Patent application number | Description | Published |
20090047676 | System and method for obtaining and maintaining high-resistance seals in patch clamp recordings - The invention provides a system, system components, and a method for rapidly obtaining and stably maintaining a cell in optimal contact with the cell-contacting surface of a sensor in a cell-based biosensor. In one aspect, the system maximizes the seal between a whole cell and the cell-contact surface of a patch clamp micropipette, maximizing the efficiency of a whole cell patch clamp recording. | 02-19-2009 |
20090092963 | Method for combined parallel agent delivery and electroporation for cell structures an use thereof - Disclosed is a method for parallel delivery of agents to and/or into a cell structure, wherein at least two electrolyte-filled tubes are provided together with a counter electrode, the tubes being connected to a voltage or current generator, said agents being introduced into the electrolyte solution contained in the tubes, which are placed close to the cell structure, whereupon the agents are transported through the tubes to said cell structure and into the said structure through pores which have been formed by application of an electric field focused on the cell structure, resulting in electroporation of the cell structure. Also different applications of the method is disclosed, e.g. use of the method in order to transfer cell-impermeant solutes, such as drugs or genes, into the cell structure or out of the cell structure. | 04-09-2009 |
20090274579 | Methods and devices for controlled monolayer formation - Disclosed herein are methods and devices for the formation of a monolayers comprising, for example, one or several phospholipids or cholesterol-conjugated nucleic acids. The monolayers are on or associated, for example, with a surface comprising a hydrophobic material. | 11-05-2009 |
20100143944 | Systems and methods for rapidly changing the solution environment around sensors - The invention provides microfluidic systems for altering the solution environment around a nanoscopic or microscopic object, such as a sensor, and methods for using the same. The invention can be applied in any sensor technology in which the sensing element needs to be exposed rapidly, sequentially, and controllably, to a large number of different solution environments whose characteristics may be known or unknown. | 06-10-2010 |
20100159439 | Method for combined sequential agent delivery and electroporation for cell structures and use thereof - Disclosed is a method for sequential delivery of agents to and/or into a cell structure, wherein an electrolyte-filled tube is provided together with a counter electrode, said tube is connected to a voltage or current generator, at least two agents are introduced in a discrete mode into the electrolyte solution contained in the tube, which is placed close to the cell structure, one agent at the time being transported through the tube to and/or into said cell structure in which a pore has been formed by application of an electric field focused on the cell structure, resulting in electroporation of the cell structure. Also different applications of the method is disclosed, e.g. us of the method in order to transfer cell-impermeant solutes, such as drugs or genes, into the cell structure or out of the cell structure. | 06-24-2010 |
20110091864 | Device And Use Thereof - Disclosed herein is a device comprising at least one supporting solid surface comprising at least one membraneophilic region; a covering layer that is at least partially immobilized to the membraneophilic region, said covering layer consisting of (i) a surfactant membrane, (ii) a lipid mimicking polymer, (iii) a surfactant or emulsion system or (iv) a liquid crystal; and a substance included in or bound to, connected to or associated with the covering layer. Also disclosed are methods wherein the device is used and use of the device. | 04-21-2011 |
20110143385 | PLASMA MEMBRANE VESICLES AND METHODS OF MAKING AND USING SAME - The instant invention provides plasma membrane vesicles, methods of making the same, and method of using the plasma membrane vesicles. | 06-16-2011 |
20130017553 | PIPETTES, METHODS OF USE, AND METHODS OF STIMULATING AN OBJECT OF INTEREST - The present invention features a freestanding microfluidic pipette with both solution exchange capability and fluid re-circulation, enabling highly localized and contamination- free fluid delivery within a confined volume in the vicinity of the pipette exit. Preferably, the device features direct positioning, so the pipette can be directed at a point or object of interest, such as a biological or artificial cell, a defined surface area or a sensor element within an open volume, using micro- or nanopositioning techniques. One aspect of the invention provides a free-standing pipette. The free-standing pipette includes a microfluidic device comprising one or more channels with exits leading into an open-volume and a positioning device programmed to hold the microfluidic device at an angle from a horizontal axis. | 01-17-2013 |
20140147930 | MICROFLUIDIC DEVICE WITH HOLDING INTERFACE, AND METHODS OF USE - Aspects of the present invention provide a freestanding microfluidic pipette with integrated wells for solution storage. Further aspects of the invention provide a holding interface to provide connectivity with external control components. One aspect of the invention provides a system for applying a microfluidic device in microscopy. The system includes: a microfluidic device having an elongated shape and defining one or more wells for solution storage and processing; and an interface adapted and configured to hold the microfluidic device in a freestanding manner and facilitate simultaneous connection of the one or more wells with a flow controller. Another aspect of the invention provides a method for utilizing a microfluidic device. The method includes: providing a device as described herein; positioning the device adjacent to a microscope; and actuating the interface to operate the microfluidic device. | 05-29-2014 |