Patent application number | Description | Published |
20090074765 | INHIBITORS OF PLACENTAL GROWTH FACTOR FOR THE TREATMENT OF PATHOLOGICAL ANGIOGENESIS, PATHOLOGICAL ARTERIOGENESIS, INFLAMMATION, TUMOR FORMATION AND/OR VASCULAR LEAKAGE - The present invention relates to the field of pathological angiogenesis and arteriogenesis and, in particular, to a stress-induced phenotype in a transgenic mouse (PIGF | 03-19-2009 |
20090162354 | INHIBITORS OF PLACENTAL GROWTH FACTOR FOR THE TREATMENT OF PATHOLOGICAL ANGIOGENESIS, PATHOLOGICAL ARTERIOGENESIS, INFLAMMATION, TUMOR FORMATION AND/OR VASCULAR LEAKAGE - The present invention relates to the field of pathological angiogenesis and arteriogenesis and, in particular, to a stress-induced phenotype in a transgenic mouse (PIGF | 06-25-2009 |
20090238826 | INHIBITORS OF PLACENTAL GROWTH FACTOR FOR THE TREATMENT OF PATHOLOGICAL ANGIOGENESIS, PATHOLOGICAL ARTERIOGENESIS, INFLAMMATION, TUMOR FORMATION AND/OR VASCULAR LEAKAGE - The present invention relates to the field of pathological angiogenesis and arteriogenesis and, in particular, to a stress-induced phenotype in a transgenic mouse (PIGF | 09-24-2009 |
20110028401 | CRIPTO BLOCKING MOLECULES AND THERAPEUTIC USES THEREOF - The present invention concerns a monomeric or multimeric tripeptide molecule able of inhibiting Cripto signalling in embryonic stem cells, thereby enhancing dopamine specification and differentiation, after transplantation in animal models of Parkinson's disease, as well as reducing tumor formation, and uses thereof. | 02-03-2011 |
20120263710 | ADMINISTERING ANTI-PLACENTAL GROWTH FACTOR ANTIBODIES - The present invention relates to the field of pathological angiogenesis and arteriogenesis and, in particular, to a stress-induced phenotype in a transgenic mouse (PIGF | 10-18-2012 |
20130177564 | ADMINISTERING ANTI-PLACENTAL GROWTH FACTOR ANTIBODIES - The present invention relates to the field of pathological angiogenesis and arteriogenesis and, in particular, to a stress-induced phenotype in a transgenic mouse (PIGF | 07-11-2013 |
20130177565 | ADMINISTERING ANTI-PLACENTAL GROWTH FACTOR ANTIBODIES - The present invention relates to the field of pathological angiogenesis and arteriogenesis and, in particular, to a stress-induced phenotype in a transgenic mouse (PIGF | 07-11-2013 |
20130183310 | ADMINISTERING ANTI-PLACENTAL GROWTH FACTOR ANTIBODIES - The present invention relates to the field of pathological angiogenesis and arteriogenesis and, in particular, to a stress-induced phenotype in a transgenic mouse (PIGF | 07-18-2013 |
Patent application number | Description | Published |
20080219405 | System and method for patient setup for radiotherapy treatment - Positioning an anatomical feature of a patient during repeated radiotherapy treatments, and accounting for variations in that position between treatments allow a patient to be placed in a substantially repeatable orientation with respect to a treatment device. | 09-11-2008 |
20090022383 | METHODS AND SYSTEMS FOR COMPENSATING FOR CHANGES IN ANATOMY OF RADIOTHERAPY PATIENTS - Portal images are combined with 3D ultrasound to determine adjustments to patient treatment parameters. The images are acquired while the patient is in an initial position, and the images are registered to a treatment coordinate system. The images are combined and outlines of anatomical structures are superimposed on the portal images, resulting in new portal images that incorporate the anatomy extracted from the ultrasound. The enhanced portal images are used to identify modifications to the treatment parameters. | 01-22-2009 |
20090024030 | Methods and systems for guiding the acquisition of ultrasound images - A method of presenting a suggested path for an ultrasound probe along a patient's surface includes obtaining a three-dimensional, non-ultrasound image of the patient and an ultrasound image of the patient. A treatment area is defined within the within the three-dimensional, non-ultrasound image, and using the images, defining a scanning site contour of an anatomical structure of interest within the patient and an external contour of the patient's surface. A preferred path of the ultrasound scan is projected onto the external contour such that an operator can reproduce the ultrasound scan without knowledge of the anatomical structure of interest. | 01-22-2009 |
