Activation of Sestrin2 accelerates deep second-degree burn wound healing through PI3K/AKT pathway.

Deep second-degree burns heal slowly, and promoting the healing process is a focus of clinical research. Sestrin2 is a stress-inducible protein with antioxidant and metabolic regulatory effects. However, its role during acute dermal and epidermal re-epithelialization in deep second-degree burns is unknown. In this study, we aimed to explore the role and molecular mechanism of sestrin2 in deep second-degree burns as a potential treatment target for burn wounds. To explore the effects of sestrin2 on burn wound healing, we established a deep second-degree burn mouse model. Then we detected the expression of sestrin2 by western blot and immunohistochemistry after obtaining the wound margin of full-thickness burned skin. The effects of sestrin2 on burn wound healing were explored in vivo and in vitro through interfering sestrin2 expression using siRNAs or the small molecule agonist of sestrin2, eupatilin. We also investigated the molecular mechanism of sestrin2 in promoting burn wound healing by western blot and CCK-8 assay. Our in vivo and in vitro deep second-degree burn wound healing model demonstrated that sestrin2 was promptly induced at murine skin wound edges. The small molecule agonist of sestrin2 accelerated the proliferation and migration of keratinocytes, as well as burn wound healing. Conversely, the healing of burn wounds was delayed in sestrin2-deficient mice and was accompanied by the secretion of inflammatory cytokines as well as the suppression of keratinocyte proliferation and migration. Mechanistically, sestrin2 promoted the phosphorylation of the PI3K/AKT pathway, and inhibition of PI3K/AKT pathway abrogated the promoting role of sestrin2 in keratinocyte proliferation and migration. Therefore, sestrin2 plays a critical role in activation of the PI3K/AKT pathway to promote keratinocyte proliferation and migration, as well as re-epithelialization in the process of deep second-degree burn wound repair.

A multifunctional hydrogel loaded with two nanoagents improves the pathological microenvironment associated with radiation combined with skin wounds.

Persistent oxidative stress and recurring waves of inflammation with excessive reactive oxygen species (ROS) and free radical accumulation could be generated by radiation. Exposure to radiation in combination with physical injuries such as wound trauma would produce a more harmful set of medical complications, which was known as radiation combined with skin wounds (RCSWs). However, little attention has been given to RCSW research despite the unsatisfactory therapeutic outcomes. In this study, a dual-nanoagent-loaded multifunctional hydrogel was fabricated to ameliorate the pathological microenvironment associated with RCSWs. The injectable, adhesive, and self-healing hydrogel was prepared by crosslinking carbohydrazide-modified gelatin (Gel-CDH) and oxidized hyaluronic acid (OHA) through the Schiff-base reaction under mild condition. Polydopamine nanoparticles (PDA-NPs) and mesenchymal stem cell-secreted small extracellular vesicles (MSC-sEV) were loaded to relieve radiation-produced tissue inflammation and oxidation impairment and enhance cell vitality and angiogenesis individually or jointly. The proposed PDA-NPs@MSC-sEV hydrogel enhanced cell vitality, as shown by cell proliferation, migration, colony formation, and cell cycle and apoptosis assays in vitro, and promoted reepithelization by attenuating microenvironment pathology in vivo. Notably, a gene set enrichment analysis of proteomic data revealed significant enrichment with adipogenic and hypoxic pathways, which play prominent roles in wound repair. Specifically, target genes were predicted based on differential transcription factor expression. The results suggested that MSC-sEV- and PDA-NP-loaded multifunctional hydrogels may be promising nanotherapies for RCSWs. STATEMENT OF SIGNIFICANCE: The small extracellular vesicle (sEV) has distinct advantages compared with MSCs, and polydopamine nanoparticles (PDA-NPs), known as the biological materials with good cell affinity and histocompatibility which have been reported to scavenge ROS free radicals. In this study, an adhesive, injectable, self-healing, antibacterial, ROS scavenging and amelioration of the radiation related microenvironment hydrogel encapsulating nanoscale particles of MSC-sEV and PDA-NPs (PDA-NPs@MSC-sEV hydrogel) was synthesized for promoting radiation combined with skin wounds (RCSWs). GSEA analysis profiled by proteomics data revealed significant enrichments in the regulations of adipogenic and hypoxic pathways with this multi-functional hydrogel. This is the first report of combining this two promising nanoscale agents for the special skin wounds associated with radiation.

