VAC 技术治疗兔耳缺血性创面的实验研究

目的:观察间歇和持续负压下缺血创面不同处理与愈合的关系。方法:实验前1天,用脱毛剂(Nair,美国)对兔耳背脱毛。动物用1%戊巴比妥钠耳缘静脉注射麻醉(30 mg/kg体重),固定于手术台。75%乙醇消毒双侧耳背皮肤。距耳根3-3.5cm处分离、结扎兔耳中央神经血管束。在耳背中部形成直径2.5cm全层皮肤缺损创面(保留软骨膜)[1]。止血后置动物于特制木盒内。42只大白兔共84个创面,随机分为-50mmHg-75mmHg和-100mmHg 3大组,分别施以间歇负压(运行2分钟,停1分钟)和持续负压组。实验分别运用-50mmHg,-75mmHg,-100mmHg三个不同负压值进行连续、间歇治疗兔耳缺血性创面,观察伤后1,3,7,10,14,20d创面愈合情况,取伤后7d组织标本进行Western blot、HE染色,观察VEGF(vascular endothelial growth factor)的表达及创面上皮的再生和肉芽组织生长情况[1]。以及各时间点细胞凋亡的检测。结果:-50mmHg(纱布+海绵)间歇负压引流技术治疗兔耳缺血性创面的愈合最快,-75mmHg治疗组次之,-100mmHg治疗组创面愈合最慢。在同一时间点上,-50mmHg治疗组与-75mmHg,-100mmHg治疗组和空白对照组之间相比,能够更快地促进创面VEGF的表达和肉芽组织的再生,毛细血管增多。封闭负压治疗能够降低创面组织细胞的凋亡的发生。结论:(1)封闭负压治疗能够促进缺血创面的肉芽组织再生及VEGF的表达,减少创面组织细胞的凋亡的发生;(2)-50mmHg间歇封闭负压治疗效果最好。     

Compromised Wound Healing in Ischemic Type 2 Diabetic Rats

Ischemia is one of the main epidemic factors and characteristics of diabetic chronic wounds, and exerts a profound effect on wound healing. To explore the mechanism of and the cure for diabetic impaired wound healing, we established a type 2 diabetic rat model. We used an 8weeks high fat diet (HFD) feeding regimen followed by multiple injections of streptozotocin (STZ) at a dose of 10mg/kg to induce Wister rat to develop type 2 diabetes. Metabolic characteristics were assessed at the 5th week after the STZ injections to confirm the establishment of diabetes mellitus on the rodent model. A bipedicle flap, with length to width ratio 1.5, was performed on the back of the rat to make the flap area ischemic. Closure of excisional wounds on this bipedicle flap and related physiological and pathological changes were studied using histological, immunohistochemical, real time PCR and protein immunoblot approaches. Our results demonstrated that a combination of HFD feeding and a low dose of STZ is capable of inducing the rats to develop type 2 diabetes with noticeable insulin resistance, persistent hyperglycemia, moderate degree of insulinemia, as well as high serum cholesterol and high triglyceride levels. The excision wounds on the ischemic double pedicle flap showed deteriorative healing features comparing with non-ischemic diabetic wounds, including: delayed healing, exorbitant wound inflammatory response, excessive and prolonged ROS production and excessive production of MMPs. Our study suggested that HFD feeding combined with STZ injection could induce type 2 diabetes in rat. Our ischemic diabetic wound model is suitable for the investigation of human diabetic related wound repair; especically for diabetic chronic wounds.     

Demonstration of the Rat Ischemic Skin Wound Model

The propensity for chronic wounds in humans increases with ageing, disease conditions such as diabetes and impaired cardiovascular function, and unrelieved pressure due to immobility. Animal models have been developed that attempt to mimic these conditions for the purpose of furthering our understanding of the complexity of chronic wounds. The model described herein is a rat ischemic skin flap model that permits a prolonged reduction of blood flow resulting in wounds that become ischemic and resemble a chronic wound phenotype (reduced vascularization, increased inflammation and delayed wound closure). It consists of a bipedicled dorsal flap with 2 ischemic wounds placed centrally and 2 non-ischemic wounds lateral to the flap as controls. A novel addition to this ischemic skin flap model is the placement of a silicone sheet beneath the flap that functions as a barrier and a splint to prevent revascularization and reduce contraction as the wounds heal. Despite the debate of using rats for wound healing studies due to their quite distinct anatomic and physiologic differences compared to humans (i.e., the presence of a panniculus carnosus muscle, short life-span, increased number of hair follicles, and their ability to heal infected wounds) the modifications employed in this model make it a valuable alternative to previously developed ischemic skin flap models.     

