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Diabetes in cats

From Wikipedia, the free encyclopedia

Feline diabetes mellitus is a chronic disease in cats whereby either insufficient insulin response or insulin resistance leads to persistently high blood glucose concentrations. Diabetes affects up to 1 in 230 cats,[1] and may be becoming increasingly common. Diabetes is less common in cats than in dogs. The condition is treatable, and if treated properly the cat can experience a normal life expectancy. In cats with type 2 diabetes, prompt effective treatment may lead to diabetic remission, in which the cat no longer needs injected insulin. Untreated, the condition leads to increasingly weak legs in cats and eventually to malnutrition, ketoacidosis and/or dehydration, and death.

Diabetes in cats can be classified into the following:

  • Type 1 diabetes, in which the immune system attacks the pancreas, is "extremely rare" in cats, unlike in dogs and humans.[2]
  • Type 2 diabetes is responsible for 80–95% of diabetic cases. They are generally severely insulin dependent by the time symptoms are diagnosed. Glipizide for T2DM are not known to be effective in cats, unlike in humans.[2]
  • Gestational diabetes, which occurs in humans and dogs, has never been found in cats.[2]
  • Insulin resistance and diabetes in cats can also have a component of hypersomatotropism (an excess of growth hormone, also leading to acromegaly)[3] and hyperadrenocorticism.[4] In some cats, cancer causes the loss of pancreatic islets.[3]

Symptoms

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Cats will generally show a gradual onset of the disease over a few weeks or months, and it may escape notice for even longer.[5]

The first outward symptoms are sudden weight loss (or occasionally gain) accompanied by polydipsia and polyuria. Polyphagia or anorexia may be observed. Neuropathy in the hind legs may cause the cat to develop a plantigrade stance, walking on its hocks rather than its toes. The front legs may develop a corresponding palmigrade stance, with the cat standing on its "palms" rather than its toes.[6]

A fasting glucose blood test will normally be suggestive of diabetes at this point. The same home blood test monitors used in humans are also used on cats, usually by obtaining blood from the ear edges or paw pads. As the disease progresses, ketone bodies will be present in the urine, which can be detected with the same urine strips used for testing human urine.

In the final stages, the cat starts wasting, with the body breaking down its own fat and muscle to survive. Lethargy/limpness and acetone-smelling breath are acute symptoms of ketoacidosis and/or dehydration and constitute a medical emergency.

Untreated, diabetes leads to coma and then death.

Diabetic emergencies

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Too little insulin over time can cause tissue starvation, as glucose cannot reach the brain or body. In combination with dehydration, fasting, infection, or other body stresses, the condition may progress to diabetic ketoacidosis, a medical emergency with a high fatality rate that cannot be treated at home. Symptoms include lethargy, a fruit-like smell of the breath or urine, shortness of breath, and an increase in thirst. Emergency care includes fluid therapy, insulin, management of presenting symptoms and 24-hour hospitalization.

Complications

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The back legs may become weak and the gait may become stilted or wobbly owing to diabetic neuropathy, which is caused by damage to the myelin sheath of the peripheral nerves due to glucose toxicity and cell starvation, which are in turn caused by chronic hyperglycemia.[7] Most common in cats, the back legs become weaker until the cat displays a plantigrade stance, standing on its hocks instead of on its toes as normal. The cat may also have trouble walking and jumping and may need to sit down after a few steps. Neuropathy sometimes heals on its own within 6–10 weeks once blood sugar is regulated.

