荷负电气溶胶治疗对大鼠烫伤创面白细胞介素-8、10表达的影响及意义

目的 观察荷负电气溶胶治疗对大鼠烫伤创面愈合过程中白细胞介素(IL)-8、IL-10表达的影响,探讨荷负电气溶胶治疗促进创面愈合的作用机制.方法 制作SD大鼠深Ⅱ度烫伤模型,采用分组对照方法,将40只鼠随机分为治疗组(n1=20)和对照组(n2=20).治疗组应用荷负电气溶胶治疗,每次1.5 h,每天2次,直至创面愈合;对照组不作荷负电气溶胶治疗.伤后第1～11天分别取创面标本制作切片,采用免疫组织化学和图像分析方法,检测创面愈合过程中IL-8和IL-10表达水平.结果 创面平均愈合时间治疗组为(7.00±1.15)d,对照组为(9.00±1.34)d,治疗组创面愈合时间明显提前(P＜0.01).免疫组织化学显示,两组IL-8均在伤后第1天开始表达.主要位于多核粒细胞和单核细胞;第3天表达明显增多达高峰,并见大量成纤维细胞表达,治疗组的峰值明显低于对照组,差异有统计学意义(P＜0.01),第5～11天表达水平迅速下降.两组IL-10伤后第1天在淋巴细胞和单核细胞均有表达;第3天开始有角质细胞表达并达高峰,第5～11天表达水平缓慢下降,但治疗组要明显高于对照组,第3～11天差异有统计学意义(P＜0.01).结论 荷负电气溶胶治疗能有效抑制创面IL-8的表达及促进IL-10的表达,缩短炎症进程,从而加速创面愈合.

Abstract：

Objective To discuss the influence of aerosol bioelectricity on the expression of interleukin (IL) -8 and IL-10 in wound healing of burned rats. Methods The deep Ⅱ degree scalding models were established in Sprague Dawley (SD) rats. Rats were randomly divided into experimental group (n1 =20) and control group (n2 =20). The rats in experimental group were treated with aerosol bioelectricity.Samples were collected at the first to eleventh day post-scalding. Immunohistochemistry and image analysis methods were conducted to examine the expression of IL-8 and IL-10 in both experimental and control groups. Results The average wound healing time in experimental group was 7. 00 ± 1. 15 days, and that in control group was 9. 00 ± 1. 34 days. IL-8 and IL-10 were observed mainly in polylmorphonuclear and mononuclear cells in both experimental and control groups on the 1 st day. On the third day, fibroblasts abounded, IL-8 expression was increased evidently and reached a peak. The peak value (6. 73 ± 1. 36) in experimental group was lower significantly than that in control group ( 2. 85 ± 0. 72, P ＜ 0. 01). From the 5th to 11th day, IL-8 expression was declined rapidly. IL-10 was expressed in keratode cells and had the peak value in experimental group (1. 24 ±0. 15) and control group (5. 69 ± 1. 32) on the 3rd day. IL-10 expression was declined gradually from the 5th to 11th days. The expression level of IL-10 in experimental group was significantly higher than in control group from the 3rd day to 11th days post-scalding (P＜0. 01). On the 3rd day, both IL-8 and IL-10 in experimental and control groups were expressed abundantly , and there was negative relationship between them (r = - 0. 862, P ＜ 0. 01). Conclusion Aerosol bioelectricity can indicate active cells proliferation through down-regulating the expression of IL-8 and up-regulating the expression of IL-10, accelerating burned wound healing.

Influence of aerosol bioelectricity on the expression of interleukin-8 and interleukin-10 in burned rats' wound healing

Objective To discuss the influence of aerosol bioelectricity on the expression of interleukin (IL) -8 and IL-10 in wound healing of burned rats. Methods The deep Ⅱ degree scalding models were established in Sprague Dawley (SD) rats. Rats were randomly divided into experimental group (n1 =20) and control group (n2 =20). The rats in experimental group were treated with aerosol bioelectricity.Samples were collected at the first to eleventh day post-scalding. Immunohistochemistry and image analysis methods were conducted to examine the expression of IL-8 and IL-10 in both experimental and control groups. Results The average wound healing time in experimental group was 7. 00 ± 1. 15 days, and that in control group was 9. 00 ± 1. 34 days. IL-8 and IL-10 were observed mainly in polylmorphonuclear and mononuclear cells in both experimental and control groups on the 1 st day. On the third day, fibroblasts abounded, IL-8 expression was increased evidently and reached a peak. The peak value (6. 73 ± 1. 36) in experimental group was lower significantly than that in control group ( 2. 85 ± 0. 72, P ＜ 0. 01). From the 5th to 11th day, IL-8 expression was declined rapidly. IL-10 was expressed in keratode cells and had the peak value in experimental group (1. 24 ±0. 15) and control group (5. 69 ± 1. 32) on the 3rd day. IL-10 expression was declined gradually from the 5th to 11th days. The expression level of IL-10 in experimental group was significantly higher than in control group from the 3rd day to 11th days post-scalding (P＜0. 01). On the 3rd day, both IL-8 and IL-10 in experimental and control groups were expressed abundantly , and there was negative relationship between them (r = - 0. 862, P ＜ 0. 01). Conclusion Aerosol bioelectricity can indicate active cells proliferation through down-regulating the expression of IL-8 and up-regulating the expression of IL-10, accelerating burned wound healing.