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Peer-reviewed veterinary case report

How plasma and complement help dog platelet products fight bacteria

By Mollabashi, Melikasadat et al.·Published in Frontiers in veterinary science·2025·College of Veterinary Medicine, United States·View original on PubMed

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Original publication title: Plasma and complement proteins are essential for the antimicrobial activity of canine platelet lysate.

Species:
dog

Plain-English summary

A study found that platelet-rich plasma from dogs can help fight infections in wounds. Researchers tested different preparation methods of this plasma to see how well it worked against common bacteria found in skin wounds. They discovered that the presence of certain proteins in the plasma was important for its ability to kill bacteria. While some methods didn't show a significant difference in effectiveness, the right formulation of platelet lysate could potentially improve wound healing and reduce infections. More research is needed to determine the best way to use this treatment.

People also search for: dog wound healing treatment · canine platelet-rich plasma benefits · how to treat dog skin infection

Abstract

INTRODUCTION: Platelet derived products have gained increasing attention as promising alternative biologicals for the treatment of canine wounds. Specifically, platelets play a crucial role during the inflammatory phase of wound healing due to the release of chemokines, proteins, cytokines, and growth factors. Additionally, platelets possess antimicrobial properties, which can be influenced by their manufacturing process, platelet and leukocyte concentration, activation method, and the presence of plasma and complement. The objective of this study was to assess how various preparation methods of platelet products affect their antimicrobial effect against bacteria commonly isolated from wounds. METHODS: In this study, blood was collected from eight purpose-bred dogs, and platelet-rich plasma was produced using two methods of centrifugation, one leukocyte-enriching and one leukocyte-reducing. Some samples were processed for plasma depletion and platelet lysate was subsequently generated through freeze-thaw cycles. Additionally, portions of platelet lysate samples underwent heat treatment for complement inactivation. All treatment groups were tested against four common bacteria found in canine skin wounds:,,and. The antimicrobial effect of various lysate formulations was evaluated using a bacteria-spiking (time-killing) assay. RESULTS: Platelet lysate significantly reduced the number ofandafter 3 h compared to culture media. No significant differences were noted in the log reduction of bacteria between the centrifugation techniques. After depleting plasma, the log reduction ofwas significantly less than before plasma depletion, whereas the opposite was seen forafter 3 h. Complement-depleted plasma led to a significantly lower log reduction forafter 24 h compared to platelet lysate. DISCUSSION: Therefore, the presence of plasma and complement proteins in platelet lysate appear to play a critical role in inhibiting the growth of certain bacterial strains, whereas the leukocyte concentration does not have a significant effect. Further research is needed to identify the ideal formulation and dose of canine platelet lysate as an antimicrobial and wound healing treatment.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/40666728/