子宫腺肌病病灶NGF蛋白表达水平及神经纤维植入密度与患者痛经的关系研究

目的：探讨分析子宫腺肌病病灶神经生长因子（NGF）蛋白表达水平及神经纤维植入密度与患者痛经的关系。方法：选取该科2011年1月-2013年12月60例因子宫腺肌病行全子宫切除术的患者，同时选取同期因子宫肌瘤行全子宫切除术的患者62例作为对照组。对于所有患者术前予痛经视觉模拟评分法（Visual Analogue Scale，VAS）评分并测定病灶NGF的表达水平和蛋白基因产物9．5（Protein gene product9．5，PGP9．5）阳性神经纤维植入。分析病灶NGF强度和PGP9．5与痛经的相关性。结果：腺肌病疼痛组的NGF表达水平和PGP9．5阳性神经密度均显著高于对照组和腺肌病无痛组，P〈0．05。轻中度疼痛组的NGF表达水平和PGP9．5阳性神经密度显著高于无痛组，P〈0．05；重度疼痛组的NGF表达水平和PGP9．5阳性神经密度显著高于无痛组和轻中度疼痛组，P〈0．05。腺肌病患者病灶NGF强度、PGP9．5均和VAS评分具有相关性，P〈0．05。结论：子宫腺肌病病灶NGF蛋白表达水平及神经纤维植入密度与患者痛经有一定的相关性，值得进一步深入研究。

高密度多孔聚乙烯植入修复眶壁爆裂性骨折并发眼球内陷畸形术后视功能评估(英文)

背景:爆裂性骨折常见的并发症是眼球内陷,其次是复视和视力下降。由于治疗结果不甚满意和手术并发症的存在,对于修复材料和治疗方案的选择一直存在争论。目的:应用高密度多孔聚乙烯Medpor植入体薄片植入进行眶壁缺损修复,观察其对外伤性眶壁爆裂性骨折继发眼球内陷畸形的修复效果,评估术后患者的视功能恢复情况。设计:前后对照观察。单位:中国医学科学院中国协和医科大学整形外科医院创伤修复美容中心。对象:选取1996-12/2004-03中国协和医科大学整形外科医院创伤修复美容中心收治的外伤性眶壁爆裂性骨折继发眼球内陷畸形患者56例,为拳击或车祸所致,根据病史、X线片、二维和三维CT检查确诊。合并颧骨、鼻骨或其他部位骨折24例;合并复视患者34例;视力较受伤前降低35例。方法:①植入手术:全部患者沿睫毛缘下2mm平行下眶缘作3cm长的切口,于眶缘下方顺下眶缘切开骨膜,用剥离子沿内下眶壁向眶尖方向潜行剥离。暴露骨折部位后,松解嵌入上颌窦的眼球组织并使其复位,切断眶骨膜与眶骨间的粘连,可进一步显露眶下缘、眶底,使之成为骨膜下间隙,便于眶底和内下壁的移植体修复。在充分显露眶底和眶组织还纳复位后,采用高密度多孔聚乙烯Medpor植入体薄片植入进行眶壁缺损修复,植入体的大小应以大于缺损周缘2mm为宜。术中如需配合其他部位手术可一并进行。术毕用可吸收线局部适度加压包扎。术后以甘露醇、地塞米松静脉滴注来减轻眶内容物水肿,降低眶内压。②功能测评:复视:复视完全消失为治愈;有所改善但仍残留部分复视为好转;复视无改善为无效。眼球内陷:双眼球突出度相差在2mm以内为明显改善;患侧眼球较健侧内陷程度在2mm以上为无明显改善。主要观察指标:①术后患者眼球内陷矫正情况。②术后患者复视改善情况。③术后患者视力改善情况。结果:①56例患者术后眼球内陷畸形均得到明显改善。②34例复视患者中27例治愈。③35例视力下降患者中9例视力较术前有不同程度改善。无复视加重和视力下降现象。全部病例经2月～5年随访眼球内陷程度均稳定在2mm以内,无畸形复发及其他并发症发生。结论:高密度多孔聚乙烯Medpor植入体组织相容性好、并发症少、视功能恢复好,可作为眶壁骨折修复术的首选植入物。

