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
    • 65. 发明申请
    • HIGH CONTRAST OPTOACOUSTICAL IMAGING USING NANOPARTICLES
    • 使用纳米颗粒的高对比度光学成像
    • WO2004068405A2
    • 2004-08-12
    • PCT/US2004/001707
    • 2004-01-23
    • ORAEVSKY, Alexander, A.HENRICHS, Paul, M.
    • ORAEVSKY, Alexander, A.HENRICHS, Paul, M.
    • G06T
    • A61K49/225A61B5/0059A61B5/0095A61B5/415A61B5/418B82Y15/00G01N21/1702G01N21/4795G01N21/554G01N2021/1706
    • A method of enhancing detection for a specific object in a body. A nanoparticulate is administered to the body for location in an area to be explored for detection of the object, if present. The nanoparticulate is at least partially metallic, has a formed non-spherical shape having a minimal characteristic dimension in the range from about 1 to about 3000 nanometers, and has a formed composition capable of producing thermal pressure either in the nanoparticulate or in the object greater than the object could produce in the absence of the nanoparticulate. Electromagnetic radiation is directed into the body. The electromagnetic radiation has a specific wavelength or spectrum of wavelengths in the range from 300nm to 300mm selected so that the wavelength or wavelength spectrum is longer by a factor of at least 3 than the minimum characteristic dimension of the nanoparticulate. The nanoparticulate absorbs the electromagnetic radiation more than would one or more non-aggregated spherically shaped particles of the same total volume with a composition identical to the nanoparticulate. The nanoparticulate produces an enhanced optoacoustic signal resulting from the absorption that is received and converted into an electronic signal and presented for assessment of the at least one parameter by a human or a machine.
    • 一种增强体内特定物体检测的方法。 将纳米颗粒施用于身体,用于在要被探查的区域中的位置,以检测物体(如果存在)。 纳米颗粒至少部分是金属的,具有形成的非球形形状,其具有在约1至约3000纳米范围内的最小特征尺寸,并且具有能够在纳米颗粒或物体中产生热压力的成形组合物更大 比物体在不存在纳米颗粒时可以产生。 电磁辐射被引导到体内。 电磁辐射具有选定的300nm至300mm范围内的特定波长或波长的光谱,使得波长或波长光谱比纳米颗粒的最小特征尺寸至少3倍。 纳米颗粒比一种或多种相同总体积的非聚集球形颗粒吸收电磁辐射,其组成与纳米颗粒相同。 纳米颗粒产生由接收的吸收产生的增强的光声信号,并将其转换为电子信号,并呈现用于由人或机器评估至少一个参数。
    • 69. 发明申请
    • METHODS AND DEVICES FOR ASSAYS USING ANALYTE-BINDING PARTNERS
    • 使用分析仪结合伙伴进行测定的方法和设备
    • WO0231478A3
    • 2002-09-12
    • PCT/US0128626
    • 2001-09-12
    • QUANTECH LTDWITTY THOMAS RGUSTAFSON CAROL DHAPKE JOEL H
    • WITTY THOMAS RGUSTAFSON CAROL DHAPKE JOEL H
    • G01N21/55G01N33/543G01N21/77G01N33/58
    • G01N21/554G01N21/7743G01N33/54373
    • In a device and method for determining a presence of an analyte in a sample, a first analyte-binding partner (120) is disposed on a test portion of a surface (106). The test portion is then contacted with the sample to bind the analyte (122), if present in the sample, to the first analyte-binding partner. The test portion is subsequently contacted with a second analyte-binding partner (124) to bind the second analyte-binding partner. This second analyte-binding partner also includes a catalyst (126). A substrate (128) is then brought into contact with the catalyst. The catalyst converts the substrate into a product material (130) that is then deposited on the test portion of the reflective surface. The presence of the analyte is then determined by observing a characteristic (e.g., a surface plasmon resonance) of the test portion of the surface. In at least some instances, the device can also provide information regarding the amount or concentration of analyte in the sample.
    • 在用于确定样品中分析物的存在的装置和方法中,第一分析物结合对象(120)设置在表面(106)的测试部分上。 然后将测试部分与样品接触,以将分析物(122)(如果存在于样品中)结合到第一分析物结合配偶体。 随后将测试部分与第二分析物 - 结合配偶体(124)接触,以结合第二分析物结合配偶体。 该第二分析物结合配偶体还包括催化剂(126)。 然后使基底(128)与催化剂接触。 催化剂将基材转化成产物材料(130),然后将其沉积在反射表面的测试部分上。 然后通过观察表面的测试部分的特性(例如,表面等离子体共振)来确定分析物的存在。 在至少一些情况下,该装置还可以提供关于样品中分析物的量或浓度的信息。