Peer-reviewed veterinary case report
Safety and how glyburide acts in dogs with spinal injury
By Nick Jeffery et al.·Published in PeerJ·2018·Department of Small Animal Clinical Sciences, Texas A&M University, College Station, TX, United States of America, US·View original on DOAJ →
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Original publication title: Pharmacokinetics and safety of oral glyburide in dogs with acute spinal cord injury
- Species:
- dog
Plain-English summary
A group of dogs with recent spinal cord injuries were given an oral medication called glyburide to see if it could help them recover. These dogs had lost the ability to walk in their back legs after their injuries. The study found that glyburide was safe for the dogs, with no harmful side effects, and it reached effective levels in their blood without causing low blood sugar. The researchers suggest that a higher initial dose followed by regular smaller doses could be used in future treatments for dogs with similar injuries.
People also search for: dog spinal cord injury treatment · glyburide for dogs · dog not walking after injury
Abstract
Background Glyburide (also known as glibenclamide) is effective in reducing the severity of tissue destruction and improving functional outcome after experimental spinal cord injury in rodents and so has promise as a therapy in humans. There are many important differences between spinal cord injury in experimental animals and in human clinical cases, making it difficult to introduce new therapies into clinical practice. Spinal cord injury is also common in pet dogs and requires new effective therapies, meaning that they can act as a translational model for the human condition while also deriving direct benefits from such research. In this study we investigated the pharmacokinetics and safety of glyburide in dogs with clinical spinal cord injury. Methods We recruited dogs that had incurred an acute thoracolumbar spinal cord injury within the previous 72 h. These had become acutely non-ambulatory on the pelvic limbs and were admitted to our veterinary hospitals to undergo anesthesia, cross sectional diagnostic imaging, and surgical decompression. Oral glyburide was given to each dog at a dose of 75 mcg/kg. In five dogs, we measured blood glucose concentrations for 10 h after a single oral dose. In six dogs, we measured serum glyburide and glucose concentrations for 24 h and estimated pharmacokinetic parameters to estimate a suitable dose for use in a subsequent clinical trial in similarly affected dogs. Results No detrimental effects of glyburide administration were detected in any participating dog. Peak serum concentrations of glyburide were attained at a mean of 13 h after dosing, and mean apparent elimination half-life was approximately 7 h. Observed mean maximum plasma concentration was 31 ng/mL. At the glyburide dose administered there was no observable association between glyburide and glucose concentrations in blood. Discussion Our data suggest that glyburide can be safely administered to dogs that are undergoing anesthesia, imaging and surgery for treatment of their acute spinal cord injury and can attain clinically-relevant serum concentrations without developing hazardous hypoglycemia. Serum glyburide concentrations achieved in this study suggest that a loading dose of 150 mcg/kg followed by repeat doses of 75 mcg/kg at 8-hourly intervals would lead to serum glyburide concentrations of 25–50 ng/mL within an acceptably short enough period after oral administration to be appropriate for a clinical trial in canine spinal cord injury.
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Search related cases →Original publication on DOAJ: https://doi.org/10.7717/peerj.4387