Prospects of polyglycolic acid sheets for the treatment of esophageal stricture after esophageal endoscopic submucosal dissection

Esophageal cancer is the seventh most common type of cancer and the sixth leading cause of cancer-related mortality worldwide.Endoscopic submucosal dissection(ESD)is widely used for the resection of early esophageal cancer.However,post-ESD esophageal stricture is a common long-term complication,which requires attention.Patients with post-ESD esophageal stricture often experience dysphagia and require multiple dilatations,which greatly affects their quality of life and increases healthcare costs.Therefore,to manage post-ESD esophageal stricture,researchers are actively exploring various strategies,such as pharmaceutical interventions,endoscopic balloon dilation,and esophageal stenting.Although steroids-based therapy has achieved some success,steroids can lead to complications such as osteoporosis and infection.Meanwhile,endoscopic balloon dilatation is effective in the short term,but is prone to recurrence and perforation.Additionally,esophageal stenting can alleviate the stricture,but is associated with discomfort during stenting and the complication of easy displacement also present challenges.Tissue engineering has evolved rapidly in recent years,and hydrogel materials have good biodegradability and biocompatibility.A novel type of polyglycolic acid(PGA)sheets has been found to be effective in preventing esophageal stricture after ESD,with the advantages of a simple operation and low complication rate.PGA membranes act as a biophysical barrier to cover the wound as well as facilitate the delivery of medications to promote wound repair and healing.However,there is still a lack of multicenter,large-sample randomized controlled clinical studies focused on the treatment of post-ESD esophageal strictures with PGA membrane,which will be a promising direction for future advancements in this field.

Preparation and Drug-Release Property of Polycaprolactone (PCL)/Polyglycolic Acid (PGA) Composite Masterbatch with Drug of Tea Polyphenols (TPs)

In order to effectively control the drug-release rate of medical textiles,biodegradable polycaprolactone(PCL) and polyglycolic acid(PGA) were blended at various mass ratios to prepare composite masterbatches for medical textiles.The surface morphology and the chemical structure of the masterbatches were analyzed.The crystallization,mass losses,strengths and drug-release rates of the composite masterbatches at different PCL/PGA mass ratios were explored.The results show that the degradation rate of the PGA carrier is obvious higher than that of the PCL carrier,and PCL,PGA and the tea polyphenol(TP) drug just physically mix without chemical reaction.During the degradation,the strength of the composite masterbatches gradually decreases.In addition,the drug-release rates of composite masterbatches at different mass ratios are different,and the more the PGA in the composite masterbatches,the faster the drug release of the composite masterbatches.The drug-release rate of the composite masterbatches can be controlled by adjusting the contents of PCL and PGA.

Potassium Dichromate Surface Modification of Polyglycolic Acid (PGA) Multifilament

For improving its hydrophilicity and biocompatibility,and preserving filament mechanical properties at the same time,polyglycolic acid( PGA) filament was modified by potassium dichromate solution with different processing time. Breaking force and water contact angle were tested. Surface changes before and after surface modifications were tested with scanning electron microscopy(SEM). Furthermore,differential scanning calorimeter(DSC) and Fourier transform infrared spectrometry(FTIR) were used to analyze the changes of molecular structure and functional group. Experimental results showed that 6 min was the most suitable time for improving hydrophilicity of PGA filament and preserving its mechanical properties.

Effect of polyglycolic acid sheet plus esophageal stent placement in preventing esophageal stricture after endoscopic submucosal dissection in patients with earlystage esophageal cancer: A randomized, controlled trial

AIM To assess the effect of polyglycolic acid(PGA) plus stent placement compared with stent placement alone in the prevention of post-endoscopic submucosal dissection(ESD) esophageal stricture in early-stage esophageal cancer(EC) patients. METHODS Seventy EC patients undergoing ESD were enrolled in this randomized, controlled study. Patients were allocated randomly at a 1:1 ratio into two groups as follows:(1) PGA plus stent group(PGA sheet-coated stent placement was performed); and(2) Stent group(only stent placement was performed). This study was registered on http://www.chictr.org.cn(No. chictrinr-16008709). RESULTS The occurrence rate of esophageal stricture in the PGA plus stent group was 20.5%(n = 7), which was lower than that in the stent group(46.9%, n = 15)(P = 0.024). The mean value of esophageal stricture time was 59.6 ± 16.1 d and 70.7 ± 28.6 d in the PGA plus stent group and stent group(P = 0.174), respectively. Times of balloon dilatation in the PGA plus stent group were less than those in the stent group [4(2-5) vs 6(1-14), P = 0.007]. The length(P = 0.080) and diameter(P = 0.061) of esophageal strictures were numerically decreased in the PGA plus stent group, whereas no difference in location(P = 0.232) between the two groups was found. Multivariate logistic analysis suggested that PGA plus stent placement(P = 0.026) was an independent predictive factor for a lower risk of esophageal stricture, while location in the middle third(P = 0.034) and circumferential range = 1/1(P = 0.028) could independently predict a higher risk of esophageal stricture in EC patients after ESD. CONCLUSION PGA plus stent placement is more effective in preventing post-ESD esophageal stricture compared with stent placement alone in EC patients with earlystage disease.

