Class / Patent application number | Description | Number of patent applications / Date published |
606200500 | Lithotripsy | 19 |
20090275926 | Medical suction device - A medical device for fragmenting objects and aspirating remaining debris enables a physician or other medical personnel quickly and easily remove objects, such as kidney stones, from a patient. The medical device can include a dual-lumen elongated member and a handle coupled to the elongated member. A first one of the lumens provides a suction passageway, and a second one of the lumens receives a laser fiber for delivering laser energy to an object, such as a kidney stone, within the patient. The handle can include a positioning mechanism to enable the physician by manual manipulation to move and hold in place the laser fiber longitudinally within the second lumen. | 11-05-2009 |
20090287193 | SYSTEMS AND METHODS FOR STONE REMOVAL - A stone removal system comprises a sweeping structure and a dilating structure. The sweeping structure is deployed on a kidney side of a urinary stone in the ureter. Should the sweeping structure be unable to remove the kidney stone, the dilating structure is placed on the bladder side of the kidney stone and used to dilate the lumen of the ureter. The dilated lumen allows the sweeping structure to more easily remove the kidney stone. Should the kidney stone still resist removal, a lithotripsy device may be introduced through the ureter and energy directed through openings in the dilation structure to fragment the stone. | 11-19-2009 |
20100137847 | METHOD AND DEVICE FOR LASER LITHOTRIPSY - A system and method for the destruction/ablation of stones, calculi or other hard substances by means of laser energy is disclosed. As a consequence, several important medical treatments can be performed, especially lithotripsy. The system comprises a diode laser source emitting at least at one wavelength, one or more optical fibers which convey laser radiation to the treatment site and a liquid delivery system used for creating a liquid environment around the stones (calculi). The laser device emits at least one wavelength which is highly absorbed in the surrounding/covering medium, thus causing evaporation and cavitation effects that lead to stone/calculi destruction. Different radiation configurations may be used. In one embodiment continuous radiation is used to create sparkler-less plasma bubbles able to destroy hard substances. In another embodiment high peak power pulsed radiation is used. Wavelengths of 1470 nm, 1940 nm, or 1550 nm are preferred. Additionally it can be applied in combination with another wavelength with medium absorption in water such as 980 nm. In another embodiment a concentric double core fiber is used, in which the ignition radiation is guided in near single mode, inner core and the radiation used to maintain and enhance the pulse is guided into the surrounding second outer core. In another preferred embodiment, the use of multiple optical fibers allows for treating larger stones in a shorter time period. In another preferred embodiment, cooling liquid is supplied to the impact site to further reduce thermal heating of the stone, thus diminishing risks of tissue damage caused by stone fragment anchorage and thermal energy. With these safer and improved methods and system, enhanced lithotripsy treatments can be performed in a shorter treatment time, destroying a wider range of stones with less risk of tissue damage, and less patient and physician stress. | 06-03-2010 |
20100274231 | RENAL FLUSHING CATHETER - Devices, methods, and systems provide a catheter-based device comprising an expandable portion that is placed distally of the obstructive or occluding mass, which substantially prevents fragments generated by ablating the occluding mass with a lithotripter, for example, a laser lithotripter, from traveling upstream, thereby improving the safety and effectiveness of lithotripsy Some embodiments of the device further comprise a through lumen through which fluid is introduced into a renal collecting system, thereby maintains positive pressure that biases the fragments generated by lithotripsy from entering the collecting system. | 10-28-2010 |
20110098690 | METHODS FOR REMOVING KIDNEY STONES FROM THE URETER - Occluding structures may be created within a body lumen by advancing a length of material distally through the body lumen. By drawing a distal location on the advanced length of material in a proximal direction, the material may be compacted into a structure which at least partially occludes the lumen. The occluding structure may be used to remove kidney stones from the ureter in conjunction with lithotripsy and irrigation. | 04-28-2011 |
20110178509 | METHODS AND APPARATUS RELATED TO A DISTAL END PORTION OF AN OPTICAL FIBER HAVING A SUBSTANTIALLY SPHERICAL SHAPE - An apparatus includes an optical fiber extending from a proximal end to a distal end. The optical fiber may include a cladding layer circumferentially disposed about a core layer and a substantially spherically shaped portion at the distal end. The apparatus may also include a first coating circumferentially disposed on a first length of the cladding layer, and a second coating circumferentially disposed on a second length of the cladding layer. The second length may extend distally from a region proximate the distal end of the first coating. | 07-21-2011 |
20130218144 | STONE RETRIEVAL DEVICE - A kit for surgically removing stones comprising: a double barreled sheath including a first barrel and a second barrel joined side-by-side; a first connector which is engaged at the proximal end of the first barrel; a second connector which is engaged at the proximal end of the second barrel; a first rigid tube interconnecting the first barrel with the first connector with the first connector being releasably engaged to the first rigid tube and the first rigid tube, first barrel and first connector being co-axial; a second rigid tube interconnecting the second barrel with the second connector with the second connector being releasably engaged to the second rigid tube and the second rigid tube, second barrel and second connector being co-axial; and a wire basket retriever adapted for insertion into one the barrel and being releasably engaged with a connector or an actuation device. | 08-22-2013 |
