Abstract: A method of treating a condition associate with accumulation of an agent in cells in a patient includes exposing the cells to ultrasound, to selectively kill or induce apoptosis in the cells. The cells include the accumulated agent.

Abstract: Methods are provided for producing a human embryo capable of developing to the blastocyst stage. The method includes transferring a human somatic cell genome into a mature human oocyte by nuclear transfer and activating the oocyte, without removing the oocyte genome. Pluripotent human embryonic stem cells, and methods of obtaining these, are also provided.

Abstract: Piezoelectric nanotransducers for use in an in vivo treatment of cell stimulation through electrical stimulation are described. The nanotransducers are localized in a target site, and an electrical stimulus is induced in the same site through external stimulation of the nanotransducers by ultrasonic waves.

Abstract: A system for exposing a target material to small particles. The system includes an exposure chamber that receives the target material. A stream of charged particles is directed via an inlet into the exposure chamber toward the target material. One or more electrodes are located relative to the target material and the inlet, and are electrically charged, so as to cause at least some of the charged particles to impact upon the target material. The system can be used to expose the target material to small, for example, nanoscale, particles in a gas environment.

Abstract: The invention relates to a novel circuit arrangement for electrotransfection or electrofusion, which enables the transportation of DNA and/or other biologically active molecules to the nucleus of higher eukaryotic cells or the fusion of cells, independent of cell division and with reduced cell mortality.

Abstract: The invention relates to a method for inactivating pathogens such as bacteria and viruses and/or leucocytes in thrombocyte concentrations by irradiation in flexible containers with ultra-violet light using agitation. The blood product is packaged in a flexible bag to permit the intermixing of the fluid by agitation (tilting, rotation, translation). This is also promoted by the filling of the bag to a maximum 30% of the filling capacity.

Abstract: 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.

Abstract: A method for preparing luminescent diamond particles (e.g., fluorescent nanodiamonds). The method includes irradiating diamond particles with an ion beam and heating the irradiated diamond particles in a non-oxidizing atmosphere at a temperature between 600 and 1000° C. The diamond particles have a diameter of 1 nm to 1 mm and the ion beam has a kinetic energy of 1 KeV to 900 MeV. Also disclosed are luminescent diamond particles prepared by this method and methods of using them.

Abstract: The present invention relates to a method and to compounds useable in the method for analysis of cells for the pre-sence of an analyte and sorting the cells on the basis of the analyte. The compounds used in the method are optically detectable because of the content of a fluorochrome and contain a binder fraction which can specifically bind an analyte, in particular an oligonucleotide.

Abstract: The invention provides a method, apparatus and system for separating blood and other types of cellular components, and can be combined with holographic optical trapping manipulation or other forms of optical tweezing. One of the exemplary methods includes providing a first flow having a plurality of blood components; providing a second flow; contacting the first flow with the second flow to provide a first separation region; and differentially sedimenting a first blood cellular component of the plurality of blood components into the second flow while concurrently maintaining a second blood cellular component of the plurality of blood components in the first flow. The second flow having the first blood cellular component is then differentially removed from the first flow having the second blood cellular component. Holographic optical traps may also be utilized in conjunction with the various flows to move selected components from one flow to another, as part of or in addition to a separation stage.

Abstract: Lipid nanoparticles expressing metal ions and methods for using the compositions for magnetic resonance imaging.

Abstract: A method for differentiating mesenchymal stem cells (MSCs) towards osteoblasts and other connective tissue using nanoparticles and electromagnetic stimulation Osteoinductive materials produced using said method may be useful for bone regeneration and reconstruction in treatment of bone trauma and bone related diseases, and to correct birth defects.

