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632 results about "Lung tissue" patented technology

The lungs are covered by a thin tissue layer called the pleura. The same kind of thin tissue lines the inside of the chest cavity -- also called pleura. A thin layer of fluid acts as a lubricant allowing the lungs to slip smoothly as they expand and contract with each breath.

Methods and devices for obstructing and aspirating lung tissue segments

Methods, systems, devices and kits for performing lung volume reduction in patients suffering from chronic obstructive pulmonary disease or other conditions using and comprising minimally invasive instruments introduced through the mouth (endotracheally) to isolate a target lung tissue segment from other regions of the lung and reduce lung volume. Isolation is achieved by deploying an obstructive device in a lung passageway leading to the target lung tissue segment. Once the obstructive device is anchored in place, the segment can be aspirated through the device. This may be achieved by a number of methods, including coupling an aspiration catheter to an inlet port on the obstruction device and aspirating through the port. Or, providing the port with a valve which allows outflow of gas from the isolated lung tissue segment during expiration of the respiratory cycle but prevents inflow of air during inspiration. In addition, a number of other methods may be used. The obstructive device may remain as an implant, to maintain isolation and optionally allow subsequent aspiration, or the device maybe removed at any time.
Owner:PULMONX

Devices for maintaining patency of surgically created channels in tissue

Devices and methods for altering gaseous flow within a lung to improve the expiration cycle of an individual, particularly individuals having chronic obstructive pulmonary disease. The methods and devices create channels in lung tissue and maintain the patency of these surgically created channels in tissue. Maintaining the patency of the channels allows air to pass directly out of the lung tissue which facilitates the exchange of oxygen ultimately into the blood and / or decompresses hyper-inflated lungs.
Owner:BRONCUS MEDICAL

Devices for maintaining patency of surgically created channels in tissue

ActiveUS20050056292A1Less traumaMinimize healing response of tissueBronchiCannulasObstructive Pulmonary DiseasesAnesthesia
Devices and methods for altering gaseous flow within a lung to improve the expiration cycle of an individual, particularly individuals having chronic obstructive pulmonary disease. The methods and devices create channels in lung tissue and maintain the patency of these surgically created channels in tissue. Maintaining the patency of the channels allows air to pass directly out of the lung tissue which facilitates the exchange of oxygen ultimately into the blood and / or decompresses hyper-inflated lungs.
Owner:BRONCUS MEDICAL

Guided access to lung tissues

InactiveUS20050288549A1Facilitate spreading apart anatomical featureBronchoscopesLaryngoscopesLung tissueMediastinal space
This invention relates generally to lung access devices and methods of using the devices to gain access to the interior of a lung or to the mediastinal space around the lung. In particular, the invention relates to auxiliary access devices and tools for use with conventional bronchoscopes or other endoscopes to enable the delivery of more and larger devices to a target site than is currently possible through a typical endoscope or bronchoscope.
Owner:EKOS CORP

Methods and devices for use in performing pulmonary procedures

InactiveUS6840243B2Avoid flowRespiratorsStentsSecondary BronchusDisease
Systems, methods and devices for performing pulmonary procedures, and in particular treating lung disease. A flow control element includes a valve that prevents airflow in the inhalation direction but permits airflow in the exhalation direction. The flow control element is guided to and positioned at the site by a bronchoscope that is introduced into the patient's trachea and used to view the lungs during delivery of the flow control element. The valve may include one, two or more valve elements, and it may be collapsible for easier delivery. A source of vacuum or suction may be used to increase the amount of fluid withdrawn from the lung tissue. A device for measuring hollow structures, such as bronchioles, and a device for removing a previously-placed flow control element are disclosed as well.
Owner:FOUNDRY LLC THE

Devices and methods for maintaining collateral channels in tissue

The devices and methods of placement of such devices disclosed herein are directed to altering gaseous flow within a lung to improve the expiration cycle of, for instance, an individual having Chronic Obstructive Pulmonary Disease. More particularly, these devices produce and maintain collateral openings or channels through the airway wall so that oxygen depleted / carbon dioxide rich air is able to pass directly out of the lung tissue to facilitate both the exchange of oxygen ultimately into the blood and / or to decompress hyper-inflated lungs. The medical kits disclosed herein are also directed to produce and maintain collateral openings through airway walls.
Owner:BRONCUS MEDICAL