Method of creating a model for assessing the effectiveness of preparing the wound surface for autodermoplasty in an experiment

Twenty rabbits and fourty male rats were used for the development of the autodermoplasty model: two symmetrical semilunar skin incisions, turned to one another, with 1 cm space between the ends of the arches, were made on the back of the animal. The skin with subcutaneous fat was exfoliated from above the muscular tissue in the area between the incisions. Elastic arched net-shaped fluoroplastic plate, matching to the size of the exfoliated skin graft and raising it 1.5 cm above the wound surface was introduced into the cavity emerged. As soon as any method of wound surface purification was used, the plate was removed and the the skin graft above (conditional autodermograft) was applied and fixed to the edges of the wound with 4 interrupted sutures. It was stated that the model used for testing various methods of preparing the wound surface for autodermoplasty not only decreased the duration of experiment and the number of animals employed but cut their keeping and dressing expenditures.     

封闭负压引流联合局部给氧治疗兔耳缺血性创面的实验研究

目的：观察封闭负压引流联合局部给氧促进兔耳缺血性创面愈合的效果。方法：28只大耳白兔,双耳背各造成直径2．5cm全层皮肤缺损,结扎中央血管神经束及后边缘动静脉,形成缺血创面。56个创面随机分为七组：A组（-50mmHg负压同时给氧,浓度为40％±5％,每日4小时）、B组（持续-50mmHg负压4小时继之局部给氧l小时）、c组（负压治疗4min,停止1min,每日4小时,之后给氧1小时）,D组（．50mrnHg负压治疗每日4小时）、E组（-125rnmHg负压治疗每日4小时）、F组（单纯给40％±5％氧l小时）和G组（空白对照）。在创面形成第0、1、3、5、7、10、14、18天拍照,测量创面面积,计算创面愈合率及创面愈合时间;在各时相点切取创面标本,组织学观察创面肉芽、上皮生长、水肿和炎细胞,Ki67免疫组化标记增殖细胞并计算增殖指数,TUNEL法计算凋亡指数。结果：负压给氧组在相同时相点创面愈合率高于单纯负压、氧疗或空白组（P〈0．05）,创面肉芽生长快,水肿和炎症轻,细胞增殖指数高于对照组（P〈0．05）,而细胞凋亡指数显著低于对照组（P〈0．05）。结论：负压联合局部给氧能显著促进兔耳缺血创面的愈合。     

Application of Electron Paramagnetic Resonance (EPR) Oximetry to Monitor Oxygen in Wounds in Diabetic Models

A lack of oxygen is classically described as a major cause of impaired wound healing in diabetic patients. Even if the role of oxygen in the wound healing process is well recognized, measurement of oxygen levels in a wound remains challenging. The purpose of the present study was to assess the value of electron paramagnetic resonance (EPR) oximetry to monitor pO₂ in wounds during the healing process in diabetic mouse models. Kinetics of wound closure were carried out in streptozotocin (STZ)-treated and db/db mice. The pO₂ was followed repeatedly during the healing process by 1 GHz EPR spectroscopy with lithium phthalocyanine (LiPc) crystals used as oxygen sensor in two different wound models: a full-thickness excisional skin wound and a pedicled skin flap. Wound closure kinetics were dramatically slower in 12-week-old db/db compared to control (db/+) mice, whereas kinetics were not statistically different in STZ-treated compared to control mice. At the center of excisional wounds, measurements were highly influenced by atmospheric oxygen early in the healing process. In pedicled flaps, hypoxia was observed early after wounding. While reoxygenation occurred over time in db/+ mice, hypoxia was prolonged in the diabetic db/db model. This observation was consistent with impaired healing and microangiopathies observed using intravital microscopy. In conclusion, EPR oximetry using LiPc crystals as the oxygen sensor is an appropriate technique to follow wound oxygenation in acute and chronic wounds, in normal and diabetic animals. Nevertheless, the technique is limited for measurements in pedicled skin flaps and cannot be applied to excisional wounds in which diffusion of atmospheric oxygen significantly affects the measurements.     