20130237967 | Suction Lithotripsy Apparatus, Method and Kit - Medical devices, methods and kits useful in the disruption and removal of unwanted materials, such as calculi and other formations, from within body lumens are described. The disclosure describes particular embodiments and methods useful in the lithotriptic removal of stones from the salivary glands. | 09-12-2013 |
20130237968 | Control Handles for Medical Devices - Various medical devices and methods are described herein. For example, various detachable control handle configurations for inclusion with a medical device are described. In another example, various probe configurations are described herein. Furthermore, various methods of treatment using a control handle are described. | 09-12-2013 |
20130253485 | MEDICAL EXAMINATION SYSTEM - A system includes at least one device that includes at least one device component. For a defined movement of the at least one device component, a movement axis and/or a movement direction may be selected by a selection element and may be identified by an activatable lighting element. The identified movement axis and/or the identified movement direction may be released by at least one actuation element, so that a desired movement of the at least one device component may be performed. | 09-26-2013 |
20140336626 | MEDICAL ASSEMBLY USING SHORT PULSE FIBER LASER - A method of ablating a solid substance within a mammalian body is presented. The method includes generating a superheated zone within the body using a fiber lasing assembly that emits pulses at a pulse repetition rate of 1 kHz to 500 kHz, where each pulse has a wavelength from 1.7 micron to 2.2 micron, a pulse width from 2 ns to 800 ns, and a pulse energy from 0.05 mJ to 2 mJ. The fiber lasing assembly used further includes a seed laser and an amplifier optically connected to the seed laser by an Ho-doped, Tm-doped, or Ho Tm co-doped fiber. | 11-13-2014 |
20150100048 | Method for Generating Shaped Laser Pulses in a Lithotripter and a Lithotripter - Method for generating a shaped laser pulse in a lithotripter characterized in that if the pulse duration is divided into four intervals of equal length, less than 25% of the energy of the pulse is emitted in the first of those intervals, and in that the maximum intensity of the pulse is first reached in the second, third or fourth time interval, and wherein the intensity reached after the start of the third and/or forth interval is at least once the same as or higher than the maximum intensity reached in the second interval. | 04-09-2015 |
20150289937 | SURGICAL LASER SYSTEMS AND LASER LITHOTRIPSY TECHNIQUES - A surgical laser system includes a first laser source, a second laser source, a beam combiner and a laser probe. The first laser source is configured to output a first laser pulse train comprising first laser pulses. The second laser source is configured to output a second laser pulse train comprising second laser pulses. The beam combiner is configured to combine the first and second laser pulse trains and output a combined laser pulse train comprising the first and second laser pulses. The laser probe is optically coupled to an output of the beam combiner and is configured to discharge the combined laser pulse train. | 10-15-2015 |
20150313672 | IDEAL VALUES FOR LASER PARAMETERS FOR CALCULI REMOVAL - A set of ideal values for laser parameters is provided for a laser system for the fragmentation and removal of calculi. Particularly, the ideal values for laser parameters increases the effectiveness of removing calculi by increasing the pulse width. This set of ideal values for laser parameters increases the effectiveness of calculi removal by decreasing retropulsion distance of calculi fragments and by breaking up the calculi into smaller fragments that can then be easily removed from the body without the use of baskets or graspers. | 11-05-2015 |
20150320433 | COMPUTER AIDED IMAGE-BASED ENHANCED INTRACORPOREAL LITHOTRIPSY - An apparatus is configured to deliver destructive energy to a stone. The apparatus includes a detector operative to obtain image data from the stone, a generator operating according to one or more producing parameters for producing the destructive energy, and a video processor unit receiving the image data from the detector. The video processor unit is operative to analyze the image data to determine a displacement of the stone relative to a previous location of the stone. A controller linked to the video processor unit and to the generator is operative to vary the one or more producing parameters of the generator responsively to the displacement of the stone. Methods carried out by the apparatus are further provided. | 11-12-2015 |
20150342678 | LASER-DIRECTED MICROCAVITATION - Methods and systems for the controlled generation of microcavitation bubbles in a medium having a liquid phase are generally provided. Laser pulses having a time-dependent pulse parameter controllable over their duration are generated. The medium is irradiated with the laser pulses with a radiant exposure sufficient to initiate microcavitation within the medium during each laser pulse. The time-dependent pulse parameter of each laser pulse is controlled according to a generally positive variation over the pulse duration such that the medium absorbs a greater quantity of energy from the laser pulse at an end of the pulse duration than at a beginning thereof. Such methods and systems may be used for various applications such as biology, medicine or material processing. | 12-03-2015 |
20160184022 | LASER-INDUCED PRESSURE WAVE EMITTING CATHETER SHEATH - The present disclosure relates generally to the use of medical devices for the treatment of vascular conditions. In particular, the present disclosure provides devices and methods for using laser-induced pressure waves created within a sheath to disrupt vascular blockages via the sheath and/or a tip at the end of the sheath. | 06-30-2016 |
20180021086 | LASER-DIRECTED MICROCAVITATION | 01-25-2018 |
20180021091 | Suction Lithotripsy Apparatus, Method and Kit | 01-25-2018 |