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Peer-reviewed veterinary case report

Therapeutic plasma exchange in dogs: treatment and effects

By Thierry Francey & Ariane Schweighauser·Published in Journal of Veterinary Internal Medicine·2019·Division of Small Animal Internal Medicine, Department of Clinical Veterinary Medicine Vetsuisse Faculty, University of Bern Bern Switzerland, GB·View original on DOAJ

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Original publication title: Membrane‐based therapeutic plasma exchange in dogs: Prescription, anticoagulation, and metabolic response

Species:
dog
Drinking & peeingDogs

Plain-English summary

A group of 34 dogs underwent therapeutic plasma exchange (TPE) to treat various health issues by removing harmful substances from their blood. This procedure led to significant decreases in total proteins, fibrinogen, bilirubin, urea, and creatinine levels, which are important indicators of health. While most dogs tolerated the treatment well, there were some complications, including two fatalities. The study highlights the importance of understanding the metabolic changes that occur during TPE to improve safety and outcomes for dogs receiving this treatment.

People also search for: dog plasma exchange treatment · dog blood toxin removal · complications of plasma exchange in dogs

Abstract

Abstract Background Therapeutic plasma exchange (TPE) is used increasingly in small animals to remove circulating large molecular products such as antibodies, pathogenic proteins, and protein‐bound toxins. Specific, efficient, and safe protocols need to be developed. Hypothesis/Objectives To describe the technique of membrane‐based TPE, the resulting physiological and metabolic changes, and to define an adequate regional citrate anticoagulation protocol. Animals Thirty‐four dogs treated with TPE (2011‐2017). Methods Retrospective review of all TPE treatments performed at the Vetsuisse Faculty, University of Bern, identified through a search of the institutional database for extracorporeal treatments. Results Sixty‐four treatments were performed, resulting in 1.0 plasma volume exchange (range, 0.4‐1.1). Replacement fluids included fresh frozen plasma (12%‐100% volume), colloids (0%‐52%), human albumin (0%‐41%), and saline (0%‐70%). Anticoagulation was performed with regional citrate (n = 24), systemic heparinization (n = 2), or combined (n = 38). Main relevant laboratory changes included a 24.7% decrease in total proteins (interquartile range, 16.7‐31.4; P < .001), 53% in fibrinogen (−30 to 63; P = .009), 36% in bilirubin (13‐43, P = .02), 9.0% in urea (0.7‐15.7; P < .001), and 4.5% in creatinine (−6.6 to 10.6; P = .006). Citrate accumulation was evidenced in all dogs, more pronounced in those with renal but not with hepatic impairment. Maximal tolerable citrate rates were estimated as 5.5 and 9.0 μmol/kg/min for treatments in dogs with and without renal impairment, respectively. Complications were observed in 22 treatments (34%) and were fatal in 2 dogs. Conclusions and Clinical Importance Therapeutic plasma exchange causes metabolic and biochemical alterations. Understanding these effects makes possible to anticipate most complications and to improve safety of the procedure.

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Original publication on DOAJ: https://doi.org/10.1111/jvim.15528