Single-Cell and Spatial Transcriptomics Decodes Wharton's Jelly-Derived Mesenchymal Stem Cells Heterogeneity and a Subpopulation with Wound Repair Signatures.

The highly heterogeneous characteristics of Wharton's jelly mesenchymal stem cells (WJ-MSCs) may be responsible for the poor clinical outcomes and poor reproducibility of treatments based on WJ-MSCs. Exploration of WJ-MSC heterogeneity with multimodal single-cell technologies will aid in establishing accurate MSC subtyping and developing screening protocols for dominant functional subpopulations. Here, the characteristics of WJ-MSCs are systematically analyzed by single cell and spatial transcriptome sequencing. Single-cell transcriptomics analysis identifies four WJ-MSC subpopulations, namely proliferative_MSCs, niche-supporting_MSCs, metabolism-related_MSCs and biofunctional-type_MSCs. Furthermore, the transcriptome, cellular heterogeneity, and cell-state trajectories of these subpopulations are characterized. Intriguingly, the biofunctional-type MSCs (marked by S100A9, CD29, and CD142) selected in this study exhibit promising wound repair properties in vitro and in vivo. Finally, by integrating omics data, it has been found that the S100A9+ CD29+ CD142+ subpopulation is more enriched in the fetal segment of the umbilical cord, suggesting that this subpopulation deriving from the fetal segment may have potential for developing into an ideal therapeutic agent for wound healing. Overall, the presented study comprehensively maps the heterogeneity of WJ-MSCs and provides an essential resource for future development of WJ-MSC-based drugs.

Feasibility, comparability and outcomes of three acquainted facial island flaps for periorbital defects reconstruction.

Severe coloboma of ocular malignant neoplasms post-resection poses a reconstructive challenge to surgeons. To compare the practicability, manipulability and outcomes of temporal (myocutaneous) flaps (TFs), forehead (supratrochlear artery/supraorbital artery) flaps (FFs) and buccal (facial artery) flaps (BFs) for periorbital defects reconstruction, a retrospective case series was conducted and evaluated between March 2014 and March 2021. Patient demographics and clinical parameters including age, gender, pathological diagnosis, operative methods, flap selection, operation time, aesthetic satisfaction and follow-up period were collected. The differences in complications were compared and assessed of the three flaps, including flap survival, venous congestion and donor site healing. Totally, 68 patients who underwent periorbital reconstructive operations because of common ocular malignant tumours were reviewed in this study. As for aesthetic satisfaction, a score more than "moderately dissatisfied" was obtained in 21 patients with TFs (95.5%), and of which the scores in FFs group were 12 cases (60%) and 16 cases with BFs reconstruction (61.5%) (P < .05). Severe microvascular complications underwent re-exploration operation occurred in one patient with FFs (1.5%) (P > .05). Notable flap necrosis was observed in two patients with BFs repair (2.9%) and in one case with FFs repair (1.5%), with no statistical difference between the three flap selections (P > .05). Moderate venous congestion occurred in one patient with TFs (1.5%), which was fully meliorated non-surgically. The three familiar facial island flaps are considered as minor trauma and time-saving process for reconstructing the extensive periorbital defects with comparable ranks of complications.

Autologous Scar-Related Tissue Combined with Skin Grafting for Reconstructing Large Area Burn Scar.

