Advanced functional biocompatible polymeric matrix containing nano-compartments
    3.
    发明申请
    Advanced functional biocompatible polymeric matrix containing nano-compartments 有权
    含有纳米隔室的高级功能生物相容性聚合物基质

    公开(公告)号:US20080254104A1

    公开(公告)日:2008-10-16

    申请号:US12077173

    申请日:2008-03-17

    IPC分类号: A61K9/70 A61P17/02

    摘要: The present invention provides a novel biomaterial which is a hybrid, self-assembling biopolymeric networked film that is functionalized through hydrophobic interactions with vesicles loaded with bioactive agents. The biomaterial compound is a polymeric network of hydrophobically modified chitosan scaffolds that is taken from solution and formed as a solid film. This solid state film is capable of hydrophobic interactions with the functionalized vesicles. The vesicles include one or more lamellar structures forming one or more nano-compartments that are capable of containing similar or alternative active moieties within. Use of the film results in a degradation of the chitosan scaffold thereby releasing the active moieties within the vesicles from the scaffold. Application of the current invention occurs through various delivery mechanisms and routes of administration as will be described herein.

    摘要翻译: 本发明提供了一种新型生物材料,其是通过与装载有生物活性剂的囊泡的疏水相互作用而官能化的混合的,自组装的生物聚合物网状膜。 生物材料化合物是从溶液中取出并形成为固体膜的疏水改性壳聚糖支架的聚合物网络。 该固态膜能够与功能化囊泡疏水相互作用。 泡囊包括形成一个或多个能够在其内含有相似或替代活性部分的纳米隔室的一个或多个层状结构。 膜的使用导致壳聚糖支架的降解,从而从支架中释放囊泡内的活性部分。 如本文所述,本发明的应用通过各种递送机制和给药途径进行。

    Advanced functional biocompatible polymeric matrix containing nano-compartments
    4.
    发明授权
    Advanced functional biocompatible polymeric matrix containing nano-compartments 有权
    含有纳米隔室的高级功能生物相容性聚合物基质

    公开(公告)号:US09066885B2

    公开(公告)日:2015-06-30

    申请号:US12077173

    申请日:2008-03-17

    摘要: The present invention provides a novel biomaterial which is a hybrid, self-assembling biopolymeric networked film that is functionalized through hydrophobic interactions with vesicles loaded with bioactive agents. The biomaterial compound is a polymeric network of hydrophobically modified chitosan scaffolds that is taken from solution and formed as a solid film. This solid state film is capable of hydrophobic interactions with the functionalized vesicles. The vesicles include one or more lamellar structures forming one or more nano-compartments that are capable of containing similar or alternative active moieties within. Use of the film results in a degradation of the chitosan scaffold thereby releasing the active moieties within the vesicles from the scaffold. Application of the current invention occurs through various delivery mechanisms and routes of administration as will be described herein.

    摘要翻译: 本发明提供了一种新型生物材料,其是通过与装载有生物活性剂的囊泡的疏水相互作用而官能化的混合的,自组装的生物聚合物网状膜。 生物材料化合物是从溶液中取出并形成为固体膜的疏水改性壳聚糖支架的聚合物网络。 该固态膜能够与功能化囊泡疏水相互作用。 泡囊包括形成一个或多个能够在其内含有相似或替代活性部分的纳米隔室的一个或多个层状结构。 膜的使用导致壳聚糖支架的降解,从而从支架中释放囊泡内的活性部分。 如本文所述,本发明的应用通过各种递送机制和给药途径进行。

    ELECTROADDRESSING AND IN-FILM BIOPROCESSING USING STIMULI-RESPONSIVE HYDROGEL-FORMING POLYMERS
    5.
    发明申请
    ELECTROADDRESSING AND IN-FILM BIOPROCESSING USING STIMULI-RESPONSIVE HYDROGEL-FORMING POLYMERS 审中-公开
    使用刺激性水凝胶形成聚合物进行电加工和膜内生物处理

    公开(公告)号:US20120103822A1

    公开(公告)日:2012-05-03

    申请号:US13266433

    申请日:2010-04-27

    IPC分类号: C25D9/02 G01N33/53 C12N13/00

    摘要: Methods for the generation of hydrogels formed by electrodeposition of an electroaddressable polymer are described. The hydrogels may contain one or more cell populations electroaddressed or electroaddressable to a location within the hydrogel and where the cells of the cell populations are entrapped by the hydrogel and are capable of expansion within the hydrogel and may be releasable from the hydrogel. Further provided are electroaddressable polysaccharide blends for the in-film expansion of a cell population, allowing probing of the cells and formation of immunocomplexes. Further provided are methods of using hydrogels containing electroaddressed or electroaddressable cell populations in in-film bioprocessing methods such as cell-based biosensing, protein-based biosensing, and in studies of cell signaling.