高韧性PGA/TPEE共混物的制备及性能

聚乙醇酸(PGA)具有高强度、高模量、良好的阻隔性能和生物相容性等优点,而针对其韧性差、加工成型稳定性不佳等问题进行改性,能进一步增强PGA材料的应用潜力。为此,将热塑性聚酯弹性体(TPEE)、多元环氧扩链剂(ADR)和PGA进行熔融共混,制备得到PGA/TPEE/ADR共混材料。其中,TPEE作为增韧组分,而ADR则作为反应性相容剂和扩链剂使用。通过转矩流变仪、熔体流动速率(MFR)仪、旋转流变仪、扫描电子显微镜、电子万能试验机、差示扫描量热仪、广角X射线衍射仪研究ADR的加入对PGA/TPEE(75/25)共混物的流变行为、微观结构、力学性能以及结晶性能等方面的影响。研究结果表明,随着ADR的加入,PGA/TPEE/ADR共混物的黏度和熔体强度上升、加工成型稳定性得到较大改善。当ADR添加量增大至0.9份时,PGA/TPEE/ADR(75/25/0.9)共混物的MFR值由PGA/TPEE(75/25)共混物的32.5 g/10 min降低至13.2 g/10 min。此外,ADR作为反应性相容剂,可明显改善PGA/TPEE界面相容性,共混物的韧性得到显著提升。PGA/TPEE/ADR(75/25/0.9)共混物的断裂伸长率和缺口冲击强度可由PGA/TPEE(75/25)共混物的54.6%和4.5 kJ/m^(2)分别增大至329.3%和16.1 kJ/m^(2)。

二步共混法制备PBAT/PGA材料及其性能

采用二步共混法制备改性聚己二酸/对苯二甲酸丁二酯/聚乙醇酸(PBAT/PGA)共混物,其中,添加多元环氧化合物(ADR)为扩链剂和反应增容剂。首先通过第一步高温熔融共混(235℃),制备得到PBAT/PGA二元预混物;随后添加ADR进行低温共混(170℃),最终得到(PBAT/PGA)/ADR二步法共混物。并采用常见的一步共混法来制备同样配比的PBAT/PGA/ADR共混物作为比照。研究不同加工方式和ADR添加量对共混物流变行为、微观形貌和拉伸性能等方面的影响。结果表明,采用二步共混法,可在保持较大PGA分散相尺寸的同时,又能兼顾改善PBAT/PGA两相界面相容性。相对于PBAT/PGA(65/35)二元共混物和一步法共混物,二步法共混物在拉伸屈服强度、拉伸弹性模量和断裂伸长率方面具有更为均衡的性能。如当ADR添加量为0.8份时,(PBAT/PGA)/ADR(65/35/0.8)二步法共混物的拉伸屈服强度、拉伸弹性模量和断裂伸长率可分别达到11.57 MPa,160.88 MPa和309.5%。此外,测试结果表明,相对于二步法共混物,ADR的扩链/支化反应对一步法共混物流变行为的影响更为显著。