Abstract: A method for isolating exosomes from blood platelets using superparamagnetic nanoparticles of iron oxide (Fe3O4), by means of a charge attraction mechanism based on the predetermined Zeta potential of the exosomes. The method involves the use of iron oxide nanoparticles that are previously synthesised with a predetermined positive charge, and that bond to the negatively charged exosomes contained in the biological sample. During incubation, the cationic magnetic nanoparticles are absorbed by the surface of the membrane of the exosomes owing to electrostatic interaction. Exposure of the material to a magnetic field makes it possible to separate the exosomes bonded to the nanoparticles. The success of this technique has been confirmed by characterisation of the exosomes by flow citometry. The method has been shown to be suitable for this purpose, since it allows exosomes to be isolated and purified, without undergoing alterations of their original morphological and structural characteristics.

Abstract: A method of growing a crystalline nanowire is disclosed. The method includes providing a pair of electrodes, immersing the electrode pair in a salt solution, and selectively applying a voltage signal to the electrode pair to induce growth of the nanowire between the electrode pairs.

Abstract: The invention relates to a microfluidic device. The microfluidic device comprises a fluid chamber comprising a particle retention region for retaining at least one particle, such as a cell. The microfluidic device also comprises a plurality of electrodes extending into the particle retention region for applying a dielectrophoretic (DEP) force to controllably move the particle within the particle retention region. The invention also relates to methods of using the microfluidic device to controllably move the particle within the microfluidic device and to monitor, observe, or measure a parameter of the particle. The particle movement may be caused by a DEP force and/or a fluidic force.

Abstract: The present invention provides compositions and methods for enucleation of cells. In particular, the present invention provides the use of psoralens in enucleation of feeder and/or eggs cells.

Abstract: Transcranial magnetic stimulation (TMS) is a remarkable tool for probing the brain. However, it is still unclear why specific regions in the cortex are excitable by TMS while others are not. This invention provides methods and tools for the design of efficient magnetic stimulators. Such stimulators can excite neuronal networks that were not sensitive to stimulation until now. Stimulation can be carried out both in-vitro and in-vivo. Novel systems and techniques of this invention will enable both treatment and diagnostics by stimulating regions of the brain or neuronal assemblies that were previously unaffected by TMS.

Abstract: Provided herein are methods and systems to increase selective thermomechanical damage to a biological body, such as a cancer cell or cell associated with a pathophysiological condition. The biological body or cancer cell is specifically targeted with nanoparticulates comprising one or more targeting moieties which form nanoparticulate clusters thereon or therewithin. Pulsed electromagnetic radiation, e.g., optical radiation, having a wavelength spectrum selected for a peak wavelength near to or matching a peak absorption wavelength of the nanoparticulates selectively heats the nanoparticulates thereby generating vapor microbubbles around the clusters causing damage to the targets without affecting any surrounding medium or normal cells or tissues. Also provided are methods for treating leukemia and for selectively and thermomechanically causing damage to cells associated with a pathophysiological condition using the methods and system described herein.

Abstract: The present invention is related to a virus, preferably an adenovirus, characterised in that the virus comprises: a lacking functional wildtype E1 region, and a transporter for the transport of YB-1 into the nucleus of a cell which is infected with the virus.

Abstract: The present invention relates to a method for inducing and amplifying specific effectors, which comprises obtaining pulsed plasmacytoid dendritic cells (pDC) by incubation of a pDC line with at least one antigen, the pulsed pDC being subsequently irradiated and brought into contact with peripheral blood mononuclear cells (PBMC), and cultured or injected into an organism. The pulsed and irradiated pDC and the PBMC share at least one major histocompatibility complex (MHC) allele.

Abstract: The invention concerns a container 1 with chambers 2 which each comprise at least one pair of electrodes including a first 4 and a second electrode 5 for the application of electric voltage for generating an electric field within one chamber 2. At least two first electrodes 4 of different chambers 3 are conductively coupled and at least one second electrode 5 of said chamber 2 is separately conductively connectable. The invention further concerns a method for manufacturing said container 1 as well as a device for electrically contacting at least one of said containers 1.

Abstract: In order to treat a biological material (1) containing living cells with a plasma (4) generated by a gas discharge at atmospheric pressure (9) an electrode (3) is arranged at a distance to the biological material (1). Further, a solid body dielectric (2) is arranged between the electrode (3) and the biological material (1), directly in front of the electrode (3) and at a distance to the biological material (1). Then a high alternating voltage consisting of separated high voltage pulses of alternating polarity is applied to the electrode (3) for igniting and maintaining a dielectric barrier gas discharge within a region between the dielectric (2) and the biological material (1).