Medical instruments and techniques for treating pulmonary disorders

ActiveUS20080132826A1Enhance tissue remodelingReducing lung volumeMedical devicesFluid jet surgical cuttersThermal energyDisease
A surgical instrument for delivering energy to lung tissue, for example to cause lung volume reduction. In one embodiment, an elongated catheter has a handle portion that includes an interior chamber that is supplied with a biocompatible liquid media under pressure. An energy source delivers energy to the media to cause a liquid-to-vapor phase change within the interior chamber and ejects a flow of vapor media from the working end of the catheter. The delivery of energy and the flow of vapor are controlled by a computer controller to cause a selected pressure and selected volume of vapor to propagate to the extremities of the airways. Contemporaneously, the vapor undergoes a vapor-to-liquid phase transition which delivers a large amount of energy to airway tissue. The thermal energy delivered is equivalent to the heat of vaporization of the fluid media, which shrinks and collapses the treated airways. The treated tissue is the maintained in a collapsed state by means of aspiration for a short interval to enhance tissue remodeling. Thereafter, the patient's wound healing response causes fibrosis and further remodeling to cause permanent lung volume reduction.
Owner:TSUNAMI MEDTECH

Devices for maintaining patency of surgically created channels in tissue

ActiveUS20060116749A1Increase duration of patencyLess traumaStentsBronchiObstructive Pulmonary DiseasesAnesthesia
Devices and methods for altering gaseous flow within a lung to improve the expiration cycle of an individual, particularly individuals having chronic obstructive pulmonary disease. The methods and devices create channels in lung tissue and maintain the patency of these surgically created channels in tissue. Maintaining the patency of the channels allows air to pass directly out of the lung tissue which facilitates the exchange of oxygen ultimately into the blood and / or decompresses hyper-inflated lungs.
Owner:BRONCUS MEDICAL

Devices for applying energy to tissue

Disclosed herein are devices for altering gaseous flow within a lung to improve the expiration cycle of an individual, particularly individuals having chronic obstructive pulmonary disease (COPD). More particularly, a medical catheter is disclosed to detect the presence of blood vessels and to produce collateral openings or channels through the airway wall so that air is able to pass directly out of the lung tissue to facilitate both the exchange of oxygen ultimately into the blood and / or to decompress hyper-inflated lungs.
Owner:BRONCUS MEDICAL

Device and method for lung treatment

This invention relates to the treatment of a patient's lung, for example, a lung exhibiting chronic obstructive pulmonary disease (COPD) and in particular to methods and devices for affecting lung volume reduction, preferably for achieving acute or immediate lung volume reduction following treatment. The lung volume reduction is effected by delivering a condensable vapor at a temperature above body temperature to the desired regions of the patient's lung to damage tissue therein. Blood flow and air flow to the damaged tissue region is essentially terminated, rendering the target region non-functional. Alternative energy sources may be used to effect the thermal damage to the lung tissue.
Owner:UPTAKE MEDICAL TECH INC

Tissue Phasic Classification Mapping System and Method

A voxel-based technique is provided for performing quantitative imaging and analysis of tissue image data. Serial image data is collected for tissue of interest at different states of the issue. The collected image data may be deformably registered, after which the registered image data is analyzed on a voxel-by-voxel basis, thereby retaining spatial information for the analysis. Various thresholds are applied to the registered tissue data to identify a tissue condition or state, such as classifying chronic obstructive pulmonary disease by disease phenotype in lung tissue, for example.
Owner:RGT UNIV OF MICHIGAN

Methods and devices to accelerate wound healing in thoracic anastomosis applications