20090275830 | Methods and Systems for Lesion Localization, Definition and Verification - A method and apparatus for lesion or organ definition for the purpose of radiation treatment planning localization and treatment position verification. The apparatus uses a combination of an ultrasound imaging system and a diagnostic imaging system to acquire localization ultrasound images referenced in the coordinate space of the diagnostic imaging system through the use of position sensing system. The method compares the location of the lesion in the localization ultrasound images with the position of the lesion in ultrasound images taken while the patient lies on the treatment table of a therapy treatment unit, suggests corrective measures to place the lesion in its intended treatment position and executes the correction upon confirmation from qualified personnel. | 11-05-2009 |
20100099989 | Radiotherapy Treatment Monitoring Using Ultrasound - Methods and systems for assessing the effects of therapy on a patient include obtaining baseline and treatment ultrasound scans of a treatment area of a patient where the treatment ultrasound scans are taken subsequent to the baseline scan and at various times during a course of radiotherapy treatment sessions. The baseline and treatment ultrasounds are compared, and as a result a damage map representing cell death within the treatment area can be constructed. | 04-22-2010 |
20100268073 | Verifying Lesion Characteristics Using Beam Shapes - A patient's lesion is localized for the purpose of administering radiation treatment by obtaining a beam shape representation along one or more beam directions of a radiation treatment device. An image corresponding to the lesion is obtained from each beam direction, and the beam shape and image are fixed to a common coordinate system to facilitate alignment. | 10-21-2010 |
20110009742 | ADAPTIVE RADIOTHERAPY TREATMENT USING ULTRASOUND - Radiation treatment is delivered to a patient by positioning the patient such that a radiation beam is delivered to a lesion within the patient along a beam-delivery path while securing a diagnostic imaging device about the patient such that the diagnostic imaging device does not intersect the beam-delivery path. Radiation therapy is simultaneously delivered along the beam-delivery path while diagnostic images are obtained using the imaging device. | 01-13-2011 |
20110172526 | Feature Tracking Using Ultrasound - Various implementations of the invention provide techniques and supporting systems that facilitate real-time or near-real-time ultrasound tracking for the purpose of calculating changes in anatomical features during a medical procedure. More specifically, anatomical features within a patient undergoing a medical procedure are tracked by obtaining temporally-distinct three dimensional ultrasound images that include the feature of interest and obtaining a targeted subset of ultrasound images focused on the feature. Based on the targeted subset of ultrasound images, a displacement of the feature is determined and image parameters used to obtain the targeted subset of ultrasound images are adjusted based on the displacement. This results in a time-based sequence of three dimensional images and targeted ultrasound images of the feature that identify changes in the position, size, location, and/or shape of the feature. | 07-14-2011 |
20120071758 | Feature Tracking Using Ultrasound - Various implementations of the invention provide techniques and supporting systems that facilitate real-time or near-real-time ultrasound tracking for the purpose of calculating changes in anatomical features during a medical procedure. More specifically, anatomical features within a patient undergoing a medical procedure are tracked by obtaining temporally-distinct three dimensional ultrasound images that include the feature of interest and obtaining a targeted subset of ultrasound images focused on the feature. Based on the targeted subset of ultrasound images, a displacement of the feature is determined and image parameters used to obtain the targeted subset of ultrasound images are adjusted based on the displacement. This results in a time-based sequence of three dimensional images and targeted ultrasound images of the feature that identify changes in the position, size, location, and/or shape of the feature. | 03-22-2012 |