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Grape toxicity in dogs

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The consumption of grapes and raisins presents a potential health threat to dogs. Their toxicity to dogs can cause the animal to develop acute kidney injury (the sudden development of kidney failure) with anuria (a lack of urine production). The phenomenon was first identified by the Animal Poison Control Center (APCC), run by the American Society for the Prevention of Cruelty to Animals (ASPCA). Approximately 140 cases were seen by the APCC in the one year from April 2003 to April 2004, with 50 developing symptoms and seven dying.[1]

One theory of the mechanism of toxicity is the tartaric acid or tartrate content in grapes. This is based on the observation that dogs show similar symptoms and pathological findings after consuming cream of tartar or tamarind.[2]

It is not clear that the observed cases of kidney failure following ingestion are due to grapes only. Clinical findings suggest raisin and grape ingestion can be fatal, but the mechanism of toxicity is still considered unknown.[3]

Pathology

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The most common pathological finding is proximal renal tubular necrosis.[4] In some cases, an accumulation of an unidentified golden-brown pigment was found within renal epithelial cells.[5]

Cause

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The reason some dogs develop kidney failure following ingestion of grapes and raisins is not known as of 2015.[6] Types of grapes involved include both seedless and seeded, store-bought and homegrown, and grape pressings from wineries.[7] A mycotoxin is suspected to be involved, but none has been found in grapes or raisins ingested by affected dogs.[8] The dose-response relationship has not been determined,[3] but one study estimated 3 g/kg or greater for grapes or raisins.[5]

A 2024 review identified a relationship between grape ingestion and illness, though the specific type or quantity of grapes that cause toxicity remains unclear. Grape ingestion commonly leads to gastrointestinal and/or renal issues, with treatment depending on the symptoms; outcomes can vary. The author does not favor any particular explanation of toxicity but merely lists them.[9]

Tartrate theory

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An April 2021 letter to the editor of JAVMA hypothesized that the tartaric acid in grapes could be the cause. This is because the authors saw two cases of cream of tartar ingestion, both with similar clinical findings, and the autopsied one with similar histological findings.[10][11]

A 2022 article expands on the letter with detailed reports of the 2 aforementioned cases of cream of tartar ingestion and 4 new cases of tamarind ingestion. Again, clinical findings were similar. Tamarind is known to contain 8%–18% tartaric acid, much more than the up to 2% (typically 0.35%–1.1%) found in grapes. The authors believe that the assignment of tartaric acid as the culprit also explains the relative lack of incidents from dogs consuming commercial grape juice, jam, and wine, as these go through a process to remove tartrates.[2]

Precisely how tartrate can damage the dog kidney to cause proximal tubular necrosis is unclear. Maleic acid causes a similar finding and is believed to selectively inhibit NaK-ATPase activity and/or deplete ATP in the proximal tubules.[2] A 2023 study have observed tartaric acid toxicity in kidney cells of dogs, but not in human kidney cells. Blocking the OAT1 on the dog cells reduces this toxicity by preventing the cell from taking up tartaric acid. Transfecting the human version of OAT4 into the kidney cells also reduces toxicity. Based on these observations, toxicity seems to be due to a lower expression of OAT4 in dogs.[12]

Clinical signs and diagnosis

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Vomiting and diarrhea are often the first clinical signs of grape or raisin toxicity. They often develop within a few hours of ingestion. Pieces of grapes or raisins may be present in the vomitus or stool. Further symptoms include weakness, not eating, increased drinking, and abdominal pain. Acute kidney failure develops within 48 hours of ingestion.[8] A blood test may reveal increases in blood urea nitrogen (BUN), creatinine, phosphorus, and calcium.

Treatment

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Emesis (induction of vomiting) is the generally recommended treatment if a dog has eaten grapes or raisins within the past two hours. A veterinarian may use an emetic such as apomorphine to cause the dog to vomit. Further treatment may involve the use of activated charcoal to adsorb remaining toxins in the gastrointestinal tract and intravenous fluid therapy in the first 48 hours following ingestion to induce diuresis and help to prevent acute kidney failure.[13] Vomiting is treated with antiemetics and the stomach is protected from uremic gastritis (damage to the stomach from increased BUN) with H2 receptor antagonists. BUN, creatinine, calcium, phosphorus, sodium, and potassium levels are closely monitored. Dialysis of the blood (hemodialysis) and peritoneal dialysis can be used to support the kidneys if anuria develops. Oliguria (decreased urine production) can be treated with dopamine or furosemide to stimulate urine production.[3]

The prognosis is guarded in any dog developing symptoms of toxicosis. A negative prognosis has been associated with oliguria or anuria, weakness, difficulty walking, and severe hypercalcemia (increased blood calcium levels).[4] In cases where an animal is azotaemic the survival rate is approx. 50%.[14]

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Among pet animals, the domestic cat is relatively related to dogs by both being carnivorans. It is disputed whether grapes are toxic to cats: a 2016 review[15] and a 2022 ASPCA blog post lists grapes and raisins as non-toxic to cats,[16] but PetMD.com lists it as toxic.[17]

According to the Merck Veterinary Manual, there exist unpublished anecdotal reports of toxicity in cats and ferrets, two canivorans.[18]

Members of genus Canis known to eat grapes include the coyote[19] and the golden jackal.[20]