Abstract: A method is provided for preparing a tissue implant for implantation. The method includes harvesting a tissue material from a human or an animal donor, treating the tissue material with water or a hypotonic solution to lyse native cells of the tissue material, treating the tissue material in a nuclease-containing solution which includes an antimicrobial, treating the tissue material with an alkaline alcohol solution, treating the tissue material with a chlorine dioxide treatment solution, and sterilizing the tissue material.

Abstract: The magnetic colloidal particles comprise a core and an envelope in which the core is magnetic and is coated with at least one polymer comprising functional groups X chosen from amine, hydroxyl, thiol, aldehyde, ester, anhydride, acid chloride, carbonate, carbamate, isocyanate and isothiocyanate groups, or mixtures thereof, at least one fraction of which has reacted with other functional groups of the envelope, and the envelope comprises a polymer bearing ionizable functional groups, Z and Z?, which may be identical or different, chosen from amine, carboxylic acid, ester, anhydride, aldehyde, thiol, disulfide, ?-halocarbonyl, sulfonic acid, maleimide, isocyanate and isothiocyanate groups, which have partially reacted with the functional groups X of the core. These magnetic colloidal particles can be used to isolate biological material.

Abstract: Tissue solubilizing compositions are provided. The compositions comprise 3-(decyl dimethyl ammonio) propane sulfonate and polyethylene glycol dodecyl ether, such as tetraethylene glycol dodecyl ether. The compositions may be useful to solubilize tissue, including skin, mucosal membrane, and other tissue. The compositions may be further useful to preserve and recover analytes contained within the solubilized skin, mucosal membrane, and other tissue.

Abstract: The present invention provides a method, system and composition for screening drug candidates for cardiotoxicity and for novel drugs that effect cardiomyocyte contractility and function. The invention provides an efficient and reliable screening assay to detect the effect of new and potential drug candidates on cardiomyocyte calcium flux, membrane depolarization, and/or the propagation of action potentials.

Abstract: Methods for forming activated platelet gels using nsPEF's and applying the activated gels to wounds, such as heart tissue after myocardial infarction. The platelets are activated by applying at least one nsPEF with a duration between about 10 picoseconds to 1 microsecond and electrical field strengths between about 10 kV/cm and 350 kV/cm.

Abstract: Described is a novel family of cell surface serpentine transmembrane antigens. Two of the proteins in this family are exclusively or predominantly expressed in the prostate, as well as in prostate cancer, and thus members of this family have been termed “STEAP” (Six Transmembrane Epithelial Antigens of the Prostate). Four particular human STEAPs are described and characterized herein. The prototype member of the STEAP family, STEAP-1, appears to be a type IIIa membrane protein expressed predominantly in prostate cells in normal human tissues. Structurally, STEAP-1 is a 339 amino acid protein characterized by a molecular topology of six transmembrane domains and intracellular N- and C-termini, suggesting that it folds in a “serpentine” manner into three extracellular and two intracellular loops. STEAP-1 protein expression is maintained at high levels across various stages of prostate cancer. Moreover, STEAP-1 is highly over-expressed in certain other human cancers.

Abstract: The present invention relates to a population of monodisperse magnetic nanoparticles with a diameter between 1 and 100 nm which are coated with a layer with hydrophilic end groups. Herein the layer with hydrophilic end groups comprises an inner layer of monosaturated and/or monounsaturated fatty acids bound to said nanoparticles and bound to said fatty acids, an outer layer of a phospholipid conjugated to a monomethoxy polyethyleneglycol (PEG) comprising a hydrophilic end group, or comprises a covalently bound hydrophilic layer bound to said nanoparticles.