A comparison of the effects of immobilization and continuous passive motion on surgical wound healing in mature rabbits

The purpose of this investigation was to compare the effects of continuous passive motion (CPM) and cast immobilization on postoperative wound healing. Medical parapatellar skin incisions and arthrotomies were performed on both knees of 10 mature New Zealand rabbits. After closure of the incisions, one knee was immobilized in a cast while the other was treated by continuous passive motion for 3 weeks. Six standardized skin specimens (2 mm wide) from each wound were tested to failure and one specimen was examined histologically. With respect to the breaking force, tensile strength, strain at failure, stiffness, and toughness, the wounds in the continuous-passive-motion group were significantly stronger, stiffer, and tougher than those in the cast group. Histologically, the structural organization of the collagen fibers was also superior in the scars treated with continuous passive motion. The results of the present investigation indicate that compared to immobilization, continuous passive motion enhances postoperative wound healing in rabbits.     

辣木油对家兔皮肤创伤的保护作用

观察辣木油对家兔皮肤创伤愈合的影响。取健康大耳白兔18只,随机分为空白对照组、京万红组和辣木油组,将背部左右侧各切取直径2.35 cm大小的皮肤,深及皮下筋膜,造成创伤模型,每天涂药1次,测定创面面积,计算愈合率和愈合时间;于术后的第3 d、7 d、10 d,切取涂药部位和空白未涂药部位皮肤全层,制片,作HE染色后镜下观察创面组织形态学的改变并进行皮肤病变程度的分级。结果显示辣木油可加速创面愈合,缩短愈合时,减轻组织的病理变化。提示了辣木油能够促进家兔皮肤创伤的愈合。     

Effects of topical applications of epidermal growth factor on wound healing. Experimental study on rabbit ears

In wounds in rabbit ears, the application every 12 hours of an ointment containing epidermal growth factor appears to produce faster and better healing. The resulting epithelium is thicker and more cellular than in the untreated ear wounds, and more fibroblasts appeared sooner during the healing process. Less wound contracture occurred in the EFG-treated wounds, and wound maturation occurred earlier. The healed wounds that had been treated with EGF more closely resembled the surrounding normal tissue, producing less local deformity than in the controls. It is too early to know whether this will have clinical application, but other experiments are under way to further investigate the effects of EGF on wound healing.     

EGF and TGF-alpha in wound healing and repair

Wound healing is a localized process which involves inflammation, wound cell migration and mitosis, neovascularization, and regeneration of the extracellular matrix. Recent data suggest the actions of wound cells may be regulated by local production of peptide growth factors which influence wound cells through autocrine and paracrine mechanisms. Two peptide growth factors which may play important roles in normal wound healing in tissues such as skin, cornea, and gastrointestinal tract are the structurally related peptides epidermal growth factor (EGF) and transforming growth factor alpha (TGF-alpha). EGF/TGF-alpha receptors are expressed by many types of cells including skin keratinocytes, fibroblasts, vascular endothelial cells, and epithelial cells of the GI tract. In addition, EGF or TGF-alpha are synthesized by several cells involved in wound healing including platelets, keratinocytes, and activated macrophages. Healing of a variety of wounds in animals and patients was enhanced by treatment with EGF or TGF-alpha. Epidermal regeneration of partial thickness burns on pigs or dermatome wounds on patients was accelerated with topical application of EGF or TGF-alpha, and EGF treatment accelerated healing of gastroduodenal ulcers. EGF also increased tensile strength of skin incisions in rats and corneal incisions in rabbits, cats, and primates. Additional research is needed to better define the roles of EGF, TGF-alpha and their receptor in normal wound healing, to determine if alterations have occurred in the EGF/TGF-alpha system in chronic wounds, and optimize vehicles for effective delivery of peptide growth factors to wounds.     

Treatment of non-healing wounds with autologous bone marrow cells, platelets, fibrin glue and collagen matrix

Background aimsRecalcitrant diabetic wounds are not responsive to the most common treatments. Bone marrow-derived stem cell transplantation is used for the healing of chronic lower extremity wounds.MethodsWe report on the treatment of eight patients with aggressive, refractory diabetic wounds. The marrow-derived cells were injected/applied topically into the wound along with platelets, fibrin glue and bone marrow-impregnated collagen matrix.ResultsFour weeks after treatment, the wound was completely closed in three patients and significantly reduced in the remaining five patients.ConclusionsOur study suggests that the combination of the components mentioned can be used safely in order to synergize the effect of chronic wound healing.     