BACKGROUND: This study introduced a novel method to reconstruct large areas of scarring caused by burns via combining autologous scar-related tissue with spit-thickness skin grafting (ASTCS). METHODS: 25 patients underwent reconstruction after scar resection surgeries around the joints were analyzed between Jan 2012 and Jan 2018. Patient demographics and clinical parameters were collected, autologous scar-related tissue was modified to meshed structure, and the split-thickness skin was acquired from the scalp. The scar was resected and punched by a meshing machine with a thickness of 0.3-0.5 mm at a ratio of 1:1. The secondary wounds were covered by the epidermis from a donor site. The surgical areas were bandaged for 7-10 days before the first dressing change. RESULTS: 25 patients (mean [SD] age, 26.4 [18.8] years; 16 [64%] men) underwent wounds reconstructive operations due to scar resection were reviewed. Wound location of 9 (22%), 8 (19.5%), 9 (22%), 7 (17.1%) and 8 (19.5%) cases were reconstructed in axillary, hand and wrist, popliteal fossa, elbow and neck, respectively. 39 sites of transplanted tissues survived well, and 2 sites were cured after two weeks of dressing changes. Except the analysis of injury causes, nutritional status, wound area and hospital days, patients with scar deformities in joint areas achieved satisfactory function by assessing the Vancouver Burn Skin Score and the Barthel Index Scale Scores after 12-month follow-up. CONCLUSIONS: Combining autologous scar-related tissue with skin grafting provided a novel method for treating large areas of burn scars with better functional outcomes.

Wharton's jelly mesenchymal stem cell-derived small extracellular vesicles as natural nanoparticles to attenuate cartilage injury via microRNA regulation.

The main strategy of tissue repair and regeneration focuses on the application of mesenchymal stem cells and cell-based nanoparticles, but there are still multiple challenges that may have negative impacts on human safety and therapeutic efficacy. Cell-free nanotechnology can effectively overcome these obstacles and limitations. Mesenchymal stem cell (MSC)-derived natural small extracellular vesicles (sEVs) represent ideal nanotherapeutics due to their low immunogenicity and lack of tumorigenicity. Here, sEVs harvested from Wharton's jelly mesenchymal stem cells (WJMSCs) were identified. In vitro results showed that WJMSC-sEVs efficiently entered chondrocytes in the osteoarthritis (OA) model, further promoted chondrocyte migration and proliferation and modulated immune reactivity. In vivo, WJMSC-sEVs notably promoted chondrogenesis, which was consistent with the effect of WJMSCs. RNA sequencing results revealed that sEV-microRNA-regulated biocircuits can significantly contribute to the treatment of OA, such as by promoting the activation of the calcium signaling pathway, ECM-receptor interaction pathway and NOTCH signaling pathway. In particular, let-7e-5p, which is found in WJMSC-sEVs, was shown to be a potential core molecule for promoting cartilage regeneration by regulating the levels of STAT3 and IGF1R. Our findings suggest that WJMSC-sEV-induced chondrogenesis is a promising innovative and feasible cell-free nanotherapy for OA treatment.

Yes-associated protein reacts differently in vascular smooth muscle cells under different intensities of mechanical stretch.

Vascular smooth muscle cells (VSMCs) are stromal cells of the vascular wall and are continually exposed to mechanical signals. The loss of VSMCs is closely related to the occurrence of many vascular diseases, such as aortic aneurysms and aortic dissection. The proliferation and apoptosis of VSMCs are mechanically stimulated. Yes-associated protein (YAP), one of the core components of the Hippo pathway, plays a key role in the response of VSMCs to mechanical signals. In this study, we tested the impact of different intensities of mechanical stretch on the proliferation and apoptosis of VSMCs, as well as YAP. We tested VSMCs' proliferation and apoptosis and YAP reaction via immunocytochemistry, western blotting, CCK-8 and flow cytometric analysis. We found that 10% elongation could increase the phosphorylation of YAP and prevent it from entering the nucleus, as well as inhibit cell proliferation and promote apoptosis. However, 15% elongation reduced YAP phosphorylation and promoted its nuclear entry, thereby promoting cell proliferation and inhibiting apoptosis. Accordingly, YAP knockdown suppressed the phenotype of VMSCs induced by 15% elongation. Taken together, YAP regulates proliferation and apoptosis of VSMCs differently under different intensity of mechanical stretch. Mechanical stretch with appropriate intensity can promote the proliferation and inhibit apoptosis of VSMCs by activating YAP.

