Patent application number | Description | Published |
20090054837 | Coating Method for a Folded Balloon - The present invention relates to compositions which are suitable for selective filling or selective coating of folds of a folded balloon, and especially relates to compositions of a contrast agent and an active agent in a solvent for filling of folds of a folded catheter balloon as well as to methods for selective filling or selective coating of folds of a folded catheter balloon and to filled or coated folded catheter balloons which can be obtained according to one of these methods. | 02-26-2009 |
20100179475 | MEDICAL PRODUCT FOR TREATING STENOSIS OF BODY PASSAGES AND FOR PREVENTING THREATENING RESTENOSIS - A method for coating catheter balloons with a defined amount of a pharmacologically active agent, uses a coating device having a volume measuring device for releasing a measurable amount of a coating solution by means of a dispensing device specifically onto the surface of the catheter balloon. | 07-15-2010 |
20110160698 | Balloon Catheter for Treating Stenosis of Body Passages and for Preventing Threatening Restenosis - The present invention is directed to a method for coating catheter balloons with a defined amount of a pharmacologically active agent, wherein the coating method uses a coating device having a volume measuring device for releasing a measurable amount of a coating solution by means of a dispensing device specifically onto the surface of the catheter balloon. | 06-30-2011 |
20130066268 | Coating Method for a Folded Balloon - The present invention relates to compositions which are suitable for selective filling or selective coating of folds of a folded balloon, and especially relates to compositions of a contrast agent and an active agent in a solvent for filling of folds of a folded catheter balloon as well as to methods for selective filling or selective coating of folds of a folded catheter balloon and to filled or coated folded catheter balloons which can be obtained according to one of these methods. | 03-14-2013 |
Patent application number | Description | Published |
20090292198 | Non-invasive brain injury evaluation - A non-invasive method for measuring intracranial pressure (ICP) is provided. A numerical model such as finite element model is developed in order to calculate the ICP, strain or stress for patients who suffers from hematoma, edema or tumor. The method can further provide local maximum principle strain that can provide information about possible subsequent brain injury, such as diffuse axonal injury, in sensitive region of the brain. Based on computer tomography or magnetic resonance images an individual diagnosis and treatment plan can be formed for each patient. | 11-26-2009 |
20100041521 | STRENGTHENING GLOVE - A finger glove for use in gripping movements with one or more fingers of a human hand enclosed in the glove. The glove includes glove fingers and a palm. At least one glove finger is adapted to include on each side an artificial tendon that extends along an inside of the glove. A yoke is fitted in a tip of the at least one glove finger and intended to surround a tip of an enclosed finger. At each side of the glove finger artificial tendons are connected to the yoke. A system including the finger glove having a force detecting sensor is situated on the inside of the at least one glove finger and is adapted to detect a force between a finger enclosed in the glove finger and a contact surface applied to the finger. The artificial tendons for a glove finger are connected to at least one actuator and a control unit adapted to cause the at least one actuator to exert a pulling force on the artificial tendons of the glove finger based on a force detected in the force detecting sensor, whereby the finger enclosed in the glove finger is caused to bend. | 02-18-2010 |
20120308532 | COMPOSITION FOR THE TREATMENT OF A BONE FRACTURE - There is disclosed a composition formed by a reaction of at least one component A and at least one component B, wherein component A is selected from the group consisting of a compound comprising at least two thiol-groups and a disulfide derivative of a compound comprising at least two thiol groups, and wherein component B is a compound comprising at least two vinyl groups, for the manufacture of an implant for the treatment of a bone fracture. Advantages include that the adhesive patch formed by the composition will be solid in body fluid upon curing and will exhibit excellent mechanical strength. Advantages include that the composition is biocompatible, the material can be applied in small and inaccessible areas, the process requires less surgeon training, it solves drawback with open surgery, and it is possible to use cost effective materials and methods in the process. | 12-06-2012 |
20130122256 | PROTECTIVE MATERIAL - A protective material/structure is provided that reduces the risk of injury for a person after contact with said material/structure, and is based on a structure where an inner and outer shell can move relative to each other. The shells are separated by spikes or thin beams and the outer shell covers or envelops the spikes. The spikes or beams are constructed so that they permit displacement of the outer shell relative to the inner shell in the event of an oblique impact against the protective material/structure. The spikes or beams are designed to be thin/slim and can be made of flexible polymer materials such as plastics, rubber or fibers. This enables the spikes to give way after a tangential/rotational impact and thereby efficiently reduce the negative effects of such an impact on the brain. The material/structure can be used in e.g. helmets, vehicle interiors, vehicle exteriors, indoor house building material, boxing gloves and the like. | 05-16-2013 |