epidermic adj.【生物學】表皮的,外皮的。
adj. 【生物學】表皮的,外皮的。 “cells epidermic“ 中文翻譯: 表皮細胞“epidermal; epidermic“ 中文翻譯: 表皮的;外皮的“epidermic application“ 中文翻譯: 皮上適用“epidermic cell“ 中文翻譯: 表皮細胞“epidermic cells“ 中文翻譯: 表皮細胞; 皮細胞“epidermic fold“ 中文翻譯: 表層褶皺“epidermic graft“ 中文翻譯: 表皮移植片; 雷維爾丹氏移植物“epidermic grafting“ 中文翻譯: 表皮移植“epidermic keratoconjunctivitis“ 中文翻譯: 流行性角膜結膜炎“epidermic medication“ 中文翻譯: 皮上投藥法“epidermic method“ 中文翻譯: 表皮法“epidermic pearls“ 中文翻譯: 上皮珠“epidermic tissue“ 中文翻譯: 表皮組織“epidermic wart“ 中文翻譯: 表皮疣“epidermic growth factor“ 中文翻譯: 表皮生長因子“hereditary benign epidermic cell“ 中文翻譯: 遺傳性良性表皮細胞“papillary epidermic cells“ 中文翻譯: 乳頭狀突起表皮細胞“epidermi“ 中文翻譯: 表皮“epidermatous“ 中文翻譯: 表皮的“epidermatoplasty“ 中文翻譯: 表皮成形術“epidermatomycosis“ 中文翻譯: 表皮霉菌病; 皮真菌病“epidermatoid“ 中文翻譯: 表皮樣的
epidermis |
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There are many adaptive changes in the two research subjects ( artemisia . songarica schrenk . and seriphidium . santolinum ( schrenk ) polijak . ) in morphology and anatomy , such as with the increase of the daily age , the root - shoots ratio increased ; the root became stronger ; the ratio of leaf volume and leaf area increased ; the volume of epidermic cell decreased ; the cut - icle and phellem layer on the surface of root thickened . stoma caved in leaf ; epidermal hair of leaf and stem well - developed , palisde tissue developed well , the cell gap decreased ; the spongy tissue disappeared ; leaf is kinds of isolateralthat is the typical xeromorphic structure ; crystal cell and fibric cell increased ; conducting tissue and mechanical tissue developed well ; bundle sheath appeared 實驗研究的兩種菊科( compositae )植物(準噶爾沙蒿( artemisiasongaricaschrenk )和沙漠絹蒿( seriphidiumsantolinum ( schrenk ) poljak . ) ) ,形態解剖方面的變化表現為:隨日齡增加,根長/株高比值日益增大;根系逐漸發達;體積與葉面積比逐漸增大;表皮細胞體積變小;角質層增厚;根外部出現加厚的木栓層;氣孔下陷;葉、莖部的表皮毛密布,柵欄組織日益發達;而細胞間隙日漸變小;海綿組織逐漸消失;葉面結構常為典型旱生結構? ?等葉面;晶細胞及纖維細胞數目增多;輸導組織、機械組織日漸發達;具有維管束鞘等等。 |
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Section two the evaluation of biocompatibility of the acellular dermal matrix by the method of cell culture . the new born rat ' s epdermic cells were cultured with the acellular dermal matrix together as experiment group , while the epdermic cell were cultured simply as control . 24 hours later , under the invert microscope , the epidermic cells anchored well and transparent flat cells were observed in both groups . 7 days later , both cultured cells were taked out and fixed in 95 % ethanol , stained with hematoxylin and were observed under light microscope . many cleaved cells were observed in both groups . during cell culture , no pathogenic microganism was observed . so we considered the acellular dermal matrix was aseptic and had good biocompatibility . section three subdermal implantation of the acellular dermal matrix . 24 rats were used in the experiments . a piece of acellular dermal matrix ( 1 . 5 x 1 . 5cm2 ) was implanted beneath the dorsum skin flaps of each rat , 1 week , 2 weeks , 3 weeks and 4 weeks after implantation , 6 pieces of acellular dermal matrix were harvested and the size of implanted acellular dermal matrix were measured , the sections were used for he staining and observed under light microscope . the result were as folio wing : 1 - 2 weeks after implantation , the acellular dermal matrix began to adhere to the tissue around and turned red gradually ; 3 - 4weeks after implantation , the acellular dermal matrix adhered closely to the tissue around and could be recognized easily , 1 - 3 weeks after implantation , the size of implanted acellular dermal matrix had no statistical difference ( p > 0 . 05 ) . 4 weeks after implantation implanted acellular dermal matrix contracted ( p < 0 . 05 ) . under light microscope , l - 2weeks after implantation , the fibroblast cells infiltrated the acellular dermal matrix and a small amount endothelial cells of vessel and lympho - histiocytic cells infiltrated the acellular dermal matrix . 3 - 4 weeks after implantation , infiltrating blood vessels were evident . so we think that the acellular dermal matrix had low immunological reactions and could induce the infiltration of fibroblast macrophage cell and the endothelial cells of vessel 結果如下:皮下包埋卜周者,無細胞真皮基質漸與周圍組織粘附,顏色由蒼白轉紅;皮下包埋3周者,無細胞真皮基質與周圍組織緊密枯附,盾晰葉辯;術后卜周,包埋的基質面積變化較包埋前無統計學差異o川0引,術后4周包埋的無細胞真皮基質面積較包埋前縮小j刃刀5 ) 。光鏡下術后卜周,宿主的淋巳組織細胞、成纖維細胞浸入生長,釉附在膠原纖維上,少量血管內皮細胞浸入基質;術后34周,無細胞真皮基質內較多的血管形成,故可認為無細胞真皮基質免疫原性低,能誘導宿主的成纖維細胞、巨噬細胞浸入生長,為一種新型的真皮替代物。第四部分無細胞真皮基質與自體斷層皮片復合移棺的研究, sd大鼠10只,在其背部卜方造成全厚皮膚缺損的創面 |
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Type 1 pili is the important virulence factors on the e . coli in fection in chicken . through the adhering of pili , e . coli adhered on the epidermic cell of aspiratory tract , which was the first step of invading in host 1型菌毛是雞源致病性大腸桿菌的重要毒力因子,在致病過程中介導細菌吸附于雞呼吸道粘膜上皮細胞完成入侵的第一步。 |
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For example , we have found the clustering of egfr ( epidermic growth factor receptor ) and tnfr ( tumor necrosis factor receptor ) and the activation of camp - pka - creb and jnk / sapk pathways after mnng treatment 例如細胞表面受體如表皮生長因子受體、腫瘤壞死因子受體發生聚簇,細胞信號轉導通路camp kacgyb和jnk sapk被激活。 |
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Intervention of two different digestion methods on the expression of surface antigen alpha 6 integrin and transferrin receptor in epidermic cells 6整合素和轉鐵蛋白受體表達的干預 |
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The regulative effect of egf on proliferation and apotosis of epidermic cells 表皮生長因子對表皮細胞增殖和凋亡的調控作用 |