ZHAW ZÜRCHER HOCHSCHULE FÜR ANGEWANDTE WISSENSCHAFTEN (Suisse)
Inventeur(s)
Hilvert, Donald
Edwardson, Thomas
Tibbitt, Mark
Guzzi, Elia
Hori, Mao
Ota, Yusuke
Dranseikiene, Dalia
Peters, Christin
Raguz Nakic, Zrinka
Mattli, Kevin
Abrégé
The present invention relates to a hydrogel-forming protein comprising at least three self-assembling aggregation domains and at least two hydrophilic non-self-assembling linker domains, wherein the self-assembling aggregation domains are covalently interconnected by the hydrophilic non-self-assembling linker domain, either directly or via a peptide linker, as well as a bioink comprising of the hydrogel-forming peptide of any one of the preceding claims for three-dimensional (3D) bio-fabrication.
C07K 14/78 - Peptides du tissu connectif, p. ex. collagène, élastine, laminine, fibronectine, vitronectine ou globuline insoluble à froid [CIG]
C12N 5/00 - Cellules non différenciées humaines, animales ou végétales, p. ex. lignées cellulairesTissusLeur culture ou conservationMilieux de culture à cet effet
ZHAW ZÜRCHER HOCHSCHULE FÜR ANGEWANDTE WISSENSCHAFTEN (Suisse)
Inventeur(s)
Häusler, Ian
Paparo, Davide
Fehr, Daniel
Bachmann, Andreas
Hagen, Raphael
Bonmarin, Mathias
Spano, Fabrizio
Abrégé
A treatment device for skin or tissue treatment with radiofrequency (RF) energy comprises a control unit (10) and a handset device (3). The handset device (3) comprises a handset housing (30) and an applicator (31), wherein the applicator (31) comprises two elongate electrodes (33) to be applied to the skin or tissue to be treated. The treatment device comprises a temperature sensor (34) for detecting a temperature at a treatment site, wherein the control unit (10) controls the RF energy according to the detected temperature at the treatment site. The temperature sensor (34) is a contactless sensor. The inventive device minimizes the risk of overheating a patient's skin, especially during ramp-up.
A61B 18/12 - Instruments, dispositifs ou procédés chirurgicaux pour transférer des formes non mécaniques d'énergie vers le corps ou à partir de celui-ci par chauffage en faisant passer des courants à travers les tissus à chauffer, p. ex. des courants à haute fréquence
A61B 18/00 - Instruments, dispositifs ou procédés chirurgicaux pour transférer des formes non mécaniques d'énergie vers le corps ou à partir de celui-ci
ZHAW - ZÜRCHER HOCHSCHULE FÜR ANGEWANDTE WISSENSCHAFTEN (Suisse)
Inventeur(s)
Eibl, Regine
Eibl, Dieter
Hühn, Tilo
Mozaffari, Fruhar
Abrégé
in vitroin vitroin vitroin vitroin vitro-manufactured biomass prepared by the aforementioned method, uses of the same, and related food compositions are described.
ZHAW ZÜRCHER HOCHSCHULE FÜR ANGEWANDTE WISSENSCHAFTEN (Suisse)
Inventeur(s)
Dennig, Hans-Jörg
Ganz, Philipp
Klimyuk, Daniil
Staller, Justin
Abrégé
The invention relates to a drilling robot (2) for drilling a borehole (1). The drilling robot (2) comprises a movement unit (7) for moving and stabilizing the drilling robot (2) inside the borehole (1), a drilling unit (6) for drilling the borehole (1) and an extrusion unit (9) for producing a pipe (10) within the borehole (1) to support the borehole (1). A material feed unit (11) feeds extrusion material into the extrusion unit (9). The extrusion unit (9) comprises a melting unit which melts the extrusion material to be extruded into its final dimensions.
ZHAW ZÜRCHER HOCHSCHULE FÜR ANGEWANDTE WISSENSCHAFTEN (Suisse)
Inventeur(s)
Dennig, Hans-Jörg
Ganz, Philipp
Staller, Justin
Klimyuk, Daniil
Abrégé
The invention relates to a Drilling robot for drilling a borehole. The drilling robot (2) is purely electrically driven and comprises a movement unit for moving the drilling robot through the borehole, a rotary hammer unit with a drill head (21), a rotating system (22) and a hammering system (23). The rotating system (22) is adapted to rotate the drill head (21) and the hammering system (23) is adapted to hammer with the drill head (21). The hammering system (23) is adapted to operate according to an electro-pneumatic principle in order to generate an electro-pneumatic stroke.
E21B 4/16 - Moyens d'entraînement multiples au fond du trou, p. ex. pour le forage combiné par percussion et par rotationMoyens d'entraînement pour unités de forage à plusieurs trépans
E21B 4/18 - Ancrage ou avancement dans le trou de forage
6.
