Patent application number | Description | Published |
20080217262 | Nozzle device and nozzle for atomisation and/or filtration and methods for using the same - Nozzle device and nozzle for atomization and/or filtration as well as methods for using the same. The nozzle and nozzle device for atomization, in particular a micro-machined reinforced nozzle plate, may produce small liquid droplets in air (spray) or into a liquid (emulsion) with a narrow droplet size distribution and make small air bubbles into a liquid (foam). A nozzle part for filtration as well as elements and methods to facilitate atomization and filtration are also disclosed. | 09-11-2008 |
20110049262 | ATOMISING DEVICE, ATOMISING BODY AND METHOD OF MANUFACTURING THE SAME - An atomizing device, includes an atomizing body ( | 03-03-2011 |
20120228238 | NOZZLE DEVICE AND NOZZLE FOR ATOMISATION AND/OR FILTRATION AND METHODS FOR USING THE SAME - Nozzle device and nozzle for atomisation and/or filtration as well as methods for using the same. The present invention relates to a nozzle and nozzle device for atomisation, in particular a micro-machined reinforced nozzle plate, that may produce small liquid droplets in air (spray) or into a liquid (emulsion) with a narrow droplet size distribution and to make small air bubbles into a liquid (foam) and to methods of making the same. The invention is further related to a nozzle part for filtration as well as means and methods to facilitate atomisation and filtration. | 09-13-2012 |
20140190888 | Methods, Systems and Devices for Separating Tumor Cells - Embodiments of the present disclosure are directed to the separation/capture of specific cells and/or contaminants, as well as the determination, monitoring, and treatment of cancer. Moreover, some embodiments are directed to methods, systems and devices for removing cancer, stem and/or tumor cells in vivo or in vitro from a bodily fluid to prevent or impede the proliferation of a cancer. Some embodiments provide a blood-compatible filter comprising, for example, a membrane provided with a number of openings (preferably precise) which yield minimal detrimental effect both quantitatively and qualitatively on cells present in the bodily fluid during the separation process. For example, in some embodiments, a majority percentage of circulating tumor cells are captured by a filter while a majority percentage of leukocytes, for example, are allowed to pass, where the passed leukocytes retain their vitality. | 07-10-2014 |
20150041398 | EXTRACORPEREAL FLUIDIC DEVICE FOR COLLECTING CIRCULATING TUMOR CELLS AND METHOD OF USE THEREOF - A device can be used to retain circulating tumor cells (CTCs). The device can include a cross-flow module with a retentate channel and a permeate channel. A filter in the cross-flow module can separate the retentate channel from the permeate channel. The filter can be constructed such that CTCs are retained in the retentate channel while other cells can pass through the filter into the permeate channel. A recirculation channel can direct a flow from an outlet of the retentate channel back to an inlet of the retentate channel to thereby concentrate CTCs in the retentate flow. | 02-12-2015 |
20150093486 | Nozzle Device And Nozzle For Atomisation And/Or Filtration And Methods For Using The Same - Nozzle device and nozzle for atomisation and/or filtration as well as methods for using the same. The present invention relates to a nozzle and nozzle device for atomisation, in particular a micro-machined reinforced nozzle plate, that may produce small liquid droplets in air (spray) or into a liquid (emulsion) with a narrow droplet size distribution and to make small air bubbles into a liquid (foam) and to methods of making the same. The invention is further related to a nozzle part for filtration as well as means and methods to facilitate atomisation and filtration. | 04-02-2015 |
20150160135 | Microsieve Diagnostic Device In The Isolation and Analysis of Single Cells - A micro well plate is described for capturing and distributing single cells in individual wells is described, wherein at least one individual well is provided with a bottom plate having at least one pore to pass sample liquid, such that if one object or cell of interest is collected on the bottom plate of the well, the sample flow rate through that particular well is significantly reduced, minimizing the possibility that multiple cells or objects of interest entering the same well. The presented invention is particularly suited for obtaining single cells and/or microorganisms suspended in fluid samples for subsequent detailed interrogation. | 06-11-2015 |
20150190757 | Capillary Filtration Membrane With An Improved Recovery And Method For Obtaining An Improved Recovery And Manufacturing Method - A filtration module is disclosed, comprising at least one hollow capillary filtration membrane, in particular having a retentate side inside the hollow capillary and a permeate side outside the capillary, characterized in that the retentate side of the capillary filtration membrane has at least one dent with an aperture angle Φ smaller than 180°. | 07-09-2015 |