Objective To study the effect of platelet-rich plasma (PRP) on the survival and quality of fat grafts in the nude mice so as to provide a method and the experimental basis for clinical practice. Methods Fat tissue was harvested from the lateral thigh of a 25-year-old healthy woman and the fat was purified by using saline. The venous blood was taken from the same donor. PRP was prepared by centrifugation (200 × g for 10 minutes twice) and activated by 10% calcium chloride (10 : 1). Then 24 female nude mice [weighing (20 ± 3) g, 5-week-old] were allocated randomly to the experimental group and the control group (12 mice per group). Each subcutaneous layer of two sides of the back (experimental group) was infiltrated with 0.8 mL fat tissue-activated PRP mixtures (10 : 2); the control group was infiltrated with 0.8 mL fat tissue-saline mixtures (10 : 2); 0.14 mL activated PRP and 0.14 mL saline were injected into the experimental group and the control group respectively at 5 and 10 days after the first operation. At 15, 30, 90, and 180 days after the first operation, the samples were harvested for gross and histological observations. Results All nude mice survived to the end of the experiment. No inflammation and abscess formation of the graft were observed. Experimental group was better than control group in angiogenesis, liquefaction, and necrosis. The grafted fat weight and volume in the experimental group were significantly larger than those in the control group at 15, 30, and 90 days (P lt; 0.05); but there was no significant difference between the 2 groups at 180 days (P gt; 0.05). Histological observation showed good morphological and well-distributed adipocytes, increasing vacuoles, few necrosis and calcification in the experimental group; but disordered distribution, obvious necrosis, and calcification in the control group. The necrosis area ratio of the experimental group was significantly lower than that of the control group (P lt; 0.05), and the number of micro-vessels was significantly higher in the experimental group than in the control group at 15 and 180 days (P lt; 0.05). Conclusion The method of repeatedly using the PRP within 180 days in assisting fat grafts can obviously improve the survival and quality.
【Abstract】 Objective To review the progress of autologous fat grafting of the face and outline different arguments in this field. Methods Recent literature concerning autologous fat grafting of the face was reviewed and analyzed. Results The applications and techniques for autologous fat grafting have been matured increasingly. It not only can adjust the proportion of facial contours, restore tissue volume, but also can improve the local skin texture. Reliable clinical results have achieved in facial augmentation and rejuvenation. Although there are arguments about donor site, harvesting technique, processing technique, and grafting technique, the basic principle is the same. Conclusion From the perspective of evidence-based medicine, clinicians are rich in clinical experience, but objective evidence is insufficient. So further researches should be carried to look for scientific evidences.
The basic fibroblastic growth factor (bFGF) was employed to stimulate the earlyrevascularization of the autogenous free fat grafts. In the experimental group the fibrin containingbFGF was mixed to the fat to be implanted, and the fat containing the fibrin only was used as thecontrol. The animals were perfused with Chenese ink through intubation to the aorta via the heart at 5 ,7, and 10 days after operation. The vascularizarion was significantly increased at the bFGF side ascompared with ...
Objective To investigate the effects of adipose-derived stem cells (ADSCs) and endothelial cells (ECs) on the survival and neovascularization of fat tissue transplants. Methods The ADSCs were isolated by collagenase digestion from the adipose tissues voluntarily donated by the patients undergoing mastectomy, and subcultured. The passage 3 ADSCs were used for subsequent experiments. The residual fat tissues were used to prepare fat particles (FPs). The human umbilical vein endothelial cells (HUVECs) were used as ECs for subsequent experiments. Eighty healthy male nude mice, aged 4-6 weeks, were randomly divided into 4 groups (n=20). The mice were received subcutaneous injection at the dorsum of 1 mL FPs+0.3 mL normal saline (NS) in control group, 1 mL FPs+2×106 ECs+0.3 mL NS in ECs group, 1 mL FPs+2×106 ADSCs+0.3 mL NS in ADSCs group, and 1 mL FPs+1×106 ECs+1×106 ADSCs+0.3 NS in ADSCs+ECs group. General observations of the injection sites were performed, and the survival of the mice was recorded. At 2, 4, 8, and 12 weeks after injection, grafted fat tissues were firstly assessed by ultrasonography, then they were collected for volume measurement (water displacement method) and histology observation (HE staining and immunofluorescence staining). Results All mice survived until the end of experiment. At each time point, no significant difference was noted between groups in ultrasonography assay. There was no significant blood flow signal in the grafted fat tissues, or cysts, calcification, solid occupying in recipient area. Generally, the volume of grafted fat tissues decreased with time in all groups. Specifically, the volumes of grafted fat tissues were larger in ADSCs group and ADSCs+ECs group than that in control group and ECs group (P<0.05) at each time point, and in ADSCs group than in ADSCs+ECs group (P<0.05) at 8 and 12 weeks. HE staining showed that all groups had similar tendencies in general histology changes, and remodeling in ADSCs group was the fastest than in the other groups. By immunofluorescence staining for neovascularization, the new vessels in all groups were increasing with time. The vessel densities were higher in ECs group, ADSCs group, and ADSCs+ECs group than in control group (P<0.05) at each time point, in ADSCs group than in ECs group and ADSCs+ECs group (P<0.05) at 4 weeks, in ADSCs group and ADSCs+ECs group than in ECs group (P<0.05) at 8 and 12 weeks. Conclusion ADSCs can significantly increase the survival of transplanted fat tissue, which may be related to promoting the neovascularization.
ObjectiveTo review the research progress of the application of autologous fat grafting in perioral and lower face rejuvenation. Methods By extensively reviewing related articles and combining the clinical experiences, the anatomic features (fat compartments and blood supply), aging features of the perioral and lower face, and the application advancement and related complications of autologous fat grafting in this area were generally summarized. Results The aesthetic features of perioral and lower face include the lip, chin, and so on, and the anatomic structures relating autologous fat grafting include the mandibular fat compartments, chin fat compartments, and other fat compartments. Meanwhile, the facial artery passes through this area and spreads out several important branches. The aging features of perioral and lower face include the depening of nasolabial fold, the aging lip, perioral wrinkles, “marionette lines”, and so on. Autologous fat grafting can improve perioral and lower face rejuvenation by restoring volume loss of facial fat compartments, correcting aging malformation, and improving skin quality. But there are neurovascular injuries, facial aesthetic problems, and other related complications. ConclusionAutologous fat grafting can be applied in perioral and lower face rejuvenation, and it can effectively improve related aging features. There are several aspects developing aggressively, including the research of facial asthetics features of Chinese people, combining autologous fat grafting with surgery as well as other methods to comprehensively treat facial aging, and the application of fat tissue related derivatives in perioral and lower face rejuvenation. However, the resorption rate of facial grafted fat tissue is still too high, and the long-term effectiveness can not be assured. In the future, the solutions related to improving the survival rate of grafted fat tissue need to be explored in the future.