A comparative study of the effects of laser and LED radiation on lipid peroxidation in rat wound fluid

The effect of laser (632 nm) and LED (630 nm) on lipid peroxidation in rat wound fluid (exudate) was studied with the aim of comparing the efficiency of coherent and incoherent light on the processes that take place during wound healing. The study was performed using the model of cut aseptic wounds proposed by L.I. Slutskii. It was shown that irradiation of wounds with light of both laser and LED caused a decrease in the concentration of lipid peroxidation products in wound fluid as compared with the control group. An increase in the antioxidative activity of wound fluid was observed. It was concluded that irradiation with light of both laser and LED decreases the level of oxidative stress in wound fluid and that radiation coherence does not play a significant role.     

Curcumin improves wound healing by modulating collagen and decreasing reactive oxygen species

Wound healing consists of an orderly progression of events that re-establish the integrity of the damaged tissue. Several natural products have been shown to accelerate the healing process. The present investigation was undertaken to determine the role of curcumin on changes in collagen characteristics and antioxidant property during cutaneous wound healing in rats. Full-thickness excision wounds were made on the back of rat and curcumin was administered topically. The wound tissues removed on 4th, 8th and 12th day (post-wound) were used to analyse biochemical and pathological changes. Curcumin increased cellular proliferation and collagen synthesis at the wound site, as evidenced by increase in DNA, total protein and type III collagen content of wound tissues. Curcumin treated wounds were found to heal much faster as indicated by improved rates of epithelialisation, wound contraction and increased tensile strength which were also confirmed by histopathological examinations. Curcumin treatment was shown to decrease the levels of lipid peroxides (LPs), while the levels of superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx), activities were significantly increased exhibiting the antioxidant properties of curcumin in accelerating wound healing. Better maturation and cross linking of collagen were observed in the curcumin treated rats, by increased stability of acid-soluble collagen, aldehyde content, shrinkage temperature and tensile strength. The results clearly substantiate the beneficial effects of the topical application of curcumin in the acceleration of wound healing and its antioxidant effect. Both the authors have contributed equally towards this paper.     

Distribution of TGF‐β isoforms and signaling intermediates in corneal fibrotic wound repair

In this study, temporal and spatial distribution of three TGF‐β isoforms and their downstream signaling pathways including pSmad2 and p38MAPK were examined during fibrotic wound repair. In normal chick corneas, TGF‐β1, ‐2, and ‐3 were weakly detected in Bowman's layer (BL). In healing corneas, TGF‐β1 was primarily deposited in the fibrin clot and the unwounded BL. TGF‐β2 was highly expressed in healing epithelial and endothelial cells, and numerous active fibroblasts/myofibroblasts. TGF‐β3 was mainly detected in the unwound region of basal epithelial cells. α‐Smooth muscle actin (α‐SMA) was initially appeared in the posterior region of repairing stroma at day 3, and was detected in the entire healing stroma by day 7. Notably, α‐SMA was absent in the central region of healing stroma by day 14, and its staining pattern was similar to those of TGF‐β2 and p38MAPK. By contrast, pSmad2 was mainly detected in the fibroblasts. In normal cornea, laminin was mainly detected in both epithelial basement membrane (BM) and Descemet's membrane (DM). By contrast to reconstitution of the BM in the wound region, the DM was not repaired although endothelial layer was regenerated, indicating that high levels of TGF‐β2 were released into the posterior region of healing stroma on day 14. High levels of α‐SMA staining, shown in cultured repair stromal cells from healing corneas on day 14 and in TGF‐β2 treated normal stromal cells, were significantly reduced by p38MAPK inhibition. Collectively, this study suggests that TGF‐β2‐mediated myofibroblast transformation is mediated, at least partly, by the p38MAPK pathway in vivo. J. Cell. Biochem. 108: 476–488, 2009. © 2009 Wiley‐Liss, Inc.     

Collagen type V modulates fibroblast behavior dependent on substrate stiffness

Collagen type V is highly expressed during tissue development and wound repair, but its exact function remains unclear. Cell binding to collagen V affects various basic cell functions and increased collagen V levels alter the structural organization and the stiffness of the ECM. We studied the combined effects of collagen V and substrate stiffness on the morphology, focal adhesion formation, and actin organization of fibroblasts. We found that a hybrid collagen I/V coating impairs fibroblast spreading on soft substrates (<10 kPa), but not on stiffer substrates (68 kPa or glass). In sharp contrast, a pure collagen I coating does not impair cell spreading on soft substrates. The impairment of cell spreading by collagen V is accompanied by diffuse actin staining patterns and small focal adhesions. These observations suggest that collagen V plays an essential role in modifying cell behavior during development and remodeling, when very soft tissues are present.     

Activated protein C mediates a healing phenotype in cultured tenocytes

Tendon injuries cause considerable morbidity in the general adult population. The tenocytes within the tendon have the full capacity to heal the tendon intrinsically. Activated protein C (APC) plays an important role in coagulation and inflammation and more recently has been shown to promote cutaneous wound healing. In this study we examined whether APC can induce a wound healing phenotype in tenocytes. Sheep tenocytes were treated with APC, endothelial protein C receptor (EPCR) blocking antibody (RCR252) and/or EPCR small interfering (si)RNA. Cell proliferation and migration were measured by crystal violet assay and a scratch wounding assay, respectively. The expression of EPCR, matrix metalloproteinase (MMP)-2, type I collagen and MAP kinase activity were detected by real time PCR, zymography, immunofluorescence, immunohistochemistry and Western blotting. APC stimulated proliferation, MMP-2 activity and type I collagen deposition in a dose-dependent manner and promoted migration of cultured tenocytes. APC dose-dependently stimulated phosphorylated (P)-ERK2 and inhibited P-p38. Interestingly, tenocytes expressed EPCR protein, which was up-regulated by APC. When tenocytes were pre-treated with RCR252 or EPCR siRNA the effect of APC on proliferation, MMP-2 and type 1 collagen synthesis and MAP kinases was blocked. APC promotes the growth, MMP-2 activity, type I collagen deposition and migration of tenocytes. Furthermore, EPCR is expressed by tenocytes and mediates the actions of APC, at least partly by signalling through selective MAP kinases. These data implicate APC as a potential healing agent for injured tendons.     

