Clinical and Histopathological Evaluation of Using Platelet-Rich Plasma and Platelet-Rich Fibrin Matrix in Treatment of Induced Chronic Open Wounds in Bucks

Khalaf, Falah H.; Salih, Serwa Ibrahim

doi:10.22159/ajpcr.2018.v11i5.24105

Cited by 9 publications

(5 citation statements)

References 19 publications

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“…In our study, mononuclear inflammatory cells were found in PRF-injected areas versus the untreated donor site which was in line with results discovered by other authors [17,18]. In addition, mature thick collagen fibers were seen well organized in the dermis at the PRF-injected donor site, in contrast to the control donor location, where immature collagen fibers were commonly visible and this was in line with the findings of other researchers [17,18,21,22].…”

Section: Discussionsupporting

confidence: 93%

The Effect of Platelet-Rich Fibrin on Donor Site of Split Thickness Skin Graft in Burned Patients

Senada

Rahman

Saleh

et al. 2021

The Egyptian Journal of Plastic and Reconstructive Surgery

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Section: Discussionsupporting

confidence: 93%

The Effect of Platelet-Rich Fibrin on Donor Site of Split Thickness Skin Graft in Burned Patients

Senada

Rahman

Saleh

et al. 2021

The Egyptian Journal of Plastic and Reconstructive Surgery

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“…The percentages were calculated according to the linear regression equation of each amino acid. The mean percentages of glycine, proline, and hydroxyproline were 33.247±0.20%; 11.867±0.20%; and 10.510±0.23%, which were similar to the levels of bovine collagen reported by Schrieber and Gareis, i.e., 33% glycine, 11% proline, and 10% hydroxyproline [9,10].…”

Section: Int J App Pharm Vol 10 Special Issue 1 2018supporting

confidence: 82%

Isolation, Purification, and Characterization of Bovine Tendon Collagen and Analysis of Glycine, Proline, and Hydroxyproline by High-Performance Liquid Chromatography-Fluorescence

2018

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Objective: In this study, collagen isolated from bovine tendon was purified and characterized, and the optimum conditions for analysis of glycine,proline, and hydroxyproline were determined.Methods: The collagen isolation process used 0.1 N NaOH as a pretreatment, 0.5 M acetic acid in the extraction, 0.9 M NaCl in the salting-outstep, centrifugation and dialysis for purification, and freeze-drying as the final step. The characterization of the collagen included analysis of theorganoleptic properties, pH, moisture content, viscosity, and ash content. A Fourier-transform infrared (FTIR) spectroscopy analysis and Casson’strichrome staining were also performed. The collagen was hydrolyzed in 6 N HCl for 24 h and derivatized using 9-fluorenylmethoxycarbonyl chloride.The optimum condition was conducted from the optimal wavelength, selection of mobile phase composition, and flow rate.Results: The average content was 11.867±0.20% for glycine, 33.247±0.20% for proline, and 10.51±0.23% for hydroxyproline. The optimum conditionanalysis for collagen was achieved by high-performance liquid chromatography (HPLC) with a C18® column and a fluorescence detector (excitation:265 nm and emission: 320 nm) with mobile phase acetate buffer (pH 4.2):acetonitrile (55:45), and the flow rate was 0.8 mL/min.Conclusion: The collagen isolated from bovine tendon was obtained at a yield of 0.690%, and the identity was confirmed by FTIR functional groupanalysis and Casson’s trichrome staining. The HPLC conditions using a fluorescence detector for analysis of glycine, proline, and hydroxyprolineconcentrations in the bovine tendon collagen were optimized. The analysis of amino acids gave the average levels of 33.247±0.20% for glycine,11.867±0.20% for proline, and 10.51±0.23% for hydroxyproline.

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“…Удосконалення технологій отримання речовин, концентруючих тромбоцити, сприяло розвитку другого покоління цих біоматеріалів, а саме фібрину, збагаченого тромбоцитами (PRF -Platelet-Rich Fibrin) (Dohan Ehrenfest et al, 2012;Tina Roshini et al, 2019;Chernyshenko et al, 2019). Аутологічні продукти першого та другого покоління відрізняються один від одного за фізичними властивостями, а також за способами їх одержання, в тому числі за кількістю ступенів центрифугування (Pazzini et al, 2016;Khalaf & Salih, 2018;Yaltirik et al, 2018). Плазму, збагачену тромбоцитами, виготовляють шляхом відбору зразка крові з різними антикоагулянтами та наступним одночи двоступеневим центрифугуванням, у результаті чого отримують очищену плазму, збагачену тромбоцитами, або плазму, збагачену лейкоцитами та тромбоцитами.…”

Section: вступunclassified

Histological characteristics of Platelet-Rich Fibrin clots obtained under various modes of blood centrifugation

Shevchenko

Rublenko

2020

SMLNUVMB

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Autologous products of the first and second generation, namely platelet-rich plasma and platelet-rich fibrin, are considered promising for regenerative medicine. They differ from each other in physical properties, as well as in the way they are obtained. The key procedure of all techniques is centrifugation; changing its parameters affects the biological properties of these biomaterials. The aim of the work is to determine and histologically characterize the area of concentration cells of autologous fibrin enriched with platelets, depending on the change in centrifugation parameters. The studies were carried out on rabbits. Blood was collected and platelet-rich plasma (PRP) and platelet-rich fibrin (PRF) were obtained using different values of relative centrifugal force: 100 g, 400 g, 735 g, 906 g, 1843 g. Due to the fact that it is impossible to determine the number of platelets in PRF clots, the counting was performed in platelet-rich plasma obtained by a single centrifugation with the corresponding parameters that were used to obtain PRF. The length of the formed clots was compared and a histological assessment of the cell composition in different layers (lower, middle and upper) was carried out. The highest platelet concentrations were observed in PRP obtained at 100 g and 400 g. Application of different values of centrifugal force showed obvious differences in the formation of platelet-rich fibrin clots. After preparation of I-PRF, its volume was significantly less than that of standard PRF, and the border between erythrocytes was less distinct. During the histological examination of fibrin clots, a change in the distribution of cellular elements in different parts was found with a change in the centrifugation parameters. With an increase in the parameter of relative centrifugal force, the length of the fibrin clot significantly increases, but the concentration of platelets in it significantly decreases. That is, it was found that the most optimal value of the relative centrifugal force for obtaining platelet mass is 100 g, which makes it possible to achieve the number of platelets greater than 800×109/L.

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Clinical and Histopathological Evaluation of Using Platelet-Rich Plasma and Platelet-Rich Fibrin Matrix in Treatment of Induced Chronic Open Wounds in Bucks

Cited by 9 publications

References 19 publications

The Effect of Platelet-Rich Fibrin on Donor Site of Split Thickness Skin Graft in Burned Patients

The Effect of Platelet-Rich Fibrin on Donor Site of Split Thickness Skin Graft in Burned Patients

Isolation, Purification, and Characterization of Bovine Tendon Collagen and Analysis of Glycine, Proline, and Hydroxyproline by High-Performance Liquid Chromatography-Fluorescence

Histological characteristics of Platelet-Rich Fibrin clots obtained under various modes of blood centrifugation

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