Autologous i‐PRF promotes healing of radiation‐induced skin injury

Abstract: Skin, as an exposed tissue, often suffers damage after exposure to radiotherapy and accidental events, which may lead to the formation of chronic refractory wounds.However, effective treatment options are usually limited for severe radiation-induced skin injury (RSI). Platelet-rich plasma (PRP) has been identified to promote wound healing, but whether a new generation of blood-derived biomaterial, injectable platelet-rich fibrin (i-PRF), is effective in repairing RSI remains unclear. In this study, blood was d… Show more

“…The goal of this communication is to provide more information and enhance the understanding of the content discussed in the article. The preclinical technique employed in the study by Tian K et al 1 was meticulously designed by the authors, who also investigated the potential applications of platelet concentrates in the management of radiationinduced skin injury (RSI) in Sprague-Dawley rats. The platelet concentrates utilised in this investigation consisted of two distinct generations, namely platelet rich plasma (PRP) and Injectable Platelet Rich Fibrin (i-PRF).…”

Letter to editor in response to ‘Tian K, Ye J, Zhong Y, Jia Z, Xu W, Gao S, Cao S, Li K, Wu L. Autologous i‐PRF promotes healing of radiation‐induced skin injury. Wound Repair Regen. 2023;31:454–463’

“…The goal of this communication is to provide more information and enhance the understanding of the content discussed in the article. The preclinical technique employed in the study by Tian K et al 1 was meticulously designed by the authors, who also investigated the potential applications of platelet concentrates in the management of radiationinduced skin injury (RSI) in Sprague-Dawley rats. The platelet concentrates utilised in this investigation consisted of two distinct generations, namely platelet rich plasma (PRP) and Injectable Platelet Rich Fibrin (i-PRF).…”

Letter to editor in response to ‘Tian K, Ye J, Zhong Y, Jia Z, Xu W, Gao S, Cao S, Li K, Wu L. Autologous i‐PRF promotes healing of radiation‐induced skin injury. Wound Repair Regen. 2023;31:454–463’

“…The advantageous impact of IPRF+ on expediting wound healing, mitigating postoperative hematoma, edema, and pain, and even addressing connective tissue defects is substantiated by a myriad of studies across diverse medical domains [ 6 ]. Its widespread application spans dermatology, where it is utilized for skin regeneration and the treatment of various wounds, exerting influence on angiogenesis and facilitating skin recovery post-irradiation [ 7 , 8 , 9 , 10 ]. The angiogenic properties of IPRF extend its utility to enhancing the survival of free skin grafts and fostering muscle regeneration [ 11 , 12 ].…”

Renewed Concept of Mastoid Cavity Obliteration with the Use of Temporoparietal Fascial Flap Injected by Injectable Platelet-Rich Fibrin after Subtotal Petrosectomy for Cochlear Implant Patients

Evaluation of the effect of injectable platelet-rich fibrin (i-PRF) in wound healing and growth factor release in rats: a split-mouth study