| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | VETERINARY ORTHOPEDIC KIT | EP13874784 | 2013-07-15 | EP2959859A4 | 2016-09-07 | KYSELIOV IHOR HEORHIOVYCH |
| 1. The VOSIS veterinary orthopedic kit relates to veterinary science and more specifically to orthopedics and traumatology, and can be used in veterinary clinics in the treatment and restoration of function to damaged limbs of dogs, cats and other animals. The technical problem to be solved consists in the timely and quality provision of emergency care to injured animals, an increase in the effectiveness of treatment and the prevention of serious complications. This problem is solved in that orthopedic external fixation systems are provided in a universal and multifunctional set. The VOSIS veterinary orthopedic kit consists of a rectangular container (1) in the form of a box (2) having a lid (3) and being divided by partitions into a plurality of sections. The sections accommodate a set of components and instruments for the purposes of external fixation: polyfunctional monoblocks (4), plates (5), rods and pins (6), bars (7), fasteners (8) and instruments (9). All of the components of the set are marked for ease of identification. | ||||||
| 162 | TISSUE SAMPLER | EP14808415.5 | 2014-06-05 | EP3004834A1 | 2016-04-13 | BLADEN, Roy Victor; GARDNER, Michael Stuart |
| The invention relates to a tissue sampler for taking samples of tissue from animal's or plants. The tissue sampler is adapted to hold a storage tube in which a tissue sample is to be placed and to hold a magazine comprising one or more collecting devices. Each collecting device comprises a punch for cutting a tissue sampler and a plunger for pushing the tissue sample into the storage tube. The magazine can be moved after each tissue sample is taken so that a fresh collection device is ready to take the next tissue sample. The invention also relates to a magazine comprising a plurality of collecting devices for use with the tissue sampler. | ||||||
| 163 | TRANSFIXATION DEVICE FOR AN EXTERNAL SKELETAL FIXATOR | EP07720107.7 | 2007-04-30 | EP2139412B1 | 2015-08-26 | SCHWIEGER, Karsten; SPRENGER, Victor |
| 164 | MAGNETIC INTERFERENCE REDUCING SURGICAL DRAPE | EP11797447 | 2011-06-23 | EP2584993A4 | 2015-04-08 | FORTIER LOUIS-PHILIPPE; ZAPHIRATOS VALÉRIE; BURMAN HOWARD; SPOONER DANIEL; GOSSELIN RENÉ; CÔTÉ RICHARD |
| A magnetic drape comprises a drape body made of a flexible material. The drape body has a panel portion having an undersurface adapted to be laid on an uneven body and a top surface, and a given thickness between the undersurface and the top surface. A plurality of magnet units are within the flexible material of the drape body, with each said magnet unit comprising a shielding material in the shape of a cup oriented to have a bottom wall facing toward the undersurface of the drape body, and a magnet received at least partially in the cup. The magnet comprises two or more sections arranged to expose opposite polarity on a top surface of the magnetic drape, with each said section having opposite polarities oriented vertically. | ||||||
| 165 | METHOD FOR DETERMINING OPTIMIZED PARAMETERS OF A DEVICE GENERATING A PLURALITY OF ULTRASOUND BEAMS FOCUSED IN A REGION OF INTEREST | EP13708168.3 | 2013-03-08 | EP2822652A1 | 2015-01-14 | CHAPELON, Jean-Yves; LAFON, Cyril; MESTAS, Jean-Louis |
| The method determines parameters to generate confocal ultrasound beams inside a medium, and uses a device comprising first and second ultrasound transducers (11, 12) and first and second displacement members (13, 14) for moving the transducers. The parameters include signals to the transducers, and the positions of the transducers. The parameters are optimised for having a minimum amplitude of the signal and having an acoustic effect inside the medium. | ||||||
| 166 | Method for determining parameters to generate ultrasound intensity and device for the same | EP12305278.9 | 2012-03-08 | EP2636428A1 | 2013-09-11 | Chapelon, Jean-Yves; Lafon, Cyril; Mestas, Jean-Louis |
The method determines parameters to generate confocal ultrasound beams inside a medium, and uses a device comprising first and second ultrasound transducers (11, 12) and first and second displacement members (13, 14) for moving the transducers. The parameters include signals to the transducers, and the positions of the transducers. The parameters are optimised for having a minimum amplitude of the signal and having an acoustic effect inside the medium.