InactiveUS20050025816A1Increase expiratory flowOvercome disadvantagesRespiratorsElectrotherapyStapling procedureObstructive Pulmonary Diseases
A long term oxygen therapy system having an oxygen supply directly linked with a patient's lung or lungs may be utilized to more efficiently treat hypoxia caused by chronic obstructive pulmonary disease such as emphysema and chronic bronchitis. The system includes an oxygen source, one or more valves and fluid carrying conduits. The fluid carrying conduits link the oxygen source to diseased sites within the patient's lungs. A collateral ventilation bypass trap system directly linked with a patient's lung or lungs may be utilized to increase the expiratory flow from the diseased lung or lungs, thereby treating another aspect of chronic obstructive pulmonary disease. The system includes a trap, a filter / one-way valve and an air carrying conduit. In various embodiments, the system may be intrathoracic, extrathoracic or a combination thereof. A pulmonary decompression device may also be utilized to remove trapped air in the lung or lungs, thereby reducing the volume of diseased lung tissue. A lung reduction device may passively decompress the lung or lungs. In order for the system to be effective, an airtight seal between the parietal and visceral pleurae is required. Chemical pleurodesis is utilized for creating the seal and various devices and / or drugs, agents and / or compounds may be utilized to accelerate wound healing in thoracic anastomosis applications.
Owner:PORTAERO

Methods and devices for use in performing pulmonary procedures

Systems, methods and devices for performing pulmonary procedures, and in particular treating lung disease. A flow control element includes a valve that prevents airflow in the inhalation direction but permits airflow in the exhalation direction. The flow control element is guided to and positioned at the site by a bronchoscope that is introduced into the patient's trachea and used to view the lungs during delivery of the flow control element. The valve may include one, two or more valve elements, and it may be collapsible for easier delivery. A source of vacuum or suction may be used to increase the amount of fluid withdrawn from the lung tissue. A device for measuring hollow structures, such as bronchioles, and a device for removing a previously-placed flow control element are disclosed as well.
Owner:PULMONX

Lung volume reduction using glue composition

The present invention relates to methods and compositions for sealing localized regions of damaged lung tissue to reduce overall lung volume. The glue compositions provide a glue featuring an adhering moiety coupled to one or more other moieties including, for example, a cross-linkable moiety and / or one other adhering moiety. The methods and compositions of the invention find use, for example, in treating pulmonary conditions, such as emphysema.
Owner:EKOS CORP

Medical instruments and techniques for treating pulmonary disorders

A surgical instrument for delivering energy to lung tissue, for example to cause lung volume reduction. In one embodiment, an elongated catheter has a handle portion that includes an interior chamber that is supplied with a biocompatible liquid media under pressure. An energy source delivers energy to the media to cause a liquid-to-vapor phase change within the interior chamber and ejects a flow of vapor media from the working end of the catheter. The delivery of energy and the flow of vapor are controlled by a computer controller to cause a selected pressure and selected volume of vapor to propagate to the extremities of the airways. Contemporaneously, the vapor undergoes a vapor-to-liquid phase transition which delivers a large amount of energy to airway tissue. The thermal energy delivered is equivalent to the heat of vaporization of the fluid media, which shrinks and collapses the treated airways. The treated tissue is the maintained in a collapsed state by means of aspiration for a short interval to enhance tissue remodeling. Thereafter, the patient's wound healing response causes fibrosis and further remodeling to cause permanent lung volume reduction.
Owner:TSUNAMI MEDTECH

Devices for maintaining patency of surgically created channels in tissue

ActiveUS8002740B2Less traumaMinimize healing response of tissueStentsBronchiObstructive Pulmonary DiseasesOxygen
Devices and methods for altering gaseous flow within a lung to improve the expiration cycle of an individual, particularly individuals having chronic obstructive pulmonary disease. The methods and devices create channels in lung tissue and maintain the patency of these surgically created channels in tissue. Maintaining the patency of the channels allows air to pass directly out of the lung tissue which facilitates the exchange of oxygen ultimately into the blood and / or decompresses hyper-inflated lungs.
Owner:BRONCUS MEDICAL

Devices and methods for maintaining collateral channels in tissue

The devices and methods of placement of such devices disclosed herein are directed to altering gaseous flow within a lung to improve the expiration cycle of, for instance, an individual having Chronic Obstructive Pulmonary Disease. More particularly, these devices produce and maintain collateral openings or channels through the airway wall so that oxygen depleted / carbon dioxide rich air is able to pass directly out of the lung tissue to facilitate both the exchange of oxygen ultimately into the blood and / or to decompress hyper-inflated lungs. The medical kits disclosed herein are also directed to produce and maintain collateral openings through airway walls.
Owner:BRONCUS TECH

