枯草芽胞杆菌活菌制剂促进烧伤创面愈合的实验研究

目的　探讨枯草芽胞杆菌活菌制剂对烧伤创面愈合的影响。方法　通过大鼠深Ⅱ°烧伤模型,使用枯草芽胞杆菌活菌制剂,观察烧伤创面愈合过程中,成纤维细胞增殖周期的变化,以及测定羟脯氨酸（OHP）的含量,同时记录烧伤创面愈合时间,从而评价该制剂对烧伤创面愈合的影响。结果　应用枯草芽胞杆菌活菌制剂可促进成纤维细胞分裂、增殖,胶原含量提高,创面愈合时间明显缩短。结论　枯草芽胞杆菌活菌制剂具有促进烧伤创面愈合的作用。     

CXC chemokines and their receptors: a case for a significant biological role in cutaneous wound healing

Wound healing requires a complex series of reactions and interactions among cells and their mediators, resulting in an overlapping series of events including coagulation, inflammation, epithelialization, formation of granulation tissue, matrix and scar formation. Cytokines and chemokines promote inflammation, angiogenesis, facilitate the passage of leukocytes from circulation into the tissue, and contribute to the regulation of epithelialization. They integrate inflammatory events and reparative processes that are important for modulating wound healing. Thus both cytokines and chemokines are important targets for therapeutic intervention. The chemokine-mediated regulation of angiogenesis is highly sophisticated, fine tuned, and involves pro-angiogenic chemokines, including CXCL1-3, 5-8 and their receptors, CXCR1 and CXCR2. CXCL1 and CXCR2 are expressed in normal human epidermis and are further induced during the wound healing process of human burn wounds, especially during the inflammatory, epithelialization and angiogenic processes. Human skin explant studies also show CXCR2 is expressed in wounded keratinocytes and Th/1/Th2 cytokine modulation of CXCR2 expression correlates with proliferation of epidermal keratinocytes. Murine excision wound healing, chemical burn wounds and skin organ culture systems are valuable models for examining the role of inflammatory cytokines and chemokines in wound healing.     

Umbilical cord-derived mesenchymal stem cells preconditioned with isorhamnetin: potential therapy for burn wounds

BACKGROUNDImpaired wound healing can be associated with different pathological states. Burn wounds are the most common and detrimental injuries and remain a major health issue worldwide. Mesenchymal stem cells (MSCs) possess the ability to regenerate tissues by secreting factors involved in promoting cell migration, proliferation and differentiation, while suppressing immune reactions. Preconditioning of MSCs with small molecules having cytoprotective properties can enhance the potential of these cells for their use in cell-based therapeutics.AIMTo enhance the therapeutic potential of MSCs by preconditioning them with isorhamnetin for second degree burn wounds in rats.METHODSHuman umbilical cord MSCs (hU-MSCs) were isolated and characterized by surface markers, CD105, vimentin and CD90. For preconditioning, hU-MSCs were treated with isorhamnetin after selection of the optimized concentration (5 µmol/L) by cytotoxicity analysis. The migration potential of these MSCs was analyzed by the in vitro scratch assay. The healing potential of normal, and preconditioned hU-MSCs was compared by transplanting these MSCs in a rat model of a second degree burn wound. Normal, and preconditioned MSCs (IH + MSCs) were transplanted after 72 h of burn injury and observed for 2 wk. Histological and gene expression analyses were performed on day 7 and 14 after cell transplantation to determine complete wound healing.RESULTSThe scratch assay analysis showed a significant reduction in the scratch area in the case of IH + MSCs compared to the normal untreated MSCs at 24 h, while complete closure of the scratch area was observed at 48 h. Histological analysis showed reduced inflammation, completely remodeled epidermis and dermis without scar formation and regeneration of hair follicles in the group that received IH + MSCs. Gene expression analysis was time dependent and more pronounced in the case of IH + MSCs. Interleukin (IL)-1β, IL-6 and Bcl-2 associated X genes showed significant downregulation, while transforming growth factor β, vascular endothelial growth factor, Bcl-2 and matrix metallopeptidase 9 showed significant upregulation compared to the burn wound, showing increased angiogenesis and reduced inflammation and apoptosis.CONCLUSIONPreconditioning of hU-MSCs with isorhamnetin decreases wound progression by reducing inflammation, and improving tissue architecture and wound healing. The study outcome is expected to lead to an improved cell-based therapeutic approach for burn wounds.     

