摘要Objective: To explore the influence of centrifugal parameters, centrifugal temperature, preparation equipment and anticoagulant on the manual preparation of platelet-rich plasma(PRP). Methods: Female ICR mice (n=36) were divided into 4 groups according to four influencing factors of centrifugation parameters (centrifugation force and centrifugation time), centrifugation temperature, preparation device, and anticoagulant. The red blood cell concentration (RBC), white blood cell concentration (WBC) and platelet concentration (PLT) were detected by blood cell analyzer, and the platelet enrichment factor (PEF) and platelet recovery ratio (PRR) were calculated. Results: In the comparison of the calculation results of PLT, PEF and PRR in each group, the centrifugal parameters were higher at 300 g for 10 min and 1200 g for 15 min, which were 2600±201.55, 3.68±1.29, 61.60%±8.57% (P<0.05); When the centrifugal temperature was 4℃, the tunica albuginea was flatter and easier to be absorbed than the normal temperature, and the RBCs between the groups were 0.84±0.33 and 3.16±0.33, respectively, with significant difference. There was no significant difference among the three data groups of anticoagulants, and the choice of anticoagulants did not have too much influence. The quality of PRP obtained from the improved preparation device (anticoagulant+syringe) was significantly higher than that of the anticoagulant tube, and the results were 2568±124.52 and 3551.67±348.12, 3.31±0.16 and 4.58±0.45, 49.7%±2.41% and 68.74%±6.74%, respectively. Conclusion: High-quality platelet-rich plasma can be obtained by using an improved extraction device with any anticoagulant at 4°C and centrifugation parameters of 300 g for 10 min and 1200 g for 15 min.
Abstract:Objective: To explore the influence of centrifugal parameters, centrifugal temperature, preparation equipment and anticoagulant on the manual preparation of platelet-rich plasma(PRP). Methods: Female ICR mice (n=36) were divided into 4 groups according to four influencing factors of centrifugation parameters (centrifugation force and centrifugation time), centrifugation temperature, preparation device, and anticoagulant. The red blood cell concentration (RBC), white blood cell concentration (WBC) and platelet concentration (PLT) were detected by blood cell analyzer, and the platelet enrichment factor (PEF) and platelet recovery ratio (PRR) were calculated. Results: In the comparison of the calculation results of PLT, PEF and PRR in each group, the centrifugal parameters were higher at 300 g for 10 min and 1200 g for 15 min, which were 2600±201.55, 3.68±1.29, 61.60%±8.57% (P<0.05); When the centrifugal temperature was 4℃, the tunica albuginea was flatter and easier to be absorbed than the normal temperature, and the RBCs between the groups were 0.84±0.33 and 3.16±0.33, respectively, with significant difference. There was no significant difference among the three data groups of anticoagulants, and the choice of anticoagulants did not have too much influence. The quality of PRP obtained from the improved preparation device (anticoagulant+syringe) was significantly higher than that of the anticoagulant tube, and the results were 2568±124.52 and 3551.67±348.12, 3.31±0.16 and 4.58±0.45, 49.7%±2.41% and 68.74%±6.74%, respectively. Conclusion: High-quality platelet-rich plasma can be obtained by using an improved extraction device with any anticoagulant at 4°C and centrifugation parameters of 300 g for 10 min and 1200 g for 15 min.
QU Shu-yi, MAO Shen-tong, XU Jin-yu, XU Yun, ZHANG Hong-yu. Influence of Different Factors on the Preparation of Platelet-rich Plasma[J]. 中国生物医学工程学报(英文版), 2022, 31(4): 175-184.
QU Shu-yi, MAO Shen-tong, XU Jin-yu, XU Yun, ZHANG Hong-yu. Influence of Different Factors on the Preparation of Platelet-rich Plasma. Chinese Journal of Biomedical Engineering, 2022, 31(4): 175-184.
[1] Xu Pengcheng, Wu Yaguang, Zhou Lina, et al. Platelet-rich plasma accelerates skin wound healing by promoting re-epithelialization[J].Burns Trauma, 2020, 8: tkaa028. [2] Everts P, Onishi K, Jayaram P, et al.Platelet-rich plasma: New performance understandings and therapeutic considerations in 2020[J].Int J Mol Sci, 2020, 21(20):7794. [3] Andia I, Perez-Valle A, Del AC, et al.Freeze-drying of platelet-rich plasma: The quest for standardization[J].Int J Mol Sci, 2020, 21:6904. [4] Sanchez M, Anitua E, Azofra J, et al.Intra-articular injection of an autologous preparation rich in growth factors for the treatment of knee OA: a retrospective cohort study[J].Clinical and Experimental Rheumatology,2008, 26(5):910-913. [5] Xu Yubing, Liu Guangya, Yang Juan, et al.Effect of temperature on the quality of manually prepared platelet-rich plasma[J].Chinese Journal of Blood Transfusion, 2022, 35(01):78-81. [6] Zhang Ning.Study on quality evaluation of platelet-rich plasma[D].Beijing: PLA Medical College, 2019. [7] Gao Jialiang, Lei Yu, Wan Ke, et al.Analysis of the quality of pooled concentrated platelets before and after leukocyte filtration[J].Clinical Blood Transfusion and Laboratory, 2016, 18(01):71-74. [8] Yang Jianbo, Wang Hongna, Fan Zehui, et al.Effect of concentrated platelet collection by tunica albuginea method on platelet collection rate[J].Clinical Blood Transfusion and Laboratory, 2015, 17(05):464-465. [9] Wang Shujun, Zhao Guangchao, Luan Jianfeng, et al.Study on the optimal centrifugation conditions for preparing platelet-rich plasma from whole blood of different sizes[J].Clinical Blood Transfusion and Laboratory, 2017, 19(02):119-122. [10] Landesberg R, Roy M, Glickman RS.Quantification of growth factor levels using a simplified method of platelet-rich plasma gel preparation[J].J Oral Maxillo-fac Surg, 2000, 58(3):297-300. [11] Yuan T, Zhang CQ.Production of platelet-rich plasma and its rationale in bone tissue and soft tissue repair[J].Chinese Clinical Rehabilitation, 2004, 8(35):7939-7941. [12] Gonzalez JC, Lopez C, Carmona JU.Implications of anticoagulants and gender on cell counts and growth factor concentration in platelet-rich plasma and platelet-rich gel supernatants from rabbits[J].Vet Comp Orthop Traumato, 2016, 29(2):115-124.
