Patents by Inventor Christoph Huwiler
Christoph Huwiler has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10556057Abstract: Micro-fluidic chambers for use in a liquid medicament delivery system, include a bottom substrate and a top cover, the top cover being spaced from the bottom substrate so as to define a height of the chamber, wherein, one or more walls or fillings are positioned in the chamber, the walls or fillings defining a fluid channel there between such that the fluid channel extends from an inlet conduit to an inlet of the chamber to an outlet conduit connected to an outlet of the chamber, wherein, each of the walls or fillings has a height less than the height of the chamber so as to define a fluid gap between a top surface of each wall or filling and the top cover; and wherein, the dimensions of the walls or fillings and the chamber are such that the fluid gap will be filled with liquid by capillary forces via the fluid channel when liquid is introduced into the fluid chamber.Type: GrantFiled: February 14, 2017Date of Patent: February 11, 2020Assignee: Roche Diabetes Care, IncInventors: Andreas Geipel, Christoph Huwiler, Florian Kühni
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Patent number: 10398853Abstract: Bubble traps for removing bubbles from a stream of liquid and flexible containers comprising such bubble traps are disclosed. The bubble trap includes a containment chamber fluidly coupled to an outlet conduit. At least one grate is disposed between the containment chamber and the outlet conduit. The at least one grate includes a plurality of grate inlets formed in a grate wall and fluidly coupled to the outlet conduit with a plurality of grate conduits such that the containment chamber is fluidly coupled to the outlet conduit. The grate traps bubbles entrained in the stream of liquid flowing from the containment chamber to the outlet conduit in the containment chamber when the bubbles are greater than or equal to a diameter of the grate inlets.Type: GrantFiled: December 12, 2016Date of Patent: September 3, 2019Assignee: Roche Diagnostics International AGInventors: Christoph Huwiler, Florian Kuhni, Andreas Geipel
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Publication number: 20170209643Abstract: Micro-fluidic chambers for use in a liquid medicament delivery system, include a bottom substrate and a top cover, the top cover being spaced from the bottom substrate so as to define a height of the chamber, wherein, one or more walls or fillings are positioned in the chamber, the walls or fillings defining a fluid channel there between such that the fluid channel extends from an inlet conduit to an inlet of the chamber to an outlet conduit connected to an outlet of the chamber, wherein, each of the walls or fillings has a height less than the height of the chamber so as to define a fluid gap between a top surface of each wall or filling and the top cover; and wherein, the dimensions of the walls or fillings and the chamber are such that the fluid gap will be filled with liquid by capillary forces via the fluid channel when liquid is introduced into the fluid chamberType: ApplicationFiled: February 14, 2017Publication date: July 27, 2017Applicant: Roche Diagnostics International AGInventors: Andreas Geipel, Christoph Huwiler, Florian Kühni
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Publication number: 20170087309Abstract: Bubble traps for removing bubbles from a stream of liquid and flexible containers comprising such bubble traps are disclosed. The bubble trap includes a containment chamber fluidly coupled to an outlet conduit. At least one grate is disposed between the containment chamber and the outlet conduit. The at least one grate includes a plurality of grate inlets formed in a grate wall and fluidly coupled to the outlet conduit with a plurality of grate conduits such that the containment chamber is fluidly coupled to the outlet conduit. The grate traps bubbles entrained in the stream of liquid flowing from the containment chamber to the outlet conduit in the containment chamber when the bubbles are greater than or equal to a diameter of the grate inlets.Type: ApplicationFiled: December 12, 2016Publication date: March 30, 2017Inventors: Christoph Huwiler, Florian Kuhni, Andreas Geipel
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Patent number: 9603998Abstract: Micro-fluidic chambers for use in a liquid medicament delivery system, include a bottom substrate and a top cover, the top cover being spaced from the bottom substrate so as to define a height of the chamber, wherein, one or more walls or fillings are positioned in the chamber, the walls or fillings defining a fluid channel there between such that the fluid channel extends from an inlet of the chamber to an outlet of the chamber, wherein, each of the walls or fillings has a height less than the height of the chamber so as to define a fluid gap between a top surface of each wall or filling and the top cover; and wherein, the dimensions of the walls or fillings and the chamber are such that the fluid gap will be filled with liquid by capillary forces via the fluid channel when liquid is introduced into the fluid chamber.Type: GrantFiled: September 8, 2010Date of Patent: March 28, 2017Assignee: Roche Diagnostics International AGInventors: Andreas Geipel, Christoph Huwiler, Florian Kühni
