镰刀菌所致皮肤感染的文献回顾

镰刀菌主要为植物致病菌,但也可引起严重人类感染。镰刀菌病临床表现形式多样,本文主要综述相关的皮肤感染,分为局限性皮肤感染及播散性感染,诊断多较困难。由于该属真菌对抗真菌药物存在天然耐药,播散性镰刀菌病死亡率可达80%-90%。本文对Medline和中文文献数据库中的相关文献进行了系统查阅和分析,综合归纳了镰刀菌所致皮肤感染的致病种、地域分布、危险因子、临床表现形式、药物敏感性及其诊疗方案等,该综述对全面了解镰刀菌病的特征及对临床医师对本病的诊断具有重要的意义。     

不同剂量熊果酸干预糖尿病小鼠视网膜病变的作用及机制研究

目的:探究不同剂量熊果酸(UA)干预糖尿病小鼠视网膜病变的作用及机制。方法:选取雄性健康C57BL/6小鼠60只,其中50只按50 mg/kg的剂量一次性往小鼠尾静脉注射新鲜配置的四氯嘧啶生理盐水溶液构建小鼠糖尿病视网膜病变模型,随机分为5组,每组10只,分别为模型组、阳性对照组(小鼠玻璃体注射3μL 40 mg/m L的曲安奈德),低剂量UA干扰组(小鼠玻璃体注射3μL剂量为0.5μg/μL的UA)、中剂量UA干扰组(小鼠玻璃体注射3μL剂量为1.0μg/μL的UA),高剂量UA干扰组(小鼠玻璃体注射3μL剂量为2.0μg/μL的UA),余下10只小鼠作为正常对照组。观察各组小鼠对胰岛素敏感性、视网膜内糖代谢情况、小鼠视网膜神经节细胞(RGCs)凋亡情况,比较各组小鼠视网膜组织中血管内皮生长因子(VEGF)、环氧化酶-2(COX-2)、基质金属蛋白酶2(MMP-2)蛋白及其mRNA的表达情况。结果:建模后,正常对照组胰岛素抵抗指数(HOMA-IR)、视网膜含糖量、葡萄糖转运体-1(GLUT-1)与葡萄糖转运体-3(GLUT-3)含量、RGCs凋亡率、视网膜组织中VEGF、COX-2、MMP-2蛋白及其mRNA的表达量低于模型组(P0.05);经干扰后,阳性对照组、不同剂量UA干扰组HOMA-IR、视网膜含糖量、GLUT-1、GLUT-3的含量、RGCs凋亡率、视网膜组织中VEGF、COX-2、MMP-2蛋白及其mRNA的表达量低于模型组(P0.05),且随UA干扰剂量的升高而降低(P0.05)。结论:UA能够降低HOMA-IR和视网膜糖代谢能力,抑制RGCs的凋亡,对VEGF、COX-2、MMP-2蛋白及其mRNA的表达具有一定的抑制作用,高剂量UA对糖尿病小鼠视网膜病预防治疗效果较好。     

2017年至2019年阜阳某三级医院常见病原菌分布和细菌耐药性分析

摘要 目的：分析本院2017年~2019年常见病原菌分布和细菌耐药性情况,以指导临床用药。方法：将送检标本中的病原菌进行鉴定,参照CLSI 2017版判读药敏结果。结果：收集2017年7月~2019年6月临床分离菌共2292株,其中革兰阴性菌1862株,占81.2%,革兰阳性菌430株,占18.8%。大肠埃希菌占比最高,占25.7%。主要分离于尿液标本（55.9%）、血液标本（12.2%）和痰液标本（10.8%）。金黄色葡葡球菌中MRSA（耐甲氧西林金黄色葡萄球菌）和凝固酶阴性葡萄球菌中耐甲氧西林凝固酶阴性葡萄球菌（MRCNS）的检出率分别为61.4%和74.4%。MRSA主要分布于普外科、神经外科和骨科。未检出替考拉宁、利奈唑胺或万古霉素耐药的葡萄球菌。肠球菌属中屎肠球菌对测试药物的耐药率均较高。16株肺炎链球菌,其中3株对青霉素耐药。肠杆菌科细菌中,肺炎克雷伯菌对碳青霉烯耐药率为14.5%。鲍曼不动杆菌对碳青霉烯的耐药率为76.9%。铜绿假单胞菌为19.3%。14株流感嗜血杆菌中,β内酰胺酶检出率为35.7%（5/14）。结论：2017年~2019年我院常见病原菌以革兰阴性杆菌为主,病原菌的耐药性较高,临床应加强科室管理,合理应用抗生素,防耐药菌株的流行,降低医院感染的发生风险。     

Reduced caloric intake and periodic fasting independently contribute to metabolic effects of caloric restriction

Caloric restriction (CR) has positive effects on health and longevity. CR in mammals implements time‐restricted (TR) feeding, a short period of feeding followed by prolonged fasting. Periodic fasting, in the form of TR or mealtime, improves metabolism without reduction in caloric intake. In order to understand the relative contribution of reduced food intake and periodic fasting to the health benefits of CR, we compared physiological and metabolic changes induced by CR and TR (without reduced food intake) in mice. CR significantly reduced blood glucose and insulin around the clock, improved glucose tolerance, and increased insulin sensitivity (IS). TR reduced blood insulin and increased insulin sensitivity, but in contrast to CR, TR did not improve glucose homeostasis. Liver expression of circadian clock genes was affected by both diets while the mRNA expression of glucose metabolism genes was significantly induced by CR, and not by TR, which is in agreement with the minor effect of TR on glucose metabolism. Thus, periodic fasting contributes to some metabolic benefits of CR, but TR is metabolically different from CR. This difference might contribute to differential effects of CR and TR on longevity.     

