Antibacterial Properties of Canine Platelet-Rich Plasma and Other Non-Transfusional Hemo-Components: An in vitro Study

Attili, Annarita; Iacoucci, Cristina; Serri, Evelina; Cuteri, Vincenzo; Cantalamessa, Andrea; Linardi, Martina; Rifici, Claudia; Mazzullo, G.; Rossi, Giacomo; Galosi, Livio; Tambella, Adolfo Maria

doi:10.3389/fvets.2021.746809

Cited by 11 publications

(20 citation statements)

References 84 publications

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“…The poor outcomes associated with joint infection, especially periprosthetic joint infection (PJI) secondary to joint replacement, have recently been suggested to depend on the presence of fibrin-rich floating and adherent antibiotic-tolerant bacterial aggregates ( Dastgheyb et al., 2015 ; Gilbertie et al., 2019 ; Bidossi et al., 2020 ). In vitro , PRP exhibits antimicrobial activity against planktonic and biofilm bacteria ( Drago et al., 2014 ; López et al., 2014 ; Zhang et al., 2019 ; Gilbertie et al., 2020 ; Attili et al., 2021 ). In vivo , PRP alone or in combination with conventional antimicrobials has been effective in animal models of osteomyelitis and infected wounds ( Li et al., 2013 ; Farghali et al., 2019 ; Wang et al., 2019 ; Tang et al., 2021 ; Wei et al., 2021 ; Pourkarim et al., 2022 ).…”

Section: Discussionmentioning

confidence: 99%

A Platelet-Rich Plasma-Derived Biologic Clears Staphylococcus aureus Biofilms While Mitigating Cartilage Degeneration and Joint Inflammation in a Clinically Relevant Large Animal Infectious Arthritis Model

Gilbertie

Schaer

Engiles

et al. 2022

Front. Cell. Infect. Microbiol.

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The leading cause of treatment failure in Staphylococcus aureus infections is the development of biofilms. Biofilms are highly tolerant to conventional antibiotics which were developed against planktonic cells. Consequently, there is a lack of antibiofilm agents in the antibiotic development pipeline. To address this problem, we developed a platelet-rich plasma (PRP)-derived biologic, termed BIO-PLY (for the BIOactive fraction of Platelet-rich plasma LYsate) which has potent in vitro bactericidal activity against S. aureus synovial fluid free-floating biofilm aggregates. Additional in vitro studies using equine synoviocytes and chondrocytes showed that BIO-PLY protected these cells of the joint from inflammation. The goal of this study was to test BIO-PLY for in vivo efficacy using an equine model of infectious arthritis. We found that horses experimentally infected with S. aureus and subsequently treated with BIO-PLY combined with the antibiotic amikacin (AMK) had decreased bacterial concentrations within both synovial fluid and synovial tissue and exhibited lower systemic and local inflammatory scores compared to horses treated with AMK alone. Most importantly, AMK+BIO-PLY treatment reduced the loss of infection-associated cartilage proteoglycan content in articular cartilage and decreased synovial tissue fibrosis and inflammation. Our results demonstrate the in vivo efficacy of AMK+BIO-PLY and represents a new approach to restore and potentiate antimicrobial activity against synovial fluid biofilms.

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Section: Discussionmentioning

confidence: 99%

A Platelet-Rich Plasma-Derived Biologic Clears Staphylococcus aureus Biofilms While Mitigating Cartilage Degeneration and Joint Inflammation in a Clinically Relevant Large Animal Infectious Arthritis Model

Gilbertie

Schaer

Engiles

et al. 2022

Front. Cell. Infect. Microbiol.

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“…The formed constructed fibrin networks further act as carriers for active platelet components, facilitating the aggregation and functionalization of leukocytes and platelets [56]. PRP contains not only antimicrobial peptides but also catecholamines, serotonin, osteonectin, proaccelerin, and other substances that are beneficial for adjusting the local microenvironments of [57] evaluated antibacterial properties of PRP with an agar gel diffusion method and the inhibition effect of PRP against the growth of Staphylococcus aureus and Escherichia coli. Smith et al [58] also reported the in vitro bacteriostatic effect of PRP on the S aureus and S. epidermidis.…”

Section: Mechanism Of Prp In Promotingmentioning

confidence: 99%

Emerging Delivery Strategies of Platelet-Rich Plasma with Hydrogels for Wound Healing