Change in synthetic activity of epidermis cells in rats during burn wound healing under a scab and in liquid environment

One of the problems of burn treatment is a creation of conditions providing most valuable skin rehabilitation. An experimental model of burn wound healing in a 0.9% NaCl solution is proposed. Synthetic activity of rat epidermis cells in the process of burn wound healing under a scab and in liquid environment was studied by luminescent microscopy. The effect of a 0.9% NaCl solution involves an increase of the basal layer cell synthetic activity of regenerating epidermis, and keeping a high level of this activity of hair follicle epithelial cells for a long time. Tissue-preserving effect of the 0.9% NaCl solution on burns healing has been confirmed in these results.     

壳聚糖护创敷料用于烧伤创面的治疗效果和安全性研究

目的:探讨壳聚糖护创敷料用于烧伤创面的治疗效果和安全性。方法:采用回顾性方法分析,选取中国人民解放军空降兵军医院烧伤科(本院)自2014年1月-2018年9月就诊的80例烧伤患者的临床资料,根据治疗方法分为对照组(40例,给予单纯紫草油覆盖创面)与研究组(40例,给予壳聚糖护创敷料覆盖创面),比较两组创面愈合时间、疼痛度、瘢痕生长及不同时期分泌物细菌培养阳性率。结果:研究组的创面愈合时间(18.45±4.64)及瘢痕生长评分(3.23±1.12)均低于对照组(22.45±5.23、5.34±1.23),均有显著差异(P0.05)。治疗后7 d、14 d、21 d研究组的创面疼痛度低于对照组(P0.05)。治疗后3 d、7 d、14 d研究组的细菌培养阳性率低于对照组(P0.05)。两组治疗期间均没有出现不良事件和严重不良事件的发生。结论:壳聚糖护创敷料用于烧伤创面患者治疗中,可缩短创面愈合时间,抑菌,减少创面愈合后的瘢痕增生,从而减轻患者疼痛,安全性高,值得临床推广应用。     

削痂植皮术后结合负压封闭引流在深度烧伤患者中的应用效果及对血清致痛因子及炎性因子的影响

摘要 目的：探讨削痂植皮术后结合负压封闭引流在深度烧伤患者中的应用效果及对血清致痛因子及炎性因子的影响,以此为临床治疗深度烧伤患者提供参考。方法：选取暨南大学附属第一医院在2018年1月至2022年1月期间收治的75例深度烧伤患者进行回顾性分析,所有患者均接受削痂植皮术治疗;按术后不同换药方法分为常规换药组和VSD组,其中常规换药组35例,术后常规换药;VSD组40例,术后采用VSD治疗。比较两组患者首次植皮成活率,术后1周、2周创面愈合率,创面愈合时间,疼痛程度及并发症发生率等,测定两组患者血清致痛因子、冲洗液炎性因子表达水平。结果：VSD组首次植皮成活率95.00%（38/40）,常规换药组首次植皮成活率71.43%（25/35）,差异有统计学意义（P<0.05）。VSD组术后1周、2周创面愈合率高于常规换药组,创面愈合时间、创面疼痛评分低于常规换药组,差异有统计学意义（P<0.05）。两组术后1周相关致痛因子表达较术前明显下降（P<0.05）,且VSD组致痛因子表达低于常规换药组,差异有统计学意义（P<0.05）。两组术后1周冲洗液炎性因子表达低于术前（P<0.05）,且VSD组冲洗液炎性因子表达与常规换药组比较下降明显,差异有统计学意义（P<0.05）。VSD组术后并发症发生率12.50%（5/40）低于常规换药组40.00%（14/40）,差异有统计学意义（P<0.05）。结论：削痂植皮术后结合负压封闭引流技术可提高深度烧伤患者创面愈合效果,增加首次植皮成活率,减少细菌生成、炎性因子的释放,减轻创面疼痛程度,值得临床进一步研究。     