Modeling of exposure to mercury in different environmental media over a 30-year period: A case study of Shimen reservoir,northern Taiwan

Abstract

Mercury is affected by the movement mechanisms in the environmental media and is normally present in dry and wet depositions and surface and water vapor, among other things. The rapid growth of mercury-related industries in the past two decades reflects the result of its increased use in water sources such as in the Shimen reservoir, northern Taiwan. Consequently, residents living nearby are exposed to mercury almost every day. In light of the effects of continued exposure to the deleterious properties of mercury, this study provides modeling results of the atmosphere, soil, and freshwater over a 30-year period (2016–2046). The associated influences in the media and mercury contamination during this period will be determined via sensitivity analysis. Finally, the results of this study facilitate the assessment of potential health hazards associated with mercury inhalation and the ingestion of MeHg-contaminated fish. The mean daily dose (mg/kg) and hazard quotient (HQ) in the children and adult were 3.52E-13 (HQ = 4.10E-09) and 1.19E-13 (HQ = 1.39E-09) for Hg inhalation and 6.38E-05 (HQ = 6.38E-01) and 4.47E-05 (HQ = 4.47E-01) for ingestion of MeHg+-contaminated fish.     

Traits mediate drought effects on wood carbon fluxes

CO₂ fluxes from wood decomposition represent an important source of carbon from forest ecosystems to the atmosphere, which are determined by both wood traits and climate influencing the metabolic rates of decomposers. Previous studies have quantified the effects of moisture and temperature on wood decomposition, but these effects were not separated from the potential influence of wood traits. Indeed, it is not well understood how traits and climate interact to influence wood CO₂ fluxes. Here, we examined the responses of CO₂ fluxes from dead wood with different traits (angiosperm and gymnosperm) to 0%, 35%, and 70% rainfall reduction across seasonal temperature gradients. Our results showed that drought significantly decreased wood CO₂ fluxes, but its effects varied with both taxonomical group and drought intensity. Drought‐induced reduction in wood CO₂ fluxes was larger in angiosperms than gymnosperms for the 35% rainfall reduction treatment, but there was no significant difference between these groups for the 70% reduction treatment. This is because wood nitrogen density and carbon quality were significantly higher in angiosperms than gymnosperms, yielding a higher moisture sensitivity of wood decomposition. These findings were demonstrated by a significant positive interaction effect between wood nitrogen and moisture on CO₂ fluxes in a structural equation model. Additionally, we ascertained that a constant temperature sensitivity of CO₂ fluxes was independent of wood traits and consistent with previous estimates for extracellular enzyme kinetics. Our results highlight the key role of wood traits in regulating drought responses of wood carbon fluxes. Given that both climate and forest management might extensively modify taxonomic compositions in the future, it is critical for carbon cycle models to account for such interactions between wood traits and climate in driving dynamics of wood decomposition.     

沙地樟子松人工林土壤理化性质与微生物生物量的动态变化

为揭示不同林龄沙地樟子松人工林土壤理化性质和微生物生物量的动态和相互关系,以毛乌素沙地、科尔沁沙地和呼伦贝尔沙地不同林龄樟子松人工林为对象,分析土壤理化性质、土壤微生物生物量碳和微生物生物量氮变化规律。结果表明:樟子松人工林土壤理化性质随林龄增加在不同沙地中表现不同,毛乌素沙地土壤容重和养分含量明显降低,科尔沁沙地土壤孔隙度和养分含量明显升高,呼伦贝尔沙地土壤养分则呈现先增加后降低趋势。与土壤理化性质变化趋势类似,毛乌素沙地樟子松人工林土壤微生物生物量氮随着林龄的增加而降低,科尔沁沙地土壤微生物生物量氮随着林龄的增加而升高,呼伦贝尔沙地土壤微生物生物量氮随着林龄的增加呈先增加而后降低趋势。影响毛乌素沙地、科尔沁沙地和呼伦贝尔沙地土壤微生物生物量碳、氮的主要因子分别是硝态氮、铵态氮和有机质含量。毛乌素与科尔沁沙地樟子松人工林主要限制因子为土壤氮,而呼伦贝尔沙地樟子松受土壤有机碳限制较强。     