CNTs杂化粒子改性PP/PGA复合材料的结构与性能

为解决聚丙烯/聚乙醇酸(PP/PGA)共混物由于相容性较差导致力学性能存在局限性的问题,采用过硫酸铵-胺氧化还原引发体系,通过表面引发接枝聚合法(SIP)制备了碳纳米管接枝聚甲基丙烯酸缩水甘油酯杂化粒子(CNTs@PGMA),以CNTs@PGMA杂化粒子和聚丙烯接枝马来酸酐(PP-g-MAH)为协同增容体系,通过熔融共混法制备了PP/PGA/CNTs复合材料,采用傅里叶变换红外光谱仪和透射电子显微镜对CNTs@PGMA进行了表征,结果表明PGMA通过SIP成功接枝在CNTs表面。采用拉伸测试、差示扫描量热仪、热重分析、旋转流变和降解试验等方法研究了CNTs@PGMA用量对复合材料力学性能、热性能、降解性能和流变行为的影响。结果表明,在PP/PGA/PP-g-MAH体系中加入CNTs@PGMA后其相容性得到提升,随杂化粒子用量增加,复合材料拉伸强度先增大后减小,热稳定性得到提升,PGA结晶逐渐受限甚至无熔融峰出现。杂化粒子的加入形成了三维网络结构,提高了复合材料熔体弹性,熔体表现出更强的非牛顿性和剪切变稀行为,同时PGA的降解过程受到抑制。当CNTs@PGMA用量为5份时,复合材料的拉伸强度最大为41.25 MPa,断裂伸长率为66.03%,PGA在42 d时的降解率下降至10%以内,拉伸强度维持率达到91%。

PGA可降解材料作为钻完井液暂堵剂实验研究

聚乙醇酸(PGA)具有良好的环保特性,通过高温浸泡前后PGA力学性能、颗粒粒径、分子热稳定性和晶体致密度等参数分析,研究了PGA在水相及油相环境中的热稳定性,评价了PGA作钻完井液暂堵剂的应用潜力。结果表明PGA理化性质受钻井液液相环境和温度的影响较大。对水基钻井液而言,100℃高温水相环境下PGA分子受pH值影响降解生成低聚物,分子热稳定性降低、力学强度下降,表现为强酸(pH<5)及强碱(pH>9)环境加速降解,且强碱条件下降解快于强酸环境。高温油相环境导致PGA颗粒先溶胀后出现剥落、破碎现象,本体由塑性向脆性转变,抗拉及抗压强度出现一定程度下降,PPA封堵实验显示油相环境中8 d内具有良好的封堵效果。与水基钻井液相比,暂堵剂PGA更适合在油基钻井液中使用。

Novel concept of endoscopic device delivery station system for rapid and tight attachment of polyglycolic acid sheet

AIM To evaluate appropriate and rapid polyglycolic acid sheet(PGAs) covering time using device delivery station system(DDSS).METHODS This pilot basic study was conducted to evaluate the potential of accurate and rapid PGAs delivery using DDSS. Three 11-month-old female Beagle dogs were used in this study. Two endoscopic submucosal dissections(ESDs) 4 cm in diameter were performed in lesser curvature of middle gastric body and greater curvature of antrum(total 6 ESDs performed). DDSS(3 cm length, 12 mm in outer diameter) has 2 chambers which 16 cm^2 large 2 PGAs were stored, and DDSS was attached post ESD ulcers, respectively. Beriplast P?(CSL Behring K.K., Tokyo, Japan)(combination of fibringlue and thrombin) was applied equally to the artificial ulcer, and tight attachment of 2 PGAs with DDSS were completed. The evaluation items were covering times, post ESD bleeding and perforation during ESD.RESULTS The covering time of PGAs(defined as the duration from the beginning of endoscope insertion into the mouth to the end of the fibrin glue coating process) was 6.07(4.86-8.29) min. There was no postESD bleeding(1-7 d after ESD), and there was no perforation during ESD.CONCLUSION DDSS was very useful for rapid delivering and tight attachment of PGAs, and has potentials of multipurpose delivery station system.

Surface Modification of Polyglycolic Acid Fibers by Hydrogen Peroxide for Enhancing Hydrophilicity and Cytocompatibility

Hydrogen peroxide( H_2O_2) is applied for surface modification of polyglycolic acid( PGA) fibers in order to enhance the hydrophilicity and cytocompatibility of PGA fibers effectively,and maintain the breaking strength as the same time. PGA fibers are dipped in H_2O_2 solution a certain time for modification. Scanning electron microscopy( SEM) was used to observe the surface morphology of PGA fibers before and after modification. The varying of PGA macromolecule was examined with Fourier transform infrared spectroscopy( FTIR) analyses. X-ray diffraction( XRD) and differential scanning calorimetry( DSC) analysis showed that crystallinity slightly decreases. Mechanical performance test showed tensile force of modified PGA fiber was increased. The water contact angle test indicated the improving of hydrophilic. A cell proliferation assay showed that fibroblast cells attach and proliferate well on the fibers, which meant the modified fibers possess good cytocompatibility. These results suggest that H_2O_2 surface modification is easy to operate and a advantageous modification method for PGA fibers.