Burn injury-induced alterations in wound inflammation and healing are associated with suppressed hypoxia inducible factor-1alpha expression

A major complication associated with burn injury is delayed wound healing. While healing of the burn injury site is essential, healing of distal injury sites caused by surgical interventions and other processes also is important. The impact of burn injury on healing of these distal wound sites is not understood clearly. To study this, mice were subjected to major burn injury or a sham procedure. Immediately following, excisional wounds were made on the dorsal surface caudal to the burn site and wound closure was monitored over a 7-d period by planimetry. In a second series of experiments, plasma and excisional wounds were collected for in vitro analysis of cyto- and chemokine levels, L-arginine metabolism, and hypoxia-inducible factor (HIF)-1alpha expression. At 1-7 d post-injury, a significant inflammatory response was evident in both groups, but the healing process was delayed in the burn-injured mice. At 3 d post-injury, wound levels of tumor necrosis factor-alpha (TNF-alpha), interleukin-6 (IL-6), and keratinocyte-derived chemokine were suppressed in the burn group. This difference in the wound inflammatory response was independent of changes in L-arginine metabolism (nitrate levels, inducible nitric oxide synthase expression, arginase activity), but correlated with a marked reduction in HIF-1alpha protein levels. In conclusion, these findings suggest that HIF-1alpha and the inflammatory response play a significant role in wound healing, and reduced levels of HIF-1alpha contribute to the impaired healing response post-burn.     

Pirfenidone attenuates the profibrotic contractile phenotype of differentiated human dermal myofibroblasts

Dysregulated wound healing after burn injury frequently results in debilitating hypertrophic scarring and contractures. Myofibroblasts, the main effector cells for dermal fibrosis, develop from normal fibroblasts via transforming growth factor beta 1 (TGF-β1). During wound healing, myofibroblasts produce extracellular matrix (ECM) proteins, modulate ECM stability, and contract the ECM using alpha smooth muscle actin (α-SMA) in contractile stress fibers. The antifibrotic pirfenidone has previously been shown to inhibit the initial differentiation of fibroblasts into myofibroblasts in vitro and act as a prophylactic measure against hypertrophic scar development in a mouse burn model. To test whether pirfenidone affects differentiated myofibroblasts, we investigated the in vitro effects of pirfenidone treatment after three to five days of stimulation with TGF-β1. In assays for morphology, protein and gene expression, and contractility, pirfenidone treatment produced significant effects. Profibrotic gene expression returned to near-normal levels, further α-SMA protein expression was prevented, and cell contraction within a stressed collagen matrix was reduced. These in vitro results promote pirfenidone as a promising antifibrotic agent to treat existing scars and healing wounds by mitigating the effects of differentiated myofibroblasts.     

Changes in human burn fluid biological activity during normal burn healing

The main goal of this work was monitoring the changes occurring in human burn fluid biological activity during normal burn healing. The fluid available in the burn until healing makes a good material for controlling biochemical microenvironment of burn cells. This environment involves factors, such as extracellular matrix proteins and matrix metalloproteinases. In this work our previous studies of the influence of wound and burn fluids on the functional activity of cells were extended to include the effect of burn fluid on fibroblasts and keratinocytes, i. e. human skin cells present in the wound and involved in wound healing. It was shown that human burn fluid biological activity depends on the time that passed after burning, and on the correctness of healing. Migration of human fibroblasts becomes more intensive under the influence of such a fluid independently on the time of fluid sampling. Unlike, keratinocyte migration was inhibited by burn fluid sampled 1-3 days after burning but was enhanced by fluids sampled 6 days following burning. The obtained data are to be necessarily taken into consideration at burn treatment and also at transplantation of cells for healing of wounds of different nature.     

