Patents Assigned to Loma Linda University Medical
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Patent number: 9076196Abstract: An automatic method for detection and quantification of localized sources of magnetic susceptibility in images using a computer with instructions for a parameter module; an image input and filtering module; a second image filtering module; and a pattern quantification module.Type: GrantFiled: March 21, 2012Date of Patent: July 7, 2015Assignee: Loma Linda University Medical CenterInventors: Grant A. McAuley, Matthew Schrag, Wolff M. Kirsch, Samuel R. Sturgill Barnes
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Patent number: 8981324Abstract: A patient alignment system for a radiation therapy system. The alignment system includes multiple external measurement devices which obtain position measurements of components of the radiation therapy system which are movable and/or are subject to flex or other positional variations. The alignment system employs the external measurements to provide corrective positioning feedback to more precisely register the patient and align them with a radiation beam. The alignment system can be provided as an integral part of a radiation therapy system or can be added as an upgrade to existing radiation therapy systems.Type: GrantFiled: October 24, 2013Date of Patent: March 17, 2015Assignee: Loma Linda University Medical CenterInventors: Nickolas S. Rigney, Daniel C. Anderson, David A. Lesyna, Daniel W. Miller, Michael F. Moyers, Chieh C. Cheng, Michael A. Baumann
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Patent number: 8932521Abstract: A microfibrillar high molecular weight chitosan-based textile can be used as a hemostat. The chitosan has been treated in a nitrogen field by applying energy to ionize nitrogen in and around the chitosan textile. A single or multiple such treatments may be employed. For example, the chitosan textile may be irradiated under nitrogen using ?-irradiation, treated under a nitrogen plasma, or both.Type: GrantFiled: December 4, 2013Date of Patent: January 13, 2015Assignees: Loma Linda University Medical Center, North Carolina State UniversityInventors: Wolff M. Kirsch, Samuel Hudson
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Patent number: 8841602Abstract: Disclosed are systems, devices and methodologies related to calibration of an ion based imaging apparatus such as a proton computed tomography scanner. In some implementations, energy degrader plates having known water-equivalent thickness (WET) values can be introduced to an ion beam to introduce different energy degradation settings. Energy detector responses to individual ions subject to such energy degradation settings can be obtained. Such responses can be normalized and correlated to water-equivalent path lengths (WEPL) of the ions based on the known WET values. Such calibration utilizing degrader plates can be performed relatively quickly and can yield accurate WEPL values that facilitate estimation of, for example, a CT image based on relative stopping power of an object.Type: GrantFiled: March 6, 2012Date of Patent: September 23, 2014Assignee: Loma Linda University Medical CenterInventors: Reinhard W. Schulte, R. Ford Hurley
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Publication number: 20140217634Abstract: According to the improved systems and methods described herein, a patient may be immobilized so that one or both breasts are returned to a known position. Additionally, the improved systems and methods reduce respiratory movement of the breasts. Thus, the immobilization devices and techniques described herein provide accurate and reproducible breast positioning while simultaneously reducing respiratory motion.Type: ApplicationFiled: August 30, 2013Publication date: August 7, 2014Applicant: Loma Linda University Medical CenterInventor: David A. Bush
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Patent number: 8784846Abstract: Systems and methods for enhancing the selective targeting of agents for preferential action at a target with reduced action with healthy tissue distal the target tissue. One or more agents can be combined with nano scale structures/particles for delivery to the target tissue. Appropriate bombardment with accelerated particle radiation, such as proton radiation, induces the release of the agents at the target site. Nano carriers can be combined with therapeutic and/or imaging enhancement agents. Imaging of the target tissue can provide a verification of the delivered dose of particle radiation. Nanocarriers can be provided with an outer shell selected for biocompatibility and durability in the in vivo environment and further selected to provide a feedback mechanism in the treatment environment to accelerate the release of the agent and reduce a total radiation dose needed for that release.Type: GrantFiled: January 27, 2010Date of Patent: July 22, 2014Assignee: Loma Linda University Medical CenterInventors: Reinhard Schulte, Gilmer Valdes-Diaz
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Publication number: 20140200448Abstract: Disclosed are systems and methods for characterizing interactions or proton beams in tissues. In certain embodiments, charged particles emitted during passage of protons, such as those used for therapeutic and/or imaging purposes, can be detected at relatively large angles. In situations where beam intensity is relatively low, such as in certain imaging applications, characterization of the proton beam with charged particles can provide sufficient statistics for meaningful results while avoiding the beam itself. In situations where beam intensity is relatively high, such as in certain therapeutic applications, characterization of the proton beam with scattered primary protons and secondary protons can provide information such as differences in densities encountered by the beam as it traverses the tissue and dose deposited along the beam path. In certain situations, such beam characterizations can facilitate more accurate planning and monitoring of proton-based therapy.Type: ApplicationFiled: January 20, 2014Publication date: July 17, 2014Applicant: Loma Linda University Medical CenterInventors: Reinhard W. Schulte, Vladimir A. Bashkirov