Comparison of Curative Effect of Human Umbilical Cord-Derived Mesenchymal Stem Cells and Their Small Extracellular Vesicles in Treating Osteoarthritis.

INTRODUCTION: Human umbilical cord-derived mesenchymal stem cells (hUC-MSCs) and their small extracellular vesicles (hUC-MSC-sEVs) have shown attractive prospects applying in regenerative medicine. This study aimed to compare the therapeutic effects of two agents on osteoarthritis (OA) and investigate underlying mechanism using proteomics. METHODS: In vitro, the proliferation and migration abilities of chondrocytes treated with hUC-MSCs or hUC-MSC-sEVs were detected by Cell Counting Kit-8 assay and scratch wound assay. In vivo, hUC-MSCs (a single dose of 5 × 105) or hUC-MSC-sEVs (30 µg/time) were injected into the knee joints of anterior cruciate ligament transection-induced OA model. Hematoxylin and eosin, Safranin O/Fast Green staining were used to observe cartilage degeneration. The levels of cartilage matrix metabolic molecules (Collagen II, MMP13 and ADAMTS5) and macrophage polarization markers (CD14, IL-1ß, IL-10 and CD206) were assessed by immunohistochemistry. Finally, proteomics analysis was performed to characterize the proteinaceous contents of two agents. RESULTS: In vitro data showed that hUC-MSC-sEVs were taken up by chondrocytes. A total of 15 µg/mL of sEVs show the greatest proliferative and migratory capacities among all groups. In the animal study, hUC-MSCs and hUC-MSC-sEVs alleviated cartilage damage. This effect was mediated via maintaining cartilage homeostasis, as was confirmed by upregulation of the COL II and downregulation of the MMP13 and ADAMTS5. Moreover, the M1 macrophage markers (CD14) were significantly reduced, while the M2 macrophage markers (CD206 and IL-10) were increased in the hUC-MSCs and hUC-MSC-sEVs relative to the untreated group. Mechanistically, we found that many proteins connected to cartilage repair were more abundant in sEVs. Notably, compared to hUC-MSCs, the upregulated proteins in sEVs were mostly involved in the regulation of immune effector process, extracellular matrix organization, PI3K-AKT signaling pathways, and Rap1 signaling pathway. CONCLUSION: Our study indicated that hUC-MSC-sEVs protect cartilage from damage and many cartilage repair-related proteins are probably involved in the restoration process. These data suggest the promising potential of hUC-MSC-sEVs as a therapeutic agent for OA.

Will mesenchymal stem cells be future directions for treating radiation-induced skin injury?

Radiation-induced skin injury (RISI) is one of the common serious side effects of radiotherapy (RT) for patients with malignant tumors. Mesenchymal stem cells (MSCs) are applied to RISI repair in some clinical cases series except some traditional options. Though direct replacement of damaged cells may be achieved through differentiation capacity of MSCs, more recent data indicate that various cytokines and chemokines secreted by MSCs are involved in synergetic therapy of RISI by anti-inflammatory, immunomodulation, antioxidant, revascularization, and anti-apoptotic activity. In this paper, we not only discussed different sources of MSCs on the treatment of RISI both in preclinical studies and clinical trials, but also summarized the applications and mechanisms of MSCs in other related regenerative fields.

Burn-Induced Apoptosis of Pulmonary Microvascular Endothelial Cell is NHE1 Dependent and Regulated by PI3K-Akt and p38 MAPK Pathways.