    摘要翻译: 描述了通过电沉积聚合物电解形成的水凝胶的产生方法。 水凝胶可以含有一个或多个电解地址或电可寻址到水凝胶内的位置的细胞群,并且其中细胞群的细胞被水凝胶包埋并且能够在水凝胶内膨胀并且可以从水凝胶中释放。 还提供了用于细胞群体的膜内扩增的电可寻址多糖共混物,允许细胞的探查和免疫复合物的形成。 还提供了在膜内生物处理方法如基于细胞的生物传感,基于蛋白质的生物传感和细胞信号传导研究中使用含有电解或电可寻址细胞群的水凝胶的方法。

    CHITOSAN-COATED WIRES FOR BIOSENSING
    6.
    发明申请
    CHITOSAN-COATED WIRES FOR BIOSENSING 失效
    用于生化的CHITOSAN涂层线

    公开(公告)号:US20110217785A1

    公开(公告)日:2011-09-08

    申请号:US13122403

    申请日:2009-10-02

    CPC分类号: G01N33/54393

    摘要: A method of forming a bioelectronic device including a protein on an electrically conductive substrate, by electro-depositing aminopolysaccharide chitosan on the substrate while applying a cathodic voltage to the substrate, to form an aminopolysaccharide chitosan film thereon, applying an anodic voltage to the substrate in the presence of NaCl to activate the aminopolysaccharide chitosan film so that it is reactive with protein. The method also optionally includes reacting the aminopolysaccharide film, after activation thereof, with the protein, so that the protein assembles on and is coupled to the substrate, thereby forming a bioelectronic device. The protein can include single or multiple protein species, and including biosensing proteins. Additional methods include biosensing of electrochemically active compounds either present in a sample or generated during a biological recognition event and devices useful in such methods. The resulting devices are useful as sensors in hand-held devices, textiles, garments and the like.

    摘要翻译: 在导电性基材上形成包含蛋白质的生物电子器件的方法,通过在衬底上电沉积氨基多糖壳聚糖,同时向衬底施加阴极电压,在其上形成氨基多糖壳聚糖膜,在衬底上施加阳极电压 NaCl的存在来激活氨基多糖壳聚糖膜,使其与蛋白质反应。 该方法还可选地包括使氨基多糖膜在其活化后与蛋白质反应,使得蛋白质组装在基底上并与基底结合,从而形成生物电子器件。 蛋白质可以包括单个或多个蛋白质物质,并且包括生物传感蛋白质。 另外的方法包括存在于样品中或在生物识别事件期间产生的电化学活性化合物的生物传感以及在这些方法中有用的装置。 所得到的装置可用作手持装置,纺织品,服装等中的传感器。

    Fibrous assemblies for antibody presentation, and multiplexed antigenic analysis using same
    10.
    发明授权
    Fibrous assemblies for antibody presentation, and multiplexed antigenic analysis using same 有权
    用于抗体呈递的纤维组件,以及使用其的多重抗原分析

    公开(公告)号:US08791239B2

    公开(公告)日:2014-07-29

    申请号:US12990981

    申请日:2009-04-07

    IPC分类号: A61K38/00 A61K9/51 C08L5/08

    摘要: Biofunctionalized fibers including a fiber platform and a histidine-tagged protein and, optionally, an antibody. Chitosan is a fiber useful as the fiber platform. The fiber platform may be treated with nickel or may be directly linked to the histidine-tagged protein e.g., histidine-tagged streptococcal IgG-binding protein, protein G, protein G3T, GFP or RFP. The resulting biofunctionalized fibers can be assembled into protein fiber assemblies by a variety of biofabrication methods. The fiber assemblies, e.g., in the form of woven fabrics, are useful for (i) antigen capture; (ii) immunoanalysis, and/or (iii) multiplexed analysis. In one fabrication, each fiber of a fiber assembly presents a specific antibody, and mixing and matching of fibers, for example by weaving of fabrics from various antibody-presenting fibers, allows for multiple antigens to be captured simultaneously for multiplexed analysis.

    摘要翻译: 包括纤维平台和组氨酸标记的蛋白质的生物功能化纤维和任选的抗体。 壳聚糖是用作纤维平台的纤维。 纤维平台可以用镍处理,或者可以直接连接到组氨酸标记的蛋白质,例如组氨酸标记的链球菌IgG结合蛋白,蛋白G,蛋白质G3T,GFP或RFP。 所得的生物功能化纤维可以通过各种生物制造方法组装成蛋白质纤维组件。 纤维组件,例如织造织物的形式,可用于(i)抗原捕获; (ii)免疫分析和/或(iii)多重分析。 在一个制造中,纤维组件的每个纤维呈现特异性抗体,并且纤维的混合和匹配,例如通过编织来自各种抗体呈递纤维的织物,允许同时捕获多个抗原进行多重分析。