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Publication number: 20140191134Abstract: Disclosed are systems, devices and methodologies relating to an ion induced impact ionization detector and uses thereof. In certain implementations, the detector can include a dielectric layer having one or more wells. An anode layer defining apertures to accommodate the openings of the wells can be disposed on one side of the dielectric layer, and a cathode such as a solid resistive cathode can be disposed on the other side so as to provide an electric field in each of the wells. Various design parameters such as well dimensions and operating parameters such as pressure and high voltage are disclosed. In certain implementations, such an ion detector can be coupled to a low pressure gas volume to detect ionization products such as positive ions. Such a system can be configured to provide single ion counting capability. Various example applications where the ion detector can be implemented are also disclosed.Type: ApplicationFiled: March 10, 2014Publication date: July 10, 2014Applicant: Loma Linda University Medical CenterInventors: Vladimir Bashkirov, Reinhard W. Schulte
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Publication number: 20140178446Abstract: This invention relates to deployable hemostatic materials comprising chitosan fibers. The hemostatic materials are suitable for use in sealing or controlling active bleeding from artery and vein lacerations and punctures, and for controlling oozing from tissue.Type: ApplicationFiled: February 28, 2014Publication date: June 26, 2014Applicant: Loma Linda University Medical CenterInventors: Yong Hua Zhu, Chang Zheng Yang, Wolff M. Kirsch
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Publication number: 20140180335Abstract: A method and apparatus for closing a vascular wound includes a guidewire and/or other surgical implement extending from the wound. A hemostatic material is advanced over the surgical implement and into contact with an area of the blood vessel surrounding the wound. The surgical implement is removed. Blood soaks the hemostatic material, and blood clotting is facilitated by the hemostatic agent within the material. A sealing layer of adhesive can be applied to the hemostatic material, confining the blood flow to the material. The vascular puncture wound is sealed by natural blood clot formation.Type: ApplicationFiled: February 28, 2014Publication date: June 26, 2014Applicant: Loma Linda University Medical CenterInventors: Yong Hua Zhu, Wolff M. Kirsch
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Publication number: 20140163300Abstract: A patient alignment system for a radiation therapy system. The alignment system includes multiple external measurement devices which obtain position measurements of components of the radiation therapy system which are movable and/or are subject to flex or other positional variations. The alignment system employs the external measurements to provide corrective positioning feedback to more precisely register the patient and align them with a radiation beam. The alignment system can be provided as an integral part of a radiation therapy system or can be added as an upgrade to existing radiation therapy systems.Type: ApplicationFiled: October 24, 2013Publication date: June 12, 2014Applicant: Loma Linda University Medical CenterInventors: Nickolas S. Rigney, Daniel C. Anderson, David A. Lesyna, Daniel W. Miller, Michael F. Moyers, Chieh C. Cheng, Michael A. Baumann
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Path planning and collision avoidance for movement of instruments in a radiation therapy environment
Patent number: 8750453Abstract: Apparatus and methods for therapy delivery are disclosed. In one embodiment, a therapy delivery system includes a plurality of movable components including a radiation therapy nozzle and a patient pod for holding a patient, a patient registration module for determining a desired position of at least one of the plurality of movable components, and a motion control module for coordinating the movement of the least one of the plurality of movable components from a current position to the desired position. The motion control module includes a path planning module for simulating at least one projected trajectory of movement of the least one of the plurality of moveable components from the current position to the desired position.Type: GrantFiled: April 13, 2012Date of Patent: June 10, 2014Assignee: Loma Linda University Medical CenterInventors: Chieh C. Cheng, David A. Lesyna, Michael F. Moyers -
Patent number: 8703176Abstract: This invention relates to deployable hemostatic materials comprising chitosan fibers. The hemostatic materials are suitable for use in sealing or controlling active bleeding from artery and vein lacerations and punctures, and for controlling oozing from tissue.Type: GrantFiled: February 18, 2005Date of Patent: April 22, 2014Assignee: Loma Linda University Medical CenterInventors: Yong Hua Zhu, Chang Zheng Yang, Wolff M. Kirsch
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Publication number: 20140093421Abstract: A microfibrillar high molecular weight chitosan-based textile can be used as a hemostat. The chitosan has been treated in a nitrogen field by applying energy to ionize nitrogen in and around the chitosan textile. A single or multiple such treatments may be employed. For example, the chitosan textile may be irradiated under nitrogen using ?-irradiation, treated under a nitrogen plasma, or both.Type: ApplicationFiled: December 4, 2013Publication date: April 3, 2014Applicant: Loma Linda University Medical CenterInventors: Wolff M. Kirsch, Yong Hua Zhu, Samuel Hudson