PGA/PBAT共混膜的结晶行为研究

采用单螺杆挤出流延机制备了一系列聚乙醇酸/聚对苯二甲酸共己二酸丁二酯(PGA/PBAT)共混膜,采用小角X射线散射仪(SAXS)、广角X射线散射仪(WAXS)、差示扫描量热仪(DSC)和宽频介电电阻抗谱仪等研究了PGA用量变化对PGA/PBAT共混膜中各组分结晶度与分子链运动的影响规律。结果表明:PGA/PBAT共混膜中PGA和PBAT的结晶度均受PGA用量的影响。PGA的结晶度随PGA用量增加呈现先增大后减小的趋势。当PGA质量分数为40%时,PGA/PBAT共混膜中形成了特殊的局部有序结构,对PGA/PBAT共混物的实际应用具有指导意义。

Effect of Spinning Process on Properties of Polyglycollide Acid Embedding Materials

Acupoint catgut embedding therapy(ACET),filling the gaps of traditional Chinese medicine acupuncture treatment,has been widely used for the treatment of many diseases with significant effects.The aim of this paper is to obtain polyglycollide acid(PGA)fibers with higher performance at a lower cost,and ensure that PGA can meet the clinical requirements as well.PGA fibers with different diameters were spun as embedding materials.The mechanical performance,thermodynamic and biodegradable properties of PGA fibers were studied under different spinning process parameters,including spinning speed,drawing temperature and stretching ratio.The experimental results showed that the optimum spinning parameters were the spinning speed at 150 m/min,the drawing temperature of 45 ℃,and the stretching ratio of 4.0.The initial modulus of PGA fibers was 3.876 N/tex.The crystallization degree was 68% and the degradation performance was in consistent with treatment cycle of patients.

An Approach for Using of Poly Glycolic Acid (PGA) in Reference Standard Dosimetry: PGA/ESR Dosimetry System Response Curve and Post Irradiation Stability

Reference Standard Dosimeters are used to calibrate radiation environments and routine dosimeters. It can also be used in routine dosimetry applications for radiation processing where higher quality dosimetry measurements are required. Electron Spin Resonance (ESR) is a well-established Reference Standard Dosimetry system in industrial applications of ionising radiation, and its use is also proposed in radiation therapy and accident dosimetry. In the present experimental work, PGA solid state dosimeter (SSD) has been investigated using ESR spectroscopy to study the gamma radiation response of this material and to evaluate its dosimetric characteristics: dose response, room temperature fading, heat treatment effect during post-irradiation storage. Results obtained up to now confirm that PGA seems to be suitable material for ESR dosimetry applications.

改性聚乙醇酸暂堵剂研发及其在河南油田的应用

酸溶性暂堵剂对地层伤害较大,解堵较麻烦,油溶性暂堵剂不适合高含水的油层;河南油田低渗透油藏地层温度为50~120℃,注水驱油见水快,常规水溶性聚乙醇酸暂堵剂和聚乳酸暂堵剂水解温度大于80℃,不能完全满足低渗透油藏暂堵压裂的需求。结合颗粒类水溶性聚乙醇酸暂堵剂和聚乳酸暂堵剂的特性和暂堵原理,采用催化剂和抑制剂使聚乙醇酸和聚乳酸发生酯化反应,生成聚乙醇酸和聚乳酸融合物,再加入成核剂及结晶促进剂,可得到改性聚乙醇酸暂堵剂。经测试,改性聚乙醇酸暂堵剂在50~120℃温度下具有常规聚乙醇酸暂堵剂的溶解性能和暂堵强度;当改性聚乙醇酸暂堵剂的总用量占比达到18%、粗粒径与细粒径质量配比接近1:1时,其封堵强度大于40 MPa,暂堵性能良好。现场试验7井次,加入改性聚乙醇酸暂堵剂后,单井施工压力最高增加了6.1 MPa,日增油5.3 t,取得了明显的增油效果。

