Class / Patent application number | Description | Number of patent applications / Date published |
600325000 | Inserted in body | 14 |
20090203977 | METHOD OF SCREENING FOR CANCER USING PARAMETERS OBTAINED BY THE DETECTION OF EARLY INCREASE IN MICROVASCULAR BLOOD CONTENT - The present invention, in one aspect, relates to screening test for tumors or lesions using what is referred to as “Early Increase in microvascular Blood Supply” (EIBS) that exists in tissues that are close to, but are not themselves, the abnormal tissue and in tissues that precede the development of such lesions or tumors. While the abnormal tissue can be a lesion or tumor, the abnormal tissue can also be tissue that precedes formation of a lesion or tumor, such as a precancerous adenoma, aberrant crypt foci, tissues that precede the development of dysplastic lesions that themselves do not yet exhibit dysplastic phenotype, and tissues in the vicinity of these lesions or pre-dysplastic tissues. | 08-13-2009 |
20100022861 | IMPLANTABLE OPTICAL HEMODYNAMIC SENSOR INCLUDING AN EXTENSION MEMBER - An implantable medical device includes an optical hemodynamic sensor comprising at least one optical emitter and at least one detector. In some examples, the at least one optical emitter may be optically coupled to at least one light transmission member that extends from a housing of the medical device. In addition, in some examples, the at least one detector may be optically coupled to at least one light transmission member that extends from the housing of the medical device. In other examples, an optical emitter and/or detector of a hemodynamic sensor may be carried by an elongated member that extends from a housing of the IMD. The elongated member may electrically couple the optical emitter and/or detector to a controller or other components within the IMD housing. | 01-28-2010 |
20110098546 | ASSESSING MEDICAL CONDITIONS BASED ON VENOUS OXYGEN SATURATION AND HEMATOCRIT INFORMATION - Methods for assessing, diagnosing and treating medical conditions using SvO | 04-28-2011 |
20120157803 | ENDOSCOPE SYSTEM AND PROCESSOR APPARATUS THEREOF, AND METHOD FOR GENERATING IMAGES - An image of a portion to be observed is captured while first light beams are applied thereto. Thereby, a first image signal of a first frame is obtained. The first light beams are in a wavelength range in which an absorption coefficient varies in accordance with a change in oxygen saturation of hemoglobin in blood. An image of the portion to be observed is captured while second light beams are applied thereto. Thereby, a second image signal of a second frame is obtained. The second light beams have a broadband wavelength range. Blood volume and oxygen saturation are obtained from the first and second image signals. A blood volume image representing information on the blood volume in pseudo-color and an oxygen saturation image representing information on the oxygen saturation in pseudo-color are generated. The blood volume image is displayed simultaneously with the oxygen saturation image on a display device. | 06-21-2012 |
20120226120 | CARDIAC MONITORING - A device for monitoring a heart includes a lead wire having a first end and a second end, the second end in contact with tissue of the heart; a first sensor disposed along the length of the lead wire; and a second sensor disposed at the second end of the lead wire. The first sensor is configured to measure an oxygen content of blood in the heart and the second sensor is configured to measure a fluid pressure in the heart. The device further includes a control module connected to the first end of the lead wire and configured to receive signals related to the measured fluid pressure and the measured oxygen content from the first and second sensors. | 09-06-2012 |
20130030268 | ENDOSCOPE SYSTEM AND METHOD FOR CONTROLLING THE SAME - In a blood information acquisition mode for obtaining an oxygen saturation level of hemoglobin in a blood vessel, preliminary imaging and main imaging are performed. In the preliminary imaging, a normal internal body part is imaged. A blood information calculation section calculates an oxygen saturation level of each pixel. A changing section corrects standard reference data in accordance with a difference between an average of the oxygen saturation levels obtained in the preliminary imaging and a predetermined standard value of the oxygen saturation level. In the subsequent main imaging, corrected reference data is used to calculate an oxygen saturation level of each pixel corresponding to an internal body part being observed. | 01-31-2013 |
20130150688 | INTRAJUGULAR CATHETER AND METHOD - A catheter for insertion into a vascular system of a patient and for directing fluid flow includes a catheter body having a longitudinal axis and longitudinally spaced proximal and distal catheter ends with an intermediate catheter portion defined therebetween. An intermediate catheter outlet in the catheter body is located in the intermediate catheter portion and is spaced longitudinally from the proximal and distal catheter ends. A first lumen is defined within the catheter body and has longitudinally spaced proximal and distal first lumen ends with a reversing bend located therebetween, the first lumen providing fluid communication between the proximal catheter end and the intermediate catheter outlet. The reversing bend is located longitudinally between the intermediate catheter outlet and the distal catheter end. The reversing bend directs fluid flow to turn approximately 180° as the fluid flows through the first lumen. A method of using the catheter is also described. | 06-13-2013 |