Causes

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The signs of diabetes are caused by a persistently high blood glucose concentration, which may be caused by either insufficient insulin or by a lack of response to insulin.[8] Most cats have a type of diabetes similar to human type 2 diabetes, with β-cell dysfunction and insulin resistance.[9] Factors which contribute to insulin resistance include obesity and endocrine diseases such as acromegaly.[9] Acromegaly affects 20–30% of diabetic cats; it can be diagnosed by measuring the concentration of insulin-like growth factor-1 (IGF-1) in the blood.[10]

Quite frequently, a cat which is under stress because it has been transported in a car and/ or brought to a veterinarian will experience an artificial temporary spike in blood glucose levels called "stress hyperglycemia" which will subside after a few hours. This spike, however, will not affect the cat's blood fructosamine levels, which are therefore often a better measure of overall blood sugar.[11]

Management

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Diabetes is a condition which can be treated, but it is invariably lethal if ignored. Early diagnosis and treatment by a qualified veterinarian can help in preventing nerve damage, and, in rare cases, may even lead to remission.[12] Diabetic cats do best with long-lasting twice-daily injections of insulin such as glargine (which as of 2022 is available worldwide as a synthetic generic drug) combined with a low carbohydrate diet. Because diabetes is a disease of carbohydrate metabolism, a move to a primarily protein and fat diet reduces the occurrence and recurrence of hyperglycemia.

Diet

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Diet is a critical component of treatment and is in some cases effective on its own following treatment with insulin. For example, a recent mini-study[13] showed that many diabetic cats stopped needing insulin after changing to a low carbohydrate diet. The rationale is that a low-carbohydrate diet reduces the amount of insulin needed and keeps the variation in blood sugar low and easier to predict. Also, fats and proteins are metabolized slower than carbohydrates, reducing dangerous blood sugar peaks right after meals.

Recent recommended diets are trending towards a low-carbohydrate diet for cats[14][15] rather than the formerly recommended high-fiber diet. Carbohydrate levels are highest in dry cat foods made out of grains (even the expensive "prescription" types), so cats are better off with a canned diet that is protein and fat focused. Both prescription canned foods made for diabetic cats and regular brand foods are effective. Owners should aim to supply no more than 10% of the daily energy requirement of cats with carbohydrates.

Medications

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Oral medications like Glipizide that stimulate the pancreas, promoting insulin release (or in some cases, reduce glucose production), are less and less used in cats,[16] and these drugs may be completely ineffective if the pancreas is not working. These drugs have also been shown in some studies[17] to damage the pancreas further or to cause liver damage. Some owners are reluctant to switch from pills to insulin injections, but the fear is unjustified; the difference in cost and convenience is minor (most cats are easier to inject than to pill), and injections are more effective at treating the disease.

Bexagliflozin (Bexacat) was approved for medical use in the United States in December 2022.[18][19] It is the first sodium-glucose cotransporter 2 (SGLT2) inhibitor new animal drug approved by the US Food and Drug Administration (FDA) in any animal species.[18]

Insulin

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The method usually employed is a dose of slow-acting insulin twice daily to keep the blood sugar within a recommended range for the entire day. With this method, it is important for the cat to avoid large meals or high-carbohydrate food. Meals may also be timed to coincide with peak insulin activity. Once-daily doses are not recommended,[20] since insulin usually metabolizes faster in cats than in humans or dogs.[21] For example, an insulin brand that lasts 24 hours in people may only be effective for about 12 in a cat.[22]

Cats may be treated with animal insulin (bovine-based insulin is most similar to cat insulin) or with human synthetic insulin. The best choice of insulin brand and type varies from animal to animal and may require some trial and error. The human synthetic insulin, Humulin N /Novolin N/ NPH, is usually a poor choice for cats,[22] since cats metabolize insulin about twice as fast. The Lente and Ultralente versions were popular for feline use until summer 2005, when they were discontinued.

Until the early 1990s, the most recommended type for pets was bovine/porcine-derived PZI,[23] but that type was phased out over the 1990s and is now difficult to find in many countries. There are sources in the US and UK, and many vets are now starting to recommend them again for pets, but they have been discontinued by most manufacturers as of 2007-2008. A new synthetic PZI analogue called ProZinc is now available.

