| Patent application number | Description | Published |
|---|
| 20080221470 | RESPIRATORY SENSOR ADAPTERS FOR NASAL DEVICES - Described herein are nasal respiratory devices including an attachment site for a sensors and sensor adapters for securing at least a portion of a sensor to a nasal respiratory device. Sensor adapters typically have a body frame having at least two regions: an attachment region for securing the sensor adapter to the nasal respiratory device; and a sensor connector region for securing a sensor across from an outlet of the nasal respiratory device. | 09-11-2008 |
| 20090050144 | ADHESIVE NASAL RESPIRATORY DEVICES - Whole-nose nasal respiratory devices and methods of making and using whole-nose nasal respiratory devices are described and illustrated herein. These devices are typically configured to be adhesively secured to a subject so that they engage both of the subject's nostrils and allow airflow from both nostrils to communicate with an airflow resistor. The airflow resistor is configured so that it inhibits exhalation through the nostrils more than it inhibits inhalation through the nostrils. | 02-26-2009 |
| 20090112203 | MODIFICATION OF AIRWAYS BY APPLICATION OF MICROWAVE ENERGY - Methods of increasing gas exchange performed by the lung by damaging lung cells, damaging tissue, causing trauma, and/or destroying airway smooth muscle tone with an apparatus inserted into an airway of the lung. The damaging of lung cells, damaging tissue, causing trauma, and destroying airway smooth muscle tone with the apparatus may be any one of or combinations of the following: heating the airway; cooling the airway; delivering a liquid to the airway; delivering a gas to the airway; puncturing the airway; tearing the airway; cutting the airway; applying ultrasound to the airway; and applying ionizing radiation to the airway. | 04-30-2009 |
| 20090145441 | DELAYED RESISTANCE NASAL DEVICES AND METHODS OF USE - Delayed resistance nasal devices include an airflow resistor that is configured to normally have a higher resistance to exhalation than inhalation, but the higher resistance to exhalation may be suspended, or delayed by activation of an airflow resistor bypass. Activation of an airflow resistor bypass bypasses or decreases the effect of the airflow resistor on nasal airflow through the nasal device, decreasing the resistance to exhalation. Methods of decreasing, suspending, or delaying the onset of the inhibition of the exhalation through such nasal respiratory devices are described. | 06-11-2009 |
| 20090145788 | PACKAGING AND DISPENSING NASAL DEVICES - Described herein are packaging systems for nasal devices, and methods of packaging and/or dispensing nasal devices. A packaging system may include one or a plurality of nasal devices removably secured to a support backing, and a dispenser. In some variations an applicator may also be included. Methods of using and methods of assembling packaging systems and dispensers are also described. | 06-11-2009 |
| 20090188493 | NASAL DEVICES - Described herein are adhesive nasal devices. In particular, the adhesive nasal respiratory devices described herein are configured to be worn in communication with a subject's nasal cavity and may include a rim body having a passageway therethrough, an airflow resistor in communication with the passageway of the rim body, and a flexible, adhesive holdfast layer extending outward from the periphery of the rim body. The rim body region may be formed from multiple parts (e.g., a first and a second rim body region), and the airflow resistor may be secured between the parts forming the rim body. Methods of manufacturing and assembling these adhesive nasal devices are also described. | 07-30-2009 |
| 20090318904 | 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. | 12-24-2009 |
| 20100185190 | METHODS FOR TREATING ASTHMA DAMAGING NERVE TISSUE - A method for treating the lung during an acute episode of reversible chronic obstructive pulmonary disease such as an asthma attack. The method comprises transferring energy to an airway wall of an airway such that a diameter of the airway is increased. The energy may be transferred to the airway wall prior to, during or after an asthma attack. The energy may be transferred in an amount sufficient to temporarily or permanently increase the diameter of the airway. The method may be performed while the airway is open, closed or partially closed. | 07-22-2010 |
| 20100204689 | METHOD FOR TREATING AN ASTHMA ATTACK - A method for treating the lung during an acute episode of reversible chronic obstructive pulmonary disease such as an asthma attack. The method comprises transferring energy to an airway wall of an airway such that a diameter of the airway is increased. The energy may be transferred to the airway wall prior to, during or after an asthma attack. The energy may be transferred in an amount sufficient to temporarily or permanently increase the diameter of the airway. The method may be performed while the airway is open, closed or partially closed. | 08-12-2010 |
| 20100326447 | NASAL RESPIRATORY DEVICES FOR POSITIVE END-EXPIRATORY PRESSURE - Described herein are nasal respiratory devices, in particular, nasal respiratory devices configured to achieve positive end-expiratory pressure (PEEP) in a subject wearing the device. PEEP devices may have a threshold pressure for opening during expiration. In some variations, these devices have a threshold pressure for closing during expiration. | 12-30-2010 |
| 20110067709 | NASAL RESPIRATORY DEVICES - Described herein are nasal respiratory devices and methods for treating a variety of medical diseases including snoring and steep apnea through the use of such devices. In general, these devices include an airflow resistor, such as a flap valve and a holdfast for securing the device in communication with the subject's nasal cavity. The devices may be configured to include leak paths to regulate the expiratory pressure when worn by a subject. Methods for using these devices may include securing a device over or at least partially within (or both of) a subject's nasal cavities. | 03-24-2011 |
| 20110079230 | METHOD FOR TREATING AN ASTHMA ATTACK - A method for treating the lung during an acute episode of reversible chronic obstructive pulmonary disease such as an asthma attack. The method comprises transferring energy to an airway wall of an airway such that a diameter of the airway is increased. The energy may be transferred to the airway wall prior to, during or after an asthma attack. The energy may be transferred in an amount sufficient to temporarily or permanently increase the diameter of the airway. The method may be performed while the airway is open, closed or partially closed. | 04-07-2011 |