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| 167 | TISSUE-SAMPLING NEEDLE | EP04735850 | 2004-06-03 | EP1641398A4 | 2009-05-20 | BUNCE PHILIP |
| A tissue sampling needle comprising a hollow, tubular needle (20) having a tip defined by an end face which is concave (23). | ||||||
| 168 | Zitzenmesser | EP92105681.8 | 1992-04-02 | EP0525300A2 | 1993-02-03 | Medl, Maximilian J., Dr. med. vet. |
Angegeben wird ein Zitzenmesser mit einem Grundkörper (2), einer Messerscheide (5) und einem Messer (9) mit einstellbarem Ausschwenkwinkel. Das Zitzenmesser ist dadurch gekennzeichnet, daß das Messer (9) als Winkelmesser mit einem Schneideschenkel (8) und einem Betätigungsschenkel (10) ausgebildet ist, und daß eine das Winkelmesser (9) in seine Ruhestellung drückende Feder (14) vorgesehen ist. Das Zitzenmesser hat den Vorteil, daß es insbesondere während des Schneidvorgangs auf sehr einfache Weise ein Verändern der Schnittiefe ermöglicht. |
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| 169 | APPARATUS FOR ESTABLISHING, IN VIVO, BONE STRENGTH | EP80901308.9 | 1980-06-09 | EP0030243B1 | 1984-10-10 | Pratt, George Woodman, Jr. |
| A system for establishing, in vivo, the strength of bone in a live being such as, for example, a horse. The system permits determination of the speed of travel of sound through the bone and the strength of the bone is assessed on the basis of said speed of travel. Changes in the strength due to continual cycling in the fatigue zone which can eventually lead to fracture are measured with a launching transducer (3) placed on one side of the leg to pass ultrasonic waves through the tissue and bone to a receiving transducer (4). The distance between the two transducers is measured by an element (7) and the speed of travel of sound through the bone is detected by the generator and detection apparatus (8). | ||||||
| 170 | APPARATUS FOR ESTABLISHING, IN VIVO, BONE STRENGTH. | EP80901308 | 1980-12-30 | EP0030243A4 | 1981-10-27 | EQUINE BIOMECHANICS EXERCISE P |
| A system for establishing, in vivo, the strength of bone in a live being such as, for example, a horse. The system permits determination of the speed of travel of sound through the bone and the strength of the bone is assessed on the basis of said speed of travel. Changes in the strength due to continual cycling in the fatigue zone which can eventually lead to fracture are measured with a launching transducer (3) placed on one side of the leg to pass ultrasonic waves through the tissue and bone to a receiving transducer (4). The distance between the two transducers is measured by an element (7) and the speed of travel of sound through the bone is detected by the generator and detection apparatus (8). | ||||||
| 171 | APPARATUS FOR ESTABLISHING, IN VIVO, BONE STRENGTH | EP80901308.0 | 1980-06-09 | EP0030243A1 | 1981-06-17 | PRATT, Jr., George Woodman |
| Un systeme pour determiner, in vivo, la resistance d'un os d'un etre vivant tel que, par exemple, un cheval. Le systeme permet la determination de la vitesse de progression du son au travers de l'os et la resistance de l'os est estimee sur la base de ladite vitesse de progression. Des changements de resistance dus au mouvement cyclique continue de la zone de fatigue qui peuvent eventuellement conduire a une fracture sont mesures au moyen d'un transducteur d'emission (3) place d'un cote de la jambe pour faire passer des ondes ultrasoniques au travers des tissus et de l'os vers un transducteur de reception (4). La distance entre les deux transducteurs est mesuree par un element (7) et la vitesse de progression du son au travers de l'os est detectee par le generateur et l'appareil de detection (8). | ||||||
| 172 | TREATMENT FOR LARGE VOLUME BIOLOGICAL TARGETS WITH A HIGH PRESSURE SHOCKWAVE INSTRUMENT | EP15872098.7 | 2015-12-21 | EP3232950A1 | 2017-10-25 | PAPIROV, Eduard; FRIEDMAN, Itzhak; DOLBERG, Yehoshua |
| The present invention relates to a device, system and a method for high pressure shockwave treatment of biological tissue having a large treatment zone and in particular to such a device, system and method in which a large biological treatment area in treated in a non-drug, non-surgical treatment protocol utilizing ballistic shockwave generating device. | ||||||
| 173 | SKIN GRIPPING MEANS, INJECTOR INCLUDING THE SKIN GRIPPING MEANS AND METHOD OF PERFORMING A SUBCUTANEOUS INJECTION | EP10780856 | 2010-05-28 | EP2435116A4 | 2017-09-27 | EBBETT TODD DONALD; WALKER RODNEY GORDON |