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Patent number: 9555197Abstract: Bubble traps for removing bubbles from a stream of liquid and flexible containers comprising such bubble traps are disclosed. The bubble trap includes a containment chamber fluidly coupled to an outlet conduit. At least one grate is disposed between the containment chamber and the outlet conduit. The at least one grate includes a plurality of grate inlets formed in a grate wall and fluidly coupled to the outlet conduit with a plurality of grate conduits such that the containment chamber is fluidly coupled to the outlet conduit. The grate traps bubbles entrained in the stream of liquid flowing from the containment chamber to the outlet conduit in the containment chamber when the bubbles are greater than or equal to a diameter of the grate inlets.Type: GrantFiled: May 9, 2014Date of Patent: January 31, 2017Assignee: Roche Diagnostics International AGInventors: Christoph Huwiler, Florian Kuhni, Andreas Geipel
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Patent number: 9522228Abstract: A soft cannula is inserted into tissue and affixed to skin. A cannula arrangement moves within a housing and provides the soft cannula and a guiding needle extending through the cannula to temporarily stiffen it. A drive effects an insertion movement of the cannula arrangement from a first position, where a puncturing tip is pulled back relative to a face of the housing, into a second position, where the puncturing tip protrudes beyond the face, and automatically effects a retracting movement of the guiding needle into a third position, where the puncturing tip is pulled back relative to the face. The face is formed by a base plate affixed to the housing so that when the cannula arrangement is in the second position, the face detaches from the housing. A holder element is connected to the soft cannula and couples to the base plate in the cannula arrangement's second position.Type: GrantFiled: December 13, 2012Date of Patent: December 20, 2016Assignee: Roche Diagnostics International AGInventors: David Teutsch, Christoph Huwiler, Philipp Michel, Heiner Kaufmann
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Patent number: 9352865Abstract: A device for filling a flexible container and a method thereof are disclosed. The device may include a pressurizing chamber and an evacuation chamber. A first displacement piston is sealingly and slideably arranged within the pressurizing chamber to define an inner volume within the pressurizing chamber that is fluidly connected to a pressurizing conduit. A second displacement piston is sealingly and slideably arranged within the evacuation chamber to define an inner volume within the evacuation chamber that is fluidly connected to an evacuation conduit. A reservoir adapter is fluidly connected to the pressurizing conduit and connects to a liquid reservoir. A container adapter is fluidly connected to the evacuation conduit and connects with a flexible container. A transfer conduit is fluidly connected to the reservoir adapter and the container adapter. A valve fluidly connects the container adapter to the evacuation conduit or the transfer conduit.Type: GrantFiled: November 5, 2013Date of Patent: May 31, 2016Assignee: Roche Diagnostics International AGInventors: Florian Kuehni, Christoph Huwiler, Martin Wyss
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Patent number: 9283319Abstract: Cannula assemblies with pressure sensors made of stacked coplanar layers and ambulatory infusion systems comprising the same are disclosed. The cannula assemblies include a hub and an infusion cannula. The hub includes a pressure sensor and a fluid channel fluidly coupled to the infusion cannula. The pressure sensor is formed from a stack of coplanar layers including a top layer, a base layer an electrode layer and a counter electrode layer. The fluid channel is positioned between the top layer and the base layer. The electrode layer is positioned between the top layer and the base layer and coupled to the fluid channel. The counter-electrode layer is positioned between the top layer and the electrode layer. A spacer layer having a through cut-out defining an electrode cavity is disposed between the top layer and the base layer such that the electrode layer extends across the electrode cavity.Type: GrantFiled: October 19, 2012Date of Patent: March 15, 2016Assignee: ROCHE DIAGNOSTICS INTERNATIONAL AGInventors: Andreas Geipel, Florian Kuhni, Christoph Huwiler, Ulrich Haueter
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Patent number: 9205203Abstract: Embodiments directed to a degassing device for removing gas bubbles from a liquid drug stream and an ambulatory infusion system are disclosed. The degassing device may comprise an inlet chamber with an inlet opening, an outlet chamber with an outlet opening, and a degassing opening. A hydrophilic membrane and a hydrophobic membrane, wherein the hydrophilic membrane fluidically couples the inlet chamber with the outlet chamber, enabling a transfer of liquid from the inlet chamber to the outlet chamber. The hydrophobic membrane fluidically couples the inlet chamber with the degassing opening, enabling a transfer of gas from the inlet chamber to the degassing opening. The hydrophilic and hydrophobic membranes being joined along a joint to establish a joined membrane, such that a contact line of a liquid-gas phase separation on the joined membrane does not coincide with the joint independent of an orientation of the degassing device with respect to gravity.Type: GrantFiled: September 28, 2012Date of Patent: December 8, 2015Assignee: Roche Diagnostics International AGInventors: Joerg Dogwiler, Christoph Huwiler, Philipp Michel