Caninsulin (known in the US as Vetsulin) is a brand of porcine-based insulin approved for cats which is available with a veterinarian's prescription. According to the manufacturer's website, the insulin's action profile in cats was similar to that of NPH insulin, and it lowered blood sugar quickly, but for only about 6–8 hours. Vetsulin was recalled in the US in November 2009 due to inconsistent strength; it was available again as of April 2013.[24]

Two ultra-slow time-release synthetic human insulins became available in 2004 and 2005, generically known as insulin detemir (Levemir) and insulin glargine (Lantus). Studies have had good results with insulin glargine in cats.[25] Follow-up research [26] shows that Levemir can be used with a similar protocol and that either insulin on this protocol can lead uncomplicated feline cases to remission, with the most success being in cats who start on these protocols as soon as possible after diagnosis.

Dosage and regulation

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Cats may have their mealtimes strictly scheduled and planned to match with injection times, especially when on insulin with a pronounced peak action like Caninsulin/Vetsulin or Humulin N. If the cat free-feeds and normally eats little bits all day or night, it may be best to use a very slow-acting insulin to keep a constant level of blood glucose. Some veterinarians still use the outdated recommendation of using Humulin "N" or NPH insulin for cats, which is very fast-acting for most cats.[20] The slower-acting Lente and Ultralente (Humulin L and Humulin U) insulins were discontinued in 2005), so most cats are treated with either the veterinary PZI insulins or the new full-day analogs glargine (Lantus) and detemir (Levemir).

The first goal is to regulate the cat's blood glucose by keeping the blood glucose values in a comfortable range for the cat during most of the day. This may take a few weeks to achieve.

The most successful documented method is tight regulation with Lantus or Levemir.[27]

Typical obstacles to regulation include:

  • Chronic overdose masked by Somogyi: A dose that is too high may cause a Somogyi rebound, which can look like a need for more insulin. This condition can continue for days or weeks.
  • High-carbohydrate cat food: Many commercial foods (especially "light" foods) are very high in carbohydrates. The extra carbohydrates keep the cat's blood sugar high. In general, canned foods are lower in carbohydrates than dry foods, and canned "kitten" foods lower still. Diabetes in cats can be better regulated and even sometimes reversed with a low-carbohydrate diet.[28]
  • Inappropriate insulin: Different brands and types of insulin have idiosyncratic effects on different cats. With some dosages, the insulin may not last long enough for the cat. Testing blood sugar more frequently can determine if the insulin is controlling the blood sugar concentration throughout the day.

Blood sugar guidelines

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Taking a blood sample from a cat's ear to measure blood glucose concentration on a glucometer.

Absolute numbers vary between pets, and with meter calibrations. Glucometers made for humans are generally accurate using feline blood except when reading lower ranges of blood glucose (<80 mg/dl–4.44 mmol/L). At this point the size difference in human and animal red blood cells can create inaccurate readings.[29]

Somogyi rebound

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Too much insulin may result in a contradictory increase of blood glucose. This "Somogyi effect" is often noted by cat owners who monitor their cat's blood glucose at home. Any time the blood glucose level drops too far to hypoglycemia, the body may defensively dump glucose (converted from glycogen in the liver), as well as hormones epinephrine and cortisol, into the bloodstream. The glycogen raises the blood glucose, while the other hormones may make the cat insulin-resistant for a time. If the body has no glycogen reserves, there will be no rebound effect and the cat will just be hypoglycemic.[30]

Rebound hyperglycemia occurs rarely in cats treated with glargine in a protocol aiming for tight control of blood glucose concentrations.[31]

Hypoglycemia

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An acute hypoglycemic episode (very low blood sugar) can happen to even careful pet owners, since cats' insulin requirements sometimes change without warning. The symptoms include depression/lethargy, confusion/dizziness, loss of excretory/bladder control, vomiting, and then loss of consciousness and/or seizures. Immediate treatment includes administering honey or corn syrup by rubbing on the gums of the cat (even if unconscious, but not if in seizures). Symptomatic hypoglycemia in cats is a medical emergency and the cat will require professional medical attention. The honey/corn syrup should continue to be administered on the way to the vet, as every minute without blood sugar causes brain damage.