Zhang

Wang

Deng

et al. 2022

Advances in Polymer Technology

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Platelet-rich plasma (PRP), a platelet-rich plasma concentrate obtained from whole blood, has been widely used to treat wounds due to its high contents of growth factors that can not only play a role in the hemostasis, repair, and anti-infection of wounds but also promote cell proliferation, maturation, and angiogenesis. However, after PRP activation, its clinical effect was limited because of burst and uncontrolled release of growth factors and poor mechanical properties of PRP gels. In recent years, increasing attention has been moved to the loading and sustained release of growth factors in PRP by polymeric carriers. Hydrogels, as an interesting carrier, enable controlled delivery of growth factors by structural designs. Moreover, using hydrogels to encapsulate PRP is favorable to controlling the mechanical properties and water maintenance of PRP gels, which can provide a stable and moist wound repair environment to promote coordinated operations of skin tissue cells and cytokines as well as wound healing. In this review, the state of the art of hydrogels that have been used to load PRP for wound treatments is introduced, and further prospects in the research area are proposed.

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“…Using platelet-derived products in veterinary treatments are includes injury defects, articular lesions, mainly in equine, canine and feline patients (Soares et al 2021). It has been reported that treatment with PRP in MRSA-infected dermatological diseases in dogs causes rapid epithelialization and granulation tissue formation, a rapid healing process, reduction of inflammation, and bacterial decline (Attili et al 2021). In dogs, clinical studies have centered on orthopedic uses in infected skin wounds with antimicrobial effects of PRP, and in dermatology for the treatment of dermal ulcers with wide tissue misplacement surgically induced wounds (Perego et al 2021).…”

Section: Prp Application In Animalsmentioning

confidence: 99%

“…Applications and topical use of platelet-rich plasma (PRP), non-transfusional hemocomponents, or autologous platelet concentrates have a potential role in a kind of regenerative medicine treatment. These treatments have been used for over 30 years for various indications and have gained immense popularity in the last 20 years (Everts et al 2020;Attili et al 2021).…”

Section: Introductionmentioning

confidence: 99%

Otolog Trombosit Konsantrelerinin İmmunolojik ve Antimikrobiyal Etkileri

Özavci

Kırkan

2022

Van Veterinary Journal

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Antibiotic resistance has remarkable potential in human beings and veterinary medicine. However, to prevent the clinical reflection of this resistance from reaching the feared dimensions, there is a requirement for antimicrobial treatment options supported and improved with new molecular biocursors at the preclinical point. Platelet-rich plasma (PRP) and fibrin (PRF) are biomaterial products that recently used to increase the anti-infective defense system by platelet growth factors to support postoperative wound healing, bone regeneration, graft stabilization, biofilm inhibition, catheter hygiene, and hemostasis. Recently, research has been carried out on antibacterial, antifungal, and prevention of clinical biofilm formation. Autologous platelet concentrates are autogenous and do not cause any immunological reaction or infection. Therefore, the choice and application of regenerative therapies are being favored due to their nominal invasive procedures. In particular, PRP and PRF are of interest because of their influence to stimulate and speed up the injury area healing process. Cytokines and growth factors involved in the formation of PRP are played an important role in the recovery process. This article aims to evaluate the antibacterial, antifungal and antibiofilm properties of PRP and PRF in the field of microbiology. In addition, the act of growth factors in the process of healing and their use in regenerative treatments were also evaluated.

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Antibacterial Properties of Canine Platelet-Rich Plasma and Other Non-Transfusional Hemo-Components: An in vitro Study

Cited by 11 publications

References 84 publications

A Platelet-Rich Plasma-Derived Biologic Clears Staphylococcus aureus Biofilms While Mitigating Cartilage Degeneration and Joint Inflammation in a Clinically Relevant Large Animal Infectious Arthritis Model

A Platelet-Rich Plasma-Derived Biologic Clears Staphylococcus aureus Biofilms While Mitigating Cartilage Degeneration and Joint Inflammation in a Clinically Relevant Large Animal Infectious Arthritis Model

Emerging Delivery Strategies of Platelet-Rich Plasma with Hydrogels for Wound Healing

Otolog Trombosit Konsantrelerinin İmmunolojik ve Antimikrobiyal Etkileri

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