| 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 |
| 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 |
| 20090194109 | CPAP INTERFACE AND BACKUP DEVICES - Described herein are combined active PAP/passive EPAP interface devices to transmit positive air pressure from a PAP source to the user, but provide passive EPAP when the PAP source is disabled. These interface device may continue to provide benefit to the user even if the PAP source becomes disconnected or otherwise fails. The interface devices described herein include a passive EPAP airflow resistor configured to provide expiratory positive airway pressure (“EPAP”). These interface devices may also include quick connects and/or disconnects for releasably connecting to the source of pressurized breathable gas, a quick release for disconnecting from the source of pressurized breathable gas, and an adhesive user interface region that connects the device the user's face. Also described are adapter for converting a PAP interface devices into combined active PAP/passive EPAP interface devices, and methods of using these devices. | 08-06-2009 |
| 20090241965 | NASAL DEVICES WITH NOISE-REDUCTION AND METHODS OF USE - Described herein are nose-reduced nasal devices configured to reduce or eliminate the unwanted noises associated with use of a nasal device. These noise-reduced nasal devices include a flap-valve airflow resistor and a noise-reduction feature that is a noise-reduction element, a noise-reduction flap valve, or both. The noise-reduction feature typically prevents the flap valve from oscillating or vibrating and producing an audible sound during use, particularly during inhalation through the device. The method and devices described herein may prevent the flap, and particularly the edge region of the flap face or tip of the flap, from oscillating during inhalation. | 10-01-2009 |
| 20090308398 | ADJUSTABLE RESISTANCE NASAL DEVICES - Described herein are adjustable-resistance respiratory devices, and particularly nasal devices that have an adjustable expiratory resistance while providing a greater resistance to exhalation than to inhalation. The resistance to exhalation may be manually adjustable by a user or remotely adjustable by a third party. For example, described herein are nasal devices having a greater resistance to exhalation than inhalation that includes one or more resistance-modifying members for modifying the resistance of a nasal device. A resistance modifying member may include a cover, a shutter or an adjustable valve for opening/closing a leak pathway through the nasal device. An adjustable-resistance nasal respiratory device may include a control or controls for adjusting the resistance to exhalation. Methods of adjusting the resistance of a nasal device, and systems including nasal devices allowing the resistance to be optimized and/or adjusted are also described. | 12-17-2009 |
| 20110108041 | NASAL DEVICES HAVING A SAFE FAILURE MODE AND REMOTELY ACTIVATABLE - Described herein are devices, methods and systems that regulate the failure of a nasal device by including a pre-determined failure mode, thereby minimizing the risk. Also described herein are nasal respiratory devices that may be remotely activated or inactivated to turn on and off an increased resistance to exhalation compared to inhalation. | 05-12-2011 |
| 20110203598 | NASAL DEVICES INCLUDING LAYERED NASAL DEVICES AND DELAYED RESISTANCE ADAPTERS FOR USE WITH NASAL DEVICES - Described herein are layered nasal devices including layered nasal devices having one or more stiffening members supporting the holdfast region of the nasal device. The stiffening member may be a stress-distributing member or a separate stress-distributing element or member may be included. In some variations the layered nasal device includes a stress distributing element to help prevent wrinkling, de-laminating, buckling, or otherwise disrupting the shape and/or activity of the nasal device. Also described herein are delayed resistance adapters that may be used with a nasal devices that inhibit exhalation more than inhalation (including, but not limited to the adhesive nasal devices described herein). A delayed resistance adapter may be activated to suspend or bypass the increased expiratory resistance of the nasal device. Suspending the increased expiratory resistance may allow the user to allow a user to acclimate to the use of the nasal device. | 08-25-2011 |