封闭负压引流联合局部给氧治疗兔耳缺血性创面的实验研究

目的:观察封闭负压引流联合局部给氧促进兔耳缺血性创面愈合的效果。方法:28只大耳白兔,双耳背各造成直径2.5cm全层皮肤缺损,结扎中央血管神经束及后边缘动静脉,形成缺血创面。56个创面随机分为七组:A组(-50mmHg负压同时给氧,浓度为40%±5%,每日4小时)、B组(持续-50mmHg负压4小时继之局部给氧1小时)、C组(负压治疗4min,停止1min,每日4小时,之后给氧1小时),D组(-50mmHg负压治疗每日4小时)、E组(-125mmHg负压治疗每日4小时)、F组(单纯给40%±5%氧1小时)和G组(空白对照)。在创面形成第0、1、3、5、7、10、14、18天拍照,测量创面面积,计算创面愈合率及创面愈合时间;在各时相点切取创面标本,组织学观察创面肉芽、上皮生长、水肿和炎细胞,Ki67免疫组化标记增殖细胞并计算增殖指数,TUNEL法计算凋亡指数。结果:负压给氧组在相同时相点创面愈合率高于单纯负压、氧疗或空白组(P<0.05),创面肉芽生长快,水肿和炎症轻,细胞增殖指数高于对照组(P<0.05),而细胞凋亡指数显著低于对照组(P<0.05)。结论:负压联合局部给氧能显著促进兔耳缺血创面的愈合。     

Application of platelet derived growth factor-BB and diabetic wound healing: the relationship with oxidative events

The reasons that cause delay in wound healing in diabetes are a decrease in the level of growth factors secretion, an increase in the destruction of growth factors and in oxidative stress. Platelet derived growth factor (PDGF) is one of the important growth factors that play a role in all phases of wound healing. This study investigates time-dependent effects of topically PDGF-BB administration on oxidative events on the healing of dorsolateral-excisional wounds in diabetic rats. Forty-two female Wistar-albino rats with streptozotocin-induced diabetes were divided into four groups: control group, untreated group, chitosan-treated group, chitosan?+?PDGF-BB-treated group. Two identical full-thickness excisional skin wounds were made under anaesthesia in all rats except for the control group. In the PDGF-BB-treated and chitosan-treated groups, the wounds were treated topically PDGF-BB (7?ng/mL, single daily dose) and blank chitosan gel (equal amount) after wounding, respectively. After these administrations, on day 3 and day 7 of wound healing, rats were sacrificed. Thiobarbituric acid reactive substances, glutathione, nitric oxide, ascorbic acid levels, and superoxide dismutase activity in wound tissues were spectrophotometrically measured. PDGF-BB administration significantly increased TBARS levels and non-enzymatic antioxidant levels in early phase of diabetic wound healing. PDGF-BB dramatically reduced NO_x levels on day 3 and sharply increased NO_x levels on day 7 of wound healing. Consequently, PDGF-BB administration can be effective on oxidative balance in the early phase of diabetic wound healing.     

Intrinsic electric fields promote epithelization of wounds in the newt, Notophthalmus viridescens

The lateral electric fields (LFs) in the vicinity of small wounds made in hindlimb digit tip skin of Notophthalmus viridescens have been measured and manipulated. Healing of these wounds was assessed by crystal violet staining and by histology. Paired experiments were conducted on the animals: the healing of one digit's wound was compared with healing of the contralateral digit's wound whose LF was changed from that of its contralateral wound. When currents were passed through the animal (into one wound and out of the contralateral wound) so that the LF of one wound was zero while the contralateral wound had an enhanced LF, the wounds with the enhanced LF healed more rapidly than the wounds with the zero LF. When digits on one side were treated with 30 microM benzamil in an artificial pond water so that their wound LFs were reduced to approximately zero, and the contralateral wounds were kept in artificial pond water without benzamil so that they had normal wound LFs, there was significantly less epithelization of the benzamil-treated wounds than of the control wounds. This effect on wound healing was reversed by adding currents that restored the normal wound LFs, but not by adding currents that reversed the wound LFs to the opposite polarity. When currents were added to reverse the wound LFs on one side of the animal, leaving the contralateral wounds free of added currents, the wounds with the reversed LFs healed more poorly than the contralateral wounds with normal LFs. These results are consistent with the hypothesis that the intrinsic LFs in the vicinity of wounds promote epithelization of these wounds.     