Methods, systems, and kits for lung volume reduction

InactiveUS20010056274A1Improve aspirationReduce pressureTracheal tubesBronchoscopesResorption AtelectasisLung tissue
Lung volume reduction is performed in a minimally invasive manner by isolating a lung tissue segment, optionally reducing gas flow obstructions within the segment, and aspirating the segment to cause the segment to at least partially collapse. Further optionally, external pressure may be applied on the segment to assist in complete collapse. Reduction of gas flow obstructions may be achieved in a variety of ways, including over inflation of the lung, introduction of mucolytic or dilation agents, application of vibrational energy, induction of absorption atelectasis, or the like. Optionally, diagnostic procedures on the isolated lung segment may be performed, typically using the same isolation / access catheter.
Owner:PULMONX

Methods and devices for obstructing and aspirating lung tissue segments

The present invention provides improved methods, systems, devices and kits for performing lung volume reduction in patients suffering from chronic obstructive pulmonary disease or other conditions where isolation of a lung segment or reduction of lung volume is desired. The methods are minimally invasive with instruments being introduced through the mouth (endotracheally) and rely on isolating the target lung tissue segment from other regions of the lung. Isolation is achieved by deploying an obstructive device in a lung passageway leading to the target lung tissue segment. Once the obstructive device is anchored in place, the segment can be aspirated through the device. This may be achieved by a number of methods, including coupling an aspiration catheter to an inlet port on the obstruction device and aspirating through the port. Or, providing the port with a valve which allows outflow of gas from the isolated lung tissue segment during expiration of the respiratory cycle but prevents inflow of air during inspiration. In addition, a number of other methods may be used. The obstructive device may remain as an implant, to maintain isolation and optionally allow subsequent aspiration, or the device may be removed at any time.
Owner:PULMONX

Ex vivo human lung/immune system model using tissue engineering for studying microbial pathogens with lung tropism

A method for studying scaffold-based tissue engineering approaches in combination with the use of progenitor or stem cells to generate new lung tissue in an in vitro system. The engineered tissue system of this invention is used to monitor lung and immune system exposure of pathogen and / or toxins. The method involves growing engineered lung / immune tissue from progenitor cells in a bioreactor and then exposing the engineered lung / immune tissue to a pathogen and / or toxin. Once exposed, response of the engineered tissue is monitored to determine the effects of exposure to the immune component of the tissue and to lung component of the tissue. This invention also involves development of mixed engineered tissues including a first fully functional engineered tissue such as lung tissue and a second fully functional engineered tissued such as immune tissue from a single animal donor. The mixed systems can include more than two engineered tissues.
Owner:THE BOARD OF RGT TEXAS UNIV SYST

Multifunctional tip catheter for applying energy to tissue and detecting the presence of blood flow

Disclosed herein are devices for altering gaseous flow within a lung to improve the expiration cycle of an individual, particularly individuals having Chronic Obstructive Pulmonary Disease (COPD). More particularly, devices are disclosed to produce collateral openings or channels through the airway wall so that expired air is able to pass directly out of the lung tissue to facilitate both the exchange of oxygen ultimately into the blood and / or to decompress hyper-inflated lungs.
Owner:BRONCUS MEDICAL

Glue composition for lung volume reduction

The present invention relates to methods and compositions for sealing localized regions of damaged lung tissue to reduce overall lung volume. The glue compositions provide a glue featuring an adhering moiety coupled to one or more other moieties including, for example, a cross-linkable moiety and / or one other adhering moiety. The methods and compositions of the invention find use, for example, in treating pulmonary conditions, such as emphysema.
Owner:EKOS CORP

Nasal adaptation of an oral inhaler device

This invention is for nasal adaptors for oral inhaler devices and methods of adapting an oral inhaler device with a nasal adaptor. The nasal adaptor of the present invention, in assembly with an oral metered dose aerosol inhaler converts an oral inhaler device to nasal delivery. The nasal adaptor in assembly with an oral inhaler device when in operation, simultaneously administers an inhalant to the nasal mucosa and down to the bronchial tree and lungs. In this manner a nasally delivered anti-inflammatory agent would travel down the same route as an allergen would—the nostril, nasal cavity, nasopharynx, trachea, bronchi and lung tissues.
Owner:PUREPHARM

Computer aided diagnostic system incorporating lung segmentation and registration