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Publication number: 20150290082Abstract: In one embodiment, a method of filling a container with a liquid drug from a drug reservoir may include: a) connecting a container and a drug reservoir with a cannula such that the drug reservoir and the container fluidically communicate with each other via the cannula, while being hermetically sealed; b) reducing a first volume contained within the container to displace a gaseous medium from the first volume of the container via the cannula into a second volume contained within the drug reservoir; c) increasing the first volume of the container to displace the liquid drug from the second volume of the drug reservoir into the first volume of the container to fill the container; and d) disconnecting the container and the drug reservoir. Before performing action d), action b) and action c) can be successively performed more than once to stepwise increase an amount of liquid drug displaced.Type: ApplicationFiled: June 26, 2015Publication date: October 15, 2015Inventors: Roger Haenggi, Urs Rindlisbacher, Franco Moia, Marcel Mueller, Christoph Huwiler, Florian Kuhni, Joerg Wermelinger, Andreas Lischewski, Christian Classen, Tilo Callenbach, Louis Widmer, Maurice Ducret
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Patent number: 9089647Abstract: In one embodiment, a method of filling a container with a liquid drug from a drug reservoir may include: a) connecting a container and a drug reservoir with a cannula such that the drug reservoir and the container fluidically communicate with each other via the cannula, while being hermetically sealed; b) reducing a first volume contained within the container to displace a gaseous medium from the first volume of the container via the cannula into a second volume contained within the drug reservoir; c) increasing the first volume of the container to displace the liquid drug from the second volume of the drug reservoir into the first volume of the container to fill the container; and d) disconnecting the container and the drug reservoir. Before performing action d), action b) and action c) can be successively performed more than once to stepwise increase an amount of liquid drug displaced.Type: GrantFiled: June 8, 2012Date of Patent: July 28, 2015Assignee: Roche Diagnostics International AGInventors: Roger Haenggi, Urs Rindlisbacher, Franco Moia, Marcel Mueller, Christoph Huwiler, Florian Kuhni, Joerg Wermelinger, Andreas Lischewski, Christian Classen, Tilo Callenbach, Louis Widmer, Maurice Ducret
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Publication number: 20140243782Abstract: Bubble traps for removing bubbles from a stream of liquid and flexible containers comprising such bubble traps are disclosed. The bubble trap includes a containment chamber fluidly coupled to an outlet conduit. At least one grate is disposed between the containment chamber and the outlet conduit. The at least one grate includes a plurality of grate inlets formed in a grate wall and fluidly coupled to the outlet conduit with a plurality of grate conduits such that the containment chamber is fluidly coupled to the outlet conduit. The grate traps bubbles entrained in the stream of liquid flowing from the containment chamber to the outlet conduit in the containment chamber when the bubbles are greater than or equal to a diameter of the grate inlets.Type: ApplicationFiled: May 9, 2014Publication date: August 28, 2014Applicant: Roche Diagnostics International AGInventors: Christoph Huwiler, Florian Kuhni, Andreas Geipel
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Patent number: 8720496Abstract: A device, kit, and method for transferring a liquid medicament from a supply container to a flexible reservoir container are disclosed. The device may comprise a compartment unit and an adapter unit. The compartment unit may have a sealingly closable chamber, arranged for housing the flexible reservoir container and for being fluidly connected with a pump mechanism. The adapter unit may have at least one transfer passage for transferring liquid from a supply container connected to the adapter unit to the flexible reservoir container, and a separator arranged in the transfer passage for separating gas bubbles from a liquid streaming through the transfer passage. The separator may be fluidly connected to the chamber.Type: GrantFiled: November 4, 2010Date of Patent: May 13, 2014Assignee: Roche Diagnostics International AGInventors: Christoph Huwiler, Florian Kuehni, Gerald Studer, Martin Wyss, Ulrich Haueter, David Teutsch
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Publication number: 20140090746Abstract: A device for filling a flexible container and a method thereof are disclosed. The device may include a pressurizing chamber and an evacuation chamber. A first displacement piston is sealingly and slideably arranged within the pressurizing chamber to define an inner volume within the pressurizing chamber that is fluidly connected to a pressurizing conduit. A second displacement piston is sealingly and slideably arranged within the evacuation chamber to define an inner volume within the evacuation chamber that is fluidly connected to an evacuation conduit. A reservoir adapter is fluidly connected to the pressurizing conduit and connects to a liquid reservoir. A container adapter is fluidly connected to the evacuation conduit and connects with a flexible container. A transfer conduit is fluidly connected to the reservoir adapter and the container adapter. A valve fluidly connects the container adapter to the evacuation conduit or the transfer conduit.Type: ApplicationFiled: November 5, 2013Publication date: April 3, 2014Inventors: Florian Kuehni, Christoph Huwiler, Martin Wyss