A cat with hypoglycemia according to a human-calibrated blood glucose meter (<2.2 mmol/L or 40 mg/dL), but with no symptoms, should be fed as soon as possible. Hypoglycemic cats that refuse to eat can be force-fed honey or corn syrup until they stabilize, though this may not be done if the animal is unconscious or having a seizure, as the liquid is likely to enter the animal's lungs and cause choking and asphyxiation.

Mild hypoglycemic episodes can go unnoticed or leave evidence such as urine pools outside the litter box. In these cases the blood sugar will probably appear paradoxically high upon the next test hours later, since the cat's body will react to the low blood sugar by stimulating the liver to release stored glycogen.

Remission

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Remission occurs when a cat no longer requires treatment for diabetes and has normal blood glucose concentrations for at least a month.[32]

Approximately one in four cats with type 2-like diabetes achieves remission. Some studies have reported a higher remission rate than this, which may in part be due to intensive monitoring that is impractical outside of a research environment. Research studies have implicated a variety of factors in successful remission; in general, the following factors increase the likelihood of remission:[32]

  • Diabetes was diagnosed a few months ago
  • The cat has no other serious disease
  • Treatment includes insulin glargine administered twice daily
  • The cat is monitored frequently during the first few months of treatment
  • The cat eats a diet low in carbohydrates and high in protein.

Cats may present with type 2 (insulin-resistant) diabetes, at least at first, but hyperglycemia and amyloidosis, left untreated, will damage the pancreas over time and progress to insulin-dependent diabetes.[citation needed]

Glipizide and similar oral diabetic medicines designed for type 2 diabetic humans have been shown to increase amyloid production and amyloidosis and therefore may reduce likelihood of remission.[17]

Approximately one-third of cats who achieve remission will later relapse.[32]

Epidemiology

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Diabetes is rare in cats younger than five years old.[33] Typically, affected cats are obese.[34] Burmese cats in Europe and Australia have increased risk of developing diabetes; American Burmese cats do not have this increased risk due to genetic differences between American Burmese and Burmese in other parts of the world.[35]

