摘要:
An electrochemical apparatus 1 permits electric-field-assisted fluidic assembly of objects 2 on a patterned silicon substrate 11 by means of electrical addressing. Charged objects 2 such as beads and live cells are moved electrokinetically, like as in electrophoresis, through a solution, typically water 3, towards a micro-patterned charged semiconductor electrode, such as a silicon electrode 11 patterned with silicon dioxide, silicon nitride or agarose gel. The charged objects 2 are thus localized and assembled, most typically into arrays of multiple or single particles, in accordance with the patterning of the electrode 11. Correlating with theoretical predictions, negatively charged polystyrene beads of 20 μm diameter, or live mammalian cells of 20-30 μm diameter, can be assembled and disassembled on 100 μm feature size micro-patterned substrates by means of electrical addressing. The apparatus 1 has applications in creation of active cellular arrays for cell biology research, drug discovery and tissue engineering.
摘要:
Systems, methods, and devices are provided for assessing DNA damage and repair in cells by measuring DNA migration under electrophoresis. In one exemplary embodiment, a microarray configured to hold cells in a predetermined spatial relationship is employed to improve accuracy, speed, and reliability of such measurements. In another embodiment, a self-contained cassette having a matrix material disposed therein can be used to create a substantially uniform environment for analyzing DNA damage and repair. Fluid can be circulated through the cell to assist in creating spatial patterns on the matrix material, or alternatively, the matrix material can already include a microarray pattern disposed thereon. Various methods and systems that take advantage of such microarrays and cassettes are also provided.
摘要:
The present invention uses externally applied electromagnetic stimulus to control and heat porous magnetic particles and material associated with the particles. The particles contain magnetic material, such as superparamagnetic iron oxide and are associated with a material. Application of a DC magnetic field allows them to be moved with their associated material, and application of an AC RF electromagnetic field allows them to be heated with their associated material. The material can be associated with the particles by being contained in the pores of the particles, or in other cases the particles can adhere to the associated material, which can be an aqueous droplet. The present invention also provides a multi-layer porous magnetic particle. The particle includes a host layer having pores sized to accept magnetic nanoparticles. Magnetic nanoparticles are infused within pores of the host layer An encoding layer includes pores that define a spectral code. The pores in the encoding layer are sized to substantially exclude the magnetic nanoparticles. The encoding layer can also be a multi-layer, exhibiting, for example, a complex spectral code.
摘要:
The present invention is drawn to the generation of micropatterns of biomolecules and cells on standard laboratory materials through selective ablation of a physisorbed biomolecule with oxygen plasma. In certain embodiments, oxygen plasma is able to ablate selectively physisorbed layers of biomolecules (e.g., type-I collagen, fibronectin, laminin, and Matrigel) along complex non-linear paths which are difficult or impossible to pattern using alternative methods. In addition, certain embodiments of the present invention relate to the micropatterning of multiple cell types on curved surfaces, multiwell plates, and flat bottom flasks. The invention also features kits for use with the subject methods.
摘要:
The present invention provides systems, methods, and compositions for targeted delivery of nanoparticles and/or agents to tissues, cells, and/or subcellular locales. In general, compositions comprise a nanoparticle (e.g. quantum dot, polymeric particle, etc.), at least one modulating entity (such as a targeting moiety, transfection reagent, protective entity, etc.), and at least one agent to be delivered (e.g. therapeutic, prophylactic, and/or diagnostic agent). The present invention provides methods of making and using nanoparticle entities in accordance with the present invention.
摘要:
The development and function of living tissues depends largely on interactions between cells that can vary in both time and space; however, temporal control of cell-cell interaction is experimentally challenging. By employing a micromachined silicon substrate with moving parts, herein is disclosed the dynamic regulation of cell-cell interactions via direct manipulation of adherent cells with micron-scale precision. The inventive devices and methods allow mechanical control of both tissue composition and spatial organization. The inventive device and methods enable the investigation of dynamic cell-cell interaction in a multitude of applications, such as intercellular communication, spanning embryogenesis, homeostasis, and pathogenic processes.
摘要:
The present invention features microgels and microtissues for use in tissue engineering. Featured is a microencapsulation device for making microgels and/or microtissues via an emulsion technology. Also featured are methods of making higher ordered structures that mimic in vivo tissue structures. Methods of us are also featured.
摘要:
The invention is a series of soft lithographic methods for the microfabrication of biopolymer scaffolds for use in tissue engineering and the development of artificial organs. The methods present a wide range of possibilities to construct two- and three-dimensional scaffolds with desired characteristics according to the final application. The methods utilize an elastomer mold which the biopolymer scaffold is cast. The methods allow for the rapid and inexpensive production of biopolymer scaffolds with limited specialized equipment and user expertise.
摘要:
The present invention relates to methods and products associated with in vivo enzyme profiling. In particular, the invention relates to methods of in vivo processing of exogenous molecules followed by detection of signature molecules as representative of the presence of active enzymes associated with diseases or conditions. The invention also relates to products, kits, and databases for use in the methods of the invention.
摘要:
The disclosure provides a long-circulating, micellar hybrid nanoparticles (MHN) that contain MN, QD, and the anti-cancer drug doxorubicin (DOX) within a single polyethylene glycol (PEG)-phospholipid micelle and provide the first examples of simultaneous targeted drug delivery and dual-mode NIR-fluorescent and MR imaging of diseased tissue in vitro and in vivo.