应用多孔高密度聚乙烯植入物矫正眼眶爆裂性骨折导致的眼球内陷

目的:评价在手术治疗眼眶爆裂性骨折中应用多孔高密度聚乙烯植入物矫正眼球内陷的效果。方法:选取83例需要手术治疗的眼眶爆裂性骨折患者。术中采用多孔高密度聚乙烯植入物修复眼眶骨折并矫正眼球内陷。从眼球运动、眼球内陷程度、视力、复视及眶下神经感觉等方面对术后6个月及术前情况进行评估。结果:83例患者(83眼)中,69例术后矫正视力得到改善,14例术后早期下降,经7～10 d神经营养治疗矫正视力均达到0.8及以上;78例术后眼球内陷纠正满意,5例欠矫;79例术后眼球活动正常,4例眼球运动障碍改善欠佳;75例术后完全消除复视,8例遗留极端颞侧复视;83例术后均未出现眶下神经感觉缺失。结论:多孔高密度聚乙烯植入物可有效修复眼眶爆裂性骨折,矫正眼球内陷,长期效果安全、稳定。

铁皮石斛试管苗培养技术的研究

研究了不同量激素浓度、天然添加物及植入密度对石斛试管苗生长的影响。结果表明：使用1/2MS培养基并且在其他条件不变的情况下,当6-BA的含量在3.0 mg/L时,丛生芽数量多且有原球茎的发生 香蕉汁具有明显的壮苗和诱导芽增殖的效果 当铁皮石斛茎段植入密度为10~12个/瓶时,对其分蘖和生长有利。

High density porous polyethylene material (Medpor) as an unwrapped orbital implant

Objective: To introduce the clinical effect among patients who received an unwrapped orbital implant with high density porous polyethylene material (Medpor) after enucleation or evisceration. Methods: Retrospective analysis of a series of 302 patients with anophthalmia who underwent placement of an unwrapped high density porous polyethylene orbital implant. We compared the patients (n=180) who accepted primary implant placement with those (n=122) who accepted secondary implant placement. Parameters evaluated included: age at time of surgery, date of surgery, sex, implant type and size, surgery type, the surgical procedure and technique performed, and complications. Results: The time of follow-up ranged from 2.0 to 58.0 months (mean 32.5 months). A total of 5 of 302 (1.66%) cases had documented postoperative complications. The following problems were noted after surgery: implant exposure, 3 patients (0.99%); implant removed due to orbital infection, 1 patient (0.34%); ptosis, 1 patient (0.34%). There were no significant complications observed in other 297 cases and all implants showed good orbital mo- tility. The clinical effect of primary implant placement is better than that of secondary placement. Conclusion: High density porous polyethylene material can be used successfully as an unwrapped orbital implant in anopthalmic socket surgery with minimal complications. The material is well tolerated, nonantigenic and has low rate of infection and migration.

31例单纯性眶壁骨折手术治疗效果观察

目的评价应用多孔高密度聚乙烯板(Medpor)植入手术治疗单纯性眶壁骨折的效果观察。方法单纯性眶壁骨折患者31例,应用多孔高密度聚乙烯板植入进行眶壁骨折复位术治疗。术前及术后CT检查对比眶壁骨折恢复情况及眼球突出度情况。结果复视完全恢复患者26例(占83.9%),所有病例术后眶壁成功完成复位,无术后严重并发症发生,有效改善眼球内陷、复视现象。结论应用多孔高密度聚乙烯板植入手术治疗单纯性眶壁骨折是安全、有效且稳定的治疗方法。

Short-term Intensive Sustainable Restoration of Grasslands and Prairies Invaded with High Densities of Nitrogen-fixing Weeds： A Test with the Invasive Plant Lespedeza Cuneata

This study examines a management strategy for restoring grassland and prairie communities that have become degraded due to high density stands of invasive nitrogen-fixing plants. The novel management applications minimize the use of herbicides and maximize the competitive interactions of native species. The management method includes two seasons of application of organic fertilizer （4-1-4）, an initial herbicide （Pasture Gard, Dow Agro） application, and mowing, where mowing was a necessary treatment to control secondary growth in prairie habitats, to control high density patches of Lespedeza （L.） Cuneata, in a completely randomized factorial experiment. The herbicide was effective in reducing L. Cuneate stem density 0 stems/m^2 from an initial 88 stems/m^2 with cover reduced to 0% from 16%. The fertilizer only treatment reduced L. Cuneata percent cover to 6% from initial cover of 16%, but did not reduce the number of stems. The management strategy is an effective fast step in restoring a native prairie invaded by a nitrogen-fixing plant.