Na/H exchanger 1 (NHE1) is a ubiquitously expressed protein on mammalian plasma membranes and involved in cell apoptosis and tissue injury. Our previous study found that NHE1 inhibition prevents burn-induced acute lung injury (ALI). However, the potential mechanism of NHE1 in burn-induced ALI is still unclear. This study investigated the role of NHE1 in burn-induced apoptosis of human pulmonary microvascular endothelial cells. Based on the western blot analyses, real-time PCR, fluorescence spectroscopy, and apoptosis analysis, we found that burn serum significantly induced NHE1 activation, promoted intracellular Na accumulation, and elevated apoptosis ratio. Inhibition of NHE1 with cariporide reversed burn-induced intracellular Na accumulation and cell apoptosis. Different doses of cariporide also significantly decreased Cai concentrations and calpain activity induced by burn serum. Furthermore, inhibition of PI3K contributed to the increase of NHE1 activation and cell apoptosis, whereas the inhibition of p38 MAPK led to inhibition of NHE1 activation and significant decreases of cell apoptosis. The data demonstrate that NHE1 activation facilitates burn-induced endothelial cell apoptosis, mediated by Ca-dependent pathway. PI3K-Akt and p38 MAPK were found to be upstream regulators of NHE1. This study provides new mechanisms underlying burn-induced ALI.

Remodeling gut microbiota by Clostridium butyricum (C.butyricum) attenuates intestinal injury in burned mice.

BACKGROUND: The dysbiosis of gastrointestinal microbiome is an important reason for burn-induced intestinal injury. Clostridium butyricum (C.butyricum) and its production butyrate are beneficial for the homeostasis of intestinal microflora and suppression of inflammatory response. PURPOSE: The roles of C.butyricum and butyrate in burn-induced intestinal injury were explored. The effects of oral administration of C.butyricum on intestinal injury were observed in burned mice. MATERIALS AND METHODS: The skin surface of mice was exposed to 95 °C water to induce a burn injury. Then the intestinal microbiome structure, abundance of C.butyricum and level of butyrate were respectively observed. The correction between intestinal permeability indicated by FITC dextran level and abundance of C.butyricum or level of butyrate was analyzed. C.butyricum was cultured and orally administrated to burned mice. The levels of butyrate, FITC dextran and pro-inflammatory cytokines, including interleukin 6 (IL-6) and tumor necrosis factor α (TNF-α) were respectively measured. RESULTS: Burn injury altered the intestinal microbiome structure of mice, and especially decreased the abundance of C.butyricum and level of butyrate. Both the abundance of C.butyricum and the level of butyrate were negatively correlated with the intestinal permeability. Oral administration of C.butyricum increased the level of butyrate, decreased levels of TNF-α and IL-6, and suppressed intestinal damage in burn-injured mice. CONCLUSION: Oral administration of C.butyricum significantly alleviated the intestinal damage induced by burn injury. The therapeutic effects of C.butyricum and butyrate on burn injury should be further explored, which deserves further investigation.

Genistein Protects Against Burn-Induced Myocardial Injury via Notch1-Mediated Suppression of Oxidative/Nitrative Stress.

Genistein (Gen) exhibits strong anti-oxidative/antinitrative activity and cardioprotective effects in several models; however, its role in burn-induced myocardial injury is unknown. This study investigated the protective effect of Gen on burn-induced myocardial injury and aimed to elucidate the mechanism of protection. Mice were injected with Gen, intraperitoneally, at different dose immediately after burn injury. The expression levels of Notch-1 intracellular domain (NICD1) and hairy and enhancer of split (Hes-1) were determined by immunoblotting. Conditional Notch-RBP-J knockout mice were used to investigate the mechanisms of Gen-induced cardioprotection. Gen alleviated burn-induced myocardial injury, as shown by improved left ventricle ejection fraction, decreased serum lactate dehydrogenase and creatine kinase levels, and apoptosis. Moreover, Gen decreased expressions of inducible nitric oxide (NO) synthase and gp, reduced NO and superoxide anions production, and ameliorated their cytotoxic reaction product, peroxynitrite. More importantly, Gen significantly up-regulated the expression of NICD1 and Hes1 after burn injury. In addition, genetic knockout of Notch1 not only blocked the cardioprotection of Gen but also markedly attenuated Gen-induced anti-oxidative/antinitrative effect. These results demonstrate, for the first time, that Gen treatment attenuates burn-induced myocardial injury via the Notch1 mediated suppression of oxidative/nitrative stress.