Abstract: Stimulation of target cells using light, e.g., in vivo or in vitro, is implemented using a variety of methods and devices. One example involves a vector for delivering a light-activated molecule comprising a nucleic acid sequence that codes for light-activated molecule. The light-activated molecule includes a modification to a location near the all-trans retinal Schiff base, e.g., to extends the duration time of the open state. Other aspects and embodiments are directed to systems, methods, kits, compositions of matter and molecules for ion channels or pumps or for controlling currents in a cell (e.g., in in vivo and in vitro environments).

Abstract: An opening is formed in a cell using laser radiation. A Bessel beam is formed using the laser radiation and the Bessel beam is directed onto the cell to form an opening. The guiding of material towards the opening may be involved using optical trapping/manipulation. The material may change cellular function or analyse cell behaviour. Both pulsed laser radiation and continuous wave radiation may be formed using the same laser.

Abstract: The present invention provides a method and system for using eye-safe infrared energy from a Class I laser to manipulate cells in culture. The laser energy produces one or more phase boundary propulsion events, which generate hydrodynamic forces sufficient to manipulate cells at the focal point.

Abstract: A method of preparing a mycelium component, including growing live mycelium from a fungal inoculum and a liquid aggregate. The live mycelium is cured to terminate further mycelium growth and form a mycelium structure. Moisture is applied to the mycelium structure such that the mycelium structure is nearly fully saturated. The mycelium structure is dried to form a hardened mycelium structure.

Abstract: Stimulation of target cells using light, e.g., in vivo or in vitro, is implemented using a variety of methods and devices. One example involves a vector for delivering a light-activated NpHR-based molecule comprising a nucleic acid sequence that codes for light-activated NpHR-based molecule and a promoter. Either a high expression of the molecule manifests a toxicity level that is less than about 75%, or the light-activated NpHR-based proteins are expressed using at least two NpHR-based molecular variants. Each of the variants characterized in being useful for expressing a light-activated NpHR-based molecule that responds to light by producing an inhibitory current to dissuade depolarization of the neuron. Other aspects and embodiments are directed to systems, methods, kits, compositions of matter and molecules for ion pumps or for controlling inhibitory currents in a cell (e.g., in in vivo and in vitro environments).

Abstract: Drug candidate screening methods are applied to discover compounds with activity against ion channel targets. The method may include modulating the transmembrane potential of host cells in a plurality of sample wells with a repetitive application of electric fields so as to set the transmembrane potential to a level corresponding to a pre-selected voltage dependent state of a target ion channel.

Abstract: A magnetic platform is provided and includes a patterned array of discrete magnetic elements positioned on a substrate, a plurality of first electromagnets for creating a first magnetic field substantially in the plane of the substrate, an electromagnetic coil for creating a second magnetic field substantially perpendicular to the plane of the substrate, and a control device for controlling the application of the magnetic fields. Processes for manipulating, transporting, separating and sorting micro- or nano-scale particles and biomolecules are also described.

Abstract: Methods for modifying the physical, chemical and/or biological properties of a fluid by irradiation are provided. In one embodiment, a method comprising supplying a flow of a fluid to an irradiation chamber; focusing the flow of the fluid so as to create at least one fluid layer; and applying radiation to the fluid layer in a defined portion of the irradiation chamber thereby modifying at least one physical, chemical or biological property of the fluid layer is provided. Systems for the implementation of such methods are also provided.

Abstract: Systems and methods generally useful in medicine, cellular biology, nanotechnology, and cell culturing are discussed. In particular, at least in some embodiments, systems and methods for magnetic guidance and patterning of cells and materials are discussed. Some specific applications of these systems and methods may include levitated culturing of cells away from a surface, making and manipulating patterns of levitated cells, and patterning culturing of cells on a surface. Specifically, a method of culturing cells is presented. The method may comprise providing a plurality of cells, providing a magnetic field, and levitating at least some of the plurality of cells in the magnetic field, wherein the plurality of cells comprise magnetic nanoparticles. The method may also comprise maintaining the levitation for a time sufficient to permit cell growth to form an assembly.

Abstract: The present invention provides methods for stimulating cells using quantum dots. In addition, the present invention provides methods for treating a variety of clinical conditions using stimulation of quantum dots to induce cell stimulation and/or function.