Pulsed electromagnetic fields accelerate wound healing in the skin of diabetic rats

Delayed wound healing is a common complication in diabetes mellitus. From this point of view, the main purpose of the present study is to investigate the effect of extremely low frequency pulsed electromagnetic fields (ELF PEMFs) on skin wound healing in diabetic rats. In this study, diabetes was induced in male Wistar rats via a single subcutaneous injection of 65 mg/kg streptozocin (freshly dissolved in sterile saline, 0.9%). One month after the induction of diabetes, a full‐thickness dermal incision (35 mm length) was made on the right side of the paravertebral region. The wound was exposed to ELF PEMF (20 Hz, 4 ms, 8 mT) for 1 h per day. Wound healing was evaluated by measuring surface area, percentage of healing, duration of healing, and wound tensile strength. Obtained results showed that the duration of wound healing in diabetic rats in comparison with the control group was significantly increased. In contrast, the rate of healing in diabetic rats receiving PEMF was significantly greater than in the diabetic control group. The wound tensile strength also was significantly greater than the control animals. In addition, the duration of wound healing in the control group receiving PEMF was less than the sham group. Based on the above‐mentioned results we concluded that this study provides some evidence to support the use of ELF PEMFs to accelerate diabetic wound healing. Further research is needed to determine the PEMF mechanisms in acceleration of wound healing in diabetic rats. Bioelectromagnetics 31:318–323, 2010. © 2010 Wiley‐Liss, Inc.     

Identification of the Critical Therapeutic Entity in Secreted Hsp90α That Promotes Wound Healing in Newly Re-Standardized Healthy and Diabetic Pig Models

Chronic and non-healing skin wounds represent a significant clinical, economic and social problem worldwide. Currently, there are few effective treatments. Lack of well-defined animal models to investigate wound healing mechanisms and furthermore to identify new and more effective therapeutic agents still remains a major challenge. Pig skin wound healing is close to humans. However, standardized pig wound healing models with demonstrated validity for testing new wound healing candidates are unavailable. Here we report a systematic evaluation and establishment of both acute and diabetic wound healing models in pigs, including wound-creating pattern for drug treatment versus control, measurements of diabetic parameters and the time for detecting delayed wound healing. We find that treatment and control wounds should be on the opposite and corresponding sides of a pig. We demonstrate a strong correlation between duration of diabetic conditions and the length of delay in wound closure. Using these new models, we narrow down the minimum therapeutic entity of secreted Hsp90α to a 27-amino acid peptide, called fragment-8 (F-8). In addition, results of histochemistry and immunohistochemistry analyses reveal more organized epidermis and dermis in Hsp90α-healed wounds than the control. Finally, Hsp90α uses a similar signaling mechanism to promote migration of isolated pig and human keratinocytes and dermal fibroblasts. This is the first report that shows standardized pig models for acute and diabetic wound healing studies and proves its usefulness with both an approved drug and a new therapeutic agent.     

The diabetic rat as an impaired wound healing model: stimulatory effects of transforming growth factor-beta and basic fibroblast growth factor

Two models of wound repair compared the effect of defined, recombinant growth factors on the rate of wound repair in both normal and streptozotocin-induced diabetic rats: subcutaneous implantation of polyvinyl alcohol sponges and incisional wounding. Transverse incisional wounds were made on the dorsal surface of rats and closed with steel sutures. Three days postwounding the rats received a single injection of either transforming growth factor-beta or vehicle alone directly into the wound site. Animals were sacrificed 7, 14, and 21 days postwounding, and fresh and formalin-fixed wound tensile strength were measured. Diabetic rats had expected defects in wound repair, including decreased granulation tissue and reduced amounts of collagen, protein, and DNA. Fresh tensile strength of the diabetic incisions was 53% of normal on Day 7 (p < or = .01) and 29% of normal on Day 21. Fixed tensile strength was 41% of normal on Day 7 (p < or = .01) and fell to 78% of normal by Day 21 (p < or = .01), suggesting that collagen concentrations of diabetic wounds increased towards normal but did not undergo maturation. TGF beta produced a moderate increase in tensile strength of fresh and fixed wounds of diabetic rats, but not to the levels of wounds in untreated normal rats. Sponges fill with granulation tissue, their reproducible rate of organization being measured by histological and biochemical methods. A single injection into sponges 3 days postimplantation of basic fibroblast growth factor, transforming growth factor-beta, or vehicle only, was evaluated at 7 and 9 days postimplantation. In the sponge model, bFGF and TGF beta were each able to induce significant increases in the accumulation of granulation tissue in both diabetic and normal rats. TGF beta increased the collagen content of sponges by 136% in sponges from diabetic animals (p < or = .001), thereby raising the collagen content to that of normal control wounds, while stimulating a 49% (p < or = .02) increase in sponges from normal animals on Day 9. By contrast, the response to bFGF was predominantly an increase in the protein and DNA content of the sponges. These results emphasize the differential effects of the two cytokines in accelerating healing under conditions of defective wound repair.     