The use of autologous platelet-rich plasma gel increases wound healing and reduces scar development in split-thickness skin graft donor sites.

The treatment of donor sites after split-thickness skin grafting (STSG) is a routine operation step, and complications at the donor site due to improper operation and care are unwelcome. This study evaluates whether the use of platelet-rich plasma (PRP) applied at the STSG area promotes wound healing and improves scar development. Clinical data of 30 patients who underwent STSG operations between January 2016 and January 2017 for various reasons were retrospectively analyzed. These 30 patients received two treatments and the data were summed up in two groups: the PRP group, which was the study group, included patients who received traditional petrolatum gauze dressing with PRP gel at the donor sites. The petrolatum gauze group, which was the control group, received only petrolatum gauze care without PRP gel. The time and frequency of dressing change were comparable between the two groups, and the mean wound healing times in the PRP group and petrolatum gauze group were 13.89 ± 4.65 and 17.73 ± 5.06 days, respectively, and the difference was statistically significant (p < 0.05). In addition, the total Vancouver scar scale (VSS) scores of the PRP group at 4, 12 and 52 weeks were 6.41 ± 0.77, 4.42 ± 0.43 and 2.41 ± 0.39, respectively, which were statistically significantly lower (p < 0.05) than those of the control group at 7.67 ± 0.64, 6.28 ± 0.62 and 4.29 ± 0.64, respectively. The use of PRP gel can promote wound healing, relieve scar development and alleviate pain at the donor site after STSG.

Reconstruction of Deep Burn Wounds Around the Ankle With Free Fascia Flaps Transfer and Split-Thickness Skin Graft.

We aimed to introduce a technique by combining free fascia flaps transfer with split-thickness skin graft for the reconstruction of deep burn wounds at the ankle. Fifteen patients from 2009 to 2016 were enrolled in this study. Patients in this series suffered from a deep burn injury around the ankle, which was accompanied with exposure of tendon and medial or lateral malleolus exposure due to severe soft-tissue defects (N = 15). All the 15 wounds were repaired combining free fascia flaps with split-thickness skin graft operations, including nine anterolateral thigh fascia lata flaps (ATFL flaps) and six superficial temporal fascia flaps (STF flaps). All the fascia flaps completely survived. Two patients showed partial grafting skin necrosis due to either wound infection or subcutaneous hematoma infection, and this was eventually healed satisfactorily after conventional dressing change. All patients achieved esthetic outcome and acceptable functionality without further revisions needed. Our present study reports a useful method that involves using free fascia flaps in combination with split-thickness skin graft to repair deep burn wounds around the ankle. This method provided reliable and durable soft-tissue coverage with good outcomes.

Free Vascularized Anterolateral Thigh Fascia Lata Flap for Reconstruction in Electrical Burns of the Severely Damaged Finger.

This study aimed to introduce a novel technique for reconstructing electricity-damaged fingers using a method combining the free vascularized anterolateral thigh fascia lata flap with skin grafting. From February 2015 to March 2017, 11 patients were enrolled in this retrospective case series. All patients suffered from electrical injury of the fingers and had severe soft tissue defects, with the exposure of tendon, vessels, or nerves. All finger wounds were covered using free vascularized anterolateral thigh fascia lata flaps combined with skin grafting. Eleven fascia flaps completely survived. Two patients suffered from partial grafting skin necrosis due to wound infection and subcutaneous hematoma, separately, which eventually healed after re-graft and dressing changes. All patients achieved satisfactory function and appearance without a need for repeated grafting. Except for the scar, no donor-site morbidity was reported. The present study provided an attractive option for treating electricity-damaged fingers with good outcomes and minimal donor-site morbidity.

