Large Animal Neurology. Joe Mayhew

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Название Large Animal Neurology
Автор произведения Joe Mayhew
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9781119477198



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      The role of sleep in mammalian biology is somewhat of an enigma.1 Adult herbivores spend a substantial proportion of time foraging, and only a few hours daily are spent in stages of sleep, a small proportion of which is rapid eye movement (REM) sleep with accompanying somatic hypotonia or atonia and recumbency.1–3 For adult cattle and horses, this amounts to 3–5 h per day in sleep states and about 0.5 h per day in REM sleep.3–6 Some horses appear to be able to perform REM sleep while standing2 and to tolerate weeks of being unable to lie down to sleep, whereas others experience great difficulties in being cross‐tied for several days. The latter appear to go into a deep sleep state but stagger as not being able to remain upright, and some can injure themselves. Thus, the concept of sleep deprivation in horses may well be an individual phenomenon.3,7

      In the context of sudden and unexpected collapse, there are many systemic issues that can mediate an abrupt loss of body support,10 but the majority result in other progressive signs such as weakness and obtundation or are associated with other factors such as trauma, diarrhea, or drug usage.11 In about half the cases of episodic collapse, it may be possible to arrive at a final diagnosis with most having signs other than collapse being evident. Such diagnoses include cardiac arrhythmia, right‐sided heart failure, hypoglycemia, neurocardiogenic syncope, and exercise‐induced pulmonary hemorrhage. For most other cases, there will be a strong suspicion of epilepsy (Chapter 6) and sleep disorders.12

Schematic illustration of familial narcolepsy with cataplexy in two ponies is uncommon compared to other forms of sleep disorders in horses.

      Two novel neuropeptides (orexins), hypocretin 1 and 2, were found to be specifically expressed in certain hypothalamic neurons, and defective hypocretin signaling was related to both familial and sporadic narcolepsy.3,21,22,24,25 A mutation in the hypocretin receptor‐2 gene was present in dogs with familial narcolepsy although they had normal levels of hypocretins in their CSF and hypothalamus. Neurotransmission through hypocretin‐1 was likely to be intact indicating that defective hypocretin‐2 function is more important in producing narcolepsy in that model. In contrast, dogs with sporadic narcolepsy had no expressed hypocretins in the CSF or brain tissue. Hypocretin deficiency, as shown by low or absent concentrations in CSF, has been found in 90% of patients with sporadic narcolepsy with cataplexy, and less commonly in familial narcolepsy26 and in sleep deprivation, suggesting that disorders with marked cataplexy are more dependent on dysfunctional hypocretin pathways.

      Many normal newborn foals can be induced into a sleep‐like state by firm, whole‐body restraint or cuddling to sometimes even lie still on the ground when released.35 This phenomenon wanes rapidly over a few days and it has been postulated that this is persistence of a protective mechanism that stops vigorous reflex movement occurring in utero, especially during birth.

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      Astute observational studies of sleep–wake cycling in domestic animals can result in modified environments to facilitate relaxed leaning behavior, as depicted here for an elephant using a leaning fence with horizontal protuberance for support. Source: Modified from Schiffmann et al.36

      Some syndromes of adult‐onset sleep attacks in large animals—especially horses—clinically resemble true narcolepsy with cataplexy; however, confirming limb atonia, limb areflexia, as well as onset of REM sleep at the onset of an episode does not appear to have been documented. Thus, it is likely that many of these cases of adult‐onset sleep attacks are examples of sporadic idiopathic hypersomnia, probably with influences of sleep deprivation as discussed above.7 Many factors of animal domestication, including disrupted social hierarchy, confinement, and occupational maladies, appear to be involved with lack of restful sleep, and astute observational programs can result in very useful management alterations to assist in restoring acceptable sleep–wake cycles.36 A detailed understanding of sleep patterns, including the associated encephalographic patterns, and determining the roles, if any, of hypocretin pathways and their immune attack