References

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  1. ^ "ASPCA Animal Poison Control Center Issues Nationwide Update: Raisins and Grapes Can Be Toxic To Dogs". ASPCA. July 6, 2004. Archived from the original on April 7, 2007. Retrieved February 13, 2007.
  2. ^ a b c Wegenast, CA (2022). "Acute kidney injury in dogs following ingestion of cream of tartar and tamarinds and the connection to tartaric acid as the proposed toxic principle in grapes and raisins". J Vet Emerg Crit Care. 32 (6): 812–816. doi:10.1111/vec.13234. PMID 35869755. S2CID 250989489.
  3. ^ a b c "Food Hazards: Raisins/grapes". The Merck Veterinary Manual. 2006. Retrieved February 13, 2007.
  4. ^ a b Eubig P, Brady M, Gwaltney-Brant S, Khan S, Mazzaferro E, Morrow C (2005). "Acute renal failure in dogs after the ingestion of grapes or raisins: a retrospective evaluation of 43 dogs (1992–2002)". Journal of Veterinary Internal Medicine. 19 (5): 663–74. doi:10.1892/0891-6640(2005)19[663:ARFIDA]2.0.CO;2. PMID 16231710.
  5. ^ a b Morrow, C. M. K.; Valli, V. E.; Volmer, P. A.; Eubig, P. A. (2005). "Canine Renal Pathology Associated with Grape or Raisin Ingestion: 10 Cases". Journal of Veterinary Diagnostic Investigation. 17 (3): 223–31. doi:10.1177/104063870501700302. PMID 15945377.
  6. ^ "Grape and Raisin Toxicity in Dogs | VCA Animal Hospitals". Retrieved 11 December 2015.
  7. ^ McKnight, Katrina (February 2005). "Grape and Raisin Toxicity in Dogs" (PDF). Veterinary Technician: 135–136. Archived from the original (PDF) on December 6, 2006. Retrieved February 13, 2007.
  8. ^ a b Mazzaferro, Elisa M. (2006-01-11). "Doc, What did He Get Into? Emergency Approach to Toxins". Proceedings of the North American Veterinary Conference. Retrieved 2016-06-30. (Requires registration.)
  9. ^ Downs, Joshua; Zoltowska, Agnieszka; Hackney, Thomas; Gardner, David S.; Ashmore, Alison; Brennan, Marnie L. (2024-10-05). "Scoping review exploring the evidence base on Vitis vinifera toxicity in dogs after ingestion: Clinical effects, treatments and types of V. vinifera". Veterinary Record. 195 (7): e4536. doi:10.1002/vetr.4536. ISSN 0042-4900. PMID 39183495.
  10. ^ McReynolds, Tony (April 1, 2021). "What causes grape toxicity in dogs? Playdough might have led to a breakthrough". American Animal Hospital Association.
  11. ^ Wegenast C, Meadows I, Anderson R, Southard T (2021-04-01). "Unique sensitivity of dogs to tartaric acid and implications for toxicity of grapes (Letters to the Editor)". Journal of the American Veterinary Medical Association. 258 (7). American Veterinary Medical Association (AVMA): 704–707. doi:10.2460/javma.258.7.704. ISSN 0003-1488. PMID 33754816.
  12. ^ Coyne, Sean R.; Landry, Greg M. (2023). "Tartaric acid induces toxicity in Madin–Darby canine kidney cells, but not human kidney-2 cells in vitro, and is prevented by organic anion transporter inhibition and human OAT-4 transfection". Journal of Veterinary Emergency and Critical Care. 33 (3): 298–304. doi:10.1111/vec.13294. ISSN 1479-3261. PMID 37087614.
  13. ^ "News and Views". Veterinary Forum. 23 (1). Veterinary Learning Systems: 12. January 2006.
  14. ^ Reich, Colin F.; Salcedo, Mallory C.; Koenigshof, Amy M.; Hopp, Molly M.; Walker, Julie M.; Schildt, Julie C.; Beal, Matthew W. (2019-11-12). "Retrospective evaluation of the clinical course and outcome following grape or raisin ingestion in dogs (2005–2014): 139 cases". Journal of Veterinary Emergency and Critical Care. 30 (1). Wiley: 60–65. doi:10.1111/vec.12905. ISSN 1479-3261. PMID 31714003.
  15. ^ Cortinovis, C; Caloni, F (2016). "Household Food Items Toxic to Dogs and Cats". Frontiers in Veterinary Science. 3: 26. doi:10.3389/fvets.2016.00026. PMC 4801869. PMID 27047944.
  16. ^ "Matt's Blog: Be Prepared to Deal with Pet Poisons | ASPCA". www.aspca.org.
  17. ^ "Can Cats Eat Grapes?". www.petmd.com.
  18. ^ "Grape, Raisin, and Tamarind (Vitis spp, Tamarindus spp) Toxicosis in Dogs - Toxicology". Merck Veterinary Manual.
  19. ^ "New Study Says Urban Coyotes Eat Garbage, Ornamental Fruit and Domestic Cats - Santa Monica Mountains National Recreation Area (U.S. National Park Service)". www.nps.gov. They tend to eat a lot of garbage, ornamental fruits like ficus, loquat, grapes and palm tree fruit and domestic cats.
  20. ^ Heptner, V. G.; Naumov, N. P. (1998). Mammals of the Soviet Union Vol. II Part 1a, Sirenia and Carnivora (Sea cows; Wolves and Bears). Science Publishers, Inc. USA. pp. 147–148. ISBN 978-1-886106-81-9.
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