Patent application number | Description | Published |
20130277393 | APPLICATION DEVICE FOR MULTI-COMPONENT SUBSTANCES, A CARTRIDGE SET AND A PACKAGING UNIT - The disclosure relates to an application device for multi-component substances, such as multi-component adhesives or multi-component sealants, having at least two interconnected cartridge receiving devices for receiving replaceable cartridges containing substance components to be mixed, wherein one of which cartridges has a rigid outside wall, including a drive device for expelling the substance components from the cartridges in predetermined quantity ratios through component outlets with the aid of expulsion pistons, and a mixing device, which is connected to the component outlets, mixes the expelled substance components and discharges them in the mixed state. At least one of the cartridge receiving devices can be designed to be loaded with cartridges on the discharge side, at least one of the cartridge receiving devices being designed to support a cartridge having a rigid outside wall. A cover adapter is provided on the discharge side on the at least two cartridge receiving devices, and a cartridge cover is provided, which is designed to receive or attach the replaceable mixing device. | 10-24-2013 |
20140301156 | DRIVING DEVICE OF A METERING AND MIXING APPARATUS - A driving device of a metering and mixing apparatus for multi-component substances is disclosed, which driving device can have at least two cartridge holders for holding interchangeable cartridges with individual substance components, a discharging apparatus for simultaneously discharging the substance components from the cartridges through component outlets with the aid of discharging pistons entering the cartridge holder or cartridges, and a mixing apparatus which is connected to the component outlets, for mixing the discharged substance components and discharging the latter in mixed form, and a transmission unit for the connection of a drive motor, wherein the transmission unit can have a detector for detecting at least one counter pressure which builds up during the discharging of at least one of the substance components, and a controller, which is connected on an inlet side to the detector for bringing about a driving control function in response to a detection result. | 10-09-2014 |
20140346251 | DRIVE DEVICE OF A METERING AND MIXING DEVICE - A drive apparatus of a metering and mixing device for multi-component materials is disclosed, for example, for multi-component adhesives, which metering and mixing device can have at least two cartridge-accommodating devices for accommodating replaceable cartridges having individual material components, a discharging device for simultaneously discharging the material components from the cartridges through the component outlets by discharging plungers that plunge into the cartridge-accommodating device and a mixing device. A transmission unit for connects a drive machine, and has a coupling for forced connection of a discharge of at least two material components by correspondingly synchronized actuation of discharging plungers by respective discharging rods. | 11-27-2014 |
Patent application number | Description | Published |
20100239664 | FORMS OF RIFAXIMIN AND USES THEREOF - The present invention relates to Rifaximin polymorphic, salt, hydrate, and amorphous forms, to their use in medicinal preparations and to therapeutic methods using them. | 09-23-2010 |
20110105550 | FORMS OF RIFAXIMIN AND USES THEREOF - The present invention relates to Rifaximin polymorphic, salt, hydrate, and amorphous forms, to their use in medicinal preparations and to therapeutic methods using them. | 05-05-2011 |
20120076857 | FORMS OF RIFAXIMIN AND USES THEREOF - The present invention relates to Rifaximin polymorphic, salt, hydrate, and amorphous forms, to their use in medicinal preparations and to therapeutic methods using them. | 03-29-2012 |
20130066079 | FORMS OF RIFAXIMIN AND USES THEREOF - The present invention relates to Rifaximin polymorphic, salt, hydrate, and amorphous forms, to their use in medicinal preparations and to therapeutic methods using them. | 03-14-2013 |
Patent application number | Description | Published |
20110189275 | PTEROSTILBENE COCRYSTALS - Cocrystals of pterostilbene are disclosed, including: pterostilbene:caffeine cocrystal, pterostilbene:carbamazepine cocrystal, pterostilbene:glutaric acid cocrystal, and pterostilbene:piperazine cocrystal. The pterostilbene:caffeine cocrystal is polymorphic. Forms I and II of the pterostilbene:caffeine cocrystal are disclosed. The therapeutic uses of the pterostilbene cocrystals and of pharmaceutical/nutraceutical compositions containing them are also disclosed. The disclosure sets out various methods of making and characterizing the pterostilbene cocrystals. | 08-04-2011 |
