Patent application number | Description | Published |
20090090361 | INHALATION DEVICE - A dry inhaler system includes a vibrating mechanism. A supply of a dry powder is operatively coupled to the vibrating mechanism. A power source communicates with the vibrating mechanism. A sensor communicates with the vibrating mechanism. A feedback control communicates with the sensor and the power source. The feedback control controls power delivered to the vibrating mechanism relative to information provided by the sensor about the performance of the vibrating mechanism. | 04-09-2009 |
20090217925 | METHOD AND APPARATUS FOR DRIVING A TRANSDUCER OF AN INHALATION DEVICE - An inhaler is disclosed wherein medicament in a flat-bottomed container is aerosolized with a vibrator piezoelectric transducer. The transducer is driven by a signal that excites multiple harmonic frequencies to create a complex pattern of oscillations. A circuit for generating the drive signal to the transducer is also disclosed. | 09-03-2009 |
20110000481 | NEBULIZER FOR INFANTS AND RESPIRATORY COMPROMISED PATIENTS - A pediatric nebulizer is described. | 01-06-2011 |
20110000482 | LABORATORY ANIMAL PULMONARY DOSING DEVICE - A laboratory animal pharmaceutical testing device comprising a substantially closed animal holding cell, having a dry powder generator communicating through a wall of the cell, and one or more filtered inlets for permitting exchange of fresh air into the cell. | 01-06-2011 |
20130228175 | INHALATION DEVICE - A dry inhaler system includes a vibrating mechanism. A supply of a dry powder is operatively coupled to the vibrating mechanism. A power source communicates with the vibrating mechanism. A sensor communicates with the vibrating mechanism. A feedback control communicates with the sensor and the power source. The feedback control controls power delivered to the vibrating mechanism relative to information provided by the sensor about the performance of the vibrating mechanism. | 09-05-2013 |
20130255678 | NEBULIZER FOR INFANTS AND RESPIRATORY COMPROMISED PATIENTS - An inhaler for dispensing a pharmaceutical to infants and respiratory compromised patients is disclosed. | 10-03-2013 |
Patent application number | Description | Published |
20080202514 | INHALER - A dry powder inhaler has a vibrator coupled to a blister filled with a dry powder drug substance. One or more of drug ejection apertures in the blister are substantially opposite the vibrator. One or more air intake apertures in the blister are not opposite the vibrator. Upon vibration of the vibrator, the drug substance is deaggregated, aerosolized, and ejected from the drug ejection apertures for inhalation by a patient. | 08-28-2008 |
20100229860 | SYNTHETIC JET BASED MEDICAMENT DELIVERY METHOD AND APPARATUS - A dry powder inhaler consisting of first chamber having an orifice for holding a dry powder and a gas, and a second chamber for receiving a deaggregated form of the dry powder and for communicating the deaggregated dry powder to a user. A synthetic jet drives the dry powder from the first chamber to the second chamber. | 09-16-2010 |
20130291864 | DIRECTIONAL FLOW SENSOR INHALER - An fluid sensor to activate and control various components of an inhalation device. The fluid sensor includes an acoustic element, such as a microphone, positioned within said inhalation device to detect fluid within the device and output signals representative of the frequency, direction and/or amplitude of the fluid. These signals control and activate an electrostatic plate and/or a high frequency vibrator. | 11-07-2013 |
20140261414 | INHALATION DEVICE, CONTROL METHOD AND COMPUTER PROGRAM - The invention provides an inhalation device using an electrically driven vibratory element for releasing a drug dose into a flow channel, and a controller for activating/deactivating the vibratory element. A sensor arrangement is able to differentiate between inhalation flow and exhalation flow through the flow channel, to assist in forming a model of the breathing pattern of the user. The device can detect reliably inhalation flow patterns from patients of all ages. | 09-18-2014 |