丹参酮IIA磺酸钠对烧伤植皮创面愈合及瘢痕形成的影响

目的:探讨丹参酮IIA磺酸钠注射液对烧伤患者植皮创面愈合及瘢痕形成情况的影响。方法:选取2014年3月至2014年12月我院收治的烧伤植皮患者62例,根据临床用药分为试验组(使用丹参酮IIA磺酸钠注射组)与对照组(未使用丹参酮IIA磺酸钠注射液)。比较两组创面愈合情况,术后植皮成活率及愈合后瘢痕形成情况。结果:1经治疗,两组创面均愈合,试验组患者植皮成活率为(97.12±1.89)%,高于对照组(89.96±1.86)%,差异具有统计学意义(P0.01);试验组愈合时间较对照组短,试验组创面愈合时间为10.1±1.9天,对照组为14.3±2.3天,两组比较差异具有统计学意义(P0.001);瘢痕形成评价试验组均优于对照组,差异具有统计学意义,其中血肿面积(1.50±0.03 vs.3.04±0.08,P0.01)、畸形率[2(6.45)vs.8(25.81),P0.05]、感染率[2(6.45)vs.9(29.03),P0.05]。结论:丹参酮IIA磺酸钠注射液对于烧伤植皮创面的患者,能够提高植皮成活率,促进创面愈合,减轻瘢痕形成,改善创面愈合质量。     

Role of caveolin-1 in epidermal stem cells during burn wound healing in rats

Local transplantation of stem cells has therapeutic effects on skin damage but cannot provide satisfactory wound healing. Studies on the mechanisms underlying the therapeutic effects of stem cells on skin wound healing will be needed. Hence, in the present study, we explored the role of Caveolin-1 in epidermal stem cells (EpiSCs) in the modulation of wound healing. We first isolated EpiSCs from mouse skin tissues and established stable EpiSCs with overexpression of Caveolin-1 using a lentiviral construct. We then evaluated the epidermal growth factor (EGF)-induced cell proliferation ability using cell counting Kit-8 (CCK-8) assay and assessed EpiSC pluripotency by examining Nanog mRNA levels in EpiSCs. Furthermore, we treated mice with skin burn injury using EpiSCs with overexpression of Caveolin-1. Histological examinations were conducted to evaluate re-epithelialization, wound scores, cell proliferation and capillary density in wounds. We found that overexpression of Caveolin-1 in EpiSCs promoted EGF-induced cell proliferation ability and increased wound closure in a mouse model of skin burn injury. Histological evaluation demonstrated that overexpression of Caveolin-1 in EpiSCs promoted re-epithelialization in wounds, enhanced cellularity, and increased vasculature, as well as increased wound scores. Taken together, our results suggested that Caveolin-1 expression in the EpiSCs play a critical role in the regulation of EpiSC proliferation ability and alteration of EpiSC proliferation ability may be an effective approach in promoting EpiSC-based therapy in skin wound healing.     

Integrin-linked kinase (ILK) modulates wound healing through regulation of hepatocyte growth factor (HGF)

Integrin-linked kinase (ILK) is an intracellular effector of cell–matrix interactions and regulates many cellular processes, including growth, proliferation, survival, differentiation, migration, invasion and angiogenesis. The present work analyzes the role of ILK in wound healing in adult animals using a conditional knock-out of the ILK gene generated with the tamoxifen-inducible Cre-lox system (CRE-LOX mice). Results show that ILK deficiency leads to retarded wound closure in skin. Intracellular mechanisms involved in this process were analyzed in cultured mouse embryonic fibroblast (MEF) isolated from CRE-LOX mice and revealed that wounding promotes rapid activation of phosphatidylinositol 3-kinase (PI3K) and ILK. Knockdown of ILK resulted in a retarded wound closure due to a decrease in cellular proliferation and loss of HGF protein expression during the healing process, in vitro and in vivo. Alterations in cell proliferation and wound closure in ILK-deficient MEF or mice could be rescued by exogenous administration of human HGF. These data demonstrate, for the first time, that the activation of PI3K and ILK after skin wounding are critical for HGF-dependent tissue repair and wound healing.     