20110189276 | PTEROSTILBENE COCRYSTALS - Cocrystals of pterostilbene are disclosed, including: pterostilbene:caffeine cocrystal, pterostilbene:carbamazepine cocrystal, pterostilbene:glutaric acid cocrystal, and pterostilbene:piperazine cocrystal. The pterostilbene:caffeine cocrystal is polymorphic. Forms I and II of the pterostilbene:caffeine cocrystal are disclosed. The therapeutic uses of the pterostilbene cocrystals and of pharmaceutical/nutraceutical compositions containing them are also disclosed. The disclosure sets out various methods of making and characterizing the pterostilbene cocrystals. | 08-04-2011 |
20110189277 | PTEROSTILBENE COCRYSTALS - Cocrystals of pterostilbene are disclosed, including: pterostilbene:caffeine cocrystal, pterostilbene:carbamazepine cocrystal, pterostilbene:glutaric acid cocrystal, and pterostilbene:piperazine cocrystal. The pterostilbene:caffeine cocrystal is polymorphic. Forms I and II of the pterostilbene:caffeine cocrystal are disclosed. The therapeutic uses of the pterostilbene cocrystals and of pharmaceutical/nutraceutical compositions containing them are also disclosed. The disclosure sets out various methods of making and characterizing the pterostilbene cocrystals. | 08-04-2011 |
20110189278 | PTEROSTILBENE COCRYSTALS - Cocrystals of pterostilbene are disclosed, including: pterostilbene:caffeine cocrystal, pterostilbene:carbamazepine cocrystal, pterostilbene:glutaric acid cocrystal, and pterostilbene:piperazine cocrystal. The pterostilbene:caffeine cocrystal is polymorphic. Forms I and II of the pterostilbene:caffeine cocrystal are disclosed. The therapeutic uses of the pterostilbene cocrystals and of pharmaceutical/nutraceutical compositions containing them are also disclosed. The disclosure sets out various methods of making and characterizing the pterostilbene cocrystals. | 08-04-2011 |
Patent application number | Description | Published |
20140318762 | Scale Prevention Treatment Method, System, and Apparatus for Wellbore Stimulation - A method of servicing a wellbore comprising placing a wellbore servicing apparatus into a wellbore, wherein the wellbore servicing apparatus contains a plurality of mobilized template-assisted crystallization beads and contacting a fluid comprising scale-forming ions with at least a portion of the template-assisted crystallization beads. A method of servicing a wellbore, comprising contacting a fluid comprising scale-forming ions with a quantity of template-assisted crystallization beads in a vessel to form a treated fluid, wherein the template-assisted crystallization beds are mobile within the vessel and placing the treated fluid into a wellbore, a subterranean formation, or a combination thereof. | 10-30-2014 |
20140318777 | Scale Prevention Treatment Method, System, and Apparatus for Wellbore Stimulation - A method of servicing a wellbore comprising placing a wellbore servicing apparatus into a wellbore, wherein the wellbore servicing apparatus contains a plurality of mobilized template-assisted crystallization beads and contacting a fluid comprising scale-forming ions with at least a portion of the template-assisted crystallization beads. A method of servicing a wellbore, comprising contacting a fluid comprising scale-forming ions with a quantity of template-assisted crystallization beads in a vessel to form a treated fluid, wherein the template-assisted crystallization beds are mobile within the vessel and placing the treated fluid into a wellbore, a subterranean formation, or a combination thereof. | 10-30-2014 |
Patent application number | Description | Published |
20090030352 | PRESSURE PULSE/SHOCK WAVE THERAPY METHODS AND AN APPARATUS FOR CONDUCTING THE THERAPEUTIC METHODS - The method of stimulating a substance is disclosed. The method has the steps of activating an acoustic shock wave generator or source to emit acoustic shock waves; and subjecting the substance to the acoustic shock waves stimulating said substance wherein the substance is positioned within a path of the emitted shock waves and away from a geometric focal volume or point of the emitted shock waves. In one embodiment the emitted shock waves are divergent or near planar. In another embodiment the emitted shock waves are convergent having a geometric focal volume of point at a distance of at least X from the source, the method further comprising positioning the substance at a distance less than the distance X from the source. The substance is a tissue having cells. The tissue can be an organ of a mammal. The mammal may be a human or an animal. The organ may be a heart, a brain, skin, a liver or a kidney or any other organ. The tissue may be muscle, cartilage, tendon, bone, teeth or gums. The tissue may be a part of the vascular system, a part of the nervous system, a part of the urinary or reproductive system, a part of the lymph node or pituitary systems, a part of the ocular system or a part of a skeletal system. | 01-29-2009 |