Prevention of Vascular Anastomotic Stenosis With 2-Octylcyanoacrylate.

Although conventional microvascular anastomoses are well-studied, postoperative anastomotic stenoses remain a common surgical complication. The use of 2-octylcyanoacrylate to stabilize vascular anastomoses using a rabbit anastomosis model was investigated. A carotid artery anastomosis model was established in 20 New Zealand rabbits (2.5-3.0 kg): 10 underwent conventional anastomosis surgery with sutures only, while 10 underwent suture ligation, followed by the application of 2-octylcyanoacrylate. Vascular patency and pulse strength were observed after adhesive solidification. The artery diameter was measured preoperatively and at 5 minutes, 2 weeks, and 4 weeks postoperatively. An angiography was performed at 4 weeks postoperatively. Hyperplasia and the induced nitric oxide synthase (iNOS) content of the intima and media layers from the anastomotic stoma were assessed using immunohistochemistry. The artery inner diameter of experimental group decreased at each time point postoperatively (1.686 ±â€Š0.066 cm; 1.656 ±â€Š0.069 cm; 1.646 ±â€Š0.074 cm) (P ≤ 0.01). At 4 weeks postoperatively, the intima and the media around the anastomosis was both significantly thinner in the experimental group (13.21 ±â€Š0.84 µm; 234.86 ±â€Š13.84 µm) than in the control group (17.06 ±â€Š0.96 µm; 279.88 ±â€Š34.22 µm) (P < 0.05). At 4 weeks postsurgery, intravascular iNOS expression was increased in both groups but was higher in the experimental group (82.5% versus 47.5%). The above results indicated that 2-octylcyanoacrylate adhesive can inhibit stenosis of vascular anastomoses.

Free vascularized fascia flap combined with skin grafting for deep toe ulcer in diabetic patients.

BACKGROUND: This study introduces a technique for the reconstruction of deep toe defects in diabetic patients using a method that combines free vascularized fascia flap with skin grafting. METHODS: In this retrospective study, conducted between March 2010 and February 2016, 15 diabetic patients with deep toe ulcer received surgeries that combined free vascularized fascia flap with skin grafting, including nine anterolateral thigh fascia lata flaps and six superficial temporal fascia flaps. Their medical records were systematically reviewed from electronic databases. The donor artery was anastomosed to the dorsalis pedis artery in an end-to-side manner, and the vein was anastomosed to the accompanying vein in an end-to-end manner. RESULTS: Thirteen fascia flaps completely survived without any rejection. Partially necrosed grafted skins, which were found in two cases, were healed after routine dressing changes. Patients achieved an esthetic outcome and acceptable functions without further revisions. Two patients suffered from ischemic necrosis of the fascia flap and eventually underwent amputation. CONCLUSIONS: The present study demonstrated that vascularized fascia flap combined with skin grafting has great advantages for correcting deep toe ulcer in diabetic patients characterized by the esthetic outcome, abundant vascularity, surgical simplicity, and good deformability.

[Development of Wound Quick Closing Device].

Complex and huge wound closure is a key step in pre hospital emergency care. Wound closure can effectively reduce the loss of blood and fluid inpatients before arriving hospital. Also, it has important significance to save the lives of patients. In this paper, a new type of wound closure device is developed, which is used for the rapid closure of complex and huge wound. Firstly, based on the detailed introduction of the structure working principle, the finite element simulation technology is adopted to analyze the stress of the structure. The results show that the stress of the structure has not beyond the allowable stress of the material. On the basis of this, the experiment was carried out in vitro. Test results show that the closure device operating time is 18.24 s and the minimum penetration of the skin force is 4.08 kg. The closure device can resist the horizontal tension of 1.53 kg and vertical tension of 2.25 kg. It also has good sealing performance and meets the design requirements. The results show that the device designed is reasonable, which can be quickly and effectively to achieve closure of the wound.