References

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  1. ^ McCann, T. M.; Simpson, K. E.; Shaw, D. J.; Butt, J. A.; Gunn-Moore, D. A. (August 2007). "Feline diabetes mellitus in the UK: The prevalence within an insured cat population and a questionnaire-based putative risk factor analysis". Journal of Feline Medicine and Surgery. 9 (4): 289–299. doi:10.1016/j.jfms.2007.02.001. PMC 10822632. PMID 17392005. S2CID 5832729.
  2. ^ a b c Gottlieb, S; Rand, J (2018). "Managing feline diabetes: current perspectives". Veterinary Medicine: Research and Reports. 9: 33–42. doi:10.2147/VMRR.S125619. PMC 6053045. PMID 30050865.
  3. ^ a b Rothlin-Zachrisson, N; Öhlund, M; Röcklinsberg, H; Ström Holst, B (January 2023). "Survival, remission, and quality of life in diabetic cats". Journal of Veterinary Internal Medicine. 37 (1): 58–69. doi:10.1111/jvim.16625. PMC 9889602. PMID 36637031.
  4. ^ Niessen, SJ; Church, DB; Forcada, Y (March 2013). "Hypersomatotropism, acromegaly, and hyperadrenocorticism and feline diabetes mellitus". The Veterinary Clinics of North America: Small Animal Practice. 43 (2): 319–50. doi:10.1016/j.cvsm.2012.12.004. PMID 23522175.
  5. ^ Rand, Jaqueline S.; Fleeman, Linda M.; Farrow, Heidi A.; Appleton, Delisa J.; Lederer, Rose (2004). "Canine and Feline Diabetes Mellitus: Nature or Nurture?". The Journal of Nutrition. 134 (8): 2072S–2080S. doi:10.1093/jn/134.8.2072S. PMID 15284406.
  6. ^ Claudia, Reusch (2015). "Feline Diabetes Mellitus". In Feldman, Edward C.; Nelson, Richard W.; Reusch, Claudia; Scott-Moncrieff, J. Catharine (eds.). Canine and feline endocrinology (Fourth ed.). St. Louis, Missouri: Elsevier Saunders. pp. 258–312. ISBN 978-1-4557-4456-5.
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  8. ^ Rand, Jaqueline S. (March 2013). "Pathogenesis of feline diabetes". Veterinary Clinics of North America: Small Animal Practice. 43 (2): 221–231. doi:10.1016/j.cvsm.2013.01.003. PMID 23522168.
  9. ^ a b Sparkes, A. H.; Cannon, M.; Church, D.; Fleeman, L.; Harvey, A.; Hoenig, M.; Peterson, M. E.; Reusch, C. E.; Taylor, S.; Rosenberg, D. (March 2015). "ISFM consensus guidelines on the practical management of diabetes mellitus in cats". Journal of Feline Medicine and Surgery. 17 (3): 235–250. doi:10.1177/1098612X15571880. PMID 25701862.
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  12. ^ Marshall, R. D.; Rand, Jaqueline S. (25 January 2005). "Insulin glargine and a high protein–low carbohydrate diet are associated with high remission rates in newly diagnosed diabetic cats". ACVIM Web Abstracts. American College of Veterinary Internal Medicine – via FelineDiabetes.com.
  13. ^ Greco, Deborah; Peterson, Mark; Jeter, Heidi (16 November 2004). "Study Shows 'Catkins' Diet Helps Cats Beat Diabetes" (Press release). Morris Animal Foundation. Archived from the original on 9 June 2007 – via MedicalNewsToday.com.
  14. ^ Frank, G. R.; Anderson, W.; Pazak, H.; Hodgkins, E.; Ballam, J.; Laflamme, D. (2001). "Use of a High Protein Diet in the Management of Feline Diabetes Mellitus". Veterinary Therapeutics. 2 (3): 238–46. PMID 19746667.
  15. ^ Bennett, N.; Greco, D. S.; Peterson, M. E.; Kirk, C.; Mathes, M.; Fettman, M. J. (April 2006). "Comparison of a low carbohydrate-low fiber diet and a moderate carbohydrate-high fiber diet in the management of feline diabetes mellitus". Journal of Feline Medicine and Surgery. 8 (2): 73–84. doi:10.1016/j.jfms.2005.08.004. PMC 10832676. PMID 16275041. S2CID 25682361.
  16. ^ Brooks, Wendy (24 April 2023) [2002]. "Oral Diabetic Therapies". Vin.com. Veterinary Information Network.
  17. ^ a b Hoenig, Margarethe; Hall, Gregory; Ferguson, Duncan; Jordan, Katharine; Henson, Michael; Johnson, Kenneth; O'Brien, Timothy (December 2000). "A feline model of experimentally induced islet amyloidosis". The American Journal of Pathology. 157 (6): 2143–2150. doi:10.1016/s0002-9440(10)64852-3. PMC 1885761. PMID 11106586. Archived from the original on 16 December 2019. Retrieved 16 December 2019.
