraduate veterinary pathology curriculum.


WikiBugs
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Information about veterinary bacteriology, virology and parasitology.


Wiki Anatomy and Physiology
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Information about veterinary anatomy, histology and physiology.


WikiBlood
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Information about the components of blood and associated immunological diseases.


WikiClinical
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Clinical information.


WikiVPH
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Information about Veterinary Public Health.


Other resources

WikiWords

A working glossary for Wiki editors.


Feedback

An area for any comments on the content or design of the site.


e-learning Resources

Access to a range of on-line courses, videos and images.


Veterinary Education

For veterinary educators to collaborate and share expertise.


About WikiVet

More about who is involved in the WikiVet project.


WikiMap

Please try using our interactive map to find other users and add your own location.

WikiNews

14th October 2008 - WikiClinical Ready for Population

All the WikiClinical stub pages are now in place. Please feel free to start populating these pages with lots of clinical knowledge. If you are having trouble editing pages please refer back to our help pages.


9th October 2008 - The Wiki is Launched
Attendees of the WikiVet Launch

The WikiVet project was officially launched at MEDEV, Newcastle University. People from varying aspects of the Veterinary, Educational, Pharmaceutical and Medical professions attended the conference. Five people also attended the virtual conference, which made for an exciting yet interactive session. We feel that the launch was a great success and look forward to watching WikiVet grow.

Article of the Week - The Stomach of the Ruminant

Abdominal development of a young cow - Copyright Prof.Pat Mccarthy

The ruminant stomach is composed of 4 separate compartments. Food passes first into the rumen, then reticulum, omasum and finally into the abomasum before entering the duodenum. The first three compartments are adapted to digest complex carbohydrates with the aid of microorganisms which produce volatile fatty acids - the major energy source of ruminants. The last compartments, the abomasum resembles the simple monogastric stomach in structure and function.

The microorganisms in the ruminant stomach also synthesise all of the B vitamins, vitamin C and vitamin K. Vitamin synthesis in the rumen is sufficient for growth and maintenance. Only vitamins E, D and A should be provided in the ruminant diet. Under normal conditions, ruminants will not require B vitamins added in the diet. Cobalt is needed for vitamin B12 synthesis and so cobalt should be provided in the diet or vitamin B12 injected directly into the bloodstream. In stress conditions, vitamin B3 (Niacin) and vitamin B1 (Thiamine) may also need to be provided in the diet....

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This project is funded by JISC and the Higher Education Academy.



Except where otherwise noted, content on this site is licensed under a Creative Commons Attribution 3.0 License