| 174 | IMPROVEMENTS IN AND RELATING TO TISSUE SAMPLING | EP14808057 | 2014-06-05 | EP3004833A4 | 2017-02-15 | BLADEN ROY VICTOR; GARDNER MICHAEL STUART |
| The invention relates to a kit of parts comprising a collecting device for collecting a tissue sample and a storage tube for storing the tissue sample therein. The collecting device comprises a punch and a plunger located within a bore of the punch and being adapted to slide within the bore. The storage tube comprises a tube body having an open first end, a closed second end, and a cap located at the first end of the tube body, the cap having a breakable seal that extends across the body of the tube to seal the first end of the tube body. The collecting device is adapted to break the seal of the cap and to fill the resulting opening to close off the storage tube. | ||||||
| 175 | CHRONIC CRANIAL WINDOW ALLOWING DRUG APPLICATION, CELLULAR MANIPULATIONS, AND ELECTROPHYSIOLOGY | EP14871316.7 | 2014-12-16 | EP3082410A1 | 2016-10-26 | KUHN, Bernd; ROOME, Christopher Joel |
| A cranial window with an accessing port for medical research includes a sheet-shaped member configured to be installed as a cranial window on an outer brain skin of an animal subject through an opening in a skull, the sheet-shaped member having an optically transparent window therein or in entirety thereof to allow optical imaging into a brain of the animal subject; and an access port in the sheet-shaped member for allowing sterile insertion and removal of an accessing member having a sharp tip, the access port being configured to be self-sealing when the accessing member is removed. | ||||||
| 176 | TREATMENT APPARATUS FOR EXTERNAL APPLICATION TO A MAMMAL BODY | EP12743199.7 | 2012-06-28 | EP2726151B1 | 2015-08-05 | FLOYD, Helen; MASTERS, Peter |
| 177 | MULTIFUNCTIONAL CLAMP FOR ANIMAL | EP10810730 | 2010-02-04 | EP2526860A4 | 2013-09-18 | WANG GONGHUA; LIU GANG; XIE XICHENG |
| 178 | MULTIFUNCTIONAL CLAMP FOR ANIMAL | EP10810730.1 | 2010-02-04 | EP2526860A1 | 2012-11-28 | WANG, Gonghua; LIU, Gang; XIE, Xicheng |
This multi-function clamp for veterinarian comprises a clamp body including an upper clip (1, 10, 100) and a lower clip (5, 50, 400). According to the invention, said clamp body is composed by the upper clip (1, 10, 100), the lower clip (5, 50, 400), a bolt (3, 30, 300) and a torsional spring (2, 20, 200); said clamp body being installed with a connection assembly that has connecting lead wires, and the connection assembly has several installation sections which can match with different lead wire plugs. By adopting the compatibility design, the multi-function clamp for veterinarian could apply to wider areas, a pet clinic equipped with the multi-function clamp for veterinarian is applicable even using the probe-type lead wires, the banana plug lead wires, the snap-type lead wires and the clip-type lead wires simultaneously, which greatly decreases the procurement cost for equipment and accessories, and easier to be operated. Furthermore, by adopting the anti-slip design, the multi-function clamp for veterinarian will improve remarkably for the matter the clamp drops off from the operators or the animal skins, which saves time in operation. |
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| 179 | CHIRURGISCHES KRALLENSCHNEIDWERKZEUG | EP05715062.5 | 2005-03-01 | EP1722625B1 | 2008-04-09 | Kabella, Klaus |
| The aim of the invention is to avoid injury to blood vessels that are situated in claws, when cutting claws with claw clippers or scissors, in particular of dogs. To achieve this, a transillumination device (8) is provided on the claw clippers below the cutting opening (15), said device permitting a visual recognition of the course of blood vessels (18) immediately before the cut, so that the exact point of incision can be determined outside living cell tissue. | ||||||
| 180 | Device for cutting out tissue specimens | EP05024769.1 | 2005-11-12 | EP1656888A1 | 2006-05-17 | Eberle, Walter; Hloch, Peter; Hundt, Christoph; Rainer, Alois |
The present invention relates to a device for separating a tissue part from brain material, said device comprising a circular blade which continues as the wall of a cylindrical or substantially cylindrical hollow body, at the end of which a grid is arranged perpendicular to the cylinder axis. The invention further relates to the use of the device in a method for separating a tissue part from brain material and to a kit containing one or more devices according to the invention.
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