  18. ^ a b "FDA Approves First Oral Treatment for Cats with Diabetes Mellitus". U.S. Food and Drug Administration (FDA). 8 December 2022. Retrieved 11 December 2022. Public Domain This article incorporates text from this source, which is in the public domain.
  19. ^ "Elanco Announces FDA Approval of Bexacat (bexagliflozin tablets) – the First-of-its-kind Oral Feline Diabetes Treatment Option". Elanco.com (Press release). 9 December 2022. Retrieved 11 December 2022.
  20. ^ a b Wallace, M. S.; Peterson, M. E.; Nichols, C. E. (October 1990). "Absorption kinetics of regular, isophane, and protamine zinc insulin in normal cats". Domestic Animal Endocrinology. 7 (4): 509–515. doi:10.1016/0739-7240(90)90008-N. PMID 2261761.
  21. ^ Goeders, L. A.; Esposito, L. A.; Peterson, M. E. (January 1987). "Absorption kinetics of regular and isophane (NPH) insulin in the normal dog". Domestic Animal Endocrinology. 4 (1): 43–50. doi:10.1016/0739-7240(87)90037-3. PMID 3333933.
  22. ^ a b Moise, N. S.; Reimers, T. J. (January 1983). "Insulin therapy in cats with diabetes mellitus". Journal of the American Veterinary Medical Association. 182 (2): 158–164. PMID 6298164.
  23. ^ "PZI Insulin Information for Cats".
  24. ^ "Vetsulin: Insulin for Diabetes in Dogs and Cats". Archived from the original on 19 February 2015. Retrieved 28 February 2015.
  25. ^ "Glargine (Lantus) insulin and feline diabetes remission".
  26. ^ Roomp, Kirsten; Rand, Jaqueline S. (22 April 2009) [2008]. "Research Abstract Program of the 26th Annual ACVIM Forum San Antonio, TX, June 4 – June 7, 2008" (PDF). Journal of Veterinary Internal Medicine. 22 (3): 791. doi:10.1111/j.1939-1676.2008.0103.x. PMC 7166787. Archived from the original (PDF) on 15 February 2010. Retrieved 14 November 2009.
  27. ^ Roomp, Kirsten; Rand, Jaqueline S. (2009). "Intensive blood glucose control is safe and effective in diabetic cats using home monitoring and treatment with glargine". Journal of Feline Medicine and Surgery. 11 (8): 668–682. doi:10.1016/j.jfms.2009.04.010. hdl:11858/00-001M-0000-0019-FA20-B. PMID 19592286. S2CID 14537094.
  28. ^ "Morris Animal Foundation". Archived from the original on 13 March 2005. Retrieved 15 March 2005.
  29. ^ Schall, William A. (1 April 2009). "Diabetes mellitus (Proceedings)". VeterinaryCalendar.DVM360.com. Archived from the original on 10 July 2011. Retrieved 14 March 2010.
  30. ^ Somogyi Phenomenon at eMedicine
  31. ^ Roomp, Kirsten; Rand, Jaqueline S. (June 2015). "Rebound hyperglycaemia in diabetic cats". Journal of Feline Medicine and Surgery. 18 (8): 587–596. doi:10.1177/1098612X15588967. PMC 10816392. PMID 26045481. S2CID 37698449.
  32. ^ a b c Reusch, E. C. (2015). "Chapter 7: Feline diabetes mellitus". In Feldman, E. C.; Nelson, R. W.; Reusch, C.; Scott-Moncrieff, J. C. (eds.). Canine and Feline Endocrinology (4th ed.). Elsevier. pp. 258–314. ISBN 9781455744565.
  33. ^ Reusch, C. (2009). "Chapter 291: Feline diabetes mellitus". In Ettinger, S. J.; Feldman, E. C. (eds.). Textbook of Veterinary Internal Medicine (7th ed.). Elsevier Health Sciences. pp. 1796–1816. ISBN 9781437702828.
  34. ^ Osto, M.; Zini, E.; Reusch, C. E.; Lutz, T. A. (1 February 2013). "Diabetes from humans to cats" (PDF). General and Comparative Endocrinology. 182: 48–53. doi:10.1016/j.ygcen.2012.11.019. PMID 23247272. S2CID 22170416.
  35. ^ O'Neill, D. G.; Gostelow, R.; Orme, C.; Church, D. B.; Niessen, S. J.; Verheyen, K.; Brodbelt, D. C. (July 2016). "Epidemiology of diabetes mellitus among 193,435 cats attending primary-care veterinary practices in England". Journal of Veterinary Internal Medicine. 30 (4): 964–972. doi:10.1111/jvim.14365. PMC 5094533. PMID 27353396.
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