Banse
Allison Banse, Eugene, OR US
Patent application number | Description | Published |
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20140113873 | CHITIN BINDING PROTEINS AND METHODS OF USE - Disclosed herein are methods of increasing epithelial cell proliferation (such as intestinal epithelial cell proliferation) by contacting epithelial cells with one or more CBPs. In some examples, the methods include administering the CBP to a subject, such as a subject in need of increased epithelial cell proliferation. Also disclosed herein are methods of identifying a subject having or at risk of developing hyperproliferation of epithelial cells (such as intestinal epithelial cells). Further disclosed are methods of decreasing epithelial cell proliferation by decreasing expression and/or activity of a CBP and methods of identifying inhibitors of epithelial cell proliferation and/or CBP activity. | 04-24-2014 |
Henrik Banse, Jena DE
Patent application number | Description | Published |
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20100038348 | METHOD FOR JOINING ALIGNED DISCRETE OPTICAL ELEMENTS - A method for joining aligned discrete optical elements by which the optical elements can be joined in the aligned state. A thermal connection having long-term stability can be produced at little expense and with high positioning accuracy. Surface regions to be joined can be provided with at least one thin metallic layer by the method for joining aligned discrete optical elements. The surface regions are subsequently wetted using a liquid solder free of flux in a contactless dosed manner. The solder is applied to the surface regions to be joined via a nozzle using a pressurized gas stream. | 02-18-2010 |
Joachim Banse, Wittingen DE
Patent application number | Description | Published |
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20120269581 | REELING AND UNREELING AN INTERNALLY CLAD METAL PIPELINE - A method is disclosed for reeling or unreeling a pipeline having an inner corrosion-resistant metallic liner that is tightly fitted within the pipeline. To minimize or avoid wrinkling of the liner during the reeling or unreeling, a length of the pipeline is internally pressurized in a two-stage pressurizing process, and then the length of pipeline is reeled or unreeled, as the case may be. In the first stage of the pressurizing process, the length of the pipeline is filled with fluid at an elevated pressure, and in the second stage the fluid pressure is raised to a higher pressure, which may be 25 bars or more, absolute. | 10-25-2012 |
20130034390 | REELING AND UNREELING AN INTERNALLY CLAD METAL PIPELINE - A method is disclosed for reeling a pipeline having an inner corrosion-resistant metallic liner that is tightly fitted within the pipeline. To minimize or avoid wrinkling of the liner during the reeling or unreeling, a length of the pipeline is internally pressurized by deploying a single sealing pig within the pipeline near to the trailing end of the pipeline and applying pressurized fluid within the pipeline, and then the length of pipeline is reeled onto a storage reel. In the pressurizing process, the length of the pipeline is filled with fluid at an elevated pressure within a range defined by a lower limit of 5 bar. | 02-07-2013 |
Mark A. Banse, Austin, TX US
Patent application number | Description | Published |
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20160085478 | Piggy-Back Snoops For Non-Coherent Memory Transactions Within Distributed Processing Systems - Piggy-back snoops are used for non-coherent memory transactions in distributed processing systems. Coherent and non-coherent memory transactions are received from a plurality of processing cores within a distributed processing system. Non-coherent snoop information for the non-coherent memory transactions is combined with coherent snoop information for the coherent memory transactions to form expanded snoop messages. The expanded snoop messages are then output to a snoop bus interconnect during snoop cycles for the distributed processing system. As such, when the processing cores monitor the snoop bus interconnect, the processing cores receive the non-coherent snoop information along with coherent snoop information within the same snoop cycle. While this piggy-backing of non-coherent snoop information with coherent snoop information uses an expanded snoop bus interconnect, usage of the coherent snoop bandwidth is significantly reduced thereby improving overall performance of the distributed processing system. | 03-24-2016 |
20160085706 | Methods And Systems For Controlling Ordered Write Transactions To Multiple Devices Using Switch Point Networks - Ordered write transactions from requester devices to multiple target devices are controlled using switch point networks. The requester device and the multiple target devices for the write transactions are coupled to a network of interconnected switch points. Write requests are generated for a plurality of parcels associated with a block of data to be written. The write requests have a particular order associated with an order in which the parcels are to be written, and these write requests are provided to the switch point interconnection network in the particular order. At least one of the switch points is then used to control the flow of write requests to the multiple target devices such that the particular order is maintained. In one embodiment, the target devices are memory devices, and the particular order is based upon the AXI (Advanced eXtensible Interface) protocol. | 03-24-2016 |