Global gene expression response to telomerase in bovine adrenocortical cells

The infinite proliferative capability of most immortalized cells is dependent upon the presence of the enzyme telomerase and its ability to maintain telomere length and structure. However, telomerase may be involved in a greater system than telomere length regulation, as recent evidence has shown it capable of increasing wound healing in vivo, and improving cellular proliferation rate and survival from apoptosis in vitro. Here, we describe the global gene expression response to ectopic telomerase expression in an in vitro bovine adrenocortical cell model. Telomerase-immortalized cells showed an increased ability for proliferation and survival in minimal essential medium above cells transgenic for GFP. cDNA microarray analyses revealed an altered cell state indicative of increased adrenocortical cell proliferation regulated by the IGF2 pathway and alterations in members of the TGF-B family. As well, we identified alterations in genes associated with development and wound healing that support a model that high telomerase expression induces a highly adaptable, progenitor-like state.     

Deletion of delta-opioid receptor in mice alters skin differentiation and delays wound healing

In addition to their well-known antinociceptive action, opioids can modulate non-neuronal functions, such as immune activity and physiology of different cell types. Several findings suggest that the delta-opioid receptor (DOR) and its endogenous ligands (enkephalins) are important players in cell differentiation and proliferation. Here we show the expression of DOR in mouse skin and human skin cultured fibroblasts and keratinocytes using RT-PCR. In DOR knock-out (KO) mice, a phenotype of thinner epidermis and higher expression of cell differentiation marker cytokeratin 10 (CK 10) were observed compared with wild type (WT). Using a burn wound model, significant wound healing delay (about 2 days) and severe epidermal hypertrophy were shown at the wound margin of DOR KO mice. This wound healing delay was further investigated by immunohistochemistry using markers for proliferation, differentiation, re-epithelialization, and dermal repair (CK 6, CK 10, and collagen IV). The levels of all these markers were increased in wounds of KO mice compared with WT. During the wound healing, the epidermal thickness in KO mice augments faster and exceeds that of the WT by day 3. These results suggest an essential role of DOR in skin differentiation, proliferation, and migration, factors that are important for wound healing.     

Role for Heat Shock Protein 90α in the Proliferation and Migration of HaCaT Cells and in the Deep Second-Degree Burn Wound Healing in Mice

Inflammation, proliferation, and tissue remodeling are essential steps for wound healing. The hypoxic wound microenvironment promotes cell migration through a hypoxia—heat shock protein 90 alpha (Hsp90α)—low density lipoprotein receptor-related protein-1 (LRP-1) autocrine loop. To elucidate the role of this autocrine loop on burn wound healing, we investigated the expression profile of Hsp90α at the edge of burn wounds and found a transient increase in both mRNA and protein levels. Experiments performed with a human keratinocyte cell line—HaCaT also confirmed above results. 17-dimethylaminoethylamino-17demethoxygeldanamycin hydrochloride (17-DMAG), an Hsp90α inhibitor, was used to further evaluate the function of Hsp90α in wound healing. Consistently, topical application of Hsp90α in the early stage of deep second-degree burn wounds led to reduced inflammation and increased tissue granulation, with a concomitant reduction in the size of the wound at each time point tested (p<0.05). Consequently, epidermal cells at the wound margin progressed more rapidly causing an expedited healing process. In conclusion, these results provided a rationale for the therapeutic effect of Hsp90α on the burn wound management.     