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Publication number: 20140058443Abstract: A method and apparatus for closing a vascular wound includes an apparatus that can be threaded over a guidewire into place at or adjacent the wound. The apparatus includes a chamber that encloses a hemostatic material therein. When the apparatus is positioned adjacent the wound as desired, the hemostatic material is deployed from the chamber. A blocking member distal of the hemostatic material functions as a barrier to prevent the hemostatic material from entering the wound. Blood contacts the hemostatic material, and blood clotting preferably is facilitated by a hemostatic agent within the material. Thus, the vascular puncture wound is sealed by blood clot formation.Type: ApplicationFiled: October 31, 2013Publication date: February 27, 2014Applicant: Loma Linda University Medical CenterInventors: Yong Hua Zhu, Wolff M. Kirsch
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Patent number: 8632448Abstract: Disclosed are systems and methods for characterizing interactions or proton beams in tissues. In certain embodiments, charged particles emitted during passage of protons, such as those used for therapeutic and/or imaging purposes, can be detected at relatively large angles. In situations where beam intensity is relatively low, such as in certain imaging applications, characterization of the proton beam with charged particles can provide sufficient statistics for meaningful results while avoiding the beam itself. In situations where beam intensity is relatively high, such as in certain therapeutic applications, characterization of the proton beam with scattered primary protons and secondary protons can provide information such as differences in densities encountered by the beam as it traverses the tissue and dose deposited along the beam path. In certain situations, such beam characterizations can facilitate more accurate planning and monitoring of proton-based therapy.Type: GrantFiled: February 5, 2010Date of Patent: January 21, 2014Assignee: Loma Linda University Medical CenterInventors: Reinhard W. Schulte, Vladimir A. Bashkirov
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Patent number: 8624158Abstract: A manipulation system controllably moves a head relative to a surface of an inhabitable structure for irradiating the surface with energy waves from the head. The manipulation system includes a positioning mechanism coupled to the head. The positioning mechanism includes a first-axis position system adapted to move the head along a first direction substantially parallel to the surface. The positioning mechanism further includes a second-axis position system coupled to the first-axis position system and adapted to move the head along a second direction substantially parallel to the surface. The manipulation system further includes an anchoring mechanism coupled to the positioning mechanism and releasably coupled to the structure.Type: GrantFiled: April 10, 2006Date of Patent: January 7, 2014Assignee: Loma Linda University Medical CenterInventors: Paul E. Denney, Jay R. Eastman, Paul M. Fallara, Andrew P. Joseph, John S. Phillips, Michael N. Patena, Tim Burnham, Paul Coleman
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Patent number: 8623274Abstract: A microfibrillar high molecular weight chitosan-based textile can be used as a hemostat. The chitosan has been treated in a nitrogen field by applying energy to ionize nitrogen in and around the chitosan textile. A single or multiple such treatments may be employed. For example, the chitosan textile may be irradiated under nitrogen using ?-irradiation, treated under a nitrogen plasma, or both.Type: GrantFiled: November 24, 2010Date of Patent: January 7, 2014Assignee: Loma Linda University Medical CenterInventors: Wolff M. Kirsch, Yong Hua Zhu, Samuel Hudson
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Patent number: 8617253Abstract: A method and apparatus for closing a vascular wound includes an apparatus that can be threaded over a guidewire into place at or adjacent the wound. The apparatus includes a chamber that encloses a hemostatic material therein. When the apparatus is positioned adjacent the wound as desired, the hemostatic material is deployed from the chamber. A blocking member distal of the hemostatic material functions as a barrier to prevent the hemostatic material from entering the wound. Blood contacts the hemostatic material, and blood clotting preferably is facilitated by a hemostatic agent within the material. Thus, the vascular puncture wound is sealed by blood clot formation.Type: GrantFiled: December 1, 2011Date of Patent: December 31, 2013Assignee: Loma Linda University Medical CenterInventors: Yong Hua Zhu, Wolff M. Kirsch
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Publication number: 20130345489Abstract: In a complex, multi-processor software controlled system, such as proton beam therapy system (PBTS), it may be important to provide treatment configurable parameters that are easily modified by an authorized user to prepare the software controlled systems for various modes of operation. This particular invention relates to a configuration management system for the PBTS that utilizes a database to maintain data and configuration parameters and also to generate and distribute system control files that can be used by the PBTS for treatment delivery. The use of system control files reduces the adverse effects of single point failures in the database by allowing the PBTS to function independently from the database. The PBTS accesses the data, parameters, and control settings from the database through the system control files, which insures that the data and configuration parameters are accessible when and if single point failures occur with respect to the database.Type: ApplicationFiled: January 14, 2013Publication date: December 26, 2013Applicant: LOMA LINDA UNIVERSITY MEDICAL CENTERInventor: Loma Linda University Medical Center