A comparison of the effects of temperature on wound healing in a tropical and a temperate teleost

The rate of healing of a surgical wound was studied in two teleost fish, one with a tropical, and the other with a temperate temperature range. Comparisons were made of both the rate and qualitative nature of wound healing within and between species at temperatures of 30,23,10 and 5° C. The rate of wound healing was found to be proportional to temperature and temperature stress had little effect on healing rates. The findings were related to reported rates of wound healing in man. In general the wounds studied healed at a rate comparable to those reported for the healing of superficial skin wounds in man and other mammals despite the fact that the fish wounds were not merely superficial but involved integument and muscle.     

Functional extracellular matrix hydrogel modified with MSC‐derived small extracellular vesicles for chronic wound healing

ObjectivesDiabetic wound healing remains a global challenge in the clinic and in research. However, the current medical dressings are difficult to meet the demands. The primary goal of this study was to fabricate a functional hydrogel wound dressing that can provide an appropriate microenvironment and supplementation with growth factors to promote skin regeneration and functional restoration in diabetic wounds.Materials and MethodsSmall extracellular vesicles (sEVs) were bound to the porcine small intestinal submucosa‐based hydrogel material through peptides (SC‐Ps‐sEVs) to increase the content and achieve a sustained release. NIH3T3 cell was used to evaluate the biocompatibility and the promoting proliferation, migration and adhesion abilities of the SC‐Ps‐sEVs. EA.hy926 cell was used to evaluate the stimulating angiogenesis of SC‐Ps‐sEVs. The diabetic wound model was used to investigate the function/role of SC‐Ps‐sEVs hydrogel in promoting wound healing.ResultsA functional hydrogel wound dressing with good mechanical properties, excellent biocompatibility and superior stimulating angiogenesis capacity was designed and facilely fabricated, which could effectively enable full‐thickness skin wounds healing in diabetic rat model.ConclusionsThis work led to the development of SIS, which shows an unprecedented combination of mechanical, biological and wound healing properties. This functional hydrogel wound dressing may find broad utility in the field of regenerative medicine and may be similarly useful in the treatment of wounds in epithelial tissues, such as the intestine, lung and liver.

Schematic illustration showing synthesis of the SC‐Ps scaffold dressing and nanoscale sEVs loaded SC‐Ps scaffold dressing and the potential application of the dressings in diabetic wound healing and skin reconstruction.     

Wound Administration of M2-Polarized Macrophages Does Not Improve Murine Cutaneous Healing Responses

Macrophages play a crucial role in all stages of cutaneous wound healing responses and dysregulation of macrophage function can result in derailed wound repair. The phenotype of macrophages is influenced by the wound microenvironment and evolves during healing from a more pro-inflammatory (M1) profile in early stages, to a less inflammatory pro-healing (M2) phenotype in later stages of repair. The aim of the current study was to investigate the potential of exogenous administration of M2 macrophages to promote wound healing in an experimental mouse model of cutaneous injury. Bone marrow derived macrophages were stimulated in-vitro with IL-4 or IL-10 to obtain two different subsets of M2-polarized cells, M2a or M2c respectively. Polarized macrophages were injected into full-thickness excisional skin wounds of either C57BL/6 or diabetic db/db mice. Control groups were injected with non-polarized (M0) macrophages or saline. Our data indicate that despite M2 macrophages exhibit an anti-inflammatory phenotype in-vitro, they do not improve wound closure in wild type mice while they delay healing in diabetic mice. Examination of wounds on day 15 post-injury indicated delayed re-epithelialization and persistence of neutrophils in M2 macrophage treated diabetic wounds. Therefore, topical application of ex-vivo generated M2 macrophages is not beneficial and contraindicated for cell therapy of skin wounds.