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Patent number: 8602067Abstract: A device for filling a flexible container and a method thereof are disclosed. The device may include a pressurizing chamber and an evacuation chamber. A first displacement piston is sealingly and slideably arranged within the pressurizing chamber to define an inner volume within the pressurizing chamber that is fluidly connected to a pressurizing conduit. A second displacement piston is sealingly and slideably arranged within the evacuation chamber to define an inner volume within the evacuation chamber that is fluidly connected to an evacuation conduit. A reservoir adapter is fluidly connected to the pressurizing conduit and connects to a liquid reservoir. A container adapter is fluidly connected to the evacuation conduit and connects with a flexible container. A transfer conduit is fluidly connected to the reservoir adapter and the container adapter. A valve fluidly connects the container adapter to the evacuation conduit or the transfer conduit.Type: GrantFiled: June 2, 2010Date of Patent: December 10, 2013Assignee: Roche Diagnostics International AGInventors: Florian Kuhni, Christoph Huwiler, Martin Wyss
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Publication number: 20130267896Abstract: Embodiments directed to a degassing device for removing gas bubbles from a liquid drug stream and an ambulatory infusion system are disclosed. The degassing device may comprise an inlet chamber with an inlet opening, an outlet chamber with an outlet opening, and a degassing opening. A hydrophilic membrane and a hydrophobic membrane, wherein the hydrophilic membrane fluidically couples the inlet chamber with the outlet chamber, enabling a transfer of liquid from the inlet chamber to the outlet chamber. The hydrophobic membrane fluidically couples the inlet chamber with the degassing opening, enabling a transfer of gas from the inlet chamber to the degassing opening. The hydrophilic and hydrophobic membranes being joined along a joint to establish a joined membrane, such that a contact line of a liquid-gas phase separation on the joined membrane does not coincide with the joint independent of an orientation of the degassing device with respect to gravity.Type: ApplicationFiled: September 28, 2012Publication date: October 10, 2013Inventors: Joerg Dogwiler, Christoph Huwiler, Philipp Michel
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Publication number: 20130035658Abstract: In one embodiment, a method of filling a container with a liquid drug from a drug reservoir may include: a) connecting a container and a drug reservoir with a cannula such that the drug reservoir and the container fluidically communicate with each other via the cannula, while being hermetically sealed; b) reducing a first volume contained within the container to displace a gaseous medium from the first volume of the container via the cannula into a second volume contained within the drug reservoir; c) increasing the first volume of the container to displace the liquid drug from the second volume of the drug reservoir into the first volume of the container to fill the container; and d) disconnecting the container and the drug reservoir. Before performing action d), action b) and action c) can be successively performed more than once to stepwise increase an amount of liquid drug displaced.Type: ApplicationFiled: June 8, 2012Publication date: February 7, 2013Applicant: ROCHE DIAGNOSTICS INTERNATIONAL AGInventors: Roger Haenggi, Urs Rindlisbacher, Franco Moia, Marcel Mueller, Christoph Huwiler, Florian Kuhni, Joerg Wermelinger, Andreas Lischewski, Christian Classen, Tilo Callenbach, Louis Widmer, Maurice Ducret
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Patent number: 8313468Abstract: Cannula assemblies with pressure sensors made of stacked coplanar layers and ambulatory infusion systems comprising the same are disclosed. The cannula assemblies include a hub and an infusion cannula. The hub includes a pressure sensor and a fluid channel fluidly coupled to the infusion cannula. The pressure sensor is formed from a stack of coplanar layers including a top layer, a base layer an electrode layer and a counter electrode layer. The fluid channel is positioned between the top layer and the base layer. The electrode layer is positioned between the top layer and the base layer and coupled to the fluid channel. The counter-electrode layer is positioned between the top layer and the electrode layer. A spacer layer having a through cut-out defining an electrode cavity is disposed between the top layer and the base layer such that the electrode layer extends across the electrode cavity.Type: GrantFiled: March 17, 2010Date of Patent: November 20, 2012Assignee: Roche Diagnostics International AGInventors: Andreas Geipel, Florian Kuhni, Christoph Huwiler, Ulrich Haueter
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Publication number: 20120029333Abstract: An infusion set for administering a medicament delivered by an infusion pump which can be carried separately from the infusion set as well as an infusion system including the infusion set are disclosed. The infusion set can comprise a disposable part, a reusable part, and an electrically powered functional component. The disposable part can comprise a single lumen infusion cannula that projects from the underside and is the only skin piercing or penetrating element of the infusion set. The reusable part when in the interconnected state is fluidically isolated from the disposable part. The disposable part can comprise a feeding line which fluidically connects an upstream end of the first connector with a downstream end of a cannula to feed and deliver the medicament via the disposable part and bypass the reusable part.Type: ApplicationFiled: January 27, 2011Publication date: February 2, 2012Applicant: ROCHE DIAGNOSTICS INTERNATIONAL AGInventors: Joerg Dogwiler, Andreas Geipel, David Teutsch, Christoph Huwiler