Stay apparatus explained

The stay apparatus is an arrangement of muscles, tendons, and ligaments that work together so that an animal can remain standing with virtually no muscular effort.[1] It is best known as the mechanism by which horses can enter a light sleep while still standing up. The effect is that an animal can distribute its weight on three limbs while resting a fourth in a flexed, non-weight-bearing position. The animal can periodically shift its weight to rest a different leg, and thus all limbs are able to be individually rested, reducing overall wear and tear. The relatively slim legs of certain large mammals, such as horses and cows, would be subject to dangerous levels of fatigue if not for the stay apparatus.[2]

The lower part of the stay apparatus consists of the suspensory apparatus, which is the same in both front and hind legs, while the upper portion of the stay apparatus is different between the fore and hind limbs.

In the front legs, the stay apparatus engages when the animal's muscles relax.[3] The upper portion of the stay apparatus in the forelimbs includes the major attachment, extensor, and flexor muscles and tendons. In essence, the accessory check ligaments act as tension bands, they stabilize the carpus (called the "knee" in horses), fetlock and bones of the foot. In the upper portion, the shoulder and elbow joints have several musculo-tendinous structures that keep these joints in passive extension.

In the hind limbs, the major muscles, ligaments and tendons work with the reciprocal joints of the hock and stifle,[4] which are a reciprocal apparatus that forces the hock and stifle to flex and extend in unison. The medial patellar ligament "locks" the patella ("kneecap") in place and this prevents flexion in both the stifle and the hock. At the stifle joint, a "hook" structure on the inside bottom end of the femur cups the patella and the medial patella ligament, prevents the leg from bending.[5]

Cattle have a stay apparatus which allows them to rest individual limbs, but cattle generally do not sleep standing up.[6]

Anatomical structures important in the stay apparatus include:

The most common of the ancient, now-extinct wild horse species in North America, Dinohippus, had a distinctive passive stay apparatus that helped it conserve energy while standing for long periods. Dinohippus was the first horse to show a rudimentary form of this characteristic, and its existence provided additional evidence of the close relationship between Dinohippus and the modern Equus.[8]

References

Notes and References

  1. Web site: Ferraro. Gregory L.. Stover. Susan M.. Whitcomb. Mary Beth. Suspensory Ligament Injuries in Horses. Center for Equine Health. School of Veterinary Medicine, University of California, Davis. 19 May 2016. https://web.archive.org/web/20150218171852/http://www.vetmed.ucdavis.edu/ceh/docs/special/Pubs-SuspBrochure-bkm-sec.pdf. February 18, 2015.
  2. Book: Asprea. Lori. Sturtz. Robin. Anatomy and physiology for veterinary technicians and nurses a clinical approach.. 2012. Iowa State University Pre. Chichester. 9781118405840. 109–111.
  3. Web site: How Horses Sleep. 2007-03-23. Pascoe, Elaine. Equisearch.com. dead. https://web.archive.org/web/20070927193341/http://equisearch.com/horses_care/health/behavior/eqzzz629/. 2007-09-27.
  4. Harris, p. 253
  5. Web site: Horseware Ireland North America - The worlds leading equine product leader for horse and rider.
  6. Web site: Animal MythBusters Manitoba Veterinary Medical Association . www.mvma.ca . dead . https://web.archive.org/web/20140125195053/http://www.mvma.ca/resources/animal-owners/animal-mythbusters . 2014-01-25.
  7. Watson . JC . Wilson . AM . Muscle architecture of biceps brachii, triceps brachii and supraspinatus in the horse . J. Anat. . January 2007 . 210 . 1 . 32–40 . 10.1111/j.1469-7580.2006.00669.x . 2100266 . 17229281.
  8. http://www.flmnh.ufl.edu/fhc/dinohippus1.htm Florida Museum of Natural History