聚乙醇酸与羟丙基甲基纤维素用于远端胰腺切除模型术后缝合的有效性和安全性评估

目的探讨应用聚乙醇酸(polyglycolic acid,PGA)与羟丙基甲基纤维素(hydroxypropyl methylcellulose,HPMC)复合材料在远端胰腺切除术后缝合中的有效性和安全性。方法选用36只健康成年比格犬,将其随机均分为观察组和对照组,每组各18只行远端胰腺切除手术。观察组实验犬使用PGA+HPMC复合材料进行切口加固;对照组实验犬使用NEOVEIL进行切口加固。术前、术后3 d及解剖前,分别对各组实验犬进行血常规检测。设置2周、4周、8周观察周期,每个观察点各6只动物进行心肝脾肺肾组织学检查、硬组织切片病理诊断等评估,并进行安全性评价。结果观察组和对照组实验犬在术前血常规检测比较差异无统计学意义。重复测量方差分析结果显示,不同时间点的白细胞计数(WBC)(F=14.875,P=0.001)、平均红细胞血红蛋白浓度(MCHC)(F=5.049,P=0.009)、中性粒细胞百分比(Neu%)(F=4.794,P=0.011)、红细胞计数(RBC)(F=6.591,P=0.002)、血红蛋白(HGB)(F=8.154,P=0.001)、红细胞比容(HCT)(F=5.281,P=0.007)、血小板计数(PLT)(F=6.560,P=0.014)、红细胞分布宽度变异系数(RDW-CV)(F=33.950,P=0.039)、淋巴细胞百分比(Lym%)(F=3.299,P=0.043)均值存在差异,但观察组和对照组组间无统计学差异,且时间与组别交互作用对其无显著影响,表明两组实验犬均出现了炎症反应或手术应激。两组实验犬在术后8周的硬组织病理切片评分中,观察组和对照组实验犬的炎症与坏死相关评分、纤维化、修复等相关评分和总分方面差异均无统计学意义(P>0.05)。两组实验犬在术后8周的解剖中,均未发现心肝脾肺肾等器官有明显的损伤,也未发现缝合材料残留、胰液渗漏或胰瘘等情况,表明两组缝合材料均已完全被吸收代谢,且切口愈合良好不会对内脏器官造成不良影响。结论PGA与HPMC是一种有效和安全的术后缝合材料,具有良好的生物可降解性、生物相容性、缝合强度和创面愈合质量,可以在远端胰腺切除术后缝合中与传统的可吸收性加固材料相媲美,为其在临床上的应用提供了科学依据。

缝线类型对胃十二指肠溃疡穿孔患者微创修补术治疗效果的影响

目的研究缝线类型对胃十二指肠溃疡穿孔患者微创修补术治疗效果的影响。方法选取胃十二指肠溃疡穿孔患者78例,采用随机数字表法分为观察组和对照组,每组39例。两组均行微创修补术治疗,观察组采用2-0聚乙醇酸可吸收手术缝线,对照组采用2-0普通丝线。比较两组溃疡愈合率、手术指标和临床指标、术后疼痛程度、肠道屏障功能、并发症发生率及生活质量。结果观察组溃疡愈合率为97.44%,对照组为74.36%,两组溃疡愈合率比较差异有统计学意义(P<0.05)。观察组术后疼痛程度1级17例,2级19例,3级2例,4级1例;对照组术后疼痛程度1级9例,2级18例,3级8例,4级4例。两组术后疼痛程度比较差异有统计学意义(P<0.05)。观察组并发症发生率为2.56%,低于对照组的20.51%,差异有统计学意义(P<0.05)。观察组手术时间与对照组比较,差异无统计学意义(P>0.05)。观察组下床时间、肠道功能恢复时间、住院时间分别为(2.26±0.76)、(2.54±0.97)、(6.56±1.31)d,短于对照组的(2.85±1.01)、(3.18±1.15)、(7.19±1.47)d(P<0.05)。术后3 d,观察组血清二胺氧化酶(DAO)(118.42±8.46)U/ml、D-乳酸(D-Lac)(23.19±2.08)μg/ml低于对照组的(139.53±9.85)U/ml、(29.47±2.77)μg/ml(P<0.05)。术后8周,观察组胃肠道生活质量指数(GIQLI)评分(125.45±9.65)分高于对照组的(107.91±8.37)分(P<0.05)。结论聚乙醇酸可吸收手术缝线在胃十二指肠溃疡穿孔微创修补术中的使用能够促进溃疡愈合,改善患者生活质量,降低术后并发症风险,且对肠道屏障功能的影响较小。