Abstract: A mixed micro-fluidic multi-electrode grid array (MEGA) device (10) suitable for holding a tissue slice (6) and for recording and/or stimulating neuron cells from said tissue slice (6), the MEGA device (10) comprising at least a top substrate in the form of a grid (4) comprising at least an electrical and/or optical multi-electrode array and a bottom substrate in the form of a stack made of a grid (1) comprising an electrical and/or optical multi-electrode array and a backbone (2) underneath said grid (1) comprising a micro-fluidic perfusion system. Furthermore said MEGA device (10) comprises means (5) for pressing and positioning said first and second substrate together and adhering a tissue slice in between said two substrates.

Abstract: A method of making a vehicle part, including growing a live mycelium mat from interwoven hyphae. The mycelium mat is cured to terminate mycelium growth. The mycelium is cut into a single structural component without further processing for use in a vehicle.

Abstract: Methods and procedures for designing and constructing microbes with the ability to harvest light energy are described. In certain embodiments, these methods and procedures are used to construct a photosynthetic yeast based on proteorhodopsin (PR) expression. Proteorhodopsin is a light powered proton pump used by some ocean bacteria to scavenge light energy. By illuminating single yeast cells expressing PR, controlled amounts of energy can be delivered to these cells. A light-harvesting yeast is a unique bioenergetics research platform for investigating the interplay of biofuel production, cellular ATP levels, and the proton-motive-force (pmf). Also, a strain of yeast with light-boosted biomass to biofuel conversion efficiency possesses direct industrial and commercial utility.

Abstract: A neural prosthetic device is provided that includes one or more ion-selective membranes enabling electrically-controlled local modulation of ion concentrations around a nerve so as to achieve different excitability states of the nerve for electrical stimulation or inhibition of nerve signal propagation.

Abstract: This invention provides a method and apparatus for selectively identifying, and targeting with an energy beam, specific cells within a cell population, for the purpose of inducing a response in the targeted cells. Using the present invention, every detectable cell in a population can be identified and affected, without substantially affecting non-targeted cells within the mixture.

Abstract: The present disclosure provides photoactive polypeptides. A subject photoactive polypeptide is useful in a variety of applications, which are also provided.

Abstract: This invention describes a method for cultivating micro-organisms on solid growth medium in a solid state fermenting reactor by utilising external vibration for transportation and even inoculation of the solid growth medium. The reactor to be used is realized by attaching an external vibrator and at least one inoculation feed inlet to its outer wall.

Abstract: The present invention describes a method of identifying inducible genetic regulatory sequences that can control the transcription of specific gene transcripts. Methods of using inducible genetic regulatory sequences are also discussed. In particular, the genetic regulatory sequences of the present invention can modulate the transcription of a nucleic acid transcript in vivo.

Abstract: The introduction of genetic material or molecules of biological interest into cells is a procedure with an increasing interest both for experimental and application purposes, so that electroporation is a widely used technique, but the electroporation of single adhering cells is still impaired. The present application describes an apparatus for the electroporation of any kind of cell adhering to a substrate at any stage of development, where an electrical signal can be driven and applied to a single adhering cell in culture in order to obtain its electroporation. The method to electroporate a single adhering cell with the apparatus of the invention is also described.

Abstract: A process for damaging and maintaining damage to the nucleic acids of pathogens such as white blood cells, bacteria and viruses which may be contained in blood or blood components. This process comprises adding to the blood or blood component containing pathogens an effective amount of riboflavin, and exposing the fluid to light of an appropriate wavelength to damage the nucleic acid of the pathogen and to substantially maintain the damage to the pathogenic nucleic acids to allow for subsequent transfusion into a recipient.

Abstract: Electroporation is performed on a population of cells, liposomes, vesicles, or other membrane-encased structures with uniform results regardless of size variations within the population, by drawing the membrane-encased structures into micron-sized openings that contain paired electrodes. An electric potential is then imposed between the paired electrodes to permeabilize only that portion of each cell that extends into the openings and resides within the electric field focused in the area between the electrodes.