20130184545 | SYSTEM AND METHOD FOR DETECTING PULMONARY CONGESTION BASED ON STROKE VOLUME USING AN IMPLANTABLE MEDICAL DEVICE - Techniques are provided for detecting pulmonary congestion based on an increase in right ventricular (RV) stroke volume over left ventricular (LV) stroke volume. In one example, the device generates an index based on accumulated differences between RV stroke volume and LV stroke volume while RV stroke volume exceeds LV stroke volume, such that the index is indicative of an ongoing imbalance between RV and LV stroke volume. The index is compared to a suitable threshold to detect a severe imbalance indicative of pulmonary edema. Additionally, techniques are described for estimating RV and LV stroke volumes based on pulmonary artery pressure, left atrial pressure, aortic pressure, LV strain or on various intracardiac or extracardiac impedance measurements. | 07-18-2013 |
20140200421 | PHYSIOLOGICAL SENSOR HAVING BIODEGRADABLE OPTICS - Medical sensor assemblies configured to provide enhanced patient comfort when worn over a period of time are provided. The medical sensor assemblies may include sensors in optical communication with one or more biodegradable light guides that facilitate the transmission of light to and from an internal tissue of the patient. The medical sensor assemblies may also include a bandage that facilitates coupling of the light guides to the sensor. Additionally or alternatively, a bandage may be positioned against an internal tissue to specifically direct the emitted light through the tissue. Such embodiments may provide enhanced light transmission between the emitter and detector of the sensors. | 07-17-2014 |
20140213864 | EAR SENSOR - An ear sensor provides physiological parameter monitoring. The ear sensor may comprise an in-ear portion configured to fit in an ear of a user. The in-ear portion may include at least one light emitter configured to emit light into an ear tissue site of the user and at least one light detector configured output a signal responsive to at least a portion of the emitted light after attenuation by ear tissue of the ear tissue site. | 07-31-2014 |
20140336484 | METHODS AND SYSTEMS FOR ENDOBRONCHIAL DIAGNOSTICS - Methods and systems for targeting, accessing and diagnosing diseased lung compartments are disclosed. The method comprises introducing a diagnostic catheter with an occluding member at its distal end into a lung segment via an assisted ventilation device; inflating the occluding member to isolate the lung segment; and performing a diagnostic procedure with the catheter while the patient is ventilated. The proximal end of the diagnostic catheter is configured to be attached to a console. The method may also comprise introducing the diagnostic catheter into the lung segment; inflating the occluding member to isolate the lung segment; and monitoring blood oxygen saturation. The method may further comprise introducing the diagnostic catheter into the lung segment; determining tidal flow volume in the lung segment; determining total lung capacity of the patient; and determining a flow rank value based on the tidal flow volume of the lung segment and the total lung capacity. | 11-13-2014 |
20150073240 | Implantable Real-Time Oximeter To Determine Potential Strokes And Post-Traumatic Brain-Injury Complications - A first embodiment of an oximetry probe is attached around a blood vessel near the site of a likely stroke. That will be useful to monitor large and medium size cerebral arteries. Another type of pulse oximeter can be passed within cerebral blood vessels to monitor the oxygenation status of the surrounding cerebral tissues. In that version, the emitter and detector are coplanar and contained in a small area, e.g., 50-12 μm. | 03-12-2015 |
20150112172 | Compositions and Methods for Measurement of Oxygen Saturation in Blood Filled Structures - Provided herein is technology relating to medical monitoring of physiologic parameters, and particularly, but not exclusively, relating to compositions, methods and systems for the measurement of venous and arterial oxygen saturation in the blood of blood-filled anatomical structures. | 04-23-2015 |
20160029894 | METHODS AND SYSTEM FOR CHARACTERIZING AN OBJECT - Exemplary system, method and computer accessible medium are provided for determining at least one characteristic of a target object located behind or within a medium. For example, it is possible to identify a reference object that is located behind or within the medium. The target object and the reference object can be irradiated via a surface of the medium using at least one electromagnetic wave. At least one acoustic signal provided from an irradiated tissue volume that is responsive to the electromagnetic wave(s) can be measured. Calibration information can be obtained from the acoustic signal measured from the reference object based on at least one known property of the reference object. Then, the characteristic(s) of the target object can be determined based on the calibration information and the acoustic signal from the target object. | 02-04-2016 |