METHODS FOR THE PREPARATION OF CULTURE MEDIA BASED ON SACCHARIFIED PLANT EXTRACTS AND RELATED PRODUCTS
ZHAW - ZÜRCHER HOCHSCHULE FÜR ANGEWANDTE WISSENSCHAFTEN (Suisse)
Inventeur(s)
Eibl, Regine
Eibl, Dieter
Hühn, Tilo
Abrégé
Described are methods for the cost-effective and sustainable preparation of cell culture media or fermentation media and liquid or dry concentrates thereof, the method comprising the steps of: a) providing a starch-containing plant; b) grinding the starch-containing plant to a mean particle size of 500 μm or less to provide a mash; c) subjecting the ground mash to a phase separation resulting in a solid phase and at least one liquid phase; d) separately processing the solid phase and the at least one liquid phase; e) recombining the separately processed phases; and f1) adding water to the recombined phases to provide the cell culture medium or fermentation medium or f2) subjecting the at least one liquid phase or the recombined phases to a drying and/or concentration step to provide the supplement for a cell culture medium or fermentation medium; wherein in step d), the separated solid phase is subjected to a saccharification step. Also described are products obtained by the aforementioned methods.
ZHAW - ZÜRCHER HOCHSCHULE FÜR ANGEWANDTE WISSENSCHAFTEN (Suisse)
Inventeur(s)
Eibl, Regine
Eibl, Dieter
Hühn, Tilo
Abrégé
Described are methods for the cost-effective and sustainable preparation of cell culture media or fermentation media and liquid or dry concentrates thereof, the method comprising the steps of: a) growing microgreens from edible seeds of vegetables, cereals or herbs; b) harvesting the microgreens in an immature state; c) grinding the harvested microgreens to an average particle size of 500 μm or less to provide a mash; d) subjecting the ground mash to a phase separation resulting in a solid phase and a liquid phase; and e1) optionally adding water to dilute the liquid phase and f) sterilising the optionally diluted liquid phase to provide the cell culture medium or fermentation medium, or e2) subjecting the liquid phase to a drying and/or concentration step to provide the supplement for a cell culture medium or fermentation medium. Also described are products obtained by the aforementioned methods and related uses.
C12N 5/00 - Cellules non différenciées humaines, animales ou végétales, p. ex. lignées cellulairesTissusLeur culture ou conservationMilieux de culture à cet effet
ZHAW ZÜRCHER HOCHSCHULE FÜR ANGEWANDTE WISSENSCHAFTEN (Suisse)
Inventeur(s)
Maeda, Nobutaka
Meier, Daniel M.
Weisshar, Florian
Hack, Jannis
Gnehm, Japhet
Elkaz, Adnan
Abrégé
222–R substituting an amine nitrogen. The present invention further provides processes of manufacturing the sorbent materials and methods of separation of carbon dioxide from a gas mixture using said sorbent materials.
B01D 53/02 - Séparation de gaz ou de vapeursRécupération de vapeurs de solvants volatils dans les gazÉpuration chimique ou biologique des gaz résiduaires, p. ex. gaz d'échappement des moteurs à combustion, fumées, vapeurs, gaz de combustion ou aérosols par adsorption, p. ex. chromatographie préparatoire en phase gazeuse
ZHAW ZÜRCHER HOCHSCHULE FÜR ANGEWANDTE WISSENSCHAFTEN (Suisse)
Inventeur(s)
Hilvert, Donald
Edwardson, Thomas
Tibbitt, Mark
Guzzi, Elia
Hori, Mao
Ota, Yusuke
Dranseikiene, Dalia
Peters, Christin
Raguz Nakic, Zrinka
Mattli, Kevin
Abrégé
The present invention relates to a hydrogel-forming protein comprising at least three self-assembling aggregation domains and at least two hydrophilic non-self-assembling linker domains, wherein the self-assembling aggregation domains are covalently interconnected by the hydrophilic non-self-assembling linker domain, either directly or via a peptide linker, as well as a bioink comprising of the hydrogel-forming peptide of any one of the preceding claims for three-dimensional (3D) bio-fabrication.
ZHAW—ZÜRCHER HOCHSCHULE FÜR ANGEWANDTE WISSENSCHAFTEN (Suisse)
Inventeur(s)
Laux, Roland
Hühn, Tilo
Abrégé
The invention relates to a method for obtaining value-determining contents, such as flavouring substances, vitamins, and polyphenols, from foods (13), having the following steps: a) providing a food (13), b) adding a plant oil (15) as an extractant, c) grinding the food (13) and the plant oil (15) into a mash (21), and d) separating the mash into an extraction phase, which is an oil phase (25), and a solid phase (29) as a raffinate phase. The food (13) and the plant oil (19) are ground very finely, said grinding process being defined in that the food (13) together with the plant oil (15) is ground until the oil phase (25) has an average particle size of less than 300 μm, preferably less than 100 μm, particularly preferably less than 20 μm.
ZHAW - ZÜRCHER HOCHSCHULE FÜR ANGEWANDTE WISSENSCHAFTEN (Suisse)
Inventeur(s)
Laux, Roland
Hühn, Tilo
Abrégé
The invention relates to a method for obtaining value-determining contents, such as flavoring substances, vitamins, and polyphenols, from foods (13), having the following steps: a) providing a food (13), b) adding a plant oil (15) as an extraction means, c) grinding the food (13) and the plant oil (15) into a mash (21), and d) separating the mash into an extraction phase, which is an oil phase (25), and a solid phase (29) as a raffinate phase. The food (13) and the plant oil (19) are ground very finely, said grinding process being defined in that the food (13) together with the plant oil (15) is ground until the oil phase (25) has an average particle size of less than 300 µm, preferably less than 100 µm, particularly preferably less than 20 µm.