Platelet-Rich Plasma: Support for Its Use in Wound Healing

Previous topical growth factor studies have shown that recombinant human platelet-derived growth factor-BB isomer (rhPDGF-BB) is an efficacious treatment of chronic diabetic foot ulceration. A newer treatment, autologous platelet-rich plasma (PRP), represents a greater similarity to the natural healing process as a composite of multiple growth factors, is safe due to its autologous nature, and is produced as needed from patient blood. A review of the literature shows few studies performed with scientific rigor, although the safety of PRP appears to be validated. As the use of PRP increases, additional studies may establish PRP as an efficacious treatment modality and guide future treatment of chronic diabetic foot ulceration.     

局部应用PTD-SOD、SOD对小鼠皮肤创伤的抗氧化应激损伤保护效果及其比较

目的探讨局部应用PTD-SOD、SOD对小鼠皮肤创伤的抗氧化应激损伤保护效果及其差异。方法制备机械性创伤小鼠模型和不同浓度的PTD-SOD(1000、3000、6000 U)及SOD(1000、3000、6000 U)溶液,分别用上述溶液进行治疗,同时设立模型对照组和生理盐水对照组,各组均连续治疗13 d。观察各组创伤愈合情况,记录创伤愈合率和愈合天数;于创伤后第14天取各组小鼠创伤愈合部位皮肤,一部分制成10%组织匀浆液用于检测抗氧化酶(SOD、CAT、GSH-Px)活性及丙二醛(MDA)、羟脯氨酸(Hyp)含量,一部分制成病理组织切片用于皮肤组织学观察。结果①与模型对照组相比,PTD-SOD各组或SOD各组的抗氧化酶活性和Hyp含量显著(P0.05)或极显著(P0.01)升高,MDA含量显著(P0.05)或极显著(P0.01)降低,能显著(P0.05)或极显著(P0.01)提高创伤愈合率、缩短创伤愈合时间;与生理盐水对照组相比,结果类似。②在同等剂量下,从促创伤愈合时间、抗氧化酶活性、MDA含量、Hyp含量等方面比较,PTD-SOD组明显(P0.05)或极明显(P0.01)优于SOD组。③适当剂量的PTD-SOD促创伤愈合效果优于高剂量PTD-SOD的促创伤愈合效果。结论 PTD-SOD或SOD在皮肤创伤治疗中具有良好的抗氧化应激损伤效果,这种保护效果在创伤愈合的早期最显著;同等剂量下,PTD-SOD在促创伤愈合的效果上明显优于SOD。     

Integrin–TGF‐β crosstalk in fibrosis,cancer and wound healing

Accumulating evidence indicates that there is extensive crosstalk between integrins and TGF‐β signalling. TGF‐β affects integrin‐mediated cell adhesion and migration by regulating the expression of integrins, their ligands and integrin‐associated proteins. Conversely, several integrins directly control TGF‐β activation. In addition, a number of integrins can interfere with both Smad‐dependent and Smad‐independent TGF‐β signalling in different ways, including the regulation of the expression of TGF‐β signalling pathway components, the physical association of integrins with TGF‐β receptors and the modulation of downstream effectors. Reciprocal TGF‐β–integrin signalling is implicated in normal physiology, as well as in a variety of pathological processes including systemic sclerosis, idiopathic pulmonary fibrosis, chronic obstructive pulmonary disease and cancer; thus, integrins could provide attractive therapeutic targets to interfere with TGF‐β signalling in these processes.     

硫酸糖肽的生物活性及药理作用

黏多糖类物质独特的生物活性已成为生物化学和医学领域的热点。硫糖肽作为黏多糖类的一种,具有广泛的抗炎、抗溃疡作用,尤其是预防和治疗溃疡方面的优势引起人们越来越多的关注,具有广阔的药物开发和应用前景。本文就硫糖肽的生物活性及其药理作用展开综述,并结合硫糖肽的市场需求和研究现状进行了展望。     

Dual-mode Imaging of Cutaneous Tissue Oxygenation and Vascular Function

Accurate assessment of cutaneous tissue oxygenation and vascular function is important for appropriate detection, staging, and treatment of many health disorders such as chronic wounds. We report the development of a dual-mode imaging system for non-invasive and non-contact imaging of cutaneous tissue oxygenation and vascular function. The imaging system integrated an infrared camera, a CCD camera, a liquid crystal tunable filter and a high intensity fiber light source. A Labview interface was programmed for equipment control, synchronization, image acquisition, processing, and visualization. Multispectral images captured by the CCD camera were used to reconstruct the tissue oxygenation map. Dynamic thermographic images captured by the infrared camera were used to reconstruct the vascular function map. Cutaneous tissue oxygenation and vascular function images were co-registered through fiduciary markers. The performance characteristics of the dual-mode image system were tested in humans.