松栎林天然更新模拟与不确定性分析

森林天然更新的复杂性和不确定性是森林生态系统动态预测中的关键问题。本研究引入贝叶斯技术和全局敏感性分析,构建基于竞争、气候和地形3类因子的秦岭松栎林天然更新模型。备选模型形式以泊松(Poisson)模型、负二项(negative binomial,NB)模型、零膨胀泊松(zero-inflated Poisson,ZIP)模型和零膨胀负二项(zero-inflated negative binomial,ZINB)模型为基础。同时,根据模型参数传递的不确定性量化分析结果,阐释影响森林更新小概率事件的主导因子。结果表明: ZINB模型在油松和锐齿栎更新模拟中均优于其他模型。林分总断面积、光截留、坡位和生长季最低温是影响松栎林中油松天然更新的最关键因子;而林分总断面积、坡向与海拔的组合、年均温和最热季节降水量则是影响松栎林中锐齿栎天然更新的关键因子。油松更新模拟中,各类因子对模型输出的不确定性贡献率从小到大依次为: 竞争因子(25%)＜气候因子(29%)＜地形因子(46%);锐齿栎更新模拟中为: 气候因子(12%)＜竞争因子(24%)＜地形因子(64%)。油松天然更新数量对生长季最低温和最干季节降水量为正响应,对最干季节均温为负响应;锐齿栎天然更新数量对年均温、生长季最低温和最热季节降水量为正响应,对最干季节均温为负响应。基于贝叶斯技术的ZINB模型可以量化森林更新的影响因子,并解释参数传递的不确定性,是预测森林天然更新的有力工具。     

中国森林生态系统土壤呼吸温度敏感性空间变异特征及影响因素

土壤呼吸的温度敏感性(Q₁₀)是陆地碳循环与气候系统间相互作用的关键参数。尽管已有大量关于不同类型森林Q₁₀季节和年际变化规律的研究, 但是对Q₁₀在区域尺度的空间变异特征及其影响因素仍认识不足, 已有结果缺乏一致结论。该研究通过整合已发表论文, 构建了中国森林生态系统年尺度Q₁₀数据集, 共包含399条记录、5种森林类型(落叶阔叶林(DBF)、落叶针叶林(DNF)、常绿阔叶林(EBF)、常绿针叶林(ENF)、混交林(MF))。分析了不同森林类型Q₁₀的空间变异特征及其与地理、气候和土壤因素的关系。结果显示, 1) Q₁₀介于1.09到6.24之间, 平均值(±标准误差)为2.37 (± 0.04), 且在不同森林类型之间无显著差异; 2)当考虑所有森林类型时, Q₁₀随纬度、海拔、土壤有机碳含量(SOC)和土壤全氮含量(TN)的增加而增大, 随经度、年平均气温(MAT)、平均年降水量(MAP)的增加而减小。气候(MAT、MAP)和土壤(SOC、TN)因素间存在相互作用, 共同解释了33%的Q₁₀空间变异, 其中MAT和SOC是Q₁₀空间变异的主要驱动因素; 3)不同类型森林Q₁₀对气候和土壤因素的响应存在差异。在DNF中Q₁₀随MAP的增加而减小, 而其他类型森林中Q₁₀与MAP无显著相关性; 在EBF、DBF、ENF中Q₁₀随TN的增加而增大, 但Q₁₀对TN的敏感性在EBF中最高, 在ENF中最低。这些结果表明, 尽管Q₁₀有一定的集中分布趋势, 但仍有较大范围的空间变异, 在进行碳收支估算时应注意尺度问题。Q₁₀的主要驱动因素和Q₁₀对环境因素的响应随森林类型而变化, 在气候变化情景下, 不同森林类型间Q₁₀可能发生分异。因此, 未来的碳循环-气候模型还应考虑不同类型森林碳循环关键参数对气候变化的响应差异。     

增温对青藏高原高寒草甸呼吸作用的影响

生态系统呼吸(ER)和土壤呼吸(SR)是草地生态系统碳排放的关键环节,其对气候变化极为敏感。高寒草甸是青藏高原典型的草地生态系统,其呼吸作用对气候变化的响应对区域碳排放具有重要的影响。以高寒草甸生态系统为对象,于2012—2016年采用模拟增温的方法研究呼吸作用对增温的响应。结果表明:增温对高寒草甸ER的影响存在年际差异,2013年和2014年增温对ER无显著影响,其他年份显著增加ER(P0.05),综合5年结果,平均增幅达22.3%。增温显著促进了高寒草甸SR(P0.05),较对照处理5年平均增幅高达67.1%;增温总体上提高了SR在ER中的比例(P0.05),最高增幅达到59.9%。ER和SR与土壤温度有显著的正相关关系(P0.05),与土壤水分没有显著的相关关系(P0.05)。对照样地中,土壤温度分别能解释33.0%和18.5%的ER和SR变化。在增温条件下,土壤温度可以解释20.5%和13.0%的ER和SR变化。在增温条件下,SR的温度敏感性显著增加,而ER的温度敏感性变化较小,导致SR的比重进一步增加。因此,在未来气候变暖条件下,青藏高原高寒草甸生态系统碳排放,尤其是土壤碳排放有可能进一步增加,土壤碳流失风险增加。