可海水降解聚乙醇酸纤维及无纺布的连续制备与性能

为缓解不可降解无纺布对环境的压力,利用聚乙醇酸(PGA)材料制备纤维及无纺布,研究PGA材料的热性能以及探究纺丝机热加工温度、热辊温度、计量泵转速对纤维的直径、线密度、拉伸性能及无纺布的克重、厚度、拉伸性能、生产稳定性的影响,优选生产工艺。结果表明,在一、二、三、四区的温度分别为225,225,230,235℃,机头温度为215℃,计量泵转速为24 Hz,热辊温度为50℃的条件下,PGA可实现纤维及无纺布的连续制备,纤维及无纺布的综合性能较优:未牵伸前纤维的直径为0.153 mm,线密度为258.38 dtex,拉伸强度为1.55 cN/dtex;无纺布克重为335.52 g/m^(2),厚度为0.672 mm,拉伸强度为17.07 MPa,断裂伸长率为552.50%,制备的无纺布的厚度误差为5.7%,属于一等品。

Depression effect of pseudo glycolythiourea acid in flotation separation of copper-molybdenum

Pseudo glycolythiourea acid（PGA） was synthesized and used as depressant for flotation separation of Cu and Mo.The results indicate that a low amount of PGA has strong depression effect on chalcopyrite.Mo grade of 26.17% and recovery of 89.83% were achieved with rougher and scavenger one time and cleaners twice,while the recovery of Mo was deceased by 2% when Na2S was used as depressant.Measurement on adsorption of PGA on the mineral surface indicates that PGA and xanthate were adsorbed on mineral surface by competition,and PGA was adsorbed on chalcopyrite surface much stronger than on molybdenite surface.FTIR results indicate a chemical absorption process for PGA on chalcopyrite surface and a physical adsorption process on molybdenite surface.The frontier orbital calculation shows that the S atom is an active center,and the depression of PGA can be explained with the Fermi level of energy based on the electrochemical mechanism.

以PGA为三维支架同种异体工程化软骨的构建

为探讨以聚羟基乙酸 (PGA)为三维支架材料的同种异体软骨细胞构建组织工程化软骨的能力 ,采用胶原酶消化方法分离乳兔肋软骨获取种子细胞 ,收集体外培养传 2～ 3代的软骨细胞 ,接种于经多聚赖氨酸处理的PGA支架材料上 ,将细胞 材料复合物种植在成兔皮下 ,一定时间取材 ,对获得的同种异体工程化软骨进行组织学评价。结果显示 ,软骨细胞体外培养 1天后 ,在PGA支架上分布均匀 ;培养 1周左右 ,PGA纤维间有呈蜘蛛网状基质产生。种植复合物 4周取材可见PGA纤维未完全降解 ,软骨细胞不成熟 ,周边存在一定程度炎细胞浸润 ;8周取材 ,PGA纤维消失 ,软骨基本成熟 ,炎细胞浸润不明显 ,软骨基质含量丰富 ,分布与正常肋软骨组织学特征相似。提示以PGA为支架材料同种异体软骨细胞在有免疫力的动物体内可形成工程化软骨 。

人皮肤成纤维细胞与PGA进行组织构建的适宜接种浓度

目的可吸收生物材料聚羟乙酸(PGA)与成纤维细胞已被证实可以应用于体外组织工程肌腱的构建,本试验旨在探讨应用人皮肤成纤维细胞与PGA在体外进行组织构建时的适宜接种浓度。方法酶消化法获得人皮肤成纤维细胞经体外培养、扩增至第2代,按照低、中、高三种浓度接种于PGA材料分别作为实验组1、2、3,传统浓度细胞接种的作为对照组,各组样本数n均为3,分别于接种后3天、1周、2周和4周进行观察和检测。结果接种后3天实验各组无明显差异,细胞在材料上黏附伸展良好。1周和2周时,各组细胞均有明显增殖,并分泌细胞外基质(ECM extra cellular matrix),但实验组1、2的ECM不如实验组3和对照组丰富,此后该现象更为明显。至第4周时,实验组1仅形成厚薄不均的薄膜状物,其余三组均形成组织样结构,但实验组2形成的细胞--材料复合物结构略为松散。结论应用本实验组中高浓度接种皮肤成纤维细胞在体外构建工程化组织可以达到传统所用更高浓度的接种效果,以节约细胞,减少取材。