ActiveUS20100111386A1Change in volume of a noduleImage enhancementImage analysisPulmonary noduleComputer aided diagnostics
A computer aided diagnostic system and automated method diagnose lung cancer through tracking of the growth rate of detected pulmonary nodules over time. The growth rate between first and second chest scans taken at first and second times is determined by segmenting out a nodule from its surrounding lung tissue and calculating the volume of the nodule only after the image data for lung tissue (which also includes image data for a nodule) has been segmented from the chest scans and the segmented lung tissue from the chest scans has been globally and locally aligned to compensate for positional variations in the chest scans as well as variations due to heartbeat and respiration during scanning. Segmentation may be performed using a segmentation technique that utilizes both intensity (color or grayscale) and spatial information, while registration may be performed using a registration technique that registers lung tissue represented in first and second data sets using both a global registration and a local registration to account for changes in a patient's orientation due in part to positional variances and variances due to heartbeat and / or respiration.
Owner:UNIV OF LOUISVILLE RES FOUND INC

Lung reduction system

A pulmonary decompression device may be utilized to remove trapped air in the lung or lungs, thereby reducing the volume of diseased lung tissue. A lung reduction device may passively decompress the lung or lungs. In order for the system to be effective, an airtight seal between the parietal and visceral pleurae is required. Chemical pleurodesis is utilized for creating the seal.
Owner:PORTAERO

Devices for applying energy to tissue

Disclosed herein are devices for altering gaseous flow within a lung to improve the expiration cycle of an individual, particularly individuals having Chronic Obstructive Pulmonary Disease (COPD). More particularly, devices are disclosed to produce collateral openings or channels through the airway wall so that expired air is able to pass directly out of the lung tissue to facilitate both the exchange of oxygen ultimately into the blood and / or to decompress hyper-inflated lungs.
Owner:BRONCUS MEDICAL

Imaging damaged lung tissue

The present invention relates to methods and compositions for targeting damaged lung tissue. Compositions provided feature a targeting moiety coupled to one or more other moieties, including, for example, a cross-linkable moiety, an imaging moiety, and / or one or more other targeting moieties. The methods and compositions of the invention find use, for example, in detecting and treating a pulmonary condition such as emphysema.
Owner:PNEUMRX

Devices for applying energy to tissue

Disclosed herein are devices for altering gaseous flow within a lung to improve the expiration cycle of an individual, particularly individuals having Chronic Obstructive Pulmonary Disease (COPD). More particularly, devices are disclosed to produce collateral openings or channels through the airway wall so that expired air is able to pass directly out of the lung tissue to facilitate both the exchange of oxygen ultimately into the blood and / or to decompress hyper-inflated lungs.
Owner:BRONCUS MEDICAL

Tissue-specific imaging and therapeutic agents targeting proteins expressed on lung endothelial cell surface

Methods of delivering an agent in a tissue-specific manner, particularly lung tissue, by targeting a protein expressed on the endothelial cell surface, are described. The methods can be used for detecting, imaging and / or treating pathologies, as well as for diagnostics.
Owner:SCHNITZER JAN E DR

Lung and lung cancer tissue culture method and method using lung and lung cancer tissue culture method to build lung cancer mouse animal model

ActiveCN106967672AGenetic stabilityGenetic uniformityCell dissociation methodsArtificial cell constructsImmunofluorescent stainLung tissue
The invention discloses a method for culturing normal human lung tissue and a lung cancer tissue organoid in an in-vitro manner. The method includes: acquiring fresh human-derived lung tissue cells, and performing collagen digestion on the fresh human-derived lung tissue cells to obtain single cells; culturing human lung tissue and the lung cancer tissue organoid under in-vitro 3D culture conditions; performing H&E staining to determining the structure and form, and using q-PCR to detect related gene expression; using immunofluorescent staining to authenticate cell sources and detect related protein expression. The invention further discloses a method for building a mouse animal model based on the organoid. The method for culturing the normal human lung tissue and the lung cancer tissue organoid and the method for building the mouse animal model have the advantages that the methods are significant to the building of large-scale and good-consistency human-derived in-situ lung cancer animal models, and a good basis and related application prospect are provided for the fundamental researches of lung cancer.
Owner:WEST CHINA HOSPITAL SICHUAN UNIV
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