Adenoviral gene delivery to primary human cutaneous cells and burn wounds

The adenoviral transfer of therapeutic genes into epidermal and dermal cells is an interesting approach to treat skin diseases and to promote wound healing. The aim of this study was to assess the in vitro and in vivo transfection efficacy in skin and burn wounds after adenoviral gene delivery. Primary keratinocytes (HKC), fibroblasts (HFB), and HaCaT cells were transfected using different concentrations of an adenoviral construct (eGFP). Transfection efficiency and cytotoxicity was determined up to 30 days. Expression was quantified by FACS analysis and fluorimeter. Cytotoxicity was measured using the trypan blue exclusion method. 45 male Sprague Dawley rats received 2x10(8) pfu of Ad5-CMV-LacZ or carrier control intradermally into either superficial partial thickness scald burn or unburned skin. Animals were euthanized after 48 h, 7 or 14 days posttreatment. Transgene expression was assessed using immunohistochemistry and bioluminescent assays. The highest transfection rate was observed 48 h posttransfection: 79% for HKC, 70% for HFB, and 48% for HaCaT. The eGFP expression was detectable in all groups over 30 days (P>0.05). Cytotoxic effects of the adenoviral vector were observed for HFB after 10 days and HaCaT after 30 days. Reporter gene expression in vivo was significantly higher in burned skin compared with unburned skin (P=0,004). Gene expression decreases from 2 to 7 days with no significant expression after 14 days. This study demonstrates that effective adenoviral-mediated gene transfer of epidermal primary cells and cell-lines is feasible. Ex vivo gene transfer in epithelial cells might have promise for the use in severely burned patients who receive autologous keratinocyte sheets. Transient cutaneous gene delivery in burn wounds using adenoviral vectors causes significant concentrations in the wound tissue for at least 1 week. Based on these findings, we hypothesize that transient cutaneous adenoviral gene delivery of wound healing promoting factors has potential for clinical application.     

Dorsal closure in Drosophila. A genetic model for wound healing?

Dorsal closure (DC) is a morphogenetic movement that establishes the dorsal ectoderm of the drosophila embryo. During this process, the two lateral epithelia stretch toward the dorsal midline, the suture line of the two leading edges. Cell migration during DC relies both on cell shape change controlled by the activity of the JNK pathway in the leading edge cells and modification of cell adhesiveness, probably dependent upon activation of the Dpp (TGF-beta) pathway. Coupling of the JNK and TGF-beta pathways is essential. The sequence of the cellular and molecular events of DC highlights interesting common features with wound healing in vertebrates. Like DC, wound healing relies on the migration of epithelia bordered by leading edges controlling the direction and speed of the movement. This review summarizes recent data concerning the control of epithelial morphogenesis during DC and the bases of wound healing. The molecular and cellular events that underlie these two analogous migratory processes are detailed, discussed and compared. We suggest that DC is a good genetic model for wound healing studying.     

PDGF在大鼠断层供皮区创面愈合过程中表达变化的研究

实验研究已经证明Ｐｌａｔｅｌｅｔ－ｄｅｒｉｖｅｄｇｒｏｗｔｈｆａｃｔｏｒ（ＰＤＧＦ）能够促进各种类型的伤口愈合,然而在伤口愈合过程中内源性ＰＤＧＦ表达变化的研究却少有报道,为探讨ＰＤＧＦ对伤口愈合的影响,我们应用原位杂交、斑点杂交技术观察了内源性ＰＤＧＦ在大鼠创面愈合过程中的表达变化,结果发现：在创面愈合过程中,肉芽组织中的成纤维细胞,毛细血管内皮细胞及创缘真皮内的毛囊上皮细胞均能表达ＰＤＧＦ－ＢＢ基因,在伤后６天,组织修复的高峰期,ＰＤＧＦ－ＢＢ基因表达达到最强,伤后１２天,伤口完全上皮化,ＰＤＧＦ的基因表达也恢复正常,说明ＰＤＧＦ的基因表达和伤口愈合时间有密切的关系。提示ＰＤＧＦ在创面愈合过程中可能起着重要的调控作用。     

Dynamic changes in connexin expression correlate with key events in the wound healing process

Wound healing is a complex process requiring communication for the precise co-ordination of different cell types. The role of extracellular communication through growth factors in the wound healing process has been extensively documented, but the role of direct intercellular communication via gap junctions has scarcely been investigated. We have examined the dynamics of gap junction protein (Connexins 26, 30, 31.1 and 43) expression in the murine epidermis and dermis during wound healing, and we show that connexin expression is extremely plastic between 6 hours and 12 days post-wounding. The immediate response (6 h) to wounding is to downregulate all connexins in the epidermis, but thereafter the expression profile of each connexin changes dramatically. Here, we correlate the changing patterns of connexin expression with key events in the wound healing process.