Patent application number | Description | Published |
20090281411 | HAND-HELD ELECTRIC FIELD IMAGER FOR MEASURING THE ELECTRIC FIELD IN MAMMALIAN SKIN AND OTHER EPITHELIAL STRUCTURES - The present invention provides a hand-held, noninvasive diagnostic device for measuring the electric fields in mammalian skin and other epithelial structures. The device includes an outer housing that contacts the skin, providing stability and allowing the device to move along with minor movement of the skin. Recessed within the outer housing is a probe that acts as a sensor to measure the electric field in the skin through an aperture in the bottom surface of the outer housing. By applying a series of known voltages while the probe is vibrating, the skin's local surface potential can be measured and the lateral electric field can be calculated from the spatial distribution of surface potential measurements. Active feedback is used to maintain a constant distance between the probe and the skin surface. | 11-12-2009 |
20100016686 | HAND-HELD ELECTRIC FIELD IMAGER FOR MEASURING THE SURFACE TOPOGRAPHY OF MAMMALIAN SKIN AND OTHER EPITHELIAL STRUCTURES - The present invention provides a hand-held, noninvasive diagnostic device for measuring the electric fields in mammalian skin and other epithelial structures. The device includes an outer housing that contacts the skin, providing stability and allowing the device to move along with minor movement of the skin. Recessed within the outer housing is a probe that acts as a sensor to measure the electric field in the skin through an aperture in the bottom surface of the outer housing. By applying a series of known voltages while the probe is vibrating, the skin's local surface potential can be measured and the lateral electric field can be calculated from the spatial distribution of surface potential measurements. Active feedback is used to maintain a constant distance between the probe and the skin surface. | 01-21-2010 |
20100240995 | SYSTEM AND METHOD FOR TREATING TUMORS - Systems and methods for treating tumors on or within internal organs of mammals that have been imaged with endoscopic ultrasound are described. The system uses an expandable bipolar electrode assembly that can be imaged by ultrasound and can penetrate, e.g., the stomach, intestine or bowel wall, etc. and be positioned in or around the tumor on an internal organ while being guided by an operator who visualizes its position with ultrasound imaging. It utilizes an electrode assembly that extends down an internal cavity in the endoscope to allow the operator to spread the electrodes for pulse delivery of a nanosecond pulsed electric field (nsPEF) to the tumor. | 09-23-2010 |
20100318082 | NANOSECOND PULSED ELECTRIC FIELD PARAMETERS FOR DESTROYING TUMORS WITH A SINGLE TREATMENT - Nanosecond pulsed electric field (nsPEF) parameters for destroying tumors with a single treatment are described. A nsPEF generator may be used with an electrode assembly to apply the pulses to one or more tumors where the parameters for the nsPEF are optimized for treating such tumors. | 12-16-2010 |
20140358066 | METHODS AND DEVICES FOR STIMULATING AN IMMUNE RESPONSE USING NANOSECOND PULSED ELECTRIC FIELDS - Nanosecond pulsed electric field (nsPEF) treatments of a tumor are used to cause the tumor to express calreticulin and stimulate an immune response against the tumor and other tumors in a subject. An immune response biomarker can be measured, and further nsPEF treatments can be performed if needed to stimulate or further stimulate the immune response. Cancers that have metastasized may be treated. The treatment can be combined with CD47-blocking antibodies, doxorubicin, CTLA-4-blocking antibodies, and/or PD-1-blocking antibodies. Electrical characteristics of nsPEF treatments can be based on the size, type, and/or strength of tumors and/or a quantity of tumors in the subject. | 12-04-2014 |
Patent application number | Description | Published |
20100016686 | HAND-HELD ELECTRIC FIELD IMAGER FOR MEASURING THE SURFACE TOPOGRAPHY OF MAMMALIAN SKIN AND OTHER EPITHELIAL STRUCTURES - The present invention provides a hand-held, noninvasive diagnostic device for measuring the electric fields in mammalian skin and other epithelial structures. The device includes an outer housing that contacts the skin, providing stability and allowing the device to move along with minor movement of the skin. Recessed within the outer housing is a probe that acts as a sensor to measure the electric field in the skin through an aperture in the bottom surface of the outer housing. By applying a series of known voltages while the probe is vibrating, the skin's local surface potential can be measured and the lateral electric field can be calculated from the spatial distribution of surface potential measurements. Active feedback is used to maintain a constant distance between the probe and the skin surface. | 01-21-2010 |
20100240995 | SYSTEM AND METHOD FOR TREATING TUMORS - Systems and methods for treating tumors on or within internal organs of mammals that have been imaged with endoscopic ultrasound are described. The system uses an expandable bipolar electrode assembly that can be imaged by ultrasound and can penetrate, e.g., the stomach, intestine or bowel wall, etc. and be positioned in or around the tumor on an internal organ while being guided by an operator who visualizes its position with ultrasound imaging. It utilizes an electrode assembly that extends down an internal cavity in the endoscope to allow the operator to spread the electrodes for pulse delivery of a nanosecond pulsed electric field (nsPEF) to the tumor. | 09-23-2010 |
20100318082 | NANOSECOND PULSED ELECTRIC FIELD PARAMETERS FOR DESTROYING TUMORS WITH A SINGLE TREATMENT - Nanosecond pulsed electric field (nsPEF) parameters for destroying tumors with a single treatment are described. A nsPEF generator may be used with an electrode assembly to apply the pulses to one or more tumors where the parameters for the nsPEF are optimized for treating such tumors. | 12-16-2010 |
20140358066 | METHODS AND DEVICES FOR STIMULATING AN IMMUNE RESPONSE USING NANOSECOND PULSED ELECTRIC FIELDS - Nanosecond pulsed electric field (nsPEF) treatments of a tumor are used to cause the tumor to express calreticulin and stimulate an immune response against the tumor and other tumors in a subject. An immune response biomarker can be measured, and further nsPEF treatments can be performed if needed to stimulate or further stimulate the immune response. Cancers that have metastasized may be treated. The treatment can be combined with CD47-blocking antibodies, doxorubicin, CTLA-4-blocking antibodies, and/or PD-1-blocking antibodies. Electrical characteristics of nsPEF treatments can be based on the size, type, and/or strength of tumors and/or a quantity of tumors in the subject. | 12-04-2014 |