会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明申请
    • Identification of Pathogens
    • 鉴定病原体
    • US20090291854A1
    • 2009-11-26
    • US12307524
    • 2007-07-05
    • Herbert Wiesinger-MayrRudolf PichlerLevente BodrossyChrista Nohammer
    • Herbert Wiesinger-MayrRudolf PichlerLevente BodrossyChrista Nohammer
    • C40B30/02C40B30/04C40B40/08
    • C12Q1/689C12Q1/6837C12Q1/6895C12Q2600/16G16B25/00
    • Disclosed is a method for identification of microbial pathogens in a body fluid sample comprising the following steps: a) providing a body fluid sample; b) lysing the microbial pathogens and performing a nucleic acid amplification reaction on the microbial DNA encoding 16S or 18S rRNA wherein or whereafter the amplified nucleic acids are labelled; c) contacting the labelled amplified nucleic acids of step b) with a microarray comprising on defined areas on the microarray's surface immobilised probes for microbial DNA encoding 16S or 18S rRNA from microbial pathogens; d) detecting the binding of one or more species of the labelled amplified nucleic acids to a probe by detecting a labelled amplified nucleic acid being specifically bound to the microarray; and e) identifying a microbial pathogen in the body fluid sample by correlating the detected binding of the labelled amplified nucleic acids with the defined areas of the immobilised probes for microbial DNA encoding 16S or 18S rRNA from microbial pathogens.
    • 公开了一种用于鉴定体液样品中微生物病原体的方法,包括以下步骤:a)提供体液样品; b)裂解微生物病原体并对编码16S或18S rRNA的微生物DNA进行核酸扩增反应,其中扩增的核酸被标记; c)将步骤b)的标记的扩增的核酸与包含在微阵列表面上的限定区域上的微阵列接触,用于从微生物病原体编码16S或18S rRNA的微生物DNA的固定化探针; d)通过检测与微阵列特异性结合的标记的扩增核酸,检​​测一种或多种标记的扩增核酸与探针的结合; 和e)通过将检测到的标记的扩增的核酸的结合与来自微生物病原体的编码16S或18S rRNA的微生物DNA的固定化探针的限定区域相关联来鉴定体液样品中的微生物病原体。
    • 5. 发明申请
    • Apparatus For Increasing The Reaction Efficiency, Especially The Binding Efficiency, Between Molecules And Molecular Moieties
    • 用于增加反应效率的装置,特别是分子和分子之间的结合效率
    • US20090325822A1
    • 2009-12-31
    • US12296524
    • 2007-04-11
    • Rudolf HeerChrista NoehammerJoerg SchotterMoritz EggelingRudolf PichlerMarkus Mansfeld
    • Rudolf HeerChrista NoehammerJoerg SchotterMoritz EggelingRudolf PichlerMarkus Mansfeld
    • C40B60/00
    • B01F13/0809B01F13/0059B01L3/5027
    • An apparatus for enhancing the contact frequency between two reactants capable of binding to one another, preferably between an analyzer molecule and an analyte molecule, especially for enhancing the binding effectiveness in bioanalysis arrays with the aid of micro- or nanomagnetic particles (75) set in motion in a controlled manner in the fluid reaction medium by means of magnetic fields generated by variably feedable electromagnets (3, 2, 20) arranged on both sides of the reaction fluid film. On one side of a reaction fluid film, especially of a microscope slide (4) comprising the reactants (63), the reaction liquid (70) comprising the reactants (73) and preferably a glass plate (5) covering the microbioanalysis array (6), is arranged close to a two-dimensional matrix (20) having a multitude of miniature or millimagnetic coils (2) feedable individually with magnetization current of variable strength and/or voltage as a function of time—corresponding to a time-dependent variable magnetization pattern desired in each case—and, on the other side of the reaction vessel, especially the microscope slide (4) with the (micro)bioanalysis array (6), in whose vicinity is positioned only one magnetic coil (3) likewise feedable with variable magnetization current and whose magnetic field permeates the entire reaction vessel, especially the microbioanalysis array (6).
    • 一种用于增强能够彼此结合的两种反应物之间的接触频率的装置,优选在分析器分子和分析物分子之间,特别是借助于设置在微生物或纳米磁性颗粒中的增强生物分析阵列的结合效果 通过设置在反应流体膜两侧的可变输入电磁体(3,2,20)产生的磁场,在流体反应介质中以受控的方式运动。 在反应流体膜的一侧,特别是包含反应物(63)的显微镜载片(4)的一侧,包含反应物(73)的反应液(70)和优选覆盖微生物分析阵列(6)的玻璃板(5) )布置成靠近二维矩阵(20),该二维矩阵(20)具有多个微型或微电磁线圈(2),该二维矩阵能够单独地馈送作为时间的函数的可变强度和/或电压的磁化电流 - 对应于时间因变量 在每种情况下都需要磁化图案,并且在反应容器的另一侧,特别是具有(微)生物分析阵列(6)的显微镜载玻片(4),其附近仅定位一个电磁线圈(3),同样可进给 具有可变的磁化电流并且其磁场渗透整个反应容器,特别是微量分析阵列(6)。
    • 7. 发明授权
    • Process for monitoring and controlling the quality of rolled products from hot-rolling processes
    • 用于监控和控制热轧工艺轧制产品质量的工艺
    • US06430461B1
    • 2002-08-06
    • US09302577
    • 1999-04-30
    • Josef AndorferDietmar AuzingerRudolf Pichler
    • Josef AndorferDietmar AuzingerRudolf Pichler
    • G06F1900
    • G05B17/02B21B37/00C21D8/00C21D11/00
    • Process to monitor and control the quality of rolled products from hot-rolled processes which produce products such as sheets, rods, etc., from input stock such as slabs, billets, etc. The process estimates in advance the expected material properties of the end product at each step of the hot-rolling production process. The process further provides that conditions, such as temperature, reduction depth, etc., are detected on-line throughout the entire rolling process and from the values obtained, via interrelated physical—metallurgical and/or statistical models describing the whole rolling process, the mechanical/technical material properties to be expected, particularly the yield point, the tensile strength and the breaking elongation point of the rolled product, are calculated. On-line detection of the actual and momentary production conditions is necessary to allow the material properties to always be estimated in advance.
    • 监控和控制轧制产品的质量的过程,这些轧制产品从生产诸如板材,坯料等输入材料的产品(例如板材,棒材等)的热轧工艺中。该工艺预先提前终了预期的材料性能 产品在热轧生产过程的每个步骤。 该方法进一步提供了在整个轧制过程中在线检测诸如温度,还原深度等的条件,以及通过描述整个轧制过程的相互关联的物理 - 冶金和/或统计模型所获得的值, 计算预期的机械/技术材料性能,特别是轧制品的屈服点,拉伸强度和断裂伸长点。 在线检测实际和瞬间的生产条件是必要的,以使材料属性能够提前估计。