20090036803 | PRESSURE PULSE/SHOCK WAVE THERAPY METHODS AND AN APPARATUS FOR CONDUCTING THE THERAPEUTIC METHODS - The method of stimulating a substance is disclosed. The method has the steps of activating an acoustic shock wave generator or source to emit acoustic shock waves; and subjecting the substance to the acoustic shock waves stimulating said substance wherein the substance is positioned within a path of the emitted shock waves and away from a geometric focal volume or point of the emitted shock waves. In one embodiment the emitted shock waves are divergent or near planar. In another embodiment the emitted shock waves are convergent having a geometric focal volume of point at a distance of at least X from the source, the method further comprising positioning the substance at a distance less than the distance X from the source. The substance is a tissue having cells. The tissue can be an organ of a mammal. The mammal may be a human or an animal. The organ may be a heart, a brain, skin, a liver or a kidney or any other organ. The tissue may be muscle, cartilage, tendon, bone, teeth or gums. The tissue may be a part of the vascular system, a part of the nervous system, a part of the urinary or reproductive system, a part of the lymph node or pituitary systems, a part of the ocular system or a part of a skeletal system. | 02-05-2009 |
20090043300 | APPARATUS AND METHOD FOR CLEARANCE CALIBRATION OF SHOCK WAVE ELECTRODES - The invention is for an apparatus for the generation of shock waves, especially for medical application, by means of a spark discharge between two electrodes ( | 02-12-2009 |
20090254007 | PRESSURE PULSE/SHOCK WAVE THERAPY METHODS AND AN APPARATUS FOR CONDUCTING THE THERAPEUTIC METHODS - The method of stimulating a substance is disclosed. The method has the steps of activating an acoustic shock wave generator or source to emit acoustic shock waves; and subjecting the substance to the acoustic shock waves stimulating said substance wherein the substance is positioned within a path of the emitted shock waves and away from a geometric focal volume or point of the emitted shock waves. In one embodiment the emitted shock waves are divergent or near planar. In another embodiment the emitted shock waves are convergent having a geometric focal volume of point at a distance of at least X from the source, the method further comprising positioning the substance at a distance less than the distance X from the source. The substance is a tissue having cells. The tissue can be an organ of a mammal. The mammal may be a human or an animal. The organ may be a heart, a brain, skin, a liver or a kidney or any other organ. The tissue may be muscle, cartilage, tendon, bone, teeth or gums. The tissue may be a part of the vascular system, a part of the nervous system, a part of the urinary or reproductive system, a part of the lymph node or pituitary systems, a part of the ocular system or a part of a skeletal system. | 10-08-2009 |
20110177576 | SHOCK WAVE CELL TREATMENT DEVICE AND METHOD TO ENHANCE CELL REPLICATION | 07-21-2011 |
20120203146 | PRESSURE PULSE/SHOCK WAVE APPARATUS FOR GENERATING WAVES HAVING PLANE, NEARLY PLANE, CONVERGENT OFF TARGET OR DIVERGENT CHARACTERISTICS - An apparatus for generating pressure pulse/shock waves (PP/SWs) is disclosed which comprises a pressure pulse/shock wave (PP/SW) source, a housing enclosing said PP/SW source, and an exit window from which wave fronts of waves generated by said PP/SW source emanate. The wave fronts have plane, nearly plane, convergent off target or divergent characteristics. In one embodiment, an extracorporeal shock wave system provides a planar wave for the treatment of tissue. A parabolic reflector is provided in order to propagate the planar wave through a membrane and to the tissue of a human subject. A piezoelectric, electrohydraulic or electromagnetic source may be used to develop the wave. | 08-09-2012 |
20120253240 | PRESSURE PULSE/SHOCK WAVE METHOD FOR GENERATING WAVES HAVING PLANE, NEARLY PLANE, CONVERGENT OFF TARGET OR DIVERGENT CHARACTERISTICS - An apparatus for generating pressure pulse/shock waves (PP/SWs) is disclosed which comprises a pressure pulse/shock wave (PP/SW) source, a housing enclosing said PP/SW source, and an exit window from which wave fronts of waves generated by said PP/SW source emanate. The wave fronts have plane, nearly plane, convergent off target or divergent characteristics. In one embodiment, an extracorporeal shock wave system provides a planar wave for the treatment of tissue. A parabolic reflector is provided in order to propagate the planar wave through a membrane and to the tissue of a human subject. A piezoelectric, electrohydraulic or electromagnetic